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https://git.selfprivacy.org/SelfPrivacy/selfprivacy-rest-api.git
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318 lines
10 KiB
Python
318 lines
10 KiB
Python
#!/usr/bin/env python3
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"""Token management utils"""
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import secrets
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from datetime import datetime, timedelta
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import re
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import typing
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from mnemonic import Mnemonic
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from . import ReadUserData, UserDataFiles, WriteUserData, parse_date
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"""
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Token are stored in the tokens.json file.
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File contains device tokens, recovery token and new device auth token.
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File structure:
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{
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"tokens": [
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{
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"token": "device token",
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"name": "device name",
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"date": "date of creation",
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}
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],
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"recovery_token": {
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"token": "recovery token",
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"date": "date of creation",
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"expiration": "date of expiration",
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"uses_left": "number of uses left"
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},
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"new_device": {
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"token": "new device auth token",
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"date": "date of creation",
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"expiration": "date of expiration",
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}
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}
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Recovery token may or may not have expiration date and uses_left.
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There may be no recovery token at all.
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Device tokens must be unique.
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"""
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def _get_tokens():
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"""Get all tokens as list of tokens of every device"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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return [token["token"] for token in tokens["tokens"]]
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def _get_token_names():
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"""Get all token names"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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return [t["name"] for t in tokens["tokens"]]
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def _validate_token_name(name):
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"""Token name must be an alphanumeric string and not empty.
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Replace invalid characters with '_'
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If token name exists, add a random number to the end of the name until it is unique.
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"""
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if not re.match("^[a-zA-Z0-9]*$", name):
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name = re.sub("[^a-zA-Z0-9]", "_", name)
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if name == "":
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name = "Unknown device"
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while name in _get_token_names():
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name += str(secrets.randbelow(10))
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return name
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def is_token_valid(token):
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"""Check if token is valid"""
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if token in _get_tokens():
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return True
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return False
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def is_token_name_exists(token_name):
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"""Check if token name exists"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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return token_name in [t["name"] for t in tokens["tokens"]]
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def is_token_name_pair_valid(token_name, token):
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"""Check if token name and token pair exists"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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for t in tokens["tokens"]:
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if t["name"] == token_name and t["token"] == token:
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return True
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return False
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def get_token_name(token):
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"""Return the name of the token provided"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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for t in tokens["tokens"]:
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if t["token"] == token:
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return t["name"]
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return None
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def get_tokens_info():
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"""Get all tokens info without tokens themselves"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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return [
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{"name": token["name"], "date": token["date"]} for token in tokens["tokens"]
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]
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def _generate_token():
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"""Generates new token and makes sure it is unique"""
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token = secrets.token_urlsafe(32)
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while token in _get_tokens():
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token = secrets.token_urlsafe(32)
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return token
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def create_token(name):
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"""Create new token"""
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token = _generate_token()
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name = _validate_token_name(name)
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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tokens["tokens"].append(
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{
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"token": token,
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"name": name,
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"date": str(datetime.now().strftime("%Y-%m-%dT%H:%M:%S.%f")),
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}
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)
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return token
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def delete_token(token_name):
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"""Delete token"""
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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tokens["tokens"] = [t for t in tokens["tokens"] if t["name"] != token_name]
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def refresh_token(token: str) -> typing.Optional[str]:
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"""Change the token field of the existing token"""
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new_token = _generate_token()
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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for t in tokens["tokens"]:
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if t["token"] == token:
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t["token"] = new_token
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return new_token
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return None
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def is_recovery_token_exists():
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"""Check if recovery token exists"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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return "recovery_token" in tokens
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def is_recovery_token_valid():
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"""Check if recovery token is valid"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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if "recovery_token" not in tokens:
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return False
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recovery_token = tokens["recovery_token"]
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if "uses_left" in recovery_token and recovery_token["uses_left"] is not None:
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if recovery_token["uses_left"] <= 0:
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return False
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if "expiration" not in recovery_token or recovery_token["expiration"] is None:
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return True
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return datetime.now() < parse_date(recovery_token["expiration"])
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def get_recovery_token_status():
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"""Get recovery token date of creation, expiration and uses left"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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if "recovery_token" not in tokens:
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return None
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recovery_token = tokens["recovery_token"]
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return {
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"date": recovery_token["date"],
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"expiration": recovery_token["expiration"]
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if "expiration" in recovery_token
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else None,
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"uses_left": recovery_token["uses_left"]
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if "uses_left" in recovery_token
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else None,
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}
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def _get_recovery_token():
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"""Get recovery token"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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if "recovery_token" not in tokens:
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return None
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return tokens["recovery_token"]["token"]
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def generate_recovery_token(
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expiration: typing.Optional[datetime], uses_left: typing.Optional[int]
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) -> str:
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"""Generate a 24 bytes recovery token and return a mneomnic word list.
