import asyncio import copy import math import time from typing import Dict, List, Mapping, Optional, Tuple import bolt11 from loguru import logger from ..core.base import ( DLEQ, Amount, BlindedMessage, BlindedSignature, MeltQuote, Method, MintKeyset, MintQuote, PostMeltQuoteRequest, PostMeltQuoteResponse, PostMintQuoteRequest, Proof, ProofState, SpentState, Unit, ) from ..core.crypto import b_dhke from ..core.crypto.aes import AESCipher from ..core.crypto.keys import ( derive_keyset_id, derive_keyset_id_deprecated, derive_pubkey, random_hash, ) from ..core.crypto.secp import PrivateKey, PublicKey from ..core.db import Connection, Database, get_db_connection from ..core.errors import ( KeysetError, KeysetNotFoundError, LightningError, NotAllowedError, QuoteNotPaidError, TransactionError, ) from ..core.helpers import sum_proofs from ..core.settings import settings from ..core.split import amount_split from ..lightning.base import ( InvoiceResponse, LightningBackend, PaymentQuoteResponse, PaymentStatus, ) from ..mint.crud import LedgerCrudSqlite from .conditions import LedgerSpendingConditions from .verification import LedgerVerification class Ledger(LedgerVerification, LedgerSpendingConditions): backends: Mapping[Method, Mapping[Unit, LightningBackend]] = {} locks: Dict[str, asyncio.Lock] = {} # holds multiprocessing locks proofs_pending_lock: asyncio.Lock = ( asyncio.Lock() ) # holds locks for proofs_pending database keysets: Dict[str, MintKeyset] = {} def __init__( self, db: Database, seed: str, backends: Mapping[Method, Mapping[Unit, LightningBackend]], seed_decryption_key: Optional[str] = None, derivation_path="", crud=LedgerCrudSqlite(), ): assert seed, "seed not set" # decrypt seed if seed_decryption_key is set self.master_key = ( AESCipher(seed_decryption_key).decrypt(seed) if seed_decryption_key else seed ) self.derivation_path = derivation_path self.db = db self.crud = crud self.backends = backends self.pubkey = derive_pubkey(self.master_key) self.spent_proofs: Dict[str, Proof] = {} # ------- KEYS ------- async def activate_keyset( self, *, derivation_path: str, seed: Optional[str] = None, version: Optional[str] = None, autosave=True, ) -> MintKeyset: """Load the keyset for a derivation path if it already exists. If not generate new one and store in the db. Args: derivation_path (_type_): Derivation path from which the keyset is generated. autosave (bool, optional): Store newly-generated keyset if not already in database. Defaults to True. Returns: MintKeyset: Keyset """ assert derivation_path, "derivation path not set" seed = seed or self.master_key tmp_keyset_local = MintKeyset( seed=seed, derivation_path=derivation_path, version=version or settings.version, ) logger.debug( f"Activating keyset for derivation path {derivation_path} with id" f" {tmp_keyset_local.id}." ) # load the keyset from db logger.trace(f"crud: loading keyset for {derivation_path}") tmp_keysets_local: List[MintKeyset] = await self.crud.get_keyset( id=tmp_keyset_local.id, db=self.db ) logger.trace(f"crud: loaded {len(tmp_keysets_local)} keysets") if tmp_keysets_local: # we have a keyset with this derivation path in the database keyset = tmp_keysets_local[0] else: # no keyset for this derivation path yet # we create a new keyset (keys will be generated at instantiation) keyset = MintKeyset( seed=seed or self.master_key, derivation_path=derivation_path, version=version or settings.version, ) logger.debug(f"Generated new keyset {keyset.id}.") if autosave: logger.debug(f"crud: storing new keyset {keyset.id}.") await self.crud.store_keyset(keyset=keyset, db=self.db) logger.trace(f"crud: stored new keyset {keyset.id}.") # activate this keyset keyset.active = True # load the new keyset in self.keysets self.keysets[keyset.id] = keyset # BEGIN BACKWARDS COMPATIBILITY < 0.15.0 # set the deprecated id assert keyset.public_keys keyset.duplicate_keyset_id = derive_keyset_id_deprecated(keyset.public_keys) # END BACKWARDS COMPATIBILITY < 0.15.0 logger.debug(f"Loaded keyset {keyset.id}") return keyset async def init_keysets(self, autosave=True) -> None: """Initializes all keysets of the mint from the db. Loads all past keysets from db and generate their keys. Then activate the current keyset set by self.derivation_path. Args: autosave (bool, optional): Whether the current keyset should be saved if it is not in the database yet. Will