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bitcoinafterlife:main bitcoinafterlife:refactoring bitcoinafterlife:0.1.1 kaibot:main kaibot:doc kaibot:fix/balbuildwilldialog-message-queue kaibot:fix/balbuildwilldialog-sfarfallio-windows-correct kaibot:fix/balbuildwilldialog-sfarfallio-windows kaibot:refactoring kaibot:0.1.1
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kaibot:main kaibot:doc kaibot:fix/balbuildwilldialog-message-queue kaibot:fix/balbuildwilldialog-sfarfallio-windows-correct kaibot:fix/balbuildwilldialog-sfarfallio-windows kaibot:refactoring kaibot:0.1.1 bitcoinafterlife:main bitcoinafterlife:refactoring bitcoinafterlife:0.1.1
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4 Commits
main ... refactorin

Author SHA1 Message Date
nico
eea2497340 version 2026-01-04 16:29:03 -04:00
nico
436c4a1348 version 2026-01-04 16:24:24 -04:00
nico
f083d6a8f6 version 2026-01-04 16:02:30 -04:00
nico
da937f2c1b refactor-022b.diff 2026-01-04 10:01:37 -04:00
16 changed files with 1940 additions and 2549 deletions
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2
VERSION
View File

@@ -1 +1 @@
0.2.8 0.2.2c

237
bal.py
View File

@@ -1,165 +1,125 @@
import random
import os import os
from datetime import date, datetime, timedelta import zipfile as zipfile_lib
import platform
# import random
# import zipfile as zipfile_lib
from electrum import constants, json_db
from electrum.logging import get_logger
from electrum.plugin import BasePlugin from electrum.plugin import BasePlugin
from electrum import json_db
from electrum.transaction import tx_from_any from electrum.transaction import tx_from_any
_logger = get_logger(__name__) import os
def get_will_settings(x): def get_will_settings(x):
# print(x) print(x)
pass
json_db.register_dict("heirs", tuple, None)
json_db.register_dict("will", dict, None)
json_db.register_dict("will_settings", lambda x: x, None)
json_db.register_dict('heirs', tuple, None)
json_db.register_dict('will', dict,None)
json_db.register_dict('will_settings', lambda x:x,None)
#{'rubiconda': ['bcrt1qgv0wu4v6kjzef5mnxfh2m9z6y7mez0ja0tt8mu', '45%', '1y'], 'veronica': ['bcrt1q6vxuvwrt8x5c9u9u29y5uq7frscr0vgc2dy60j', '15%', '1y']}
from electrum.logging import get_logger
def get_will_settings(x):
print(x)
def get_will(x): def get_will(x):
try: try:
x["tx"] = tx_from_any(x["tx"]) x['tx']=tx_from_any(x['tx'])
except Exception as e: except Exception as e:
raise e raise e
return x return x
class BalConfig():
class BalConfig:
def __init__(self, config, name, default): def __init__(self, config, name, default):
print("init bal_config")
self.config = config self.config = config
self.name = name self.name = name
self.default = default self.default = default
def get(self, default=None): def get(self,default=None):
v = self.config.get(self.name, default) v = self.config.get(self.name, default)
if v is None: if v is None:
if default is not None: if not default is None:
v = default v = default
else: else:
v = self.default v = self.default
return v return v
def set(self, value, save=True): def set(self,value,save=True):
self.config.set_key(self.name, value, save=save) self.config.set_key(self.name,value,save=save)
class BalPlugin(BasePlugin): class BalPlugin(BasePlugin):
_version=None LATEST_VERSION = '1'
__version__ = "0.2.8" #AUTOMATICALLY GENERATED DO NOT EDIT KNOWN_VERSIONS = ('0', '1')
default_app={ assert LATEST_VERSION in KNOWN_VERSIONS
"Linux":"xdg-open", def version():
"Window":"start", try:
"Darwin":"open" f=""
} with open("VERSION","r") as f:
chainname = constants.net.NET_NAME if constants.net.NET_NAME != "mainnet" else "bitcoin" f = str(f.readline())
def version(self): return f
if not self._version: except:
try: return "unknown"
f = ""
with open("{}/VERSION".format(self.plugin_dir), "r") as fi:
f = str(fi.read())
self._version = f.strip()
except Exception as e:
_logger.error(f"failed to get version: {e}")
self._version="unknown"
return self._version
SIZE = (159, 97) SIZE = (159, 97)
def __init__(self, parent, config, name): def __init__(self, parent, config, name):
print("init bal_plugin")
self.logger = get_logger(__name__) self.logger = get_logger(__name__)
BasePlugin.__init__(self, parent, config, name) BasePlugin.__init__(self, parent, config, name)
self.base_dir = os.path.join(config.electrum_path(), "bal") self.base_dir = os.path.join(config.electrum_path(), 'bal')
self.plugin_dir = os.path.split(os.path.realpath(__file__))[0] self.plugin_dir = os.path.split(os.path.realpath(__file__))[0]
zipfile = "/".join(self.plugin_dir.split("/")[:-1]) zipfile="/".join(self.plugin_dir.split("/")[:-1])
#print("real path",os.path.realpath(__file__))
#self.logger.info(self.base_dir)
#print("base_dir:", self.base_dir)
#print("suca:",zipfile)
#print("plugin_dir:", self.plugin_dir)
import sys import sys
sys.path.insert(0, zipfile) sys.path.insert(0, zipfile)
#print("sono state listate?")
self.parent = parent self.parent = parent
self.config = config self.config = config
self.name = name self.name = name
self.ASK_BROADCAST = BalConfig(config, "bal_ask_broadcast", True) self.ASK_BROADCAST = BalConfig(config, "bal_ask_broadcast", True)
self.BROADCAST = BalConfig(config, "bal_broadcast", True) self.BROADCAST = BalConfig(config, "bal_broadcast", True)
self.LOCKTIME_TIME = BalConfig(config, "bal_locktime_time", 90) self.LOCKTIME_TIME = BalConfig(config, "bal_locktime_time", 90)
self.LOCKTIME_BLOCKS = BalConfig(config, "bal_locktime_blocks", 144 * 90) self.LOCKTIME_BLOCKS = BalConfig(config, "bal_locktime_blocks", 144*90)
self.LOCKTIMEDELTA_TIME = BalConfig(config, "bal_locktimedelta_time", 7) self.LOCKTIMEDELTA_TIME = BalConfig(config, "bal_locktimedelta_time", 7)
self.LOCKTIMEDELTA_BLOCKS = BalConfig( self.LOCKTIMEDELTA_BLOCKS = BalConfig(config, "bal_locktimedelta_blocks", 144*7)
config, "bal_locktimedelta_blocks", 144 * 7 self.ENABLE_MULTIVERSE = BalConfig(config, "bal_enable_multiverse", False)
) self.TX_FEES = BalConfig(config, "bal_tx_fees", 100)
self.ENABLE_MULTIVERSE = BalConfig(config, "bal_enable_multiverse", False) self.INVALIDATE = BalConfig(config, "bal_invalidate", True)
self.TX_FEES = BalConfig(config, "bal_tx_fees", 100) self.ASK_INVALIDATE = BalConfig(config, "bal_ask_invalidate", True)
self.INVALIDATE = BalConfig(config, "bal_invalidate", True) self.PREVIEW = BalConfig(config, "bal_preview", True)
self.ASK_INVALIDATE = BalConfig(config, "bal_ask_invalidate", True) self.SAVE_TXS = BalConfig(config, "bal_save_txs", True)
self.PREVIEW = BalConfig(config, "bal_preview", True) self.WILLEXECUTORS = BalConfig(config, "bal_willexecutors", True)
self.SAVE_TXS = BalConfig(config, "bal_save_txs", True) self.PING_WILLEXECUTORS = BalConfig(config, "bal_ping_willexecutors", True)
self.WILLEXECUTORS = BalConfig(config, "bal_willexecutors", True) self.ASK_PING_WILLEXECUTORS = BalConfig(config, "bal_ask_ping_willexecutors", True)
# self.PING_WILLEXECUTORS = BalConfig(config, "bal_ping_willexecutors", True) self.NO_WILLEXECUTOR = BalConfig(config, "bal_no_willexecutor", True)
# self.ASK_PING_WILLEXECUTORS = BalConfig( self.HIDE_REPLACED = BalConfig(config, "bal_hide_replaced", True)
# config, "bal_ask_ping_willexecutors", True self.HIDE_INVALIDATED = BalConfig(config, "bal_hide_invalidated", True)
# ) self.ALLOW_REPUSH = BalConfig(config, "bal_allow_repush", True)
self.NO_WILLEXECUTOR = BalConfig(config, "bal_no_willexecutor", True) self.FIRST_EXECUTION = BalConfig(config, "bal_first_execution", True)
self.HIDE_REPLACED = BalConfig(config, "bal_hide_replaced", True) self.WILLEXECUTORS = BalConfig(config, "bal_willexecutors", {
self.HIDE_INVALIDATED = BalConfig(config, "bal_hide_invalidated", True) "mainnet": {
self.ALLOW_REPUSH = BalConfig(config, "bal_allow_repush", True) 'https://we.bitcoin-after.life': {
self.FIRST_EXECUTION = BalConfig(config, "bal_first_execution", True) "base_fee": 100000,
self.WELIST_SERVER = BalConfig(config,"bal_welist_server","https://welist.bitcoin-after.life/") "status": "New",
self.WILLEXECUTORS = BalConfig( "info":"Bitcoin After Life Will Executor",
config, "address":"bcrt1qa5cntu4hgadw8zd3n6sq2nzjy34sxdtd9u0gp7",
"bal_willexecutors", "selected":True
{ }
"mainnet": { }
"https://we.bitcoin-after.life": { })
"base_fee": 100000, self.WILL_SETTINGS = BalConfig(config, "bal_will_settings", {
"status": "New", 'baltx_fees':100,
"info": "Bitcoin After Life Will Executor", 'threshold':'180d',
"address": "bc1qusymuetsz2psaqzqxv8qmzcy64d9meckj3lxxf", 'locktime':'1y',
"selected": True, })
}
},
"testnet": {
"https://we.bitcoin-after.life": {
"base_fee": 100000,
"status": "New",
"info": "Bitcoin After Life Will Executor",
"address": "bcrt1qa5cntu4hgadw8zd3n6sq2nzjy34sxdtd9u0gp7",
"selected": True,
}
},
"testnet4": {
"https://we.bitcoin-after.life": {
"base_fee": 100000,
"status": "New",
"info": "Bitcoin After Life Will Executor",
"address": "bcrt1qa5cntu4hgadw8zd3n6sq2nzjy34sxdtd9u0gp7",
"selected": True,
}
},
"regtest": {
"https://we.bitcoin-after.life": {
"base_fee": 100000,
"status": "New",
"info": "Bitcoin After Life Will Executor",
"address": "bcrt1qa5cntu4hgadw8zd3n6sq2nzjy34sxdtd9u0gp7",
"selected": True,
}
},
},
)
self.WILL_SETTINGS = BalConfig(
config,
"bal_will_settings",
BalPlugin.default_will_settings(),
)
self.system = platform.system()
self.CALENDAR_APP = BalConfig(config,"bal_open_app",self.default_app[self.system])
self._hide_invalidated = self.HIDE_INVALIDATED.get()
self._hide_replaced = self.HIDE_REPLACED.get()
def resource_path(self, *parts):
self._hide_invalidated= self.HIDE_INVALIDATED.get()
self._hide_replaced= self.HIDE_REPLACED.get()
def resource_path(self,*parts):
return os.path.join(self.plugin_dir, *parts) return os.path.join(self.plugin_dir, *parts)
def hide_invalidated(self): def hide_invalidated(self):
@@ -170,23 +130,20 @@ class BalPlugin(BasePlugin):
self._hide_replaced = not self._hide_replaced self._hide_replaced = not self._hide_replaced
self.HIDE_REPLACED.set(self._hide_replaced) self.HIDE_REPLACED.set(self._hide_replaced)
def validate_will_settings(self, will_settings): def validate_will_settings(self,will_settings):
defaults=BalPlugin.default_will_settings() print(type(will_settings))
if not will_settings: print(will_settings.get('baltx_fees',1),1)
will_settings=[] if int(will_settings.get('baltx_fees',1))<1:
if int(will_settings.get("baltx_fees", 0)) < 1: will_settings['baltx_fees']=1
will_settings["baltx_fees"] = defaults['baltx_fees'] if not will_settings.get('threshold'):
if not will_settings.get("threshold"): will_settings['threshold']='180d'
will_settings["threshold"] = defaults['threshold'] if not will_settings.get('locktime')=='':
if not will_settings.get("locktime"): will_settings['locktime']='1y'
will_settings["locktime"] = defaults['locktime']
return will_settings return will_settings
@staticmethod def default_will_settings(self):
def default_will_settings(): return {
today = date.today() 'baltx_fees':100,
dt = datetime(today.year, today.month, today.day, 0, 0, 0) 'threshold':'180d',
threshold =(dt + timedelta(days=180)).timestamp() 'locktime':'1y'
locktime =(dt + timedelta(days=365)).timestamp() }
return {"baltx_fees": 100, "threshold": threshold, "locktime": locktime}

