skato-ansible/sshkey_man.py

from re import Pattern as RegEx
from pathlib import Path, PurePath
from custtypes import ExecutedPath, IdlePath, VirtualPrivateServers, AnsibleScopes
from enum import Enum
from softman import Apps
from random import choice as gamble
from collections.abc import Sequence
from typing import Never, Union, Self, Callable, Required, Literal
from typing import TypedDict as Dict
from glob import glob as globbify
from whereami import USER_PATH
from softman import Softs
import os

class RootFate(Enum):
    disposal = 0
    retention = 1


class SSHKeyType(Enum):
    pubkey = 0
    privkey = 1
    dual = 2


# @TODO create unit tests for below class
class SSHKey:
    def __init__(self, *path: ExecutedPath):
        if len(path) > 2 or len(path) < 1:
            raise ValueError

        self.__idx: int = 0
        self.__prev: Self | None = None
        self.__next: Self | None = None

        self.category: SSHKeyType | None = None
        if len(path) < 2:
            self.__value: ExecutedPath | tuple[ExecutedPath] = path[0]
        else:
            self.category = SSHKeyType.dual.name
            self.__value: ExecutedPath  | tuple[ExecutedPath] = path

    def __int__(self) -> int:
        return self.__idx

    def __str__(self) -> str:
        return str(self.__value)

    def __repr__(self) -> str:
        return "SSHKey(" + str(self.__value) + ")"

    def __nonzero__(self) -> bool:
        return True

    def __format__(self, formatstr) -> str:
        match formatstr:
            case "item":
                return str(self.__idx) + ": " + str(self.__value)
            case "int":
                return str(self.__idx)
            case _:
                return str(self.__value)

    def __next__(self) -> ExecutedPath | tuple[ExecutedPath]:
        return self.__next

    def __prev__(self) -> ExecutedPath | tuple[ExecutedPath]:
        return self.__prev

    def __call__(self, *path: ExecutedPath | str | None) -> ExecutedPath | tuple[ExecutedPath]:
        if path is not None or len(path) > 0:
            if len(path) > 2:
                raise ValueError

            path = tuple(map(lambda s: Path(s) if isinstance(s, str) else s, path))

            if len(path) < 2:
                self.__value = path[0]
            else:
                self.__value = path

        return self.__value

    def __eq__(self, other: Self) -> bool:
        return self.__value == other._SSHKey__value

    def __ne__(self, other: Self) -> bool | Never:
        return self.__value != other._SSHKey__value

    def __eqcontent__(self, other: Self) -> bool:
        return self.__value.read_text() == other._SSHKey__value.read_text()

    def __neqcontent__(self, other: Self) -> bool:
        return self.__value.read_text() != other._SSHKey__value.read_text()

    def __add__(self, other: Self | ExecutedPath | str):
        raise NotImplementedError

    def __radd__(self, other: Self | ExecutedPath | str):
        raise NotImplementedError

    def __sub__(self, other: Self | ExecutedPath | str):
        raise NotImplementedError

    def __rsub__(self, other: Self | ExecutedPath | str):
        raise NotImplementedError

    def update(self, *path: ExecutedPath | str) -> Self | Never:
        if len(path) > 2 or len(path) < 1:
            raise ValueError

        path = tuple(map(lambda s: Path(s) if isinstance(s, str) else s, path))

        if len(path) < 2:
            self.__value = path[0]
        else:
            self.__value = path

        return self

    def replace(self, old: ExecutedPath | str | tuple[ExecutedPath | str] | list[ExecutedPath | str], new: ExecutedPath  | str | tuple[ExecutedPath | str] | list[ExecutedPath | str]) -> Self | Never:
        if isinstance(old, str):
            old = Path(old)
        if isinstance(new, str):
            new = Path(new)

        if isinstance(old, (list, tuple)):
            if len(old) > 2 or len(old) < 1:
                raise ValueError

