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mirror of https://github.com/searxng/searxng.git synced 2024-11-05 04:40:11 +01:00
searxng/searx/botdetection/config.py
Markus Heiser fd814aac86 [mod] isolation of botdetection from the limiter
This patch was inspired by the discussion around PR-2882 [2].  The goals of this
patch are:

1. Convert plugin searx.plugin.limiter to normal code [1]
2. isolation of botdetection from the limiter [2]
3. searx/{tools => botdetection}/config.py and drop searx.tools
4. in URL /config, 'limiter.enabled' is true only if the limiter is really
   enabled (Redis is available).

This patch moves all the code that belongs to botdetection into namespace
searx.botdetection and code that belongs to limiter is placed in namespace
searx.limiter.

Tthe limiter used to be a plugin at some point botdetection was added, it was
not a plugin.  The modularization of these two components was long overdue.
With the clear modularization, the documentation could then also be organized
according to the architecture.

[1] https://github.com/searxng/searxng/pull/2882
[2] https://github.com/searxng/searxng/pull/2882#issuecomment-1741716891

To test:

- check the app works without the limiter, check `/config`
- check the app works with the limiter and with the token, check `/config`
- make docs.live .. and read
  - http://0.0.0.0:8000/admin/searx.limiter.html
  - http://0.0.0.0:8000/src/searx.botdetection.html#botdetection

Signed-off-by: Markus Heiser <markus.heiser@darmarit.de>
2023-11-01 06:44:56 +01:00

378 lines
12 KiB
Python

# SPDX-License-Identifier: AGPL-3.0-or-later
# lint: pylint
"""Configuration class :py:class:`Config` with deep-update, schema validation
and deprecated names.
The :py:class:`Config` class implements a configuration that is based on
structured dictionaries. The configuration schema is defined in a dictionary
structure and the configuration data is given in a dictionary structure.
"""
from __future__ import annotations
from typing import Any
import copy
import typing
import logging
import pathlib
import pytomlpp as toml
__all__ = ['Config', 'UNSET', 'SchemaIssue']
log = logging.getLogger(__name__)
class FALSE:
"""Class of ``False`` singelton"""
# pylint: disable=multiple-statements
def __init__(self, msg):
self.msg = msg
def __bool__(self):
return False
def __str__(self):
return self.msg
__repr__ = __str__
UNSET = FALSE('<UNSET>')
class SchemaIssue(ValueError):
"""Exception to store and/or raise a message from a schema issue."""
def __init__(self, level: typing.Literal['warn', 'invalid'], msg: str):
self.level = level
super().__init__(msg)
def __str__(self):
return f"[cfg schema {self.level}] {self.args[0]}"
class Config:
"""Base class used for configuration"""
UNSET = UNSET
@classmethod
def from_toml(cls, schema_file: pathlib.Path, cfg_file: pathlib.Path, deprecated: dict) -> Config:
# init schema
log.debug("load schema file: %s", schema_file)
cfg = cls(cfg_schema=toml.load(schema_file), deprecated=deprecated)
if not cfg_file.exists():
log.warning("missing config file: %s", cfg_file)
return cfg
# load configuration
log.debug("load config file: %s", cfg_file)
try:
upd_cfg = toml.load(cfg_file)
except toml.DecodeError as exc:
msg = str(exc).replace('\t', '').replace('\n', ' ')
log.error("%s: %s", cfg_file, msg)
raise
is_valid, issue_list = cfg.validate(upd_cfg)
for msg in issue_list:
log.error(str(msg))
if not is_valid:
raise TypeError(f"schema of {cfg_file} is invalid!")
cfg.update(upd_cfg)
return cfg
def __init__(self, cfg_schema: typing.Dict, deprecated: typing.Dict[str, str]):
"""Construtor of class Config.
:param cfg_schema: Schema of the configuration
:param deprecated: dictionary that maps deprecated configuration names to a messages
These values are needed for validation, see :py:obj:`validate`.
"""
self.cfg_schema = cfg_schema
self.deprecated = deprecated
self.cfg = copy.deepcopy(cfg_schema)
def __getitem__(self, key: str) -> Any:
return self.get(key)
def validate(self, cfg: dict):
"""Validation of dictionary ``cfg`` on :py:obj:`Config.SCHEMA`.
Validation is done by :py:obj:`validate`."""
return validate(self.cfg_schema, cfg, self.deprecated)
def update(self, upd_cfg: dict):
"""Update this configuration by ``upd_cfg``."""
dict_deepupdate(self.cfg, upd_cfg)
def default(self, name: str):
"""Returns default value of field ``name`` in ``self.cfg_schema``."""
return value(name, self.cfg_schema)
def get(self, name: str, default: Any = UNSET, replace: bool = True) -> Any:
"""Returns the value to which ``name`` points in the configuration.
If there is no such ``name`` in the config and the ``default`` is
:py:obj:`UNSET`, a :py:obj:`KeyError` is raised.
"""
parent = self._get_parent_dict(name)
val = parent.get(name.split('.')[-1], UNSET)
if val is UNSET:
if default is UNSET:
raise KeyError(name)
val = default
if replace and isinstance(val, str):
val = val % self
return val
def set(self, name: str, val):
"""Set the value to which ``name`` points in the configuration.
If there is no such ``name`` in the config, a :py:obj:`KeyError` is
raised.
"""
parent = self._get_parent_dict(name)
parent[name.split('.')[-1]] = val
def _get_parent_dict(self, name):
parent_name = '.'.join(name.split('.')[:-1])
if parent_name:
parent = value(parent_name, self.cfg)
else:
parent = self.cfg
if (parent is UNSET) or (not isinstance(parent, dict)):
raise KeyError(parent_name)
return parent
def path(self, name: str, default=UNSET):
"""Get a :py:class:`pathlib.Path` object from a config string."""
val = self.get(name, default)
if val is UNSET:
if default is UNSET:
raise KeyError(name)
return default
return pathlib.Path(str(val))
def pyobj(self, name, default=UNSET):
"""Get python object refered by full qualiffied name (FQN) in the config
string."""
fqn = self.get(name, default)
if fqn is UNSET:
if default is UNSET:
raise KeyError(name)
return default
(modulename, name) = str(fqn).rsplit('.', 1)
m = __import__(modulename, {}, {}, [name], 0)
return getattr(m, name)
# working with dictionaries
def value(name: str, data_dict: dict):
"""Returns the value to which ``name`` points in the ``dat_dict``.
.. code: python
>>> data_dict = {
"foo": {"bar": 1 },
"bar": {"foo": 2 },
"foobar": [1, 2, 3],
}
>>> value('foobar', data_dict)
[1, 2, 3]
>>> value('foo.bar', data_dict)
1
>>> value('foo.bar.xxx', data_dict)
<UNSET>
"""
ret_val = data_dict
for part in name.split('.'):
if isinstance(ret_val, dict):
ret_val = ret_val.get(part, UNSET)
if ret_val is UNSET:
break
return ret_val
def validate(
schema_dict: typing.Dict, data_dict: typing.Dict, deprecated: typing.Dict[str, str]
) -> typing.Tuple[bool, list]:
"""Deep validation of dictionary in ``data_dict`` against dictionary in
``schema_dict``. Argument deprecated is a dictionary that maps deprecated
configuration names to a messages::
deprecated = {
"foo.bar" : "config 'foo.bar' is deprecated, use 'bar.foo'",
"..." : "..."
}
The function returns a python tuple ``(is_valid, issue_list)``:
``is_valid``:
A bool value indicating ``data_dict`` is valid or not.
``issue_list``:
A list of messages (:py:obj:`SchemaIssue`) from the validation::
[schema warn] data_dict: deprecated 'fontlib.foo': <DEPRECATED['foo.bar']>
[schema invalid] data_dict: key unknown 'fontlib.foo'
[schema invalid] data_dict: type mismatch 'fontlib.foo': expected ..., is ...
If ``schema_dict`` or ``data_dict`` is not a dictionary type a
:py:obj:`SchemaIssue` is raised.
"""
names = []
is_valid = True
issue_list = []
if not isinstance(schema_dict, dict):
raise SchemaIssue('invalid', "schema_dict is not a dict type")
if not isinstance(data_dict, dict):
raise SchemaIssue('invalid', f"data_dict issue{'.'.join(names)} is not a dict type")
is_valid, issue_list = _validate(names, issue_list, schema_dict, data_dict, deprecated)
return is_valid, issue_list
def _validate(
names: typing.List,
issue_list: typing.List,
schema_dict: typing.Dict,
data_dict: typing.Dict,
deprecated: typing.Dict[str, str],
) -> typing.Tuple[bool, typing.List]:
is_valid = True
for key, data_value in data_dict.items():
names.append(key)
name = '.'.join(names)
deprecated_msg = deprecated.get(name)
# print("XXX %s: key %s // data_value: %s" % (name, key, data_value))
if deprecated_msg:
issue_list.append(SchemaIssue('warn', f"data_dict '{name}': deprecated - {deprecated_msg}"))
schema_value = value(name, schema_dict)
# print("YYY %s: key %s // schema_value: %s" % (name, key, schema_value))
if schema_value is UNSET:
if not deprecated_msg:
issue_list.append(SchemaIssue('invalid', f"data_dict '{name}': key unknown in schema_dict"))
is_valid = False
elif type(schema_value) != type(data_value): # pylint: disable=unidiomatic-typecheck
issue_list.append(
SchemaIssue(
'invalid',
(f"data_dict: type mismatch '{name}':" f" expected {type(schema_value)}, is: {type(data_value)}"),
)
)
is_valid = False
elif isinstance(data_value, dict):
_valid, _ = _validate(names, issue_list, schema_dict, data_value, deprecated)
is_valid = is_valid and _valid
names.pop()
return is_valid, issue_list
def dict_deepupdate(base_dict: dict, upd_dict: dict, names=None):
"""Deep-update of dictionary in ``base_dict`` by dictionary in ``upd_dict``.
For each ``upd_key`` & ``upd_val`` pair in ``upd_dict``:
0. If types of ``base_dict[upd_key]`` and ``upd_val`` do not match raise a
:py:obj:`TypeError`.
1. If ``base_dict[upd_key]`` is a dict: recursively deep-update it by ``upd_val``.
2. If ``base_dict[upd_key]`` not exist: set ``base_dict[upd_key]`` from a
(deep-) copy of ``upd_val``.
3. If ``upd_val`` is a list, extend list in ``base_dict[upd_key]`` by the
list in ``upd_val``.
4. If ``upd_val`` is a set, update set in ``base_dict[upd_key]`` by set in
``upd_val``.
"""
# pylint: disable=too-many-branches
if not isinstance(base_dict, dict):
raise TypeError("argument 'base_dict' is not a ditionary type")
if not isinstance(upd_dict, dict):
raise TypeError("argument 'upd_dict' is not a ditionary type")
if names is None:
names = []
for upd_key, upd_val in upd_dict.items():
# For each upd_key & upd_val pair in upd_dict:
if isinstance(upd_val, dict):
if upd_key in base_dict:
# if base_dict[upd_key] exists, recursively deep-update it
if not isinstance(base_dict[upd_key], dict):
raise TypeError(f"type mismatch {'.'.join(names)}: is not a dict type in base_dict")
dict_deepupdate(
base_dict[upd_key],
upd_val,
names
+ [
upd_key,
],
)
else:
# if base_dict[upd_key] not exist, set base_dict[upd_key] from deepcopy of upd_val
base_dict[upd_key] = copy.deepcopy(upd_val)
elif isinstance(upd_val, list):
if upd_key in base_dict:
# if base_dict[upd_key] exists, base_dict[up_key] is extended by
# the list from upd_val
if not isinstance(base_dict[upd_key], list):
raise TypeError(f"type mismatch {'.'.join(names)}: is not a list type in base_dict")
base_dict[upd_key].extend(upd_val)
else:
# if base_dict[upd_key] doesn't exists, set base_dict[key] from a deepcopy of the
# list in upd_val.
base_dict[upd_key] = copy.deepcopy(upd_val)
elif isinstance(upd_val, set):
if upd_key in base_dict:
# if base_dict[upd_key] exists, base_dict[up_key] is updated by the set in upd_val
if not isinstance(base_dict[upd_key], set):
raise TypeError(f"type mismatch {'.'.join(names)}: is not a set type in base_dict")
base_dict[upd_key].update(upd_val.copy())
else:
# if base_dict[upd_key] doesn't exists, set base_dict[upd_key] from a copy of the
# set in upd_val
base_dict[upd_key] = upd_val.copy()
else:
# for any other type of upd_val replace or add base_dict[upd_key] by a copy
# of upd_val
base_dict[upd_key] = copy.copy(upd_val)