import hashlib
import os
import secrets
import struct
import time
from datetime import datetime, timedelta
import grpc
import ring
from decouple import config
from django.utils import timezone
from . import hold_pb2, hold_pb2_grpc, node_pb2, node_pb2_grpc
from . import primitives_pb2 as primitives__pb2
#######
# Works with CLN
#######
# Load the client's certificate and key
CLN_DIR = config("CLN_DIR", cast=str, default="/cln/testnet/")
with open(os.path.join(CLN_DIR, "client.pem"), "rb") as f:
client_cert = f.read()
with open(os.path.join(CLN_DIR, "client-key.pem"), "rb") as f:
client_key = f.read()
# Load the server's certificate
with open(os.path.join(CLN_DIR, "server.pem"), "rb") as f:
server_cert = f.read()
CLN_GRPC_HOST = config("CLN_GRPC_HOST", cast=str, default="localhost:9999")
CLN_GRPC_HOLD_HOST = config("CLN_GRPC_HOLD_HOST", cast=str, default="localhost:9998")
DISABLE_ONCHAIN = config("DISABLE_ONCHAIN", cast=bool, default=True)
MAX_SWAP_AMOUNT = config("MAX_SWAP_AMOUNT", cast=int, default=500000)
class CLNNode:
os.environ["GRPC_SSL_CIPHER_SUITES"] = "HIGH+ECDSA"
# Create the SSL credentials object
creds = grpc.ssl_channel_credentials(
root_certificates=server_cert,
private_key=client_key,
certificate_chain=client_cert,
)
# Create the gRPC channel using the SSL credentials
hold_channel = grpc.secure_channel(CLN_GRPC_HOLD_HOST, creds)
node_channel = grpc.secure_channel(CLN_GRPC_HOST, creds)
# Create the gRPC stub
hstub = hold_pb2_grpc.HoldStub(hold_channel)
nstub = node_pb2_grpc.NodeStub(node_channel)
payment_failure_context = {
-1: "Catchall nonspecific error.",
201: "Already paid with this hash using different amount or destination.",
203: "Permanent failure at destination.",
205: "Unable to find a route.",
206: "Route too expensive.",
207: "Invoice expired.",
210: "Payment timed out without a payment in progress.",
}
@classmethod
def get_version(cls):
try:
nstub = node_pb2_grpc.NodeStub(cls.node_channel)
request = node_pb2.GetinfoRequest()
response = nstub.Getinfo(request)
return response.version
except Exception as e:
print(f"Cannot get CLN version: {e}")
return None
@classmethod
def decode_payreq(cls, invoice):
"""Decodes a lightning payment request (invoice)"""
request = hold_pb2.DecodeBolt11Request(bolt11=invoice)
response = cls.hstub.DecodeBolt11(request)
return response
@classmethod
def estimate_fee(cls, amount_sats, target_conf=2, min_confs=1):
"""Returns estimated fee for onchain payouts"""
# feerate estimaes work a bit differently in cln see https://lightning.readthedocs.io/lightning-feerates.7.html
request = node_pb2.FeeratesRequest(style="PERKB")
response = cls.nstub.Feerates(request)
# "opening" -> ~12 block target
return {
"mining_fee_sats": response.onchain_fee_estimates.opening_channel_satoshis,
"mining_fee_rate": response.perkb.opening / 1000,
}
wallet_balance_cache = {}
