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import asyncio
import json
import logging
import os
import time
from collections import namedtuple
from datetime import date, datetime, timedelta
from functools import wraps
from ipaddress import IPv4Network, IPv6Network, ip_network
from pathlib import Path

import jsonschema
from defence360agent.rpc_tools.validate import (
    SchemaValidator as SchemaValidatorBase,
)
from defence360agent.rpc_tools.validate import validate
from im360.contracts.config import Webshield
from im360.internals.core import IPSetPort, libipset
from im360.utils.validate import IP

logger = logging.getLogger(__name__)

TODAY = "today"
YESTERDAY = "yesterday"

PortProtoBase = namedtuple("PortProtoBase", ["port", "proto"])
PeriodBase = namedtuple("PeriodBase", ["since", "to"])


class PortProto(PortProtoBase):
    def __new__(cls, port, proto):
        if proto not in IPSetPort.PROTOS:
            raise ValueError("Protocol {} is not supported".format(proto))
        if not (IPSetPort.MIN_PORT < port < IPSetPort.MAX_PORT):
            raise ValueError("Port {} is incorrect".format(port))
        return super().__new__(cls, port, proto)

    @classmethod
    def fromstring(cls, pp_string):
        try:
            port, proto = pp_string.split(":")
            port = int(port)
            return cls(port, proto)
        except ValueError as e:
            raise ValueError(
                "Incorrect port_proto ({}): {}".format(str(e), pp_string)
            )


class Period(PeriodBase):
    def __new__(cls, since, to):
        try:
            datetime.fromtimestamp(since), datetime.fromtimestamp(to)
        except ValueError as e:
            raise ValueError("Incorrect value for period: {}".format(str(e)))

        return super().__new__(cls, since, to)

    @classmethod
    def fromstring(cls, period_string):
        now = datetime.now()
        seconds_since_midnight = (
            now - now.replace(hour=0, minute=0, second=0, microsecond=0)
        ).total_seconds()

        if period_string == TODAY:
            since, to = time.time() - seconds_since_midnight, time.time()
        elif period_string == YESTERDAY:
            from_date = (
                time.time()
                - seconds_since_midnight
                - timedelta(days=1).total_seconds()
            )
            to_date = time.time() - seconds_since_midnight

            since, to = from_date, to_date
        else:
            period_names = "weeks", "days", "hours", "minutes", "seconds"
            try:
                val, sfx = int(period_string[:-1]), period_string[-1:]
            except (ValueError, IndexError) as e:
                raise ValueError(
                    "Invalid string from period: {} ({})".format(
                        period_string, str(e)
                    )
                )

            if not sfx.endswith(tuple(p_name[0] for p_name in period_names)):
                # argparse will handle this exception
                raise ValueError("Invalid suffix: {}".format(sfx))

            sfx_expanded = next(xp for xp in period_names if sfx == xp[0])
            real_args = {sfx_expanded: val}

            since, to = (
                (datetime.now() - timedelta(**real_args)).timestamp(),
                time.time(),
            )

        return cls(since, to)


class SchemaValidator(SchemaValidatorBase):
    MAX_IPSET_TIMEOUT = libipset.IPSET_TIMEOUT_MAX  # ipset's maximum ttl

    def _normalize_coerce_port_proto(self, value):
        if isinstance(value, PortProto):
            return value
        elif isinstance(value, str):
            return PortProto.fromstring(value)

        raise ValueError("String or PortProto must be provided")

    def _normalize_coerce_ip(self, value):
        if isinstance(value, (IPv4Network, IPv6Network)):
            return value
        elif isinstance(value, str):
            return ip_network(value)

    def _normalize_coerce_ip_discard_host_bits(self, value):
        if isinstance(value, (IPv4Network, IPv6Network)):
            return value
        elif isinstance(value, str):
            return ip_network(value, strict=False)

    def _normalize_coerce_period(self, value):
        if isinstance(value, Period):
            return value
        elif isinstance(value, str):
            return Period.fromstring(value)

        raise ValueError("String or Period must be provided")

    def _normalize_coerce_tolower(self, value):
        # please, don't try to casefold() instead of lower()
        # see https://tools.ietf.org/html/rfc4343
        return value.lower()