be passed to `self.activate_keyset` where it is generated from `self.derivation_path`. Defaults to True. """ # load all past keysets from db, the keys will be generated at instantiation tmp_keysets: List[MintKeyset] = await self.crud.get_keyset(db=self.db) # add keysets from db to memory for k in tmp_keysets: self.keysets[k.id] = k # activate the current keyset set by self.derivation_path if self.derivation_path: self.keyset = await self.activate_keyset( derivation_path=self.derivation_path, autosave=autosave ) logger.info(f"Current keyset: {self.keyset.id}") logger.info( f"Loaded {len(self.keysets)} keysets:" f" {[f'{k} ({v.unit.name})' for k, v in self.keysets.items()]}" ) # check that we have a least one active keyset assert any([k.active for k in self.keysets.values()]), "No active keyset found." # BEGIN BACKWARDS COMPATIBILITY < 0.15.0 # we duplicate new keysets and compute their old keyset id, and # we duplicate old keysets and compute their new keyset id for _, keyset in copy.copy(self.keysets).items(): keyset_copy = copy.copy(keyset) assert keyset_copy.public_keys if keyset.version_tuple >= (0, 15): keyset_copy.id = derive_keyset_id_deprecated(keyset_copy.public_keys) else: keyset_copy.id = derive_keyset_id(keyset_copy.public_keys) keyset_copy.duplicate_keyset_id = keyset.id self.keysets[keyset_copy.id] = keyset_copy # remember which keyset this keyset was duplicated from logger.debug(f"Duplicated keyset id {keyset.id} -> {keyset_copy.id}") # END BACKWARDS COMPATIBILITY < 0.15.0 def get_keyset(self, keyset_id: Optional[str] = None) -> Dict[int, str]: """Returns a dictionary of hex public keys of a specific keyset for each supported amount""" if keyset_id and keyset_id not in self.keysets: raise KeysetNotFoundError() keyset = self.keysets[keyset_id] if keyset_id else self.keyset assert keyset.public_keys, KeysetError("no public keys for this keyset") return {a: p.serialize().hex() for a, p in keyset.public_keys.items()} async def get_balance(self) -> int: """Returns the balance of the mint.""" return await self.crud.get_balance(db=self.db) # ------- ECASH ------- async def _invalidate_proofs( self, proofs: List[Proof], conn: Optional[Connection] = None ) -> None: """Adds proofs to the set of spent proofs and stores them in the db. Args: proofs (List[Proof]): Proofs to add to known secret table. conn: (Optional[Connection], optional): Database connection to reuse. Will create a new one if not given. Defaults to None. """ self.spent_proofs.update({p.secret: p for p in proofs}) async with get_db_connection(self.db, conn) as conn: # store in db for p in proofs: await self.crud.invalidate_proof(proof=p, db=self.db, conn=conn) async def _generate_change_promises( self, input_amount: int, output_amount: int, output_fee_paid: int, outputs: Optional[List[BlindedMessage]], keyset: Optional[MintKeyset] = None, ) -> List[BlindedSignature]: """Generates a set of new promises (blinded signatures) from a set of blank outputs (outputs with no or ignored amount) by looking at the difference between the Lightning fee reserve provided by the wallet and the actual Lightning fee paid by the mint. If there is a positive difference, produces maximum `n_return_outputs` new outputs with values close or equal to the fee difference. If the given number of `outputs` matches the equation defined in NUT-08, we can be sure to return the overpaid fee perfectly. Otherwise, a smaller amount will be returned. Args: input_amount (int): Amount of the proofs provided by the client. output_amount (int): Amount of the melt request to be paid. output_fee_paid (int): Actually paid melt network fees. outputs (Optional[List[BlindedMessage]]): Outputs to sign for returning the overpaid fees. Raises: Exception: Output validation failed. Returns: List[BlindedSignature]: Signatures on the outputs. """ # we make sure that the fee is positive user_fee_paid = input_amount - output_amount overpaid_fee = user_fee_paid - output_fee_paid logger.debug( f"Lightning fee was: {output_fee_paid}. User paid: {user_fee_paid}. " f"Returning difference: {overpaid_fee}." ) if overpaid_fee > 0 and outputs is not None: return_amounts = amount_split(overpaid_fee) # We return at most as many outputs as were provided or as many as are # required to pay back the overpaid fee. n_return_outputs = min(len(outputs), len(return_amounts)) # we only need as many