            old = tuple(map(lambda p: Path(p) if isinstance(p, str) else p, old))
        if isinstance(new, (list, tuple)):
            if len(new) > 2 or len(new) < 1:
                raise ValueError

            new = tuple(map(lambda p: Path(p) if isinstance(p, str) else p, new))

        if isinstance(self.__value, (tuple, list)):
            if isinstance(old, tuple):
                remaining_value = list(filter(lambda p: p not in old, self.__value))

                if isinstance(new, tuple):
                    self.__value = (*remaining_value, *new)
                else:
                    self.__value = (*remaining_value, new)
            else:
                remaining_value = list(filter(lambda p: p != old, self.__value))

                if isinstance(new, tuple):
                    self.__value = (*remaining_value, *new)
                else:
                    self.__value = (*remaining_value, new)

            if len(self.__value) > 2:
                self.__value = self.__value[0]
        elif isinstance(self.__value, ExecutedPath):
            if isinstance(old, tuple):
                remaining_value = None if self.__value in old else self.__value
            else:
                remaining_value = None if self.__value == old else self.__value

            if remaining_value is None:
                self.__value = new
            else:
                raise ValueError

        return self

    def read(self, idx: int | None = None) -> str | tuple[str]:
        if idx is not None and isinstance(self.__value, tuple):
            result = self.__value[idx]
        else:
            if idx is not None:
                raise KeyError

            result = self.__value
        
        if isinstance(result, tuple):
            result = tuple(map(lambda p: p.read_text(), result))
        else:
            result = result.read_text()

        return result

    @property
    def status(self) -> Never:
        # @TODO this method should return string or Enum value after analyzing whether this key is public or private
        raise NotImplementedError


def prev(arg):
    if isinstance(arg, SSHKey):
        return arg._SSHKey__prev__()
    else:
        raise TypeError

def stream_equal(s1, s2) -> bool | Never:
    if isinstance(s1, SSHKey) and isinstance(s2, SSHKey):
        return s1._SSHKey__eqcontent__(s2)
    else:
        raise TypeError


# @TODO create unit tests for below class
class SSHKeyCollection(Sequence):
    __user_path: ExecutedPath = USER_PATH

    def __init__(self):
        self.__current: SSHKey | None = None
        self.__first: SSHKey | None = None
        self.__last: SSHKey | None = None
        self.__indices: range | None = None

    def __getitem__(self, key: int) -> SSHKey | Never:
        self.__current = self.__first
        
        if self.__current is None:
            raise KeyError
        elif int(self.__current) == key:
            return self.__current
        else:
            while int(self.__current) != key:
                self.__current = next(self.__current)

                if self.__current is None:
                    raise KeyError

        return self.__current

    def __len__(self) -> int:
        if self.__indices is None:
            return 0

        return len(self.__indices)

    def pop(self, key: int = -1) -> Never:
        self.__current = self.__first

        if self.__current is None:
            raise KeyError

        if key == -1:
            if self.__last is not None:
                past = self.__last
                self.__last._SSHKey__prev._SSHKey__next = None
                self.__last = self.__last._SSHKey__prev

                self.__current = self.__last
            else:
                past = self.__first
                self.__first = None
            return past
        elif key <= -2:
            raise NotImplementedError
        else:
            while int(self.__current) != key:
                self.__current = next(self.__current)

                if self.__current is None:
                    raise KeyError
            past = self.__current

            count = self.__current._SSHKey__idx
            prior = self.__current._SSHKey__prev
            posterior = self.__current._SSHKey__next
            posterior._SSHKey__prev = prior
            posterior._SSHKey__prev._SSHKey__next = posterior
            self.__current = posterior
            while self.__current is not None:
                self.__current._SSHKey__idx = count
                self.__current = next(self.__current)
                count += 1

        return past

    def remove(self) -> Never:
        raise NotImplementedError

    def append(self, *value: ExecutedPath | str) -> SSHKey:
        if len(value) < 1 or len(value) > 2:
            raise ValueError