9
bal_resources.py
View File

@@ -1,14 +1,15 @@
import os import os
PLUGIN_DIR = os.path.split(os.path.realpath(__file__))[0] PLUGIN_DIR = os.path.split(os.path.realpath(__file__))[0]
DEFAULT_ICON = "bal32x32.png" DEFAULT_ICON = 'bal32x32.png'
DEFAULT_ICON_PATH = "icons" DEFAULT_ICON_PATH = ''
def icon_path(icon_basename: str = DEFAULT_ICON): def icon_path(icon_basename: str = DEFAULT_ICON):
path = resource_path(DEFAULT_ICON_PATH, icon_basename) path = resource_path(DEFAULT_ICON_PATH,icon_basename)
return path return path
def resource_path(*parts): def resource_path(*parts):
return os.path.join(PLUGIN_DIR, *parts) return os.path.join(PLUGIN_DIR, *parts)

61
bal_wallet_utils.py Executable file
View File

@@ -0,0 +1,61 @@
#!env/bin/python3
#same as qt but for command line, useful if you are going to fix various wallet
#also easier to read the code
from electrum.storage import WalletStorage
from electrum.util import MyEncoder
import json
import sys
import getpass
import os
default_fees= 100
def fix_will_settings_tx_fees(json_wallet):
tx_fees = json_wallet.get('will_settings',{}).get('tx_fees',False)
if tx_fees:
json_wallet['will_settings']['baltx_fees']=json_wallet.get('will_settings',{}).get('tx_fees',default_fees)
del json_wallet['will_settings']['tx_fees']
return True
return False
def uninstall_bal(json_wallet):
del json_wallet['will_settings']
del json_wallet['will']
del json_wallet['heirs']
return True
def save(json_wallet,storage):
human_readable=not storage.is_encrypted()
storage.write(json.dumps(
json_wallet,
indent=4 if human_readable else None,
sort_keys=bool(human_readable),
cls=MyEncoder,
))
if __name__ == '__main__':
if len(sys.argv) <3:
print("usage: ./bal_wallet_utils <command> <wallet path>")
print("available commands: uninstall, fix")
exit(1)
if not os.path.exists(sys.argv[2]):
print("Error: wallet not found")
exit(1)
command = sys.argv[1]
path = sys.argv[2]
storage=WalletStorage(path)
if storage.is_encrypted():
password = getpass.getpass("Enter wallet password: ", stream = None)
storage.decrypt(password)
data=storage.read()
json_wallet=json.loads(data)
have_to_save=False
if command == 'fix':
have_to_save = fix_will_settings_tx_fees(json_wallet)
if command == 'uninstall':
have_to_save = uninstall_bal(json_wallet)
if have_to_save:
save(json_wallet,storage)
else:
print("nothing to do")

124
wallet_util/bal_wallet_utils_qt.py → bal_wallet_utils_qt.py
View File

@@ -1,32 +1,29 @@
#!/usr/bin/env python3 #!/usr/bin/env python3
import json #this script will help to fix tx_fees wallet bug
import os #also added an uninstall button to remove any bal data from wallet
#still very work in progress.
#
#have to be executed from electrum source code directory in example /home/user/projects/electrum/
#
import sys import sys
import os
from bal_wallet_utils import fix_will_settings_tx_fees, save, uninstall_bal import json
from PyQt6.QtWidgets import (QApplication, QMainWindow, QVBoxLayout, QHBoxLayout,
QLabel, QLineEdit, QPushButton, QWidget, QFileDialog,
QGroupBox, QTextEdit)
from PyQt6.QtCore import Qt
from electrum.storage import WalletStorage from electrum.storage import WalletStorage
from PyQt6.QtWidgets import ( from electrum.util import MyEncoder
QApplication,
QFileDialog,
QGroupBox,
QHBoxLayout,
QLabel,
QLineEdit,
QMainWindow,
QPushButton,
QTextEdit,
QVBoxLayout,
QWidget,
)
default_fees = 100
class WalletUtilityGUI(QMainWindow): class WalletUtilityGUI(QMainWindow):
def __init__(self): def __init__(self):
super().__init__() super().__init__()
self.init_ui() self.initUI()
def init_ui(self): def initUI(self):
self.setWindowTitle("BAL Wallet Utility") self.setWindowTitle('BAL Wallet Utility')
self.setFixedSize(500, 400) self.setFixedSize(500, 400)
# Central widget # Central widget
@@ -95,7 +92,10 @@ class WalletUtilityGUI(QMainWindow):
def browse_wallet(self): def browse_wallet(self):
file_path, _ = QFileDialog.getOpenFileName( file_path, _ = QFileDialog.getOpenFileName(
self, "Select Wallet", "*", "Electrum Wallet (*)" self,
"Select Wallet",
"",
"Electrum Wallet (*.dat)"
) )
if file_path: if file_path:
self.wallet_path_edit.setText(file_path) self.wallet_path_edit.setText(file_path)
@@ -110,14 +110,43 @@ class WalletUtilityGUI(QMainWindow):
def log_message(self, message): def log_message(self, message):
self.output_text.append(message) self.output_text.append(message)
def fix_will_settings_tx_fees(self, json_wallet):
tx_fees = json_wallet.get('will_settings',{}).get('tx_fees',False)
if tx_fees:
json_wallet['will_settings']['baltx_fees'] = json_wallet.get('will_settings',{}).get('tx_fees', default_fees)
del json_wallet['will_settings']['tx_fees']
return True
return False
def uninstall_bal(self, json_wallet):
if 'will_settings' in json_wallet:
del json_wallet['will_settings']
if 'will' in json_wallet:
del json_wallet['will']
if 'heirs' in json_wallet:
del json_wallet['heirs']
return True
def save_wallet(self, json_wallet, storage):
try:
human_readable = not storage.is_encrypted()
storage.write(json.dumps(
json_wallet,
indent=4 if human_readable else None,
sort_keys=bool(human_readable),
cls=MyEncoder,
))
return True
except Exception as e:
self.log_message(f"Save error: {str(e)}")
return False
def fix_wallet(self): def fix_wallet(self):
self.process_wallet("fix") self.process_wallet('fix')
def uninstall_wallet(self): def uninstall_wallet(self):
self.log_message( self.log_message("WARNING: This will remove all BAL settings. This operation cannot be undone.")
"WARNING: This will remove all BAL settings. This operation cannot be undone." self.process_wallet('uninstall')
)
self.process_wallet("uninstall")
def process_wallet(self, command): def process_wallet(self, command):
wallet_path = self.wallet_path_edit.text().strip() wallet_path = self.wallet_path_edit.text().strip()
@@ -139,9 +168,7 @@ class WalletUtilityGUI(QMainWindow):
# Decrypt if necessary # Decrypt if necessary
if storage.is_encrypted(): if storage.is_encrypted():
if not password: if not password:
self.log_message( self.log_message("ERROR: Wallet is encrypted, please enter password")
"ERROR: Wallet is encrypted, please enter password"
)
return return
try: try:
@@ -153,31 +180,24 @@ class WalletUtilityGUI(QMainWindow):
# Read wallet # Read wallet
data = storage.read() data = storage.read()
json_wallet = json.loads("[" + data + "]")[0] json_wallet = json.loads(data)
have_to_save = False have_to_save = False
message = "" message = ""
if command == "fix": if command == 'fix':
have_to_save = fix_will_settings_tx_fees(json_wallet) have_to_save = self.fix_will_settings_tx_fees(json_wallet)
message = ( message = "Fix applied successfully" if have_to_save else "No fix needed"
"Fix applied successfully" if have_to_save else "No fix needed"
)
elif command == "uninstall": elif command == 'uninstall':
have_to_save = uninstall_bal(json_wallet) have_to_save = self.uninstall_bal(json_wallet)
message = ( message = "BAL uninstalled successfully" if have_to_save else "No BAL settings found to uninstall"
"BAL uninstalled successfully"
if have_to_save
else "No BAL settings found to uninstall"
)
if have_to_save: if have_to_save:
try: if self.save_wallet(json_wallet, storage):
save(json_wallet, storage)
self.log_message(f"SUCCESS: {message}") self.log_message(f"SUCCESS: {message}")
except Exception as e: else:
self.log_message(f"Save error: {str(e)}") self.log_message("ERROR: Failed to save wallet")
else: else:
self.log_message(f"INFO: {message}") self.log_message(f"INFO: {message}")
@@ -185,15 +205,21 @@ class WalletUtilityGUI(QMainWindow):
error_msg = f"ERROR: Processing failed: {str(e)}" error_msg = f"ERROR: Processing failed: {str(e)}"
self.log_message(error_msg) self.log_message(error_msg)
def main(): def main():
app = QApplication(sys.argv) app = QApplication(sys.argv)
# Check if dependencies are available
try:
from electrum.storage import WalletStorage
from electrum.util import MyEncoder
except ImportError as e:
print(f"ERROR: Cannot import Electrum dependencies: {str(e)}")
return 1
window = WalletUtilityGUI() window = WalletUtilityGUI()
window.show() window.show()
return app.exec() return app.exec()
if __name__ == '__main__':
if __name__ == "__main__":
sys.exit(main()) sys.exit(main())