outputs as we have change to return outputs = outputs[:n_return_outputs] # we sort the return_amounts in descending order so we only # take the largest values in the next step return_amounts_sorted = sorted(return_amounts, reverse=True) # we need to imprint these amounts into the blanket outputs for i in range(len(outputs)): outputs[i].amount = return_amounts_sorted[i] # type: ignore if not self._verify_no_duplicate_outputs(outputs): raise TransactionError("duplicate promises.") return_promises = await self._generate_promises(outputs, keyset) return return_promises else: return [] # ------- TRANSACTIONS ------- async def mint_quote(self, quote_request: PostMintQuoteRequest) -> MintQuote: """Creates a mint quote and stores it in the database. Args: quote_request (PostMintQuoteRequest): Mint quote request. Raises: Exception: Quote creation failed. Returns: MintQuote: Mint quote object. """ logger.trace("called request_mint") assert quote_request.amount > 0, "amount must be positive" if settings.mint_max_peg_in and quote_request.amount > settings.mint_max_peg_in: raise NotAllowedError( f"Maximum mint amount is {settings.mint_max_peg_in} sat." ) if settings.mint_peg_out_only: raise NotAllowedError("Mint does not allow minting new tokens.") unit = Unit[quote_request.unit] method = Method.bolt11 if settings.mint_max_balance: balance = await self.get_balance() if balance + quote_request.amount > settings.mint_max_balance: raise NotAllowedError("Mint has reached maximum balance.") logger.trace(f"requesting invoice for {unit.str(quote_request.amount)}") invoice_response: InvoiceResponse = await self.backends[method][ unit ].create_invoice(Amount(unit=unit, amount=quote_request.amount)) logger.trace( f"got invoice {invoice_response.payment_request} with checking id" f" {invoice_response.checking_id}" ) assert ( invoice_response.payment_request and invoice_response.checking_id ), LightningError("could not fetch bolt11 payment request from backend") # get invoice expiry time invoice_obj = bolt11.decode(invoice_response.payment_request) quote = MintQuote( quote=random_hash(), method=method.name, request=invoice_response.payment_request, checking_id=invoice_response.checking_id, unit=quote_request.unit, amount=quote_request.amount, issued=False, paid=False, created_time=int(time.time()), expiry=invoice_obj.expiry or 0, ) await self.crud.store_mint_quote( quote=quote, db=self.db, ) return quote async def get_mint_quote(self, quote_id: str) -> MintQuote: """Returns a mint quote. If the quote is not paid, checks with the backend if the associated request is paid. Args: quote_id (str): ID of the mint quote. Raises: Exception: Quote not found. Returns: MintQuote: Mint quote object. """ quote = await self.crud.get_mint_quote(quote_id=quote_id, db=self.db) assert quote, "quote not found" assert quote.method == Method.bolt11.name, "only bolt11 supported" unit = Unit[quote.unit] method = Method[quote.method] if not quote.paid: logger.trace(f"Lightning: checking invoice {quote.checking_id}") status: PaymentStatus = await self.backends[method][ unit ].get_invoice_status(quote.checking_id) if status.paid: logger.trace(f"Setting quote {quote_id} as paid") quote.paid = True quote.paid_time = int(time.time()) await self.crud.update_mint_quote(quote=quote, db=self.db) return quote async def mint( self, *, outputs: List[BlindedMessage], quote_id: str, ) -> List[BlindedSignature]: """Mints new coins if quote with `quote_id` was paid. Ingest blind messages `outputs` and returns blind signatures `promises`. Args: outputs (List[BlindedMessage]): Outputs (blinded messages) to sign. quote_id (str): Mint quote id. keyset (Optional[MintKeyset], optional): Keyset to use. If not provided, uses active keyset. Defaults to None. Raises: Exception: Validation of outputs failed. Exception: Quote not paid. Exception: Quote already issued. Exception: Quote expired. Exception: Amount to mint does not match quote amount. Returns: List[BlindedSignature]: Signatures on the outputs. """ logger.trace("called mint") await self._verify_outputs(outputs) sum_amount_outputs = sum([b.amount for b in outputs]) self.locks[quote_id] = ( self.locks.get(quote_id) or asyncio.Lock() ) # create a new lock if it doesn't exist async with self.locks[quote_id]: quote = await self.get_mint_quote(quote_id=quote_id) assert quote.paid, QuoteNotPaidError() assert not