@ring.dict(wallet_balance_cache, expire=10) # keeps in cache for 10 seconds
@classmethod
def wallet_balance(cls):
"""Returns onchain balance"""
request = node_pb2.ListfundsRequest()
response = cls.nstub.ListFunds(request)
unconfirmed_balance = 0
confirmed_balance = 0
total_balance = 0
for utxo in response.outputs:
if not utxo.reserved:
if (
utxo.status
== node_pb2.ListfundsOutputs.ListfundsOutputsStatus.UNCONFIRMED
):
unconfirmed_balance += utxo.amount_msat.msat // 1_000
total_balance += utxo.amount_msat.msat // 1_000
elif (
utxo.status
== node_pb2.ListfundsOutputs.ListfundsOutputsStatus.CONFIRMED
):
confirmed_balance += utxo.amount_msat.msat // 1_000
total_balance += utxo.amount_msat.msat // 1_000
return {
"total_balance": total_balance,
"confirmed_balance": confirmed_balance,
"unconfirmed_balance": unconfirmed_balance,
}
channel_balance_cache = {}
@ring.dict(channel_balance_cache, expire=10) # keeps in cache for 10 seconds
@classmethod
def channel_balance(cls):
"""Returns channels balance"""
request = node_pb2.ListpeerchannelsRequest()
response = cls.nstub.ListPeerChannels(request)
local_balance_sat = 0
remote_balance_sat = 0
unsettled_local_balance = 0
unsettled_remote_balance = 0
for channel in response.channels:
if (
channel.state
== node_pb2.ListpeerchannelsChannels.ListpeerchannelsChannelsState.CHANNELD_NORMAL
):
local_balance_sat += channel.to_us_msat.msat // 1_000
remote_balance_sat += (
channel.total_msat.msat - channel.to_us_msat.msat
) // 1_000
for htlc in channel.htlcs:
if (
htlc.direction
== node_pb2.ListpeerchannelsChannelsHtlcs.ListpeerchannelsChannelsHtlcsDirection.IN
):
unsettled_local_balance += htlc.amount_msat.msat // 1_000
elif (
htlc.direction
== node_pb2.ListpeerchannelsChannelsHtlcs.ListpeerchannelsChannelsHtlcsDirection.OUT
):
unsettled_remote_balance += htlc.amount_msat.msat // 1_000
return {
"local_balance": local_balance_sat,
"remote_balance": remote_balance_sat,
"unsettled_local_balance": unsettled_local_balance,
"unsettled_remote_balance": unsettled_remote_balance,
}
@classmethod
def pay_onchain(cls, onchainpayment, queue_code=5, on_mempool_code=2):
"""Send onchain transaction for buyer payouts"""
if DISABLE_ONCHAIN or onchainpayment.sent_satoshis > MAX_SWAP_AMOUNT:
return False
request = node_pb2.WithdrawRequest(
destination=onchainpayment.address,
satoshi=primitives__pb2.AmountOrAll(
amount=primitives__pb2.Amount(msat=onchainpayment.sent_satoshis * 1_000)
),
feerate=primitives__pb2.Feerate(
perkb=int(onchainpayment.mining_fee_rate) * 1_000
),
minconf=int(not config("SPEND_UNCONFIRMED", default=False, cast=bool)),
)
# Cheap security measure to ensure there has been some non-deterministic time between request and DB check
delay = (
secrets.randbelow(2**256) / (2**256) * 10
) # Random uniform 0 to 5 secs with good entropy
time.sleep(3 + delay)
if onchainpayment.status == queue_code:
