detection_rules/rule.py (1,140 lines of code) (raw):
# Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
# or more contributor license agreements. Licensed under the Elastic License
# 2.0; you may not use this file except in compliance with the Elastic License
# 2.0.
"""Rule object."""
import copy
import dataclasses
import json
import os
import re
import time
import typing
from abc import ABC, abstractmethod
from dataclasses import dataclass, field
from functools import cached_property
from pathlib import Path
from typing import Any, Dict, List, Literal, Optional, Tuple, Union
from urllib.parse import urlparse
from uuid import uuid4
import eql
import marshmallow
from semver import Version
from marko.block import Document as MarkoDocument
from marko.ext.gfm import gfm
from marshmallow import ValidationError, pre_load, validates_schema
import kql
from . import beats, ecs, endgame, utils
from .config import load_current_package_version, parse_rules_config
from .integrations import (find_least_compatible_version, get_integration_schema_fields,
load_integrations_manifests, load_integrations_schemas,
parse_datasets)
from .mixins import MarshmallowDataclassMixin, StackCompatMixin
from .rule_formatter import nested_normalize, toml_write
from .schemas import (SCHEMA_DIR, definitions, downgrade,
get_min_supported_stack_version, get_stack_schemas,
strip_non_public_fields)
from .schemas.stack_compat import get_restricted_fields
from .utils import PatchedTemplate, cached, convert_time_span, get_nested_value, set_nested_value
_META_SCHEMA_REQ_DEFAULTS = {}
MIN_FLEET_PACKAGE_VERSION = '7.13.0'
TIME_NOW = time.strftime('%Y/%m/%d')
RULES_CONFIG = parse_rules_config()
DEFAULT_PREBUILT_RULES_DIRS = RULES_CONFIG.rule_dirs
DEFAULT_PREBUILT_BBR_DIRS = RULES_CONFIG.bbr_rules_dirs
BYPASS_VERSION_LOCK = RULES_CONFIG.bypass_version_lock
BUILD_FIELD_VERSIONS = {
"related_integrations": (Version.parse('8.3.0'), None),
"required_fields": (Version.parse('8.3.0'), None),
"setup": (Version.parse('8.3.0'), None)
}
@dataclass
class DictRule:
"""Simple object wrapper for raw rule dicts."""
contents: dict
path: Optional[Path] = None
@property
def metadata(self) -> dict:
"""Metadata portion of TOML file rule."""
return self.contents.get('metadata', {})
@property
def data(self) -> dict:
"""Rule portion of TOML file rule."""
return self.contents.get('data') or self.contents
@property
def id(self) -> str:
"""Get the rule ID."""
return self.data['rule_id']
@property
def name(self) -> str:
"""Get the rule name."""
return self.data['name']
def __hash__(self) -> int:
"""Get the hash of the rule."""
return hash(self.id + self.name)
def __repr__(self) -> str:
"""Get a string representation of the rule."""
return f"Rule({self.name} {self.id})"
@dataclass(frozen=True)
class RuleMeta(MarshmallowDataclassMixin):
"""Data stored in a rule's [metadata] section of TOML."""
creation_date: definitions.Date
updated_date: definitions.Date
deprecation_date: Optional[definitions.Date]
# Optional fields
bypass_bbr_timing: Optional[bool]
comments: Optional[str]
integration: Optional[Union[str, List[str]]]
maturity: Optional[definitions.Maturity]
min_stack_version: Optional[definitions.SemVer]
min