quote.issued, "quote already issued" assert ( quote.amount == sum_amount_outputs ), "amount to mint does not match quote amount" if quote.expiry: assert quote.expiry > int(time.time()), "quote expired" promises = await self._generate_promises(outputs) logger.trace("generated promises") logger.trace(f"crud: setting quote {quote_id} as issued") quote.issued = True await self.crud.update_mint_quote(quote=quote, db=self.db) del self.locks[quote_id] return promises async def melt_quote( self, melt_quote: PostMeltQuoteRequest ) -> PostMeltQuoteResponse: """Creates a melt quote and stores it in the database. Args: melt_quote (PostMeltQuoteRequest): Melt quote request. Raises: Exception: Quote invalid. Exception: Quote already paid. Exception: Quote already issued. Returns: PostMeltQuoteResponse: Melt quote response. """ unit = Unit[melt_quote.unit] method = Method.bolt11 invoice_obj = bolt11.decode(melt_quote.request) assert invoice_obj.amount_msat, "invoice has no amount." # check if there is a mint quote with the same payment request # so that we can handle the transaction internally without lightning # and respond with zero fees mint_quote = await self.crud.get_mint_quote_by_checking_id( checking_id=invoice_obj.payment_hash, db=self.db ) if mint_quote: # internal transaction, validate and return amount from # associated mint quote and demand zero fees assert ( Amount(unit, mint_quote.amount).to(Unit.msat).amount == invoice_obj.amount_msat ), "amounts do not match" assert ( melt_quote.request == mint_quote.request ), "bolt11 requests do not match" assert mint_quote.unit == melt_quote.unit, "units do not match" assert mint_quote.method == method.name, "methods do not match" assert not mint_quote.paid, "mint quote already paid" assert not mint_quote.issued, "mint quote already issued" payment_quote = PaymentQuoteResponse( checking_id=mint_quote.checking_id, amount=Amount(unit, mint_quote.amount), fee=Amount(unit=Unit.msat, amount=0), ) logger.info( f"Issuing internal melt quote: {melt_quote.request} ->" f" {mint_quote.quote} ({mint_quote.amount} {mint_quote.unit})" ) else: # not internal, get quote by backend payment_quote = await self.backends[method][unit].get_payment_quote( melt_quote.request ) quote = MeltQuote( quote=random_hash(), method=method.name, request=melt_quote.request, checking_id=payment_quote.checking_id, unit=melt_quote.unit, amount=payment_quote.amount.to(unit).amount, paid=False, fee_reserve=payment_quote.fee.to(unit).amount, created_time=int(time.time()), ) await self.crud.store_melt_quote(quote=quote, db=self.db) return PostMeltQuoteResponse( quote=quote.quote, amount=quote.amount, fee_reserve=quote.fee_reserve, paid=quote.paid, ) async def get_melt_quote(self, quote_id: str) -> MeltQuote: """Returns a melt quote. If melt quote is not paid yet, checks with the backend for the state of the payment request. If the quote has been paid, updates the melt quote in the database. Args: quote_id (str): ID of the melt quote. Raises: Exception: Quote not found. Returns: MeltQuote: Melt quote object. """ melt_quote = await self.crud.get_melt_quote(quote_id=quote_id, db=self.db) assert melt_quote, "quote not found" assert melt_quote.method == Method.bolt11.name, "only bolt11 supported" unit = Unit[melt_quote.unit] method = Method[melt_quote.method] # we only check the state with the backend if there is no associated internal # mint quote for this melt quote mint_quote = await self.crud.get_mint_quote_by_checking_id( checking_id=melt_quote.checking_id, db=self.db ) if not melt_quote.paid and not mint_quote: logger.trace( "Lightning: checking outgoing Lightning payment" f" {melt_quote.checking_id}" ) status: PaymentStatus = await self.backends[method][ unit ].get_payment_status(melt_quote.checking_id) if status.paid: logger.trace(f"Setting quote {quote_id} as paid") melt_quote.paid = True if status.fee: melt_quote.fee_paid = status.fee.to(unit).amount if status.preimage: melt_quote.proof = status.preimage melt_quote.paid_time = int(time.time()) await self.crud.update_melt_quote(quote=melt_quote, db=self.db) return melt_quote async def melt_mint_settle_internally(self, melt_quote: MeltQuote) -> MeltQuote: """Settles a melt quote internally if there is a mint quote with the same payment request. Args: melt_quote (MeltQuote): Melt quote to settle. Raises: Exception: Melt quote already paid. Exception: Melt quote already issued. Returns: MeltQuote: Settled melt quote. """ # first we check if there is a mint quote with the same payment request # so that we can handle the transaction internally without the backend mint_quote = await self.crud.get_mint_quote_by_checking_id( checking_id=melt_quote.checking_id, db=self.db ) if not mint_quote: return melt_quote # we settle the transaction internally assert not melt_quote.paid, "melt quote already paid" # verify amounts from bolt11 invoice bolt11_request = melt_quote.request invoice_obj = bolt11.decode(bolt11_request) assert invoice_obj.amount_msat, "invoice has no amount." invoice_amount_sat = math.ceil(invoice_obj.amount_msat / 1000) assert ( Amount(Unit[melt_quote.unit], mint_quote.amount).to(Unit.sat).amount == invoice_amount_sat ), "amounts do not match" assert bolt11_request == mint_quote.request, "bolt11 requests do not match" assert mint_quote.unit == melt_quote.unit, "units do not match" assert mint_quote.method == melt_quote.method, "methods do not match" assert not mint_quote.paid, "mint quote already paid" assert not mint_quote.issued, "mint quote already issued" logger.info( f"Settling bolt11 payment internally: {melt_quote.quote} ->" f" {mint_quote.quote} ({melt_quote.amount} {melt_quote.unit})" ) # we handle this transaction internally melt_quote.fee_paid = 0 melt_quote.paid = True melt_quote.paid_time = int(time.time()) await self.crud.update_melt_quote(quote=melt_quote, db=self.db) mint_quote.paid = True mint_quote.paid_time = melt_quote.paid_time await self.crud.update_mint_quote(quote=mint_quote, db=self.db) return melt_quote async def melt( self, *, proofs: List[Proof], quote: str, outputs: Optional[List[BlindedMessage]] = None, ) -> Tuple[str, List[BlindedSignature]]: """Invalidates proofs and pays a Lightning invoice. Args: proofs (List[Proof]): Proofs provided for paying the Lightning invoice quote (str): ID of the melt quote. outputs (Optional[List[BlindedMessage]]): Blank outputs for returning overpaid fees to the wallet. Raises: e: Lightning payment unsuccessful Returns: Tuple[str, List[BlindedMessage]]: Proof of payment and signed outputs for returning overpaid fees to wallet. """ # get melt quote and settle transaction internally if possible melt_quote = await self.get_melt_quote(quote_id=quote) method = Method[melt_quote.method] unit = Unit[melt_quote.unit] assert not melt_quote.paid, "melt quote already paid" # make sure that the outputs (for fee return) are in the same unit as the quote if outputs: await self._verify_outputs(outputs, skip_amount_check=True) assert outputs[0].id, "output id not set" outputs_unit = self.keysets[outputs[0].id].unit assert melt_quote.unit == outputs_unit.name, ( f"output unit {outputs_unit.name} does not match quote unit" f" {melt_quote.unit}" ) # verify that the amount of the input proofs is equal to the amount of the quote total_provided = sum_proofs(proofs) total_needed = melt_quote.amount + (melt_quote.fee_reserve or 0) assert total_provided >= total_needed, ( f"not enough inputs provided for melt. Provided: {total_provided}, needed:" f" {total_needed}" ) # verify that the amount of the proofs is not larger than the maximum allowed if settings.mint_max_peg_out and total_provided > settings.mint_max_peg_out: raise NotAllowedError( f"Maximum melt amount is {settings.mint_max_peg_out} sat." ) # verify inputs and their spending conditions await self.verify_inputs_and_outputs(proofs=proofs) # set proofs to pending to avoid race conditions await self._set_proofs_pending(proofs) try: melt_quote = await self.melt_mint_settle_internally(melt_quote) # quote not paid yet (not internal), pay it with the backend if not melt_quote.paid: logger.debug(f"Lightning: pay invoice {melt_quote.request}") payment = await self.backends[method][unit].pay_invoice( melt_quote, melt_quote.fee_reserve * 1000 ) logger.debug( f"Melt status: {payment.ok}: preimage: {payment.preimage}," f" fee: {payment.fee.str() if payment.fee else 0}" ) if not payment.ok: raise LightningError("Lightning payment unsuccessful.") if payment.fee: melt_quote.fee_paid = payment.fee.to( to_unit=unit, round="up" ).amount if payment.preimage: melt_quote.proof = payment.preimage # set quote as paid melt_quote.paid = True melt_quote.paid_time = int(time.time()) await self.crud.update_melt_quote(quote=melt_quote, db=self.db) # melt