350
heirs.py
View File

@@ -1,40 +1,26 @@
# import datetime
# import json # import json
import math import math
# import datetime
# import urllib.request
# import urllib.parse
import random import random
import re import re
import threading import threading
from typing import TYPE_CHECKING, Any, Dict, List, Optional, Sequence, Tuple
# import urllib.parse
# import urllib.request
from typing import (
TYPE_CHECKING,
Any,
Dict,
# List,
Optional,
# Sequence,
Tuple,
)
import dns import dns
from dns.exception import DNSException from dns.exception import DNSException
from electrum import ( from electrum import bitcoin, constants, descriptor, dnssec
bitcoin,
constants,
# descriptor,
dnssec,
)
from electrum.logging import Logger, get_logger from electrum.logging import Logger, get_logger
from electrum.transaction import ( from electrum.transaction import (
PartialTransaction, PartialTransaction,
PartialTxInput, PartialTxInput,
PartialTxOutput, PartialTxOutput,
TxOutpoint, TxOutpoint,
# TxOutput, TxOutput,
) )
from electrum.util import ( from electrum.util import (
BitcoinException,
bfh, bfh,
read_json_file, read_json_file,
to_string, to_string,
@@ -42,13 +28,12 @@ from electrum.util import (
write_json_file, write_json_file,
) )
from .util import Util from .util import *
from .willexecutors import Willexecutors from .willexecutors import Willexecutors
if TYPE_CHECKING: if TYPE_CHECKING:
from .simple_config import SimpleConfig from .simple_config import SimpleConfig
from .wallet_db import WalletDB
# from .wallet_db import WalletDB
_logger = get_logger(__name__) _logger = get_logger(__name__)
@@ -57,7 +42,6 @@ HEIR_ADDRESS = 0
HEIR_AMOUNT = 1 HEIR_AMOUNT = 1
HEIR_LOCKTIME = 2 HEIR_LOCKTIME = 2
HEIR_REAL_AMOUNT = 3 HEIR_REAL_AMOUNT = 3
HEIR_DUST_AMOUNT = 4
TRANSACTION_LABEL = "inheritance transaction" TRANSACTION_LABEL = "inheritance transaction"
@@ -71,22 +55,28 @@ def reduce_outputs(in_amount, out_amount, fee, outputs):
output.value = math.floor((in_amount - fee) / out_amount * output.value) output.value = math.floor((in_amount - fee) / out_amount * output.value)
def create_op_return_script(data_hex: str) -> bytes: """
"""Crea scriptpubkey OP_RETURN in bytes""" #TODO: put this method inside wallet.db to replace or complete get_locktime_for_new_transaction
data = bytes.fromhex(data_hex) def get_current_height(network:'Network'):
#if no network or not up to date, just set locktime to zero
if not network:
return 0
chain = network.blockchain()
if chain.is_tip_stale():
return 0
# figure out current block height
chain_height = chain.height() # learnt from all connected servers, SPV-checked
server_height = network.get_server_height() # height claimed by main server, unverified
# note: main server might be lagging (either is slow, is malicious, or there is an SPV-invisible-hard-fork)
# - if it's lagging too much, it is the network's job to switch away
if server_height < chain_height - 10:
# the diff is suspiciously large... give up and use something non-fingerprintable
return 0
# discourage "fee sniping"
height = min(chain_height, server_height)
return height
"""
if len(data) > 80:
raise ValueError("OP_RETURN data too big (max 80 bytes)")
# Costruzione manuale: OP_RETURN + push data
if len(data) <= 75:
# Formato più comune: OP_RETURN + 1-byte length + data
script = b'\x6a' + bytes([len(data)]) + data
else:
# Per dati più grandi (fino a 80) si usa OP_PUSHDATA1
script = b'\x6a\x4c' + bytes([len(data)]) + data
return script
def prepare_transactions(locktimes, available_utxos, fees, wallet): def prepare_transactions(locktimes, available_utxos, fees, wallet):
available_utxos = sorted( available_utxos = sorted(
@@ -95,45 +85,38 @@ def prepare_transactions(locktimes, available_utxos, fees, wallet):
x.value_sats(), x.prevout.txid, x.prevout.out_idx x.value_sats(), x.prevout.txid, x.prevout.out_idx
), ),
) )
# total_used_utxos = [] total_used_utxos = []
txsout = {} txsout = {}
locktime, _ = Util.get_lowest_locktimes(locktimes) locktime, _ = get_lowest_locktimes(locktimes)
if not locktime: if not locktime:
_logger.info("prepare transactions, no locktime")
return return
locktime = locktime[0] locktime = locktime[0]
heirs = locktimes[locktime] heirs = locktimes[locktime]
true = True vero = True
while true: while vero:
true = False vero = False
fee = fees.get(locktime, 0) fee = fees.get(locktime, 0)
out_amount = fee out_amount = fee
description = "" description = ""
outputs = [] outputs = []
paid_heirs = {} paid_heirs = {}
for name, heir in heirs.items(): for name, heir in heirs.items():
if len(heir) > HEIR_REAL_AMOUNT and "DUST" not in str( try:
heir[HEIR_REAL_AMOUNT] if len(heir) > HEIR_REAL_AMOUNT:
):
try:
real_amount = heir[HEIR_REAL_AMOUNT] real_amount = heir[HEIR_REAL_AMOUNT]
out_amount += real_amount
description += f"{name}\n"
paid_heirs[name] = heir
outputs.append( outputs.append(
PartialTxOutput.from_address_and_value( PartialTxOutput.from_address_and_value(
heir[HEIR_ADDRESS], real_amount heir[HEIR_ADDRESS], real_amount
) )
) )
out_amount += real_amount else:
description += f"{name}\n"
except BitcoinException as e:
_logger.info("exception decoding output {} - {}".format(type(e), e))
heir[HEIR_REAL_AMOUNT] = e
except Exception as e:
heir[HEIR_REAL_AMOUNT] = e
_logger.error(f"error preparing transactions: {e}")
pass pass
paid_heirs[name] = heir except Exception as e:
pass
in_amount = 0.0 in_amount = 0.0
used_utxos = [] used_utxos = []
@@ -142,36 +125,24 @@ def prepare_transactions(locktimes, available_utxos, fees, wallet):
value = utxo.value_sats() value = utxo.value_sats()
in_amount += value in_amount += value
used_utxos.append(utxo) used_utxos.append(utxo)
if in_amount >= out_amount: if in_amount > out_amount:
break break
except IndexError as e: except IndexError as e:
_logger.error(
f"error preparing transactions index error {e} {in_amount}, {out_amount}"
)
pass pass
if int(in_amount) < int(out_amount): if int(in_amount) < int(out_amount):
_logger.error( break
"error preparing transactions in_amount < out_amount ({} < {}) "
)
continue
heirsvalue = out_amount heirsvalue = out_amount
change = get_change_output(wallet, in_amount, out_amount, fee) change = get_change_output(wallet, in_amount, out_amount, fee)
if change: if change:
outputs.append(change) outputs.append(change)
for i in range(0, 100): for i in range(0, 100):
random.shuffle(outputs) random.shuffle(outputs)
print(outputs)
#op_return_text = "Hello Bal!"
## Convert text to hex
#op_return_hex = op_return_text.encode('utf-8').hex()
#op_return_script = create_op_return_script(op_return_hex)
#outputs.append(PartialTxOutput(value=0, scriptpubkey=op_return_script))
tx = PartialTransaction.from_io( tx = PartialTransaction.from_io(
used_utxos, used_utxos,
outputs, outputs,
locktime=Util.parse_locktime_string(locktime, wallet), locktime=parse_locktime_string(locktime, wallet),
version=2, version=2,
) )
if len(description) > 0: if len(description) > 0:
@@ -183,7 +154,7 @@ def prepare_transactions(locktimes, available_utxos, fees, wallet):
tx.remove_signatures() tx.remove_signatures()
txid = tx.txid() txid = tx.txid()
if txid is None: if txid is None:
raise Exception(f"txid is none: {tx}") raise Exception("txid is none", tx)
tx.heirs = paid_heirs tx.heirs = paid_heirs
tx.my_locktime = locktime tx.my_locktime = locktime
@@ -215,7 +186,7 @@ def get_utxos_from_inputs(tx_inputs, tx, utxos):
# TODO calculate de minimum inputs to be invalidated # TODO calculate de minimum inputs to be invalidated
def invalidate_inheritance_transactions(wallet): def invalidate_inheritance_transactions(wallet):
# listids = [] listids = []
utxos = {} utxos = {}
dtxs = {} dtxs = {}
for k, v in wallet.get_all_labels().items(): for k, v in wallet.get_all_labels().items():
@@ -244,7 +215,7 @@ def invalidate_inheritance_transactions(wallet):
for key, value in utxos: for key, value in utxos:
for tx in value["txs"]: for tx in value["txs"]:
txid = tx.txid() txid = tx.txid()
if txid not in invalidated: if not txid in invalidated:
invalidated.append(tx.txid()) invalidated.append(tx.txid())
remaining[key] = value remaining[key] = value
@@ -252,10 +223,10 @@ def invalidate_inheritance_transactions(wallet):
def print_transaction(heirs, tx, locktimes, tx_fees): def print_transaction(heirs, tx, locktimes, tx_fees):
jtx = tx.to_json() jtx = tx.to_json()
print(f"TX: {tx.txid()}\t-\tLocktime: {jtx['locktime']}") print(f"TX: {tx.txid()}\t-\tLocktime: {jtx['locktime']}")
print("---") print(f"---")
for inp in jtx["inputs"]: for inp in jtx["inputs"]:
print(f"{inp['address']}: {inp['value_sats']}") print(f"{inp['address']}: {inp['value_sats']}")
print("---") print(f"---")
for out in jtx["outputs"]: for out in jtx["outputs"]:
heirname = "" heirname = ""
for key in heirs.keys(): for key in heirs.keys():
@@ -277,7 +248,7 @@ def print_transaction(heirs, tx, locktimes, tx_fees):
print() print()
try: try:
print(tx.serialize_to_network()) print(tx.serialize_to_network())
except Exception: except:
print("impossible to serialize") print("impossible to serialize")
print() print()
@@ -292,15 +263,13 @@ def get_change_output(wallet, in_amount, out_amount, fee):
class Heirs(dict, Logger): class Heirs(dict, Logger):
def __init__(self, db: "WalletDB"):
def __init__(self, wallet):
Logger.__init__(self) Logger.__init__(self)
self.db = wallet.db self.db = db
self.wallet = wallet
d = self.db.get("heirs", {}) d = self.db.get("heirs", {})
try: try:
self.update(d) self.update(d)
except Exception: except e as Exception:
return return
def invalidate_transactions(self, wallet): def invalidate_transactions(self, wallet):
@@ -331,10 +300,10 @@ class Heirs(dict, Logger):
def get_locktimes(self, from_locktime, a=False): def get_locktimes(self, from_locktime, a=False):
locktimes = {} locktimes = {}
for key in self.keys(): for key in self.keys():
locktime = Util.parse_locktime_string(self[key][HEIR_LOCKTIME]) locktime = parse_locktime_string(self[key][HEIR_LOCKTIME])
if locktime > from_locktime and not a or locktime <= from_locktime and a: if locktime > from_locktime and not a or locktime <= from_locktime and a:
locktimes[int(locktime)] = None locktimes[int(locktime)] = None
return list(locktimes.keys()) return locktimes.keys()
def check_locktime(self): def check_locktime(self):
return False return False
@@ -348,8 +317,6 @@ class Heirs(dict, Logger):
column = HEIR_AMOUNT column = HEIR_AMOUNT
if real: if real:
column = HEIR_REAL_AMOUNT column = HEIR_REAL_AMOUNT
if "DUST" in str(v[column]):
column = HEIR_DUST_AMOUNT
value = int( value = int(
math.floor( math.floor(
total_balance total_balance
@@ -360,10 +327,6 @@ class Heirs(dict, Logger):
if value > wallet.dust_threshold(): if value > wallet.dust_threshold():
heir_list[key].insert(HEIR_REAL_AMOUNT, value) heir_list[key].insert(HEIR_REAL_AMOUNT, value)
amount += value amount += value
else:
heir_list[key].insert(HEIR_REAL_AMOUNT, f"DUST: {value}")
heir_list[key].insert(HEIR_DUST_AMOUNT, value)
_logger.info(f"{key}, {value} is dust will be ignored")
except Exception as e: except Exception as e:
raise e raise e
@@ -372,10 +335,10 @@ class Heirs(dict, Logger):
def amount_to_float(self, amount): def amount_to_float(self, amount):
try: try:
return float(amount) return float(amount)
except Exception: except:
try: try:
return float(amount[:-1]) return float(amount[:-1])
except Exception: except:
return 0.0 return 0.0
def fixed_percent_lists_amount(self, from_locktime, dust_threshold, reverse=False): def fixed_percent_lists_amount(self, from_locktime, dust_threshold, reverse=False):
@@ -383,50 +346,29 @@ class Heirs(dict, Logger):
fixed_amount = 0.0 fixed_amount = 0.0
percent_heirs = {} percent_heirs = {}
percent_amount = 0.0 percent_amount = 0.0
fixed_amount_with_dust = 0.0
for key in self.keys(): for key in self.keys():
try: try:
cmp = ( cmp = parse_locktime_string(self[key][HEIR_LOCKTIME]) - from_locktime
Util.parse_locktime_string(self[key][HEIR_LOCKTIME]) - from_locktime
)
if cmp <= 0: if cmp <= 0:
_logger.debug(
"cmp < 0 {} {} {} {}".format(
cmp, key, self[key][HEIR_LOCKTIME], from_locktime
)
)
continue continue
if Util.is_perc(self[key][HEIR_AMOUNT]): if is_perc(self[key][HEIR_AMOUNT]):
percent_amount += float(self[key][HEIR_AMOUNT][:-1]) percent_amount += float(self[key][HEIR_AMOUNT][:-1])
percent_heirs[key] = list(self[key]) percent_heirs[key] = list(self[key])
else: else:
heir_amount = int(math.floor(float(self[key][HEIR_AMOUNT]))) heir_amount = int(math.floor(float(self[key][HEIR_AMOUNT])))
fixed_amount_with_dust += heir_amount
fixed_heirs[key] = list(self[key])
if heir_amount > dust_threshold: if heir_amount > dust_threshold:
fixed_amount += heir_amount fixed_amount += heir_amount
fixed_heirs[key] = list(self[key])
fixed_heirs[key].insert(HEIR_REAL_AMOUNT, heir_amount) fixed_heirs[key].insert(HEIR_REAL_AMOUNT, heir_amount)
else: else:
fixed_heirs[key] = list(self[key]) pass
fixed_heirs[key].insert(
HEIR_REAL_AMOUNT, f"DUST: {heir_amount}"
)
fixed_heirs[key].insert(HEIR_DUST_AMOUNT, heir_amount)
except Exception as e: except Exception as e:
_logger.error(e) _logger.error(e)
return ( return fixed_heirs, fixed_amount, percent_heirs, percent_amount
fixed_heirs,
fixed_amount,
percent_heirs,
percent_amount,
fixed_amount_with_dust,
)
def prepare_lists( def prepare_lists(
self, balance, total_fees, wallet, willexecutor=False, from_locktime=0 self, balance, total_fees, wallet, willexecutor=False, from_locktime=0
): ):
if balance<total_fees or balance < wallet.dust_threshold():
raise BalanceTooLowException(balance,wallet.dust_threshold(),total_fees)
willexecutors_amount = 0 willexecutors_amount = 0
willexecutors = {} willexecutors = {}
heir_list = {} heir_list = {}
@@ -435,7 +377,7 @@ class Heirs(dict, Logger):
locktimes = self.get_locktimes(from_locktime) locktimes = self.get_locktimes(from_locktime)
if willexecutor: if willexecutor:
for locktime in locktimes: for locktime in locktimes:
if int(Util.int_locktime(locktime)) > int(from_locktime): if int(int_locktime(locktime)) > int(from_locktime):
try: try:
base_fee = int(willexecutor["base_fee"]) base_fee = int(willexecutor["base_fee"])
willexecutors_amount += base_fee willexecutors_amount += base_fee
@@ -447,23 +389,19 @@ class Heirs(dict, Logger):
willexecutors[ willexecutors[
'w!ll3x3c"' + willexecutor["url"] + '"' + str(locktime) 'w!ll3x3c"' + willexecutor["url"] + '"' + str(locktime)
] = h ] = h
except Exception: except Exception as e:
return [], False return [], False
else: else:
_logger.error( (
f"heir excluded from will locktime({locktime}){Util.int_locktime(locktime)}<minimum{from_locktime}" _logger.error(
), f"heir excluded from will locktime({locktime}){int_locktime(locktime)}<minimum{from_locktime}"
),
)
heir_list.update(willexecutors) heir_list.update(willexecutors)
newbalance -= willexecutors_amount newbalance -= willexecutors_amount
if newbalance < 0: fixed_heirs, fixed_amount, percent_heirs, percent_amount = (
raise WillExecutorFeeException(willexecutor) self.fixed_percent_lists_amount(from_locktime, wallet.dust_threshold())
( )
fixed_heirs,
fixed_amount,
percent_heirs,
percent_amount,
fixed_amount_with_dust,
) = self.fixed_percent_lists_amount(from_locktime, wallet.dust_threshold())
if fixed_amount > newbalance: if fixed_amount > newbalance:
fixed_amount = self.normalize_perc( fixed_amount = self.normalize_perc(
fixed_heirs, newbalance, fixed_amount, wallet fixed_heirs, newbalance, fixed_amount, wallet
@@ -473,43 +411,44 @@ class Heirs(dict, Logger):
heir_list.update(fixed_heirs) heir_list.update(fixed_heirs)
newbalance -= fixed_amount newbalance -= fixed_amount
if newbalance > 0: if newbalance > 0:
perc_amount = self.normalize_perc( perc_amount = self.normalize_perc(
percent_heirs, newbalance, percent_amount, wallet percent_heirs, newbalance, percent_amount, wallet
) )
newbalance -= perc_amount newbalance -= perc_amount
heir_list.update(percent_heirs) heir_list.update(percent_heirs)
if newbalance > 0: if newbalance > 0:
newbalance += fixed_amount newbalance += fixed_amount
fixed_amount = self.normalize_perc( fixed_amount = self.normalize_perc(
fixed_heirs, newbalance, fixed_amount_with_dust, wallet, real=True fixed_heirs, newbalance, fixed_amount, wallet, real=True
) )
newbalance -= fixed_amount newbalance -= fixed_amount
heir_list.update(fixed_heirs) heir_list.update(fixed_heirs)
heir_list = sorted( heir_list = sorted(
heir_list.items(), heir_list.items(),
key=lambda item: Util.parse_locktime_string(item[1][HEIR_LOCKTIME], wallet), key=lambda item: parse_locktime_string(item[1][HEIR_LOCKTIME], wallet),
) )
locktimes = {} locktimes = {}
for key, value in heir_list: for key, value in heir_list:
locktime = Util.parse_locktime_string(value[HEIR_LOCKTIME]) locktime = parse_locktime_string(value[HEIR_LOCKTIME])
if locktime not in locktimes: if not locktime in locktimes:
locktimes[locktime] = {key: value} locktimes[locktime] = {key: value}
else: else:
locktimes[locktime][key] = value locktimes[locktime][key] = value
return locktimes, onlyfixed return locktimes, onlyfixed
def is_perc(self, key): def is_perc(self, key):
return Util.is_perc(self[key][HEIR_AMOUNT]) return is_perc(self[key][HEIR_AMOUNT])
def buildTransactions( def buildTransactions(
self, bal_plugin, wallet, tx_fees=None, utxos=None, from_locktime=0 self, bal_plugin, wallet, tx_fees=None, utxos=None, from_locktime=0
): ):
Heirs._validate(self) Heirs._validate(self)
if len(self) <= 0: if len(self) <= 0:
_logger.info("while building transactions there was no heirs")
return return
balance = 0.0 balance = 0.0
len_utxo_set = 0 len_utxo_set = 0
@@ -525,7 +464,6 @@ class Heirs(dict, Logger):
len_utxo_set += 1 len_utxo_set += 1
available_utxos.append(utxo) available_utxos.append(utxo)
if len_utxo_set == 0: if len_utxo_set == 0:
_logger.info("no usable utxos")
return return
j = -2 j = -2
willexecutorsitems = list(willexecutors.items()) willexecutorsitems = list(willexecutors.items())
@@ -537,7 +475,7 @@ class Heirs(dict, Logger):
break break
elif 0 <= j: elif 0 <= j:
url, willexecutor = willexecutorsitems[j] url, willexecutor = willexecutorsitems[j]
if not Willexecutors.is_selected(willexecutor) or willexecutor["base_fee"] < wallet.dust_threshold(): if not Willexecutors.is_selected(willexecutor):
continue continue
else: else:
willexecutor["url"] = url willexecutor["url"] = url
@@ -549,66 +487,51 @@ class Heirs(dict, Logger):
break break
fees = {} fees = {}
i = 0 i = 0
while i < 10: while True:
txs = {} txs = {}
redo = False redo = False
i += 1 i += 1
total_fees = 0 total_fees = 0
for fee in fees: for fee in fees:
total_fees += int(fees[fee]) total_fees += int(fees[fee])
# newbalance = balance newbalance = balance
locktimes, onlyfixed = self.prepare_lists(
balance, total_fees, wallet, willexecutor, from_locktime
)
try: try:
locktimes, onlyfixed = self.prepare_lists( txs = prepare_transactions(
balance, total_fees, wallet, willexecutor, from_locktime locktimes, available_utxos[:], fees, wallet
) )
except WillExecutorFeeException: if not txs:
i = 10 return {}
continue except Exception as e:
if locktimes:
try: try:
txs = prepare_transactions( if "w!ll3x3c" in e.heirname:
locktimes, available_utxos[:], fees, wallet Willexecutors.is_selected(willexecutors[w], False)
) break
if not txs: except:
return {} raise e
except Exception as e: total_fees = 0
_logger.error( total_fees_real = 0
f"build transactions: error preparing transactions: {e}" total_in = 0
) for txid, tx in txs.items():
try: tx.willexecutor = willexecutor
if "w!ll3x3c" in e.heirname: fee = tx.estimated_size() * tx_fees
Willexecutors.is_selected( txs[txid].tx_fees = tx_fees
e.heirname[len("w!ll3x3c") :], False total_fees += fee
) total_fees_real += tx.get_fee()
break total_in += tx.input_value()
except Exception: rfee = tx.input_value() - tx.output_value()
raise e if rfee < fee or rfee > fee + wallet.dust_threshold():
total_fees = 0
total_fees_real = 0
total_in = 0
for txid, tx in txs.items():
tx.willexecutor = willexecutor
fee = tx.estimated_size() * tx_fees
txs[txid].tx_fees = tx_fees
total_fees += fee
total_fees_real += tx.get_fee()
total_in += tx.input_value()
rfee = tx.input_value() - tx.output_value()
if rfee < fee or rfee > fee + wallet.dust_threshold():
redo = True
# oldfees = fees.get(tx.my_locktime, 0)
fees[tx.my_locktime] = fee
if balance - total_in > wallet.dust_threshold():
redo = True redo = True
if not redo: oldfees = fees.get(tx.my_locktime, 0)
break fees[tx.my_locktime] = fee
if i >= 10:
break if balance - total_in > wallet.dust_threshold():
else: redo = True
_logger.info( if not redo:
f"no locktimes for willexecutor {willexecutor} skipped" break
) if i >= 10:
break break
alltxs.update(txs) alltxs.update(txs)
@@ -709,13 +632,13 @@ class Heirs(dict, Logger):
return None return None
def validate_address(address): def validate_address(address):
if not bitcoin.is_address(address, net=constants.net): if not bitcoin.is_address(address):
raise NotAnAddress(f"not an address,{address}") raise NotAnAddress(f"not an address,{address}")
return address return address
def validate_amount(amount): def validate_amount(amount):
try: try:
famount = float(amount[:-1]) if Util.is_perc(amount) else float(amount) famount = float(amount[:-1]) if is_perc(amount) else float(amount)
if famount <= 0.00000001: if famount <= 0.00000001:
raise AmountNotValid(f"amount have to be positive {famount} < 0") raise AmountNotValid(f"amount have to be positive {famount} < 0")
except Exception as e: except Exception as e:
@@ -725,7 +648,7 @@ class Heirs(dict, Logger):
def validate_locktime(locktime, timestamp_to_check=False): def validate_locktime(locktime, timestamp_to_check=False):
try: try:
if timestamp_to_check: if timestamp_to_check:
if Util.parse_locktime_string(locktime, None) < timestamp_to_check: if parse_locktime_string(locktime, None) < timestamp_to_check:
raise HeirExpiredException() raise HeirExpiredException()
except Exception as e: except Exception as e:
raise LocktimeNotValid(f"locktime string not properly formatted, {e}") raise LocktimeNotValid(f"locktime string not properly formatted, {e}")
@@ -738,14 +661,12 @@ class Heirs(dict, Logger):
return (address, amount, locktime) return (address, amount, locktime)
def _validate(data, timestamp_to_check=False): def _validate(data, timestamp_to_check=False):
for k, v in list(data.items()): for k, v in list(data.items()):
if k == "heirs": if k == "heirs":
return Heirs._validate(v, timestamp_to_check) return Heirs._validate(v)
try: try:
Heirs.validate_heir(k, v, timestamp_to_check) Heirs.validate_heir(k, v)
except Exception as e: except Exception as e:
_logger.info(f"exception heir removed {e}")
data.pop(k) data.pop(k)
return data return data
@@ -764,28 +685,3 @@ class LocktimeNotValid(ValueError):
class HeirExpiredException(LocktimeNotValid): class HeirExpiredException(LocktimeNotValid):
pass pass
class HeirAmountIsDustException(Exception):
pass
class NoHeirsException(Exception):
pass
class WillExecutorFeeException(Exception):
def __init__(self, willexecutor):
self.willexecutor = willexecutor
def __str__(self):
return "WillExecutorFeeException: {} fee:{}".format(
self.willexecutor["url"], self.willexecutor["base_fee"]
)
class BalanceTooLowException(Exception):
def __init__(self,balance, dust_threshold, fees):
self.balance=balance
self.dust_threshold = dust_threshold
self.fees = fees
def __str__(self):
return f"Balance too low, balance: {self.balance}, dust threshold: {self.dust_threshold}, fees: {self.fees}"