        value = tuple(map(lambda s: Path(s) if isinstance(s, str) else s, value))

        ssh_key = SSHKey(*value)

        if self.__first is None:
            # print("branch1")
            ssh_key._SSHKey__idx = 0
            # print(ssh_key._SSHKey__idx)
            self.__indices = range(ssh_key._SSHKey__idx + 1)
            self.__first = ssh_key

            self.__current = self.__first
        else:
            # print("branch2")
            if self.__last is not None:
                # print("branch2.1")
                ssh_key._SSHKey__idx = self.__last._SSHKey__idx + 1
                # print(ssh_key._SSHKey__idx)
                self.__last._SSHKey__next = ssh_key
                self.__last._SSHKey__next._SSHKey__prev = self.__last
                self.__last = next(self.__last)
            else:
                # print("branch2.2")
                ssh_key._SSHKey__idx = self.__first._SSHKey__idx + 1
                # print(ssh_key._SSHKey__idx)
                self.__first._SSHKey__next = ssh_key
                self.__first._SSHKey__next._SSHKey__prev = self.__first
                self.__last = self.__first._SSHKey__next

            self.__indices = range(ssh_key._SSHKey__idx + 1)
            self.__current = self.__last

        #print(self.__current)
        return self.__current

    def __setitem__(self, key: int, *value: ExecutedPath | str) -> None | Never:
        if len(value) < 1 or len(value) > 2:
            raise ValueError

        value = tuple(map(lambda s: Path(s) if isinstance(s, str) else s, value))

        self.__current = self.__first
        if self.__current is None:
            raise KeyError
        elif int(self.__current) == key:
            if self.__current() is None or len(self.__current()) < 1:
                self.__current(*value)
        else:
            if int(self.__current) == key:
                return self.__current(*value)

            while int(self.__current) != key:
                self.__current = next(self.__current)

                if self.__current is None:
                    raise KeyError

            self.__current(*value)

    def __delitem__(self, key: int) -> None | Never:
        self.__current = self.__first

        if self.__current is None:
            raise KeyError

        if key == -1:
            if self.__last is not None:
                self.__last._SSHKey__prev._SSHKey__next = None
                self.__last = self.__last._SSHKey__prev

                self.__current = self.__last
            else:
                self.__first = None
            return past
        elif key <= -2:
            raise NotImplementedError
        else:
            while int(self.__current) != key:
                self.__current = next(self.__current)

                if self.__current is None:
                    raise KeyError

            count = self.__current._SSHKey__idx
            prior = self.__current._SSHKey__prev
            posterior = self.__current._SSHKey__next
            posterior._SSHKey__prev = prior
            posterior._SSHKey__prev._SSHKey__next = posterior
            self.__current = posterior
            while self.__current is not None:
                self.__current._SSHKey__idx = count
                self.__current = next(self.__current)
                count += 1

    @property
    def head(self) -> SSHKey | None:
        return self.__first

    @property
    def tail(self) -> SSHKey | None:
        if self.__last is None:
            return self.__first

        return self.__last

    # @TODO make sure to implement below method
    def __contains__(self) -> bool | Never:
        raise NotImplementedError

    def __missing__(self) -> Never:
        raise NotImplementedError

    # @TODO make sure to implement below method
    def __iter__(self) -> Self | Never:
        raise NotImplementedError

    def count(self, query: RegEx | str) -> int | Never:
        raise NotImplementedError

    def pull(self, query: RegEx | str = "*") -> Never:
        raise NotImplementedError

    def reverse(self) -> None | Never:
        raise NotImplementedError

    def sort(self, key: Callable = (lambda e: e), reverse: bool = False) -> None | Never:
        raise NotImplementedError



class UserSSH:
    def __init__(self, username: str = "root", paths: Apps | None = None, keys: dict = dict(), password: str = "password123", fate: RootFate = RootFate.disposal.name):
        self.username = username
        self.paths = paths
        self.keys = keys
        self.password = password
        self.fate = fate