# Changing the state to "MEMPO" should be atomic with SendCoins.
onchainpayment.status = on_mempool_code
onchainpayment.save(update_fields=["status"])
response = cls.nstub.Withdraw(request)
if response.txid:
onchainpayment.txid = response.txid.hex()
onchainpayment.broadcasted = True
onchainpayment.save(update_fields=["txid", "broadcasted"])
return True
elif onchainpayment.status == on_mempool_code:
# Bug, double payment attempted
return True
@classmethod
def cancel_return_hold_invoice(cls, payment_hash):
"""Cancels or returns a hold invoice"""
request = hold_pb2.HoldInvoiceCancelRequest(
payment_hash=bytes.fromhex(payment_hash)
)
response = cls.hstub.HoldInvoiceCancel(request)
return response.state == hold_pb2.HoldInvoiceCancelResponse.Holdstate.CANCELED
@classmethod
def settle_hold_invoice(cls, preimage):
"""settles a hold invoice"""
request = hold_pb2.HoldInvoiceSettleRequest(
payment_hash=hashlib.sha256(bytes.fromhex(preimage)).digest()
)
response = cls.hstub.HoldInvoiceSettle(request)
return response.state == hold_pb2.HoldInvoiceSettleResponse.Holdstate.SETTLED
@classmethod
def gen_hold_invoice(
cls,
num_satoshis,
description,
invoice_expiry,
cltv_expiry_blocks,
order_id,
lnpayment_concept,
time,
):
"""Generates hold invoice"""
# constant 100h invoice expiry because cln has to cancel htlcs if invoice expires
# or it can't associate them anymore
invoice_expiry = cltv_expiry_blocks * 10 * 60
hold_payment = {}
# The preimage is a random hash of 256 bits entropy
preimage = hashlib.sha256(secrets.token_bytes(nbytes=32)).digest()
request = hold_pb2.HoldInvoiceRequest(
description=description,
amount_msat=primitives__pb2.Amount(msat=num_satoshis * 1_000),
label=f"Order:{order_id}-{lnpayment_concept}-{time}",
expiry=invoice_expiry,
cltv=cltv_expiry_blocks,
preimage=preimage, # preimage is actually optional in cln, as cln would generate one by default
)
response = cls.hstub.HoldInvoice(request)
hold_payment["invoice"] = response.bolt11
payreq_decoded = cls.decode_payreq(hold_payment["invoice"])
hold_payment["preimage"] = preimage.hex()
hold_payment["payment_hash"] = response.payment_hash.hex()
hold_payment["created_at"] = timezone.make_aware(
datetime.fromtimestamp(payreq_decoded.timestamp)
)
hold_payment["expires_at"] = timezone.make_aware(
datetime.fromtimestamp(response.expires_at)
)
hold_payment["cltv_expiry"] = cltv_expiry_blocks
return hold_payment
@classmethod
def validate_hold_invoice_locked(cls, lnpayment):
"""Checks if hold invoice is locked"""
from api.models import LNPayment
request = hold_pb2.HoldInvoiceLookupRequest(
payment_hash=bytes.fromhex(lnpayment.payment_hash)
)
response = cls.hstub.HoldInvoiceLookup(request)
# Will fail if 'unable to locate invoice'. Happens if invoice expiry
# time has passed (but these are 15% padded at the moment). Should catch it
# and report back that the invoice has expired (better robustness)
if response.state == hold_pb2.HoldInvoiceLookupResponse.Holdstate.OPEN:
pass
if response.state == hold_pb2.HoldInvoiceLookupResponse.Holdstate.SETTLED:
pass
if response.state == hold_pb2.HoldInvoiceLookupResponse.Holdstate.CANCELED:
pass
if response.state == hold_pb2.HoldInvoiceLookupResponse.Holdstate.ACCEPTED:
lnpayment.expiry_height = response.htlc_expiry
lnpayment.status = LNPayment.Status.LOCKED
lnpayment.save(update_fields=["expiry_height", "status"])
return True
@classmethod
def lookup_invoice_status(cls, lnpayment):
"""
Returns the status (as LNpayment.Status) of the given payment_hash
If unchanged, returns the previous status
"""
from api.models import LNPayment
status = lnpayment.status
expiry_height = 0
cln_response_state_to_lnpayment_status = {
0: LNPayment.Status.INVGEN, # OPEN
1: LNPayment.Status.SETLED, # SETTLED
2: LNPayment.Status.CANCEL, # CANCELLED
3: LNPayment.Status.LOCKED, # ACCEPTED
}
try:
# this is similar to LNNnode.validate_hold_invoice_locked
request = hold_pb2.HoldInvoiceLookupRequest(
payment_hash=bytes.fromhex(lnpayment.payment_hash)
)
response = cls.hstub.HoldInvoiceLookup(request)
status = cln_response_state_to_lnpayment_status[response.state]
# try saving expiry height
if hasattr(response, "htlc_expiry"):
try:
expiry_height = response.htlc_expiry
except Exception:
pass
except Exception as e:
# If it fails at finding the invoice: it has been expired for more than an hour (and could be paid or just expired).
# In RoboSats DB we make a distinction between cancelled and returned
# (cln-grpc-hodl has separate state for hodl-invoices, which it forgets after an invoice expired more than an hour ago)
if "empty result for listdatastore_state" in str(e):
print(str(e))
request2 = node_pb2.ListinvoicesRequest(
payment_hash=bytes.fromhex(lnpayment.payment_hash)
)
try:
response2 = cls.nstub.ListInvoices(request2).invoices
except Exception as e:
print(str(e))
if (
response2[0].status
== node_pb2.ListinvoicesInvoices.ListinvoicesInvoicesStatus.PAID
):
status = LNPayment.Status.SETLED
elif (
response2[0].status
== node_pb2.ListinvoicesInvoices.ListinvoicesInvoicesStatus.EXPIRED
):
status = LNPayment.Status.CANCEL
else:
print(str(e))
# Other write to logs
else:
print(str(e))
return status, expiry_height
@classmethod
def resetmc(cls):
# don't think an equivalent exists for cln, maybe deleting gossip_store file?
return False
@classmethod
def validate_ln_invoice(cls, invoice, num_satoshis, routing_budget_ppm):
"""Checks if the submited LN invoice comforms to expectations"""
payout = {
"valid": False,
"context": None,
"description": None,
"payment_hash": None,
"created_at": None,
"expires_at": None,
}
try:
payreq_decoded = cls.decode_payreq(invoice)
except Exception:
payout["context"] = {
"bad_invoice": "Does not look like a valid lightning invoice"
}
return payout
# Some wallet providers (e.g. Muun) force routing through a private channel with high fees >1500ppm
# These payments will fail. So it is best to let the user know in advance this invoice is not valid.
route_hints = payreq_decoded.route_hints.hints
# Max amount RoboSats will pay for routing
if routing_budget_ppm == 0:
max_routing_fee_sats = max(
num_satoshis * float(config("PROPORTIONAL_ROUTING_FEE_LIMIT")),
float(config("MIN_FLAT_ROUTING_FEE_LIMIT_REWARD")),
)
else:
max_routing_fee_sats = int(
float(num_satoshis) * float(routing_budget_ppm) / 1000000
)
if route_hints:
routes_cost = []
# For every hinted route...
for hinted_route in route_hints:
route_cost = 0
# ...add up the cost of every hinted hop...
for hop_hint in hinted_route.hops:
route_cost += hop_hint.feebase.msat / 1_000
route_cost += hop_hint.feeprop * num_satoshis / 1_000_000
# ...and store the cost of the route to the array
routes_cost.append(route_cost)
# If the cheapest possible private route is more expensive than what RoboSats is willing to pay
if min(routes_cost) >= max_routing_fee_sats:
payout["context"] = {
"bad_invoice": "The invoice hinted private routes are not payable within the submitted routing budget."
}
return payout
if payreq_decoded.amount_msat.msat == 0:
payout["context"] = {
"bad_invoice": "The invoice provided has no explicit amount"
}
return payout
if not payreq_decoded.amount_msat.msat // 1_000 == num_satoshis:
payout["context"] = {
"bad_invoice": "The invoice provided is not for "
+ "{:,}".format(num_satoshis)
+ " Sats"
}
return payout
payout["created_at"] = timezone.make_aware(
datetime.fromtimestamp(payreq_decoded.timestamp)
)
payout["expires_at"] = payout["created_at"] + timedelta(
seconds=payreq_decoded.expiry
)
if payout["expires_at"] < timezone.now():
payout["context"] = {
"bad_invoice": "The invoice provided has already expired"
}
return payout
payout["valid"] = True
payout["description"] = payreq_decoded.description
payout["payment_hash"] = payreq_decoded.payment_hash.hex()
return payout
@classmethod
def pay_invoice(cls, lnpayment):
"""Sends sats. Used for rewards payouts"""
from api.models import LNPayment
fee_limit_sat = int(
max(
lnpayment.num_satoshis
* float(config("PROPORTIONAL_ROUTING_FEE_LIMIT")),
float(config("MIN_FLAT_ROUTING_FEE_LIMIT_REWARD")),
)
) # 200 ppm or 10 sats
timeout_seconds = int(config("REWARDS_TIMEOUT_SECONDS"))
request = node_pb2.PayRequest(
bolt11=lnpayment.invoice,
maxfee=primitives__pb2.Amount(msat=fee_limit_sat * 1_000),
retry_for=timeout_seconds,
)
try:
response = cls.nstub.Pay(request)
if response.status == node_pb2.PayResponse.PayStatus.COMPLETE:
lnpayment.status = LNPayment.Status.SUCCED
lnpayment.fee = (
float(response.amount_sent_msat.msat - response.amount_msat.msat)
/ 1000
)
lnpayment.preimage = response.payment_preimage.hex()
lnpayment.save(update_fields=["fee", "status", "preimage"])
return True, None
elif response.status == node_pb2.PayResponse.PayStatus.PENDING:
failure_reason = "Payment isn't failed (yet)"
lnpayment.failure_reason = LNPayment.FailureReason.NOTYETF
lnpayment.status = LNPayment.Status.FLIGHT
lnpayment.save(update_fields=["failure_reason", "status"])
return False, failure_reason
else: # response.status == node_pb2.PayResponse.PayStatus.FAILED
failure_reason = "All possible routes were tried and failed permanently. Or were no routes to the destination at all."