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@@ -1,7 +1,7 @@
{ {
"name": "BAL", "name": "BAL",
"fullname": "Bitcoin After Life", "fullname": "Bitcoin After Life",
"description": "Provides free and decentralized inheritance support<br> Version: 0.2.8", "description": "Provides free and decentralized inheritance support<br> Version: 0.2.2b",
"author":"Svatantrya", "author":"Svatantrya",
"available_for": ["qt"], "available_for": ["qt"],
"icon":"icons/bal32x32.png" "icon":"icons/bal32x32.png"

1981
qt.py
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1001
util.py
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50
wallet_util/README.md
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@@ -1,50 +0,0 @@
## README
### Overview
This tool provides two entry points: a CLI script (bal_wallet_utils.py) and a Qt GUI script (bal_wallet_utils_qt.py) that operate against an Electrum source tree.
### Installation / Preparation
1. Copy both files into the Electrum project root (the folder that contains the Electrum source package):
- bal_wallet_utils.py
- bal_wallet_utils_qt.py
2. Activate the Electrum Python environment (the virtualenv used to run Electrum). Example (PowerShell, adjust path to your venv):
```
.\env\Scripts\Activate.ps1
```
or (cmd):
```
env\Scripts\activate.bat
```
### Running
- CLI version:
```
python bal_wallet_utils.py
```
- Qt GUI version:
```
python bal_wallet_utils_qt.py
```
### Building a Windows executable with PyInstaller
From the project root (with the Electrum environment active), you can build the Qt executable using PyInstaller. Example command (adjust the paths if your environment path differs):
```
pyinstaller.exe --onefile --noconsole --add-data "electrum\currencies.json;electrum" --add-data "electrum\bip39_wallet_formats.json;electrum" --add-data "electrum\lnwire\peer_wire.csv;electrum\lnwire" --add-data "electrum\lnwire\onion_wire.csv;electrum\lnwire" --add-binary "env/Lib/site-packages\electrum_ecc\libsecp256k1-6.dll;electrum_ecc" bal_wallet_utils_qt.py
```
Notes:
- Run the command from the project root so relative paths resolve correctly.
- On Windows the --add-data and --add-binary arguments use ";" to separate source and destination.
- If electrum expects additional data files or native DLLs, include them with additional --add-data / --add-binary flags.
- For debugging include --onedir first to inspect the created folder before using --onefile.
### Troubleshooting
- If PyInstaller is not found, run it via Python:
```
python -m PyInstaller <same arguments>
```
- If the frozen exe fails because DLLs or JSON files are missing, add those files explicitly with --add-data or --add-binary.
- Test the build on a clean Windows VM to ensure all runtime dependencies are included.
License and attribution: include your preferred license or attribution details here.