    def _validate_type_port_proto(self, value):
        if isinstance(value, PortProto):
            return True
        return False

    def _validate_type_period(self, value):
        if isinstance(value, Period):
            return True
        return False

    def _validate_type_ip(self, value):
        return isinstance(value, (IPv4Network, IPv6Network))

    def _validator_enforce64min_subnet_mask_for_ipv6(self, field, value):
        if IP.is_valid_ipv6_network(value):
            # 64 -  min subnet mask for ipv6 addr
            if IPv6Network(value).prefixlen > 64:
                self._error(
                    field, "Supported only ipv6 /64 networks: {}".format(value)
                )

    def _validator_max_days(self, field, value):
        max_days = timedelta.max.days
        max_past = date.today() - date(1970, 1, 1)
        if value > max_days or timedelta(days=value) > max_past:
            self._error(
                field,
                "Number of days ({}) exceeds maximum value of {}. "
                "Please, specify lesser amount of days".format(
                    value, max_past.days
                ),
            )

    def _validator_timestamp(self, field, value):
        try:
            datetime.fromtimestamp(value)
        except ValueError as e:
            self._error(
                field, "Incorrect timestamp: {} ({})".format(value, str(e))
            )

    def _validator_expiration(self, field, value):
        if not value:
            return
        expiration_time = value
        now = time.time()
        if expiration_time <= now:
            self._error(
                field,
                "Expiration contains expired timestamp {}!".format(
                    time.strftime("%x %X %Z", time.gmtime(expiration_time))
                ),
            )

        max_expiration_time = now + self.MAX_IPSET_TIMEOUT
        if expiration_time > max_expiration_time:
            self._error(
                field,
                (
                    "Expiration time {} is too far into the future."
                    " It is more than {} seconds from now"
                ).format(expiration_time, self.MAX_IPSET_TIMEOUT),
            )

    def _validator_webshield_is_enabled(self, field, value):
        if not Webshield.ENABLE:
            self._error(
                field,
                "This command is not supported when webshield is disabled",
            )


def validate_middleware(validator):
    base = Path(os.path.dirname(__file__)) / "../.."
    core_schemas = base / "defence360agent/simple_rpc/schema_responses/another"
    imav_schemas = base / "imav/simple_rpc/schema_responses/another"
    im360_schemas = base / "im360/simple_rpc/schema_responses/another"

    def get_file_from_schema_responses_dirs(filename):
        core_schema_path = core_schemas.with_name(filename)
        if core_schema_path.exists():
            return core_schema_path
        imav_schema_path = imav_schemas.with_name(filename)
        if imav_schema_path.exists():
            return imav_schema_path
        return im360_schemas.with_name(filename)

    def get_response_schema(return_type):
        # asserts that return_type does not contain '/'
        schema_path = get_file_from_schema_responses_dirs(
            return_type + ".json"
        )
        with schema_path.open("r") as f:
            schema = json.load(f)
            return schema

    async def validate_response(hashable, result):
        return_type = validator.schema.get(hashable).get("return_type", None)
        if return_type is None:
            return
        schema = get_response_schema(return_type)
        # validation should be performed after
        # result gets such format (ui accepts it)
        # in some cases result never gets such format
        # like test_addmany_invalid_request
        target = {"result": "success", "messages": [], "data": result}
        try:
            jsonschema.validate(target, schema)
        except jsonschema.ValidationError as error:
            logger.critical(
                'Validating %r using schema %r failed with error "%s".',
                target,
                schema,
                error,
                exc_info=error,
            )

    def wrapped(f):
        @wraps(f)
        async def wrapper(request, *args, **kwargs):
            hashable = tuple(request["command"])
            request["params"] = validate(
                validator, hashable, request["params"]
            )
            result = await f(request, *args, **kwargs)
            # no cpu overhead during rpc request
            # since validation is asynchronous
            # (only next request may be delayed a little)
            # run_until_complete waits until this task will be finished (why?)
            # so test will be failed
            asyncio.ensure_future(validate_response(hashable, result))
            return result

        return wrapper

    return wrapped

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