lnpayment.failure_reason = LNPayment.FailureReason.NOROUTE
lnpayment.status = LNPayment.Status.FAILRO
lnpayment.save(update_fields=["failure_reason", "status"])
return False, failure_reason
except grpc._channel._InactiveRpcError as e:
status_code = int(e.details().split("code: Some(")[1].split(")")[0])
failure_reason = cls.payment_failure_context[status_code]
lnpayment.failure_reason = LNPayment.FailureReason.NOROUTE
lnpayment.status = LNPayment.Status.FAILRO
lnpayment.save(update_fields=["failure_reason", "status"])
return False, failure_reason
@classmethod
def follow_send_payment(cls, lnpayment, fee_limit_sat, timeout_seconds):
"""Sends sats to buyer, continuous update"""
from api.models import LNPayment, Order
hash = lnpayment.payment_hash
# retry_for is not quite the same as a timeout. Pay can still take SIGNIFICANTLY longer to return if htlcs are stuck!
# allow_self_payment=True, No such thing in pay command and self_payments do not work with pay!
request = node_pb2.PayRequest(
bolt11=lnpayment.invoice,
maxfee=primitives__pb2.Amount(msat=fee_limit_sat * 1_000),
retry_for=timeout_seconds,
)
order = lnpayment.order_paid_LN
if order.trade_escrow.num_satoshis < lnpayment.num_satoshis:
print(f"Order: {order.id} Payout is larger than collateral !?")
return
def watchpayment():
request_listpays = node_pb2.ListpaysRequest(
payment_hash=bytes.fromhex(hash)
)
while True:
try:
response_listpays = cls.nstub.ListPays(request_listpays)
except Exception as e:
print(str(e))
time.sleep(2)
continue
if (
len(response_listpays.pays) == 0
or response_listpays.pays[0].status
!= node_pb2.ListpaysPays.ListpaysPaysStatus.PENDING
):
return response_listpays
else:
time.sleep(2)
def handle_response():
try:
lnpayment.status = LNPayment.Status.FLIGHT
lnpayment.in_flight = True
lnpayment.save(update_fields=["in_flight", "status"])
order.update_status(Order.Status.PAY)
response = cls.nstub.Pay(request)
if response.status == node_pb2.PayResponse.PayStatus.PENDING:
print(f"Order: {order.id} IN_FLIGHT. Hash {hash}")
watchpayment()
handle_response()
if response.status == node_pb2.PayResponse.PayStatus.FAILED:
lnpayment.status = LNPayment.Status.FAILRO
lnpayment.last_routing_time = timezone.now()
lnpayment.routing_attempts += 1
lnpayment.failure_reason = LNPayment.FailureReason.NOROUTE
lnpayment.in_flight = False
if lnpayment.routing_attempts > 2:
lnpayment.status = LNPayment.Status.EXPIRE
lnpayment.routing_attempts = 0
lnpayment.save(
update_fields=[
"status",
"last_routing_time",
"routing_attempts",
"failure_reason",
"in_flight",
]
)
order.update_status(Order.Status.FAI)
order.expires_at = timezone.now() + timedelta(
seconds=order.t_to_expire(Order.Status.FAI)
)
order.save(update_fields=["expires_at"])
print(
f"Order: {order.id} FAILED. Hash: {hash} Reason: {cls.payment_failure_context[-1]}"
)
order.log(
f"Payment LNPayment({lnpayment.payment_hash},{str(lnpayment)}) failed. Failure reason: {cls.payment_failure_context[-1]})"
)
return {
"succeded": False,
"context": f"payment failure reason: {cls.payment_failure_context[-1]}",
}
if response.status == node_pb2.PayResponse.PayStatus.COMPLETE:
print(f"Order: {order.id} SUCCEEDED. Hash: {hash}")