81
wallet_util/bal_wallet_utils.py
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@@ -1,81 +0,0 @@
#!env/bin/python3
import getpass
import json
import os
import sys
from electrum.storage import WalletStorage
from electrum.util import MyEncoder
default_fees = 100
def fix_will_settings_tx_fees(json_wallet):
tx_fees = json_wallet.get("will_settings", {}).get("tx_fees", False)
have_to_update = False
if tx_fees:
json_wallet["will_settings"]["baltx_fees"] = tx_fees
del json_wallet["will_settings"]["tx_fees"]
have_to_update = True
for txid, willitem in json_wallet["will"].items():
tx_fees = willitem.get("tx_fees", False)
if tx_fees:
json_wallet["will"][txid]["baltx_fees"] = tx_fees
del json_wallet["will"][txid]["tx_fees"]
have_to_update = True
return have_to_update
def uninstall_bal(json_wallet):
if "will_settings" in json_wallet:
del json_wallet["will_settings"]
if "will" in json_wallet:
del json_wallet["will"]
if "heirs" in json_wallet:
del json_wallet["heirs"]
return True
def save(json_wallet, storage):
human_readable = not storage.is_encrypted()
storage.write(
json.dumps(
json_wallet,
indent=4 if human_readable else None,
sort_keys=bool(human_readable),
cls=MyEncoder,
)
)
def read_wallet(path, password=False):
storage = WalletStorage(path)
if storage.is_encrypted():
if not password:
password = getpass.getpass("Enter wallet password: ", stream=None)
storage.decrypt(password)
data = storage.read()
json_wallet = json.loads("[" + data + "]")[0]
return json_wallet, storage
if __name__ == "__main__":
if len(sys.argv) < 3:
print("usage: ./bal_wallet_utils <command> <wallet path>")
print("available commands: uninstall, fix")
exit(1)
if not os.path.exists(sys.argv[2]):
print("Error: wallet not found")
exit(1)
command = sys.argv[1]
path = sys.argv[2]
json_wallet, storage = read_wallet(path)
have_to_save = False
if command == "fix":
have_to_save = fix_will_settings_tx_fees(json_wallet)
if command == "uninstall":
have_to_save = uninstall_bal(json_wallet)
if have_to_save:
save(json_wallet, storage)
else:
print("nothing to do")

