#!/usr/bin/env python3
# -*- coding: utf-8 -*-

# Copyright (c) 2022 tecnovert
# Copyright (c) 2024 The Basicswap developers
# Distributed under the MIT software license, see the accompanying
# file LICENSE or http://www.opensource.org/licenses/mit-license.php.

"""
export TEST_PATH=/tmp/test_basicswap_wallet_restore
mkdir -p ${TEST_PATH}/bin
cp -r ~/tmp/basicswap_bin/* ${TEST_PATH}/bin
export PGP_KEYS_DIR_PATH=$(pwd)/basicswap/pgp/keys
export PYTHONPATH=$(pwd)
python tests/basicswap/extended/test_wallet_restore.py


"""

import os
import sys
import shutil
import logging
import unittest
import threading
import traceback
import multiprocessing
from unittest.mock import patch

from tests.basicswap.util import (
    read_json_api,
    post_json_api,
    waitForServer,
)
from tests.basicswap.common import (
    waitForNumOffers,
    waitForNumBids,
)
from tests.basicswap.common_xmr import (
    TestBase,
    run_prepare,
    waitForBidState,
)
from basicswap.rpc import (
    callrpc,
)
from tests.basicswap.mnemonics import mnemonics
import basicswap.bin.run as runSystem
from tests.basicswap.common import (
    BTC_BASE_RPC_PORT,
    LTC_BASE_RPC_PORT,
)

PORT_OFS = int(os.getenv("PORT_OFS", 1))
TEST_PATH = os.path.expanduser(os.getenv("TEST_PATH", "~/test_basicswap1"))
LITECOIN_RPC_PORT_BASE = int(os.getenv("LITECOIN_RPC_PORT_BASE", LTC_BASE_RPC_PORT))
BITCOIN_RPC_PORT_BASE = int(os.getenv("BITCOIN_RPC_PORT_BASE", BTC_BASE_RPC_PORT))

logger = logging.getLogger()
logger.level = logging.DEBUG
if not len(logger.handlers):
    logger.addHandler(logging.StreamHandler(sys.stdout))


def callbtcnoderpc(
    node_id, method, params=[], wallet=None, base_rpc_port=BITCOIN_RPC_PORT_BASE
):
    auth = "test_btc_{0}:test_btc_pwd_{0}".format(node_id)
    return callrpc(base_rpc_port + node_id, auth, method, params, wallet)


def callltcnoderpc(
    node_id, method, params=[], wallet=None, base_rpc_port=LITECOIN_RPC_PORT_BASE
):
    auth = "test_ltc_{0}:test_ltc_pwd_{0}".format(node_id)
    return callrpc(base_rpc_port + node_id, auth, method, params, wallet)


def updateThread(self):
    while not self.delay_event.is_set():
        callbtcnoderpc(2, "generatetoaddress", [1, self.btc_addr])
        callltcnoderpc(1, "generatetoaddress", [1, self.ltc_addr])
        self.delay_event.wait(2)


def prepare_node(node_id, mnemonic):
    logging.info("Preparing node: %d.", node_id)
    bins_path = os.path.join(TEST_PATH, "bin")
    client_path = os.path.join(TEST_PATH, "client{}".format(node_id))
    try:
        shutil.rmtree(client_path)
    except Exception as ex:
        logging.warning("setUpClass %s", str(ex))
    return run_prepare(
        node_id,
        client_path,
        bins_path,
        "monero,bitcoin,litecoin",
        mnemonic,
        3,
        use_rpcauth=True,
    )


def run_process(client_id):
    client_path = os.path.join(TEST_PATH, "client{}".format(client_id))
    testargs = [
        "basicswap-run",
        "-datadir=" + client_path,
        "-regtest",
        f"-logprefix=BSX{client_id}",
    ]
    with patch.object(sys, "argv", testargs):
        runSystem.main()


class Test(TestBase):
    @classmethod
    def setUpClass(cls):
        super(Test, cls).setUpClass(cls)
        cls.update_thread = None
        cls.used_mnemonics = []
        # Load wallets from random mnemonics, except node0 which needs to import PART from the genesis block
        for i in range(3):
            cls.used_mnemonics.append(prepare_node(i, mnemonics[0] if i == 0 else None))