successful, invalidate proofs await self._invalidate_proofs(proofs) # prepare change to compensate wallet for overpaid fees return_promises: List[BlindedSignature] = [] if outputs: assert outputs[0].id, "output id not set" return_promises = await self._generate_change_promises( input_amount=total_provided, output_amount=melt_quote.amount, output_fee_paid=melt_quote.fee_paid, outputs=outputs, keyset=self.keysets[outputs[0].id], ) except Exception as e: logger.trace(f"Melt exception: {e}") raise e finally: # delete proofs from pending list await self._unset_proofs_pending(proofs) return melt_quote.proof or "", return_promises async def split( self, *, proofs: List[Proof], outputs: List[BlindedMessage], keyset: Optional[MintKeyset] = None, ): """Consumes proofs and prepares new promises based on the amount split. Used for splitting tokens Before sending or for redeeming tokens for new ones that have been received by another wallet. Args: proofs (List[Proof]): Proofs to be invalidated for the split. outputs (List[BlindedMessage]): New outputs that should be signed in return. keyset (Optional[MintKeyset], optional): Keyset to use. Uses default keyset if not given. Defaults to None. Raises: Exception: Validation of proofs or outputs failed Returns: Tuple[List[BlindSignature],List[BlindSignature]]: Promises on both sides of the split. """ logger.trace("split called") await self._set_proofs_pending(proofs) try: # explicitly check that amount of inputs is equal to amount of outputs # note: we check this again in verify_inputs_and_outputs but only if any # outputs are provided at all. To make sure of that before calling # verify_inputs_and_outputs, we check it here. self._verify_equation_balanced(proofs, outputs) # verify spending inputs, outputs, and spending conditions await self.verify_inputs_and_outputs(proofs=proofs, outputs=outputs) # Mark proofs as used and prepare new promises async with get_db_connection(self.db) as conn: # we do this in a single db transaction promises = await self._generate_promises(outputs, keyset, conn) await self._invalidate_proofs(proofs, conn) except Exception as e: logger.trace(f"split failed: {e}") raise e finally: # delete proofs from pending list await self._unset_proofs_pending(proofs) logger.trace("split successful") return promises async def restore( self, outputs: List[BlindedMessage] ) -> Tuple[List[BlindedMessage], List[BlindedSignature]]: promises: List[BlindedSignature] = [] return_outputs: List[BlindedMessage] = [] async with self.db.connect() as conn: for output in outputs: logger.trace(f"looking for promise: {output}") promise = await self.crud.get_promise( B_=output.B_, db=self.db, conn=conn ) if promise is not None: # BEGIN backwards compatibility mints pre `m007_proofs_and_promises_store_id` # add keyset id to promise if not present only if the current keyset # is the only one ever used if not promise.id and len(self.keysets) == 1: promise.id = self.keyset.id # END backwards compatibility promises.append(promise) return_outputs.append(output) logger.trace(f"promise found: {promise}") return return_outputs, promises # ------- BLIND SIGNATURES ------- async def _generate_promises( self, outputs: List[BlindedMessage], keyset: Optional[MintKeyset] = None, conn: Optional[Connection] = None, ) -> list[BlindedSignature]: """Generates a promises (Blind signatures) for given amount and returns a pair (amount, C'). Important: When a promises is once created it should be considered issued to the user since the user will always be able to restore promises later through the backup restore endpoint. That means that additional checks in the code that might decide not to return these promises should be avoided once this function is called. Only call this function if the transaction is fully validated! Args: B_s (List[BlindedMessage]): Blinded secret (point on curve) keyset (Optional[MintKeyset], optional): Which keyset to use. Private keys will be taken from this keyset. If not given will use the keyset of the first output. Defaults to None. conn: (Optional[Connection], optional): Database connection to reuse. Will create a new one if not given. Defaults to None. Returns: list[BlindedSignature]: Generated BlindedSignatures. """ promises: List[ Tuple[str, PublicKey, int, PublicKey, PrivateKey, PrivateKey] ] = [] for output in outputs: B_ = PublicKey(bytes.fromhex(output.B_), raw=True) assert