234
will.py
View File

@@ -12,10 +12,14 @@ from electrum.transaction import (
tx_from_any, tx_from_any,
) )
from electrum.util import ( from electrum.util import (
FileImportFailed,
bfh, bfh,
decimal_point_to_base_unit_name,
read_json_file,
write_json_file,
) )
from .util import Util from .util import *
from .willexecutors import Willexecutors from .willexecutors import Willexecutors
MIN_LOCKTIME = 1 MIN_LOCKTIME = 1
@@ -24,7 +28,7 @@ _logger = get_logger(__name__)
class Will: class Will:
@staticmethod # return an array with the list of children
def get_children(will, willid): def get_children(will, willid):
out = [] out = []
for _id in will: for _id in will:
@@ -36,7 +40,6 @@ class Will:
return out return out
# build a tree with parent transactions # build a tree with parent transactions
@staticmethod
def add_willtree(will): def add_willtree(will):
for willid in will: for willid in will:
will[willid].children = Will.get_children(will, willid) will[willid].children = Will.get_children(will, willid)
@@ -45,26 +48,22 @@ class Will:
will[child[0]].father = willid will[child[0]].father = willid
# return a list of will sorted by locktime # return a list of will sorted by locktime
@staticmethod
def get_sorted_will(will): def get_sorted_will(will):
return sorted(will.items(), key=lambda x: x[1]["tx"].locktime) return sorted(will.items(), key=lambda x: x[1]["tx"].locktime)
@staticmethod
def only_valid(will): def only_valid(will):
for k, v in will.items(): for k, v in will.items():
if v.get_status("VALID"): if v.get_status("VALID"):
yield k yield k
@staticmethod
def search_equal_tx(will, tx, wid): def search_equal_tx(will, tx, wid):
for w in will: for w in will:
if w != wid and not tx.to_json() != will[w]["tx"].to_json(): if w != wid and not tx.to_json() != will[w]["tx"].to_json():
if will[w]["tx"].txid() != tx.txid(): if will[w]["tx"].txid() != tx.txid():
if Util.cmp_txs(will[w]["tx"], tx): if cmp_txs(will[w]["tx"], tx):
return will[w]["tx"] return will[w]["tx"]
return False return False
@staticmethod
def get_tx_from_any(x): def get_tx_from_any(x):
try: try:
a = str(x) a = str(x)
@@ -75,7 +74,6 @@ class Will:
return x return x
@staticmethod
def add_info_from_will(will, wid, wallet): def add_info_from_will(will, wid, wallet):
if isinstance(will[wid].tx, str): if isinstance(will[wid].tx, str):
will[wid].tx = Will.get_tx_from_any(will[wid].tx) will[wid].tx = Will.get_tx_from_any(will[wid].tx)
@@ -84,11 +82,13 @@ class Will:
for txin in will[wid].tx.inputs(): for txin in will[wid].tx.inputs():
txid = txin.prevout.txid.hex() txid = txin.prevout.txid.hex()
if txid in will: if txid in will:
# print(will[txid].tx.outputs())
# print(txin.prevout.out_idx)
change = will[txid].tx.outputs()[txin.prevout.out_idx] change = will[txid].tx.outputs()[txin.prevout.out_idx]
txin._trusted_value_sats = change.value txin._trusted_value_sats = change.value
try: try:
txin.script_descriptor = change.script_descriptor txin.script_descriptor = change.script_descriptor
except Exception: except:
pass pass
txin.is_mine = True txin.is_mine = True
txin._TxInput__address = change.address txin._TxInput__address = change.address
@@ -96,9 +96,7 @@ class Will:
txin._TxInput__value_sats = change.value txin._TxInput__value_sats = change.value
txin._trusted_value_sats = change.value txin._trusted_value_sats = change.value
@staticmethod def normalize_will(will, wallet=None, others_inputs={}):
def normalize_will(will, wallet=None, others_inputs=None):
others_input = others_inputs if others_inputs is not None else {}
to_delete = [] to_delete = []
to_add = {} to_add = {}
# add info from wallet # add info from wallet
@@ -109,7 +107,6 @@ class Will:
will = willitems will = willitems
errors = {} errors = {}
for wid in will: for wid in will:
txid = will[wid].tx.txid() txid = will[wid].tx.txid()
if txid is None: if txid is None:
@@ -137,8 +134,8 @@ class Will:
to_delete.append(wid) to_delete.append(wid)
to_add[ow.tx.txid()] = ow.to_dict() to_add[ow.tx.txid()] = ow.to_dict()
# for eid, err in errors.items(): for eid, err in errors.items():
# new_txid = err.tx.txid() new_txid = err.tx.txid()
for k, w in to_add.items(): for k, w in to_add.items():
will[k] = w will[k] = w
@@ -147,7 +144,6 @@ class Will:
if wid in will: if wid in will:
del will[wid] del will[wid]
@staticmethod
def new_input(txid, idx, change): def new_input(txid, idx, change):
prevout = TxOutpoint(txid=bfh(txid), out_idx=idx) prevout = TxOutpoint(txid=bfh(txid), out_idx=idx)
inp = PartialTxInput(prevout=prevout) inp = PartialTxInput(prevout=prevout)
@@ -158,11 +154,10 @@ class Will:
inp._TxInput__value_sats = change.value inp._TxInput__value_sats = change.value
return inp return inp
@staticmethod
def check_anticipate(ow: "WillItem", nw: "WillItem"): def check_anticipate(ow: "WillItem", nw: "WillItem"):
anticipate = Util.anticipate_locktime(ow.tx.locktime, days=1) anticipate = anticipate_locktime(ow.tx.locktime, days=1)
if int(nw.tx.locktime) >= int(anticipate): if int(nw.tx.locktime) >= int(anticipate):
if Util.cmp_heirs_by_values( if cmp_heirs_by_values(
ow.heirs, nw.heirs, [0, 1], exclude_willexecutors=True ow.heirs, nw.heirs, [0, 1], exclude_willexecutors=True
): ):
if nw.we and ow.we: if nw.we and ow.we:
@@ -178,7 +173,7 @@ class Will:
ow.tx.locktime ow.tx.locktime
else: else:
if nw.we == ow.we: if nw.we == ow.we:
if not Util.cmp_heirs_by_values(ow.heirs, nw.heirs, [0, 3]): if not cmp_heirs_by_values(ow.heirs, nw.heirs, [0, 3]):
return anticipate return anticipate
else: else:
return ow.tx.locktime return ow.tx.locktime
@@ -188,7 +183,6 @@ class Will:
return anticipate return anticipate
return 4294967295 + 1 return 4294967295 + 1
@staticmethod
def change_input(will, otxid, idx, change, others_inputs, to_delete, to_append): def change_input(will, otxid, idx, change, others_inputs, to_delete, to_append):
ow = will[otxid] ow = will[otxid]
ntxid = ow.tx.txid() ntxid = ow.tx.txid()
@@ -199,7 +193,7 @@ class Will:
outputs = w.tx.outputs() outputs = w.tx.outputs()
found = False found = False
old_txid = w.tx.txid() old_txid = w.tx.txid()
# ntx = None ntx = None
for i in range(0, len(inputs)): for i in range(0, len(inputs)):
if ( if (
inputs[i].prevout.txid.hex() == otxid inputs[i].prevout.txid.hex() == otxid
@@ -210,7 +204,7 @@ class Will:
will[wid].tx.set_rbf(True) will[wid].tx.set_rbf(True)
will[wid].tx._inputs[i] = Will.new_input(wid, idx, change) will[wid].tx._inputs[i] = Will.new_input(wid, idx, change)
found = True found = True
if found: if found == True:
pass pass
new_txid = will[wid].tx.txid() new_txid = will[wid].tx.txid()
@@ -229,7 +223,6 @@ class Will:
to_append, to_append,
) )
@staticmethod
def get_all_inputs(will, only_valid=False): def get_all_inputs(will, only_valid=False):
all_inputs = {} all_inputs = {}
for w, wi in will.items(): for w, wi in will.items():
@@ -238,13 +231,12 @@ class Will:
for i in inputs: for i in inputs:
prevout_str = i.prevout.to_str() prevout_str = i.prevout.to_str()
inp = [w, will[w], i] inp = [w, will[w], i]
if prevout_str not in all_inputs: if not prevout_str in all_inputs:
all_inputs[prevout_str] = [inp] all_inputs[prevout_str] = [inp]
else: else:
all_inputs[prevout_str].append(inp) all_inputs[prevout_str].append(inp)
return all_inputs return all_inputs
@staticmethod
def get_all_inputs_min_locktime(all_inputs): def get_all_inputs_min_locktime(all_inputs):
all_inputs_min_locktime = {} all_inputs_min_locktime = {}
@@ -252,21 +244,20 @@ class Will:
min_locktime = min(values, key=lambda x: x[1].tx.locktime)[1].tx.locktime min_locktime = min(values, key=lambda x: x[1].tx.locktime)[1].tx.locktime
for w in values: for w in values:
if w[1].tx.locktime == min_locktime: if w[1].tx.locktime == min_locktime:
if i not in all_inputs_min_locktime: if not i in all_inputs_min_locktime:
all_inputs_min_locktime[i] = [w] all_inputs_min_locktime[i] = [w]
else: else:
all_inputs_min_locktime[i].append(w) all_inputs_min_locktime[i].append(w)
return all_inputs_min_locktime return all_inputs_min_locktime
@staticmethod
def search_anticipate_rec(will, old_inputs): def search_anticipate_rec(will, old_inputs):
redo = False redo = False
to_delete = [] to_delete = []
to_append = {} to_append = {}
new_inputs = Will.get_all_inputs(will, only_valid=True) new_inputs = Will.get_all_inputs(will, only_valid=True)
for nid, nwi in will.items(): for nid, nwi in will.items():
if nwi.search_anticipate(new_inputs): if nwi.search_anticipate(new_inputs) or nwi.search_anticipate(old_inputs):
if nid != nwi.tx.txid(): if nid != nwi.tx.txid():
redo = True redo = True
to_delete.append(nid) to_delete.append(nid)
@@ -276,37 +267,25 @@ class Will:
Will.change_input( Will.change_input(
will, nid, i, outputs[i], new_inputs, to_delete, to_append will, nid, i, outputs[i], new_inputs, to_delete, to_append
) )
if nwi.search_anticipate(old_inputs):
if nid != nwi.tx.txid():
redo = True
to_delete.append(nid)
to_append[nwi.tx.txid()] = nwi
outputs = nwi.tx.outputs()
for i in range(0, len(outputs)):
Will.change_input(
will, nid, i, outputs[i], new_inputs, to_delete, to_append
)
for w in to_delete: for w in to_delete:
try: try:
del will[w] del will[w]
except Exception: except:
pass pass
for k, w in to_append.items(): for k, w in to_append.items():
will[k] = w will[k] = w
if redo: if redo:
Will.search_anticipate_rec(will, old_inputs) Will.search_anticipate_rec(will, old_inputs)
@staticmethod
def update_will(old_will, new_will): def update_will(old_will, new_will):
all_old_inputs = Will.get_all_inputs(old_will, only_valid=True) all_old_inputs = Will.get_all_inputs(old_will, only_valid=True)
# all_inputs_min_locktime = Will.get_all_inputs_min_locktime(all_old_inputs) all_inputs_min_locktime = Will.get_all_inputs_min_locktime(all_old_inputs)
# all_new_inputs = Will.get_all_inputs(new_will) all_new_inputs = Will.get_all_inputs(new_will)
# check if the new input is already spent by other transaction # check if the new input is already spent by other transaction
# if it is use the same locktime, or anticipate. # if it is use the same locktime, or anticipate.
Will.search_anticipate_rec(new_will, all_old_inputs) Will.search_anticipate_rec(new_will, all_old_inputs)
other_inputs = Will.get_all_inputs(old_will, {}) other_inputs = Will.get_all_inputs(old_will, {})
try: try:
Will.normalize_will(new_will, others_inputs=other_inputs) Will.normalize_will(new_will, others_inputs=other_inputs)
@@ -326,7 +305,6 @@ class Will:
else: else:
continue continue
@staticmethod
def get_higher_input_for_tx(will): def get_higher_input_for_tx(will):
out = {} out = {}
for wid in will: for wid in will:
@@ -340,34 +318,31 @@ class Will:
out[inp.prevout.to_str()] = inp out[inp.prevout.to_str()] = inp
return out return out
@staticmethod
def invalidate_will(will, wallet, fees_per_byte): def invalidate_will(will, wallet, fees_per_byte):
will_only_valid = Will.only_valid_list(will) will_only_valid = Will.only_valid_list(will)
inputs = Will.get_all_inputs(will_only_valid) inputs = Will.get_all_inputs(will_only_valid)
utxos = wallet.get_utxos() utxos = wallet.get_utxos()
filtered_inputs = [] filtered_inputs = []
prevout_to_spend = [] prevout_to_spend = []
current_height = Util.get_current_height(wallet.network)
for prevout_str, ws in inputs.items(): for prevout_str, ws in inputs.items():
for w in ws: for w in ws:
if w[0] not in filtered_inputs: if not w[0] in filtered_inputs:
filtered_inputs.append(w[0]) filtered_inputs.append(w[0])
if prevout_str not in prevout_to_spend: if not prevout_str in prevout_to_spend:
prevout_to_spend.append(prevout_str) prevout_to_spend.append(prevout_str)
balance = 0 balance = 0
utxo_to_spend = [] utxo_to_spend = []
for utxo in utxos: for utxo in utxos:
if utxo.is_coinbase_output() and utxo.block_height < current_height+100:
continue
utxo_str = utxo.prevout.to_str() utxo_str = utxo.prevout.to_str()
if utxo_str in prevout_to_spend: if utxo_str in prevout_to_spend:
balance += inputs[utxo_str][0][2].value_sats() balance += inputs[utxo_str][0][2].value_sats()
utxo_to_spend.append(utxo) utxo_to_spend.append(utxo)
if len(utxo_to_spend) > 0: if len(utxo_to_spend) > 0:
change_addresses = wallet.get_change_addresses_for_new_transaction() change_addresses = wallet.get_change_addresses_for_new_transaction()
out = PartialTxOutput.from_address_and_value(change_addresses[0], balance) out = PartialTxOutput.from_address_and_value(change_addresses[0], balance)
out.is_change = True out.is_change = True
locktime = current_height locktime = get_current_height(wallet.network)
tx = PartialTransaction.from_io( tx = PartialTransaction.from_io(
utxo_to_spend, [out], locktime=locktime, version=2 utxo_to_spend, [out], locktime=locktime, version=2
) )
@@ -392,17 +367,15 @@ class Will:
_logger.debug("len utxo_to_spend <=0") _logger.debug("len utxo_to_spend <=0")
pass pass
@staticmethod
def is_new(will): def is_new(will):
for wid, w in will.items(): for wid, w in will.items():
if w.get_status("VALID") and not w.get_status("COMPLETE"): if w.get_status("VALID") and not w.get_status("COMPLETE"):
return True return True
@staticmethod
def search_rai(all_inputs, all_utxos, will, wallet): def search_rai(all_inputs, all_utxos, will, wallet):
# will_only_valid = Will.only_valid_or_replaced_list(will) will_only_valid = Will.only_valid_or_replaced_list(will)
for inp, ws in all_inputs.items(): for inp, ws in all_inputs.items():