    def finalise(self, processes):
        self.delay_event.set()
        if self.update_thread:
            self.update_thread.join()
        for p in processes:
            p.terminate()
        for p in processes:
            p.join()

    def test_wallet(self):
        processes = []

        for i in range(3):
            processes.append(multiprocessing.Process(target=run_process, args=(i,)))
            processes[-1].start()

        try:
            waitForServer(self.delay_event, 12700)
            waitForServer(self.delay_event, 12701)
            waitForServer(self.delay_event, 12702)

            num_blocks = 500  # Mine enough to activate segwit
            self.btc_addr = callbtcnoderpc(
                2, "getnewaddress", ["mining_addr", "bech32"]
            )
            logging.info("Mining %d Bitcoin blocks to %s", num_blocks, self.btc_addr)
            callbtcnoderpc(2, "generatetoaddress", [num_blocks, self.btc_addr])

            num_blocks = 431
            self.ltc_addr = callltcnoderpc(
                1, "getnewaddress", ["mining_addr", "bech32"], wallet="wallet.dat"
            )
            logging.info("Mining %d Litecoin blocks to %s", num_blocks, self.ltc_addr)
            callltcnoderpc(1, "generatetoaddress", [num_blocks, self.ltc_addr])

            mweb_addr = callltcnoderpc(
                1, "getnewaddress", ["mweb_addr", "mweb"], wallet="mweb"
            )
            callltcnoderpc(1, "sendtoaddress", [mweb_addr, 1], wallet="wallet.dat")
            num_blocks = 69
            callltcnoderpc(1, "generatetoaddress", [num_blocks, self.ltc_addr])

            self.update_thread = threading.Thread(target=updateThread, args=(self,))
            self.update_thread.start()

            self.wait_for_particl_height(12701, num_blocks=3)

            data = {
                "addr_from": "-1",
                "coin_from": "part",
                "coin_to": "ltc",
                "amt_from": "1",
                "amt_to": "1",
                "lockhrs": "24",
                "automation_strat_id": 1,
            }

            post_json_api(12700, "offers/new", data)["offer_id"]
            summary = read_json_api(12700)
            assert summary["num_sent_offers"] == 1

            logger.info("Waiting for offer")
            waitForNumOffers(self.delay_event, 12701, 1)

            offers = read_json_api(12701, "offers")
            offer = offers[0]

            data = {"offer_id": offer["offer_id"], "amount_from": offer["amount_from"]}

            bid_id = post_json_api(12701, "bids/new", data)["bid_id"]

            waitForNumBids(self.delay_event, 12700, 1)

            waitForBidState(self.delay_event, 12700, bid_id, "Completed", wait_for=120)
            waitForBidState(self.delay_event, 12701, bid_id, "Completed", wait_for=120)

            logging.info("Starting a new node on the same mnemonic as the first")
            prepare_node(3, self.used_mnemonics[0])
            processes.append(multiprocessing.Process(target=run_process, args=(3,)))
            processes[-1].start()
            waitForServer(self.delay_event, 12703)

            self.wait_seconds(5)

            # TODO: Attempt to detect past swaps

            for coin in ("part", "btc", "ltc"):
                logging.info(f"Checking {coin} balance")
                original = read_json_api(12700, f"wallets/{coin}")
                restored = read_json_api(12703, f"wallets/{coin}")
                assert float(original["balance"]) + float(
                    original["unconfirmed"]
                ) == float(restored["balance"]) + float(restored["unconfirmed"])

            wallets_original = read_json_api(12700, "wallets")
            # TODO: After restoring a new deposit address should be generated, should be automated
            #       Swaps should use a new key path, not the external path
            _ = read_json_api(12700, "wallets/part/nextdepositaddr")
            _ = read_json_api(12703, "wallets/part/nextdepositaddr")
            wallets_restored = read_json_api(12703, "wallets")
            for k, w in wallets_original.items():
                assert w["deposit_address"] == wallets_restored[k]["deposit_address"]

        except Exception as e:
            traceback.print_exc()
            self.finalise(processes)
            logging.info("Test failed.")
            raise e

        self.finalise(processes)
        logging.info("Test passed.")


if __name__ == "__main__":
    unittest.main()