output.id, "output id not set" keyset = keyset or self.keysets[output.id] assert output.id in self.keysets, f"keyset {output.id} not found" assert output.id in [ keyset.id, keyset.duplicate_keyset_id, ], "keyset id does not match output id" assert keyset.active, "keyset is not active" keyset_id = output.id logger.trace(f"Generating promise with keyset {keyset_id}.") private_key_amount = keyset.private_keys[output.amount] C_, e, s = b_dhke.step2_bob(B_, private_key_amount) promises.append((keyset_id, B_, output.amount, C_, e, s)) keyset = keyset or self.keyset signatures = [] async with get_db_connection(self.db, conn) as conn: for promise in promises: keyset_id, B_, amount, C_, e, s = promise logger.trace(f"crud: _generate_promise storing promise for {amount}") await self.crud.store_promise( amount=amount, id=keyset_id, B_=B_.serialize().hex(), C_=C_.serialize().hex(), e=e.serialize(), s=s.serialize(), db=self.db, conn=conn, ) logger.trace(f"crud: _generate_promise stored promise for {amount}") signature = BlindedSignature( id=keyset_id, amount=amount, C_=C_.serialize().hex(), dleq=DLEQ(e=e.serialize(), s=s.serialize()), ) signatures.append(signature) return signatures # ------- PROOFS ------- async def load_used_proofs(self) -> None: """Load all used proofs from database.""" assert settings.mint_cache_secrets, "MINT_CACHE_SECRETS must be set to TRUE" logger.debug("Loading used proofs into memory") spent_proofs_list = await self.crud.get_spent_proofs(db=self.db) or [] logger.debug(f"Loaded {len(spent_proofs_list)} used proofs") self.spent_proofs = {p.secret: p for p in spent_proofs_list} async def check_proofs_state(self, secrets: List[str]) -> List[ProofState]: """Checks if provided proofs are spend or are pending. Used by wallets to check if their proofs have been redeemed by a receiver or they are still in-flight in a transaction. Returns two lists that are in the same order as the provided proofs. Wallet must match the list to the proofs they have provided in order to figure out which proof is spendable or pending and which isn't. Args: proofs (List[Proof]): List of proofs to check. Returns: List[bool]: List of which proof is still spendable (True if still spendable, else False) List[bool]: List of which proof are pending (True if pending, else False) """ states: List[ProofState] = [] proofs_spent = await self._get_proofs_spent(secrets) proofs_pending = await self._get_proofs_pending(secrets) for secret in secrets: if secret not in proofs_spent and secret not in proofs_pending: states.append(ProofState(secret=secret, state=SpentState.unspent)) elif secret not in proofs_spent and secret in proofs_pending: states.append(ProofState(secret=secret, state=SpentState.pending)) else: states.append( ProofState( secret=secret, state=SpentState.spent, witness=proofs_spent[secret].witness, ) ) return states async def _set_proofs_pending(self, proofs: List[Proof]) -> None: """If none of the proofs is in the pending table (_validate_proofs_pending), adds proofs to the list of pending proofs or removes them. Used as a mutex for proofs. Args: proofs (List[Proof]): Proofs to add to pending table. Raises: Exception: At least one proof already in pending table. """ # first we check whether these proofs are pending already async with self.proofs_pending_lock: async with self.db.connect() as conn: await self._validate_proofs_pending(proofs, conn) for p in proofs: try: await self.crud.set_proof_pending( proof=p, db=self.db, conn=conn ) except Exception: raise TransactionError("proofs already pending.") async def _unset_proofs_pending(self, proofs: List[Proof]) -> None: """Deletes proofs from pending table. Args: proofs (List[Proof]): Proofs to delete. """ async with self.proofs_pending_lock: async with self.db.connect() as conn: for p in proofs: await self.crud.unset_proof_pending(proof=p, db=self.db, conn=conn) async def _validate_proofs_pending( self, proofs: List[Proof], conn: Optional[Connection] = None ) -> None: """Checks if any of the provided proofs is in the pending proofs table. Args: proofs (List[Proof]): Proofs to check. Raises: Exception: At least one of the proofs is in the pending table. """ proofs_pending = await self.crud.get_proofs_pending(db=self.db, conn=conn) for p in proofs: for pp in proofs_pending: if p.secret == pp.secret: raise TransactionError("proofs are pending.")