lnpayment.status = LNPayment.Status.SUCCED
lnpayment.fee = (
float(
response.amount_sent_msat.msat - response.amount_msat.msat
)
/ 1000
)
lnpayment.preimage = response.payment_preimage.hex()
lnpayment.save(update_fields=["status", "fee", "preimage"])
order.update_status(Order.Status.SUC)
order.expires_at = timezone.now() + timedelta(
seconds=order.t_to_expire(Order.Status.SUC)
)
order.save(update_fields=["expires_at"])
order.log(
f"Payment LNPayment({lnpayment.payment_hash},{str(lnpayment)}) succeeded"
)
results = {"succeded": True}
return results
except grpc._channel._InactiveRpcError as e:
if "code: Some" in str(e):
status_code = int(e.details().split("code: Some(")[1].split(")")[0])
if (
status_code == 201
): # Already paid with this hash using different amount or destination
# i don't think this can happen really, since we don't use the amount_msat in request
# and if you just try 'pay' 2x where the first time it succeeds you get the same
# non-error result the 2nd time.
print(
f"Order: {order.id} ALREADY PAID using different amount or destination THIS SHOULD NEVER HAPPEN! Hash: {hash}."
)
# Permanent failure at destination. or Unable to find a route. or Route too expensive.
elif (
status_code == 203
or status_code == 205
or status_code == 206
or status_code == 210
):
lnpayment.status = LNPayment.Status.FAILRO
lnpayment.last_routing_time = timezone.now()
lnpayment.routing_attempts += 1
lnpayment.failure_reason = LNPayment.FailureReason.NOROUTE
lnpayment.in_flight = False
if lnpayment.routing_attempts > 2:
lnpayment.status = LNPayment.Status.EXPIRE
lnpayment.routing_attempts = 0
lnpayment.save(
update_fields=[
"status",
"last_routing_time",
"routing_attempts",
"in_flight",
"failure_reason",
]
)
order.update_status(Order.Status.FAI)
order.expires_at = timezone.now() + timedelta(
seconds=order.t_to_expire(Order.Status.FAI)
)
order.save(update_fields=["expires_at"])
print(
f"Order: {order.id} FAILED. Hash: {hash} Reason: {cls.payment_failure_context[status_code]}"
)
order.log(
f"Payment LNPayment({lnpayment.payment_hash},{str(lnpayment)}) failed. Failure reason: {cls.payment_failure_context[status_code]}"
)
return {
"succeded": False,
"context": f"payment failure reason: {cls.payment_failure_context[status_code]}",
}
elif status_code == 207: # invoice expired
print(f"Order: {order.id}. INVOICE EXPIRED. Hash: {hash}")
last_payresponse = watchpayment()
# check if succeeded while pending and expired
if (
len(last_payresponse.pays) > 0
and last_payresponse.pays[0].status
== node_pb2.ListpaysPays.ListpaysPaysStatus.COMPLETE
):
handle_response()
else:
lnpayment.status = LNPayment.Status.EXPIRE
lnpayment.last_routing_time = timezone.now()
lnpayment.in_flight = False
lnpayment.save(
update_fields=[
"status",
"last_routing_time",
"in_flight",
]
)
order.update_status(Order.Status.FAI)
order.expires_at = timezone.now() + timedelta(
seconds=order.t_to_expire(Order.Status.FAI)
)
order.save(update_fields=["expires_at"])
order.log(
f"Payment LNPayment({lnpayment.payment_hash},{str(lnpayment)}) had expired"
)
results = {
"succeded": False,
"context": "The payout invoice has expired",
}
return results
else: # -1 (general error)
print(str(e))
else:
print(str(e))
handle_response()
@classmethod
def send_keysend(
cls, target_pubkey, message, num_satoshis, routing_budget_sats, timeout, sign
):
# keysends for dev donations
from api.models import LNPayment
# Cannot perform selfpayments
# config("ALLOW_SELF_KEYSEND", cast=bool, default=False)
keysend_payment = {}
keysend_payment["created_at"] = timezone.now()
keysend_payment["expires_at"] = timezone.now()
try:
custom_records = []
msg = str(message)
if len(msg) > 0:
custom_records.append(
primitives__pb2.TlvEntry(
type=34349334, value=bytes.fromhex(msg.encode("utf-8").hex())
)
)
if sign:
self_pubkey = cls.nstub.Getinfo(node_pb2.GetinfoRequest()).id
timestamp = struct.pack(">i", int(time.time()))
signature = cls.nstub.SignMessage(
node_pb2.SignmessageRequest(
message=(
bytes.fromhex(self_pubkey)
+ bytes.fromhex(target_pubkey)
+ timestamp
+ bytes.fromhex(msg.encode("utf-8").hex())
),
)
).zbase
custom_records.append(
primitives__pb2.TlvEntry(type=34349337, value=signature)
)
custom_records.append(
primitives__pb2.TlvEntry(
type=34349339, value=bytes.fromhex(self_pubkey)
)
)
custom_records.append(
primitives__pb2.TlvEntry(type=34349343, value=timestamp)
)
# no maxfee for Keysend
maxfeepercent = (routing_budget_sats / num_satoshis) * 100
request = node_pb2.KeysendRequest(
destination=bytes.fromhex(target_pubkey),
extratlvs=primitives__pb2.TlvStream(entries=custom_records),
maxfeepercent=maxfeepercent,
retry_for=timeout,
amount_msat=primitives__pb2.Amount(msat=num_satoshis * 1000),
)
response = cls.nstub.KeySend(request)
keysend_payment["preimage"] = response.payment_preimage.hex()
keysend_payment["payment_hash"] = response.payment_hash.hex()
waitreq = node_pb2.WaitsendpayRequest(
payment_hash=response.payment_hash, timeout=timeout
)
try:
waitresp = cls.nstub.WaitSendPay(waitreq)
keysend_payment["fee"] = (
float(waitresp.amount_sent_msat.msat - waitresp.amount_msat.msat)
/ 1000
)
keysend_payment["status"] = LNPayment.Status.SUCCED
except grpc._channel._InactiveRpcError as e:
if "code: Some" in str(e):
status_code = int(e.details().split("code: Some(")[1].split(")")[0])
if status_code == 200: # Timed out before the payment could complete.
keysend_payment["status"] = LNPayment.Status.FLIGHT
elif status_code == 208:
print(
f"A payment for {response.payment_hash.hex()} was never made and there is nothing to wait for"
)
else:
keysend_payment["status"] = LNPayment.Status.FAILRO
keysend_payment["failure_reason"] = response.failure_reason
except Exception as e:
print("Error while sending keysend payment! Error: " + str(e))
except Exception as e:
print("Error while sending keysend payment! Error: " + str(e))
return True, keysend_payment
@classmethod
def double_check_htlc_is_settled(cls, payment_hash):
"""Just as it sounds. Better safe than sorry!"""
request = hold_pb2.HoldInvoiceLookupRequest(
payment_hash=bytes.fromhex(payment_hash)
)
try:
response = cls.hstub.HoldInvoiceLookup(request)
except Exception as e:
if "Timed out" in str(e):
return False
else:
raise e
return response.state == hold_pb2.HoldInvoiceLookupResponse.Holdstate.SETTLED