inutxo = Util.in_utxo(inp, all_utxos) inutxo = in_utxo(inp, all_utxos)
for w in ws: for w in ws:
wi = w[1] wi = w[1]
if ( if (
@@ -432,37 +405,29 @@ class Will:
else: else:
pass pass
@staticmethod
def utxos_strs(utxos): def utxos_strs(utxos):
return [Util.utxo_to_str(u) for u in utxos] return [utxo_to_str(u) for u in utxos]
@staticmethod def set_invalidate(wid, will=[]):
def set_invalidate(wid, will=None):
will = will if will is not None else {}
will[wid].set_status("INVALIDATED", True) will[wid].set_status("INVALIDATED", True)
if will[wid].children: if will[wid].children:
for c in will[wid].children.items(): for c in self.children.items():
Will.set_invalidate(c[0], will) Will.set_invalidate(c[0], will)
@staticmethod
def check_tx_height(tx, wallet): def check_tx_height(tx, wallet):
info = wallet.get_tx_info(tx) info = wallet.get_tx_info(tx)
return info.tx_mined_status.height() return info.tx_mined_status.height
# check if transactions are stil valid tecnically valid # check if transactions are stil valid tecnically valid
@staticmethod
def check_invalidated(willtree, utxos_list, wallet): def check_invalidated(willtree, utxos_list, wallet):
for wid, w in willtree.items(): for wid, w in willtree.items():
if ( if not w.father:
not w.father
or willtree[w.father].get_status("CONFIRMED")
or willtree[w.father].get_status("PENDING")
):
for inp in w.tx.inputs(): for inp in w.tx.inputs():
inp_str = Util.utxo_to_str(inp) inp_str = utxo_to_str(inp)
if inp_str not in utxos_list: if not inp_str in utxos_list:
if wallet: if wallet:
height = Will.check_tx_height(w.tx, wallet) height = Will.check_tx_height(w.tx, wallet)
if height < 0: if height < 0:
Will.set_invalidate(wid, willtree) Will.set_invalidate(wid, willtree)
elif height == 0: elif height == 0:
@@ -470,22 +435,21 @@ class Will:
else: else:
w.set_status("CONFIRMED", True) w.set_status("CONFIRMED", True)
# def reflect_to_children(treeitem): def reflect_to_children(treeitem):
# if not treeitem.get_status("VALID"): if not treeitem.get_status("VALID"):
# _logger.debug(f"{tree:item._id} status not valid looking for children") _logger.debug(f"{tree:item._id} status not valid looking for children")
# for child in treeitem.children: for child in treeitem.children:
# wc = willtree[child] wc = willtree[child]
# if wc.get_status("VALID"): if wc.get_status("VALID"):
# if treeitem.get_status("INVALIDATED"): if treeitem.get_status("INVALIDATED"):
# wc.set_status("INVALIDATED", True) wc.set_status("INVALIDATED", True)
# if treeitem.get_status("REPLACED"): if treeitem.get_status("REPLACED"):
# wc.set_status("REPLACED", True) wc.set_status("REPLACED", True)
# if wc.children: if wc.children:
# Will.reflect_to_children(wc) Will.reflect_to_children(wc)
@staticmethod
def check_amounts(heirs, willexecutors, all_utxos, timestamp_to_check, dust): def check_amounts(heirs, willexecutors, all_utxos, timestamp_to_check, dust):
fixed_heirs, fixed_amount, perc_heirs, perc_amount, fixed_amount_with_dust = ( fixed_heirs, fixed_amount, perc_heirs, perc_amount = (
heirs.fixed_percent_lists_amount(timestamp_to_check, dust, reverse=True) heirs.fixed_percent_lists_amount(timestamp_to_check, dust, reverse=True)
) )
wallet_balance = 0 wallet_balance = 0
@@ -507,7 +471,6 @@ class Will:
f"Willexecutor{url} excess base fee({wex['base_fee']}), {fixed_amount} >={temp_balance}" f"Willexecutor{url} excess base fee({wex['base_fee']}), {fixed_amount} >={temp_balance}"
) )
@staticmethod
def check_will(will, all_utxos, wallet, block_to_check, timestamp_to_check): def check_will(will, all_utxos, wallet, block_to_check, timestamp_to_check):
Will.add_willtree(will) Will.add_willtree(will)
utxos_list = Will.utxos_strs(all_utxos) utxos_list = Will.utxos_strs(all_utxos)
@@ -515,7 +478,9 @@ class Will:
Will.check_invalidated(will, utxos_list, wallet) Will.check_invalidated(will, utxos_list, wallet)
all_inputs = Will.get_all_inputs(will, only_valid=True) all_inputs = Will.get_all_inputs(will, only_valid=True)
all_inputs_min_locktime = Will.get_all_inputs_min_locktime(all_inputs) all_inputs_min_locktime = Will.get_all_inputs_min_locktime(all_inputs)
Will.check_will_expired( Will.check_will_expired(
all_inputs_min_locktime, block_to_check, timestamp_to_check all_inputs_min_locktime, block_to_check, timestamp_to_check
) )
@@ -524,29 +489,20 @@ class Will:
Will.search_rai(all_inputs, all_utxos, will, wallet) Will.search_rai(all_inputs, all_utxos, will, wallet)
@staticmethod
def get_min_locktime(will,default_value=None):
return min((v.tx.locktime for v in will.values() if v.get_status('VALID')), default=default_value)
@staticmethod
def is_will_valid( def is_will_valid(
will, will,
block_to_check, block_to_check,
timestamp_to_check, timestamp_to_check,
tx_fees, tx_fees,
all_utxos, all_utxos,
heirs=None, heirs={},
willexecutors=None, willexecutors={},
self_willexecutor=False, self_willexecutor=False,
wallet=False, wallet=False,
callback_not_valid_tx=None, callback_not_valid_tx=None,
): ):
heirs = heirs if heirs is not None else {}
willexecutors= willexecutors if willexecutors is not None else {}
Will.check_will(will, all_utxos, wallet, block_to_check, timestamp_to_check) Will.check_will(will, all_utxos, wallet, block_to_check, timestamp_to_check)
if heirs: if heirs:
if not Will.check_willexecutors_and_heirs( if not Will.check_willexecutors_and_heirs(
will, will,
@@ -564,7 +520,7 @@ class Will:
if all_inputs: if all_inputs:
for utxo in all_utxos: for utxo in all_utxos:
if utxo.value_sats() > 68 * tx_fees: if utxo.value_sats() > 68 * tx_fees:
if not Util.in_utxo(utxo, all_inputs.keys()): if not in_utxo(utxo, all_inputs.keys()):
_logger.info("utxo is not spent", utxo.to_json()) _logger.info("utxo is not spent", utxo.to_json())
_logger.debug(all_inputs.keys()) _logger.debug(all_inputs.keys())
raise NotCompleteWillException( raise NotCompleteWillException(
@@ -574,7 +530,6 @@ class Will:
_logger.info("will ok") _logger.info("will ok")
return True return True
@staticmethod
def check_will_expired(all_inputs_min_locktime, block_to_check, timestamp_to_check): def check_will_expired(all_inputs_min_locktime, block_to_check, timestamp_to_check):
_logger.info("check if some transaction is expired") _logger.info("check if some transaction is expired")
for prevout_str, wid in all_inputs_min_locktime.items(): for prevout_str, wid in all_inputs_min_locktime.items():
@@ -591,22 +546,18 @@ class Will:
raise WillExpiredException( raise WillExpiredException(
f"Will Expired {wid[0][0]}: {locktime}<{timestamp_to_check}" f"Will Expired {wid[0][0]}: {locktime}<{timestamp_to_check}"
) )
else:
from datetime import datetime
_logger.debug(f"Will Not Expired {wid[0][0]}: {datetime.fromtimestamp(locktime).isoformat()} > {datetime.fromtimestamp(timestamp_to_check).isoformat()}")
# def check_all_input_spent_are_in_wallet(): def check_all_input_spent_are_in_wallet():
# _logger.info("check all input spent are in wallet or valid txs") _logger.info("check all input spent are in wallet or valid txs")
# for inp, ws in all_inputs.items(): for inp, ws in all_inputs.items():
# if not Util.in_utxo(inp, all_utxos): if not in_utxo(inp, all_utxos):
# for w in ws: for w in ws:
# if w[1].get_status("VALID"): if w[1].get_status("VALID"):
# prevout_id = w[2].prevout.txid.hex() prevout_id = w[2].prevout.txid.hex()
# parentwill = will.get(prevout_id, False) parentwill = will.get(prevout_id, False)
# if not parentwill or not parentwill.get_status("VALID"): if not parentwill or not parentwill.get_status("VALID"):
# w[1].set_status("INVALIDATED", True) w[1].set_status("INVALIDATED", True)
@staticmethod
def only_valid_list(will): def only_valid_list(will):
out = {} out = {}
for wid, w in will.items(): for wid, w in will.items():
@@ -614,7 +565,6 @@ class Will:
out[wid] = w out[wid] = w
return out return out
@staticmethod
def only_valid_or_replaced_list(will): def only_valid_or_replaced_list(will):
out = [] out = []
for wid, w in will.items(): for wid, w in will.items():
@@ -623,7 +573,6 @@ class Will:
out.append(wid) out.append(wid)
return out return out
@staticmethod
def check_willexecutors_and_heirs( def check_willexecutors_and_heirs(
will, heirs, willexecutors, self_willexecutor, check_date, tx_fees will, heirs, willexecutors, self_willexecutor, check_date, tx_fees
): ):
@@ -637,28 +586,27 @@ class Will:
for wid in Will.only_valid_list(will): for wid in Will.only_valid_list(will):
w = will[wid] w = will[wid]
if w.tx_fees != tx_fees: if w.tx_fees != tx_fees:
raise TxFeesChangedException(f"{tx_fees}: {w.tx_fees}") raise TxFeesChangedException(f"{tx_fees}:", w.tx_fees)
for wheir in w.heirs: for wheir in w.heirs:
if not 'w!ll3x3c"' == wheir[:9]: if not 'w!ll3x3c"' == wheir[:9]:
their = will[wid].heirs[wheir] their = will[wid].heirs[wheir]
if heir := heirs.get(wheir, None): if heir := heirs.get(wheir, None):
if ( if (
heir[0] == their[0] heir[0] == their[0]
and heir[1] == their[1] and heir[1] == their[1]
and Util.parse_locktime_string(heir[2]) and parse_locktime_string(heir[2])
>= Util.parse_locktime_string(their[2]) >= parse_locktime_string(their[2])
): ):
count = heirs_found.get(wheir, 0) count = heirs_found.get(wheir, 0)
heirs_found[wheir] = count + 1 heirs_found[wheir] = count + 1
else: else:
_logger.debug( _logger.debug(
f"heir not present transaction is not valid:{wheir} {wid}, {w}" "heir not present transaction is not valid:", wid, w
) )
continue
if willexecutor := w.we: if willexecutor := w.we:
count = willexecutors_found.get(willexecutor["url"], 0) count = willexecutors_found.get(willexecutor["url"], 0)
if Util.cmp_willexecutor( if cmp_willexecutor(
willexecutor, willexecutors.get(willexecutor["url"], None) willexecutor, willexecutors.get(willexecutor["url"], None)
): ):
willexecutors_found[willexecutor["url"]] = count + 1 willexecutors_found[willexecutor["url"]] = count + 1
@@ -667,26 +615,25 @@ class Will:
no_willexecutor += 1 no_willexecutor += 1
count_heirs = 0 count_heirs = 0
for h in heirs: for h in heirs:
if parse_locktime_string(heirs[h][2]) >= check_date:
if Util.parse_locktime_string(heirs[h][2]) >= check_date:
count_heirs += 1 count_heirs += 1
if h not in heirs_found: if not h in heirs_found:
_logger.debug(f"heir: {h} not found") _logger.debug(f"heir: {h} not found")
raise HeirNotFoundException(h) raise HeirNotFoundException(h)
if not count_heirs: if not count_heirs:
raise NoHeirsException("there are not valid heirs") raise NoHeirsException("there are not valid heirs")
if self_willexecutor and no_willexecutor == 0: if self_willexecutor and no_willexecutor == 0:
raise NoWillExecutorNotPresent("Backup tx") raise NoWillExecutorNotPresent("Backup tx")
for url, we in willexecutors.items(): for url, we in willexecutors.items():
if Willexecutors.is_selected(we): if Willexecutors.is_selected(we):
if url not in willexecutors_found: if not url in willexecutors_found:
_logger.debug(f"will-executor: {url} not fount") _logger.debug(f"will-executor: {url} not fount")
raise WillExecutorNotPresent(url) raise WillExecutorNotPresent(url)
_logger.info("will is coherent with heirs and will-executors") _logger.info("will is coherent with heirs and will-executors")
return True return True
class WillItem(Logger): class WillItem(Logger):
STATUS_DEFAULT = { STATUS_DEFAULT = {
"ANTICIPATED": ["Anticipated", False], "ANTICIPATED": ["Anticipated", False],
@@ -709,15 +656,15 @@ class WillItem(Logger):
} }
def set_status(self, status, value=True): def set_status(self, status, value=True):
# _logger.trace( _logger.debug(
# "set status {} - {} {} -> {}".format( "set status {} - {} {} -> {}".format(
# self._id, status, self.STATUS[status][1], value self._id, status, self.STATUS[status][1], value
# ) )
# ) )
if self.STATUS[status][1] == bool(value): if self.STATUS[status][1] == bool(value):
return None return None
self.status += "." + (("NOT " if not value else "") + _(self.STATUS[status][0])) self.status += "." + ("NOT " if not value else "" + _(self.STATUS[status][0]))
self.STATUS[status][1] = bool(value) self.STATUS[status][1] = bool(value)
if value: if value:
if status in ["INVALIDATED", "REPLACED", "CONFIRMED", "PENDING"]: if status in ["INVALIDATED", "REPLACED", "CONFIRMED", "PENDING"]:
@@ -831,9 +778,9 @@ class WillItem(Logger):
iw = inp[1] iw = inp[1]
self.set_anticipate(iw) self.set_anticipate(iw)
def set_check_willexecutor(self,resp): def check_willexecutor(self):
try: try:
if resp : if resp := Willexecutors.check_transaction(self._id, self.we["url"]):
if "tx" in resp and resp["tx"] == str(self.tx): if "tx" in resp and resp["tx"] == str(self.tx):
self.set_status("PUSHED") self.set_status("PUSHED")
self.set_status("CHECKED") self.set_status("CHECKED")
@@ -873,12 +820,7 @@ class WillItem(Logger):
class WillException(Exception): class WillException(Exception):
def __init__(self,msg="WillException"): pass
self.msg=msg
Exception.__init__(self)
def __str__(self):
return self.msg
class WillExpiredException(WillException): class WillExpiredException(WillException):
@@ -915,6 +857,8 @@ class WillExecutorNotPresent(NotCompleteWillException):
class NoHeirsException(WillException): class NoHeirsException(WillException):
pass pass
class AmountException(WillException): class AmountException(WillException):
pass pass