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Write a string representation of the recovery token to the tokens.json file.
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"""
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# expires must be a date or None
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# uses_left must be an integer or None
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if expiration is not None:
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if not isinstance(expiration, datetime):
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raise TypeError("expires must be a datetime object")
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if uses_left is not None:
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if not isinstance(uses_left, int):
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raise TypeError("uses_left must be an integer")
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if uses_left <= 0:
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raise ValueError("uses_left must be greater than 0")
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recovery_token = secrets.token_bytes(24)
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recovery_token_str = recovery_token.hex()
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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tokens["recovery_token"] = {
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"token": recovery_token_str,
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"date": str(datetime.now().strftime("%Y-%m-%dT%H:%M:%S.%f")),
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"expiration": expiration.strftime("%Y-%m-%dT%H:%M:%S.%f")
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if expiration is not None
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else None,
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"uses_left": uses_left if uses_left is not None else None,
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}
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return Mnemonic(language="english").to_mnemonic(recovery_token)
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def use_mnemonic_recoverery_token(mnemonic_phrase, name):
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"""Use the recovery token by converting the mnemonic word list to a byte array.
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If the recovery token if invalid itself, return None
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If the binary representation of phrase not matches
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the byte array of the recovery token, return None.
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If the mnemonic phrase is valid then generate a device token and return it.
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Substract 1 from uses_left if it exists.
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mnemonic_phrase is a string representation of the mnemonic word list.
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"""
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if not is_recovery_token_valid():
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return None
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recovery_token_str = _get_recovery_token()
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if recovery_token_str is None:
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return None
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recovery_token = bytes.fromhex(recovery_token_str)
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if not Mnemonic(language="english").check(mnemonic_phrase):
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return None
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phrase_bytes = Mnemonic(language="english").to_entropy(mnemonic_phrase)
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if phrase_bytes != recovery_token:
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return None
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token = _generate_token()
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name = _validate_token_name(name)
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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tokens["tokens"].append(
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{
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"token": token,
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"name": name,
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"date": str(datetime.now()),
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}
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)
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if "recovery_token" in tokens:
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if (
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"uses_left" in tokens["recovery_token"]
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and tokens["recovery_token"]["uses_left"] is not None
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):
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tokens["recovery_token"]["uses_left"] -= 1
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return token
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def get_new_device_auth_token() -> str:
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"""Generate a new device auth token which is valid for 10 minutes
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and return a mnemonic phrase representation
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Write token to the new_device of the tokens.json file.
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"""
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token = secrets.token_bytes(16)
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token_str = token.hex()
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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tokens["new_device"] = {
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"token": token_str,
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"date": str(datetime.now()),
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"expiration": str(datetime.now() + timedelta(minutes=10)),
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}
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return Mnemonic(language="english").to_mnemonic(token)
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def _get_new_device_auth_token():
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"""Get new device auth token. If it is expired, return None"""
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with ReadUserData(UserDataFiles.TOKENS) as tokens:
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if "new_device" not in tokens:
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return None
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new_device = tokens["new_device"]
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if "expiration" not in new_device:
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return None
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expiration = parse_date(new_device["expiration"])
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if datetime.now() > expiration:
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return None
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return new_device["token"]
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def delete_new_device_auth_token():
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"""Delete new device auth token"""
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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if "new_device" in tokens:
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del tokens["new_device"]
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def use_new_device_auth_token(mnemonic_phrase, name):
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"""Use the new device auth token by converting the mnemonic string to a byte array.
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If the mnemonic phrase is valid then generate a device token and return it.
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New device auth token must be deleted.
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"""
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token_str = _get_new_device_auth_token()
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if token_str is None:
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return None
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token = bytes.fromhex(token_str)
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if not Mnemonic(language="english").check(mnemonic_phrase):
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return None
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phrase_bytes = Mnemonic(language="english").to_entropy(mnemonic_phrase)
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if phrase_bytes != token:
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return None
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token = create_token(name)
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with WriteUserData(UserDataFiles.TOKENS) as tokens:
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if "new_device" in tokens:
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del tokens["new_device"]
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return token
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