279
willexecutors.py
View File

@@ -1,38 +1,33 @@
import json import json
import time
from datetime import datetime from datetime import datetime
from functools import partial
from aiohttp import ClientResponse from aiohttp import ClientResponse
from electrum import constants
from electrum.gui.qt.util import WaitingDialog
from electrum.i18n import _ from electrum.i18n import _
from electrum.logging import get_logger from electrum.logging import get_logger
from electrum.network import Network from electrum.network import Network
from .bal import BalPlugin from .bal import BalPlugin
# from .util import *
DEFAULT_TIMEOUT = 5 DEFAULT_TIMEOUT = 5
_logger = get_logger(__name__) _logger = get_logger(__name__)
chainname = BalPlugin.chainname
class Willexecutors: class Willexecutors:
@staticmethod
def save(bal_plugin, willexecutors): def save(bal_plugin, willexecutors):
_logger.debug(f"save {willexecutors},{chainname}")
aw = bal_plugin.WILLEXECUTORS.get() aw = bal_plugin.WILLEXECUTORS.get()
aw[chainname] = willexecutors aw[constants.net.NET_NAME] = willexecutors
bal_plugin.WILLEXECUTORS.set(aw) bal_plugin.WILLEXECUTORS.set(aw)
_logger.debug(f"saved: {aw}")
# bal_plugin.WILLEXECUTORS.set(willexecutors)
@staticmethod
def get_willexecutors( def get_willexecutors(
bal_plugin, update=False, bal_window=False, force=False, task=True bal_plugin, update=False, bal_window=False, force=False, task=True
): ):
willexecutors = bal_plugin.WILLEXECUTORS.get() willexecutors = bal_plugin.WILLEXECUTORS.get()
willexecutors = willexecutors.get(chainname, {}) willexecutors = willexecutors.get(constants.net.NET_NAME, {})
to_del = [] to_del = []
for w in willexecutors: for w in willexecutors:
if not isinstance(willexecutors[w], dict): if not isinstance(willexecutors[w], dict):
@@ -40,38 +35,34 @@ class Willexecutors:
continue continue
Willexecutors.initialize_willexecutor(willexecutors[w], w) Willexecutors.initialize_willexecutor(willexecutors[w], w)
for w in to_del: for w in to_del:
_logger.error( print("ERROR: WILLEXECUTOR TO DELETE:", w)
"error Willexecutor to delete type:{} {}".format(
type(willexecutors[w]), w
)
)
del willexecutors[w] del willexecutors[w]
bal = bal_plugin.WILLEXECUTORS.default.get(chainname, {}) bal = bal_plugin.WILLEXECUTORS.default.get(constants.net.NET_NAME, {})
for bal_url, bal_executor in bal.items(): for bal_url, bal_executor in bal.items():
if bal_url not in willexecutors: if not bal_url in willexecutors:
_logger.debug(f"force add {bal_url} willexecutor") _logger.debug(f"force add {bal_url} willexecutor")
willexecutors[bal_url] = bal_executor willexecutors[bal_url] = bal_executor
# if update: if update:
# found = False found = False
# for url, we in willexecutors.items(): for url, we in willexecutors.items():
# if Willexecutors.is_selected(we): if Willexecutors.is_selected(we):
# found = True found = True
# if found or force: if found or force:
# if bal_plugin.PING_WILLEXECUTORS.get() or force: if bal_plugin.PING_WILLEXECUTORS.get() or force:
# ping_willexecutors = True ping_willexecutors = True
# if bal_plugin.ASK_PING_WILLEXECUTORS.get() and not force: if bal_plugin.ASK_PING_WILLEXECUTORS.get() and not force:
# if bal_window: if bal_window:
# ping_willexecutors = bal_window.window.question( ping_willexecutors = bal_window.window.question(
# _( _(
# "Contact willexecutors servers to update payment informations?" "Contact willexecutors servers to update payment informations?"
# ) )
# ) )
# if ping_willexecutors: if ping_willexecutors:
# if task: if task:
# bal_window.ping_willexecutors(willexecutors, task) bal_window.ping_willexecutors(willexecutors, task)
# else: else:
# bal_window.ping_willexecutors_task(willexecutors) bal_window.ping_willexecutors_task(willexecutors)
w_sorted = dict( w_sorted = dict(
sorted( sorted(
willexecutors.items(), key=lambda w: w[1].get("sort", 0), reverse=True willexecutors.items(), key=lambda w: w[1].get("sort", 0), reverse=True
@@ -79,19 +70,17 @@ class Willexecutors:
) )
return w_sorted return w_sorted
@staticmethod
def is_selected(willexecutor, value=None): def is_selected(willexecutor, value=None):
if not willexecutor: if not willexecutor:
return False return False
if value is not None: if not value is None:
willexecutor["selected"] = value willexecutor["selected"] = value
try: try:
return willexecutor["selected"] return willexecutor["selected"]
except Exception: except:
willexecutor["selected"] = False willexecutor["selected"] = False
return False return False
@staticmethod
def get_willexecutor_transactions(will, force=False): def get_willexecutor_transactions(will, force=False):
willexecutors = {} willexecutors = {}
for wid, willitem in will.items(): for wid, willitem in will.items():
@@ -101,7 +90,7 @@ class Willexecutors:
if willexecutor := willitem.we: if willexecutor := willitem.we:
url = willexecutor["url"] url = willexecutor["url"]
if willexecutor and Willexecutors.is_selected(willexecutor): if willexecutor and Willexecutors.is_selected(willexecutor):
if url not in willexecutors: if not url in willexecutors:
willexecutor["txs"] = "" willexecutor["txs"] = ""
willexecutor["txsids"] = [] willexecutor["txsids"] = []
willexecutor["broadcast_status"] = _("Waiting...") willexecutor["broadcast_status"] = _("Waiting...")
@@ -111,35 +100,31 @@ class Willexecutors:
return willexecutors return willexecutors
# def only_selected_list(willexecutors): def only_selected_list(willexecutors):
# out = {} out = {}
# for url, v in willexecutors.items(): for url, v in willexecutors.items():
# if Willexecutors.is_selected(url): if Willexecutors.is_selected(willexecutor):
# out[url] = v out[url] = v
# def push_transactions_to_willexecutors(will): def push_transactions_to_willexecutors(will):
# willexecutors = Willexecutors.get_transactions_to_be_pushed() willexecutors = get_transactions_to_be_pushed()
# for url in willexecutors: for url in willexecutors:
# willexecutor = willexecutors[url] willexecutor = willexecutors[url]
# if Willexecutors.is_selected(willexecutor): if Willexecutors.is_selected(willexecutor):
# if "txs" in willexecutor: if "txs" in willexecutor:
# Willexecutors.push_transactions_to_willexecutor( Willexecutors.push_transactions_to_willexecutor(
# willexecutors[url]["txs"], url willexecutors[url]["txs"], url
# ) )
@staticmethod def send_request(method, url, data=None, *, timeout=10):
def send_request(
method, url, data=None, *, timeout=10, handle_response=None, count_reply=0
):
network = Network.get_instance() network = Network.get_instance()
if not network: if not network:
raise Exception("You are offline.") raise ErrorConnectingServer("You are offline.")
_logger.debug(f"<-- {method} {url} {data}") _logger.debug(f"<-- {method} {url} {data}")
headers = {} headers = {}
headers["user-agent"] = f"BalPlugin v:{BalPlugin.__version__}" headers["user-agent"] = f"BalPlugin v:{BalPlugin.version()}"
headers["Content-Type"] = "text/plain" headers["Content-Type"] = "text/plain"
if not handle_response:
handle_response = Willexecutors.handle_response
try: try:
if method == "get": if method == "get":
response = Network.send_http_on_proxy( response = Network.send_http_on_proxy(
@@ -147,7 +132,7 @@ class Willexecutors:
url, url,
params=data, params=data,
headers=headers, headers=headers,
on_finish=handle_response, on_finish=Willexecutors.handle_response,
timeout=timeout, timeout=timeout,
) )
elif method == "post": elif method == "post":
@@ -156,64 +141,39 @@ class Willexecutors:
url, url,
body=data, body=data,
headers=headers, headers=headers,
on_finish=handle_response, on_finish=Willexecutors.handle_response,
timeout=timeout, timeout=timeout,
) )
else: else:
raise Exception(f"unexpected {method=!r}") raise Exception(f"unexpected {method=!r}")
except TimeoutError:
if count_reply < 10:
_logger.debug(f"timeout({count_reply}) error: retry in 3 sec...")
time.sleep(3)
return Willexecutors.send_request(
method,
url,
data,
timeout=timeout,
handle_response=handle_response,
count_reply=count_reply + 1,
)
else:
_logger.debug(f"Too many timeouts: {count_reply}")
except Exception as e: except Exception as e:
_logger.error(f"exception sending request {e}")
raise e raise e
else: else:
_logger.debug(f"--> {response}") _logger.debug(f"--> {response}")
return response return response
@staticmethod
def get_we_url_from_response(resp):
url_slices = str(resp.url).split("/")
if len(url_slices) > 2:
url_slices = url_slices[:-2]
return "/".join(url_slices)
@staticmethod
async def handle_response(resp: ClientResponse): async def handle_response(resp: ClientResponse):
r = await resp.text() r = await resp.text()
try: try:
r = json.loads(r) r = json.loads(r)
# url = Willexecutors.get_we_url_from_response(resp) r["status"] = resp.status
# r["url"]= url r["selected"] = Willexecutors.is_selected(willexecutor)
# r["status"]=resp.status r["url"] = url
except Exception as e: except:
_logger.debug(f"error handling response:{e}")
pass pass
return r return r
@staticmethod
class AlreadyPresentException(Exception): class AlreadyPresentException(Exception):
pass pass
@staticmethod
def push_transactions_to_willexecutor(willexecutor): def push_transactions_to_willexecutor(willexecutor):
out = True out = True
try: try:
_logger.debug(f"{willexecutor['url']}: {willexecutor['txs']}") _logger.debug(f"willexecutor['txs']")
if w := Willexecutors.send_request( if w := Willexecutors.send_request(
"post", "post",
willexecutor["url"] + "/" + chainname + "/pushtxs", willexecutor["url"] + "/" + constants.net.NET_NAME + "/pushtxs",
data=willexecutor["txs"].encode("ascii"), data=willexecutor["txs"].encode("ascii"),
): ):
willexecutor["broadcast_status"] = _("Success") willexecutor["broadcast_status"] = _("Success")
@@ -232,25 +192,27 @@ class Willexecutors:
return out return out
@staticmethod
def ping_servers(willexecutors): def ping_servers(willexecutors):
for url, we in willexecutors.items(): for url, we in willexecutors.items():
Willexecutors.get_info_task(url, we) Willexecutors.get_info_task(url, we)
@staticmethod
def get_info_task(url, willexecutor): def get_info_task(url, willexecutor):
w = None w = None
try: try:
_logger.info("GETINFO_WILLEXECUTOR") _logger.info("GETINFO_WILLEXECUTOR")
_logger.debug(url) _logger.debug(url)
w = Willexecutors.send_request("get", url + "/" + chainname + "/info") netname = "bitcoin"
if isinstance(w, dict): if constants.net.NET_NAME != "mainnet":
willexecutor["url"] = url netname = constants.net.NET_NAME
willexecutor["status"] = 200 w = Willexecutors.send_request("get", url + "/" + netname + "/info")
willexecutor["base_fee"] = w["base_fee"]
willexecutor["address"] = w["address"] willexecutor["url"] = url
willexecutor["status"] = w["status"]
willexecutor["base_fee"] = w["base_fee"]
willexecutor["address"] = w["address"]
if not willexecutor["info"]:
willexecutor["info"] = w["info"] willexecutor["info"] = w["info"]
_logger.debug(f"response_data {w}") _logger.debug(f"response_data {w['address']}")
except Exception as e: except Exception as e:
_logger.error(f"error {e} contacting {url}: {w}") _logger.error(f"error {e} contacting {url}: {w}")
willexecutor["status"] = "KO" willexecutor["status"] = "KO"
@@ -258,44 +220,30 @@ class Willexecutors:
willexecutor["last_update"] = datetime.now().timestamp() willexecutor["last_update"] = datetime.now().timestamp()
return willexecutor return willexecutor
@staticmethod def initialize_willexecutor(willexecutor, url, status=None, selected=None):
def initialize_willexecutor(willexecutor, url, status=None, old_willexecutor=None):
old_willexecutor=old_willexecutor if old_willexecutor is not None else {}
willexecutor["url"] = url willexecutor["url"] = url
if status is not None: if not status is None:
willexecutor["status"] = status willexecutor["status"] = status
else: willexecutor["selected"] = Willexecutors.is_selected(willexecutor, selected)
willexecutor["status"] = old_willexecutor.get("status",willexecutor.get("status","Ko"))
willexecutor["selected"]=Willexecutors.is_selected(old_willexecutor) or willexecutor.get("selected",False)
willexecutor["address"]=old_willexecutor.get("address",willexecutor.get("address",""))
willexecutor["promo_code"]=old_willexecutor.get("promo_code",willexecutor.get("promo_code"))
def download_list(bal_plugin):
@staticmethod
def download_list(old_willexecutors,welist_server):
try: try:
welist_server = welist_server if welist_server[-1] == '/' else welist_server+'/' l = Willexecutors.send_request(
willexecutors = Willexecutors.send_request( "get", "https://welist.bitcoin-after.life/data/bitcoin?page=0&limit=100"
"get",
f"{welist_server}data/{chainname}?page=0&limit=100",
) )
# del willexecutors["status"] del l["status"]
for w in willexecutors: for w in l:
if w not in ("status", "url"): willexecutor = l[w]
Willexecutors.initialize_willexecutor( Willexecutors.initialize_willexecutor(willexecutor, w, "New", False)
willexecutors[w], w, None, old_willexecutors.get(w,{})
)
# bal_plugin.WILLEXECUTORS.set(l) # bal_plugin.WILLEXECUTORS.set(l)
# bal_plugin.config.set_key(bal_plugin.WILLEXECUTORS,l,save=True) # bal_plugin.config.set_key(bal_plugin.WILLEXECUTORS,l,save=True)
return willexecutors return l
except Exception as e: except Exception as e:
_logger.error(f"Failed to download willexecutors list: {e}") _logger.error(f"Failed to download willexecutors list: {e}")
return {} return {}
@staticmethod def get_willexecutors_list_from_json(bal_plugin):
def get_willexecutors_list_from_json():
try: try:
with open("willexecutors.json") as f: with open("willexecutors.json") as f:
willexecutors = json.load(f) willexecutors = json.load(f)
@@ -303,13 +251,12 @@ class Willexecutors:
willexecutor = willexecutors[w] willexecutor = willexecutors[w]
Willexecutors.initialize_willexecutor(willexecutor, w, "New", False) Willexecutors.initialize_willexecutor(willexecutor, w, "New", False)
# bal_plugin.WILLEXECUTORS.set(willexecutors) # bal_plugin.WILLEXECUTORS.set(willexecutors)
return willexecutors return h
except Exception as e: except Exception as e:
_logger.error(f"error opening willexecutors json: {e}") _logger.error(f"error opening willexecutors json: {e}")
return {} return {}
@staticmethod
def check_transaction(txid, url): def check_transaction(txid, url):
_logger.debug(f"{url}:{txid}") _logger.debug(f"{url}:{txid}")
try: try:
@@ -321,54 +268,14 @@ class Willexecutors:
_logger.error(f"error contacting {url} for checking txs {e}") _logger.error(f"error contacting {url} for checking txs {e}")
raise e raise e
@staticmethod
def compute_id(willexecutor):
return "{}-{}".format(willexecutor.get("url"), willexecutor.get("chain"))
class WillExecutor:
def __init__(self, url, base_fee, chain, info, version):
self.url = url
self.base_fee = base_fee
self.chain = chain
self.info = info
self.version = version
#class WillExecutor: def from_dict(d):
# def __init__( we = WillExecutor(d["url"], d["base_fee"], d["chain"], d["info"], d["version"])
# self,
# url,
# base_fee,
# chain,
# info,
# version,
# status,
# is_selected=False,
# promo_code="",
# ):
# self.url = url
# self.base_fee = base_fee
# self.chain = chain
# self.info = info
# self.version = version
# self.status = status
# self.promo_code = promo_code
# self.is_selected = is_selected
# self.id = self.compute_id()
#
# def from_dict(d):
# return WillExecutor(
# url=d.get("url", "http://localhost:8000"),
# base_fee=d.get("base_fee", 1000),
# chain=d.get("chain", chainname),
# info=d.get("info", ""),
# version=d.get("version", 0),
# status=d.get("status", "Ko"),
# is_selected=d.get("is_selected", "False"),
# promo_code=d.get("promo_code", ""),
# )
#
# def to_dict(self):
# return {
# "url": self.url,
# "base_fee": self.base_fee,
# "chain": self.chain,
# "info": self.info,
# "version": self.version,
# "promo_code": self.promo_code,
# }
#
# def compute_id(self):
# return f"{self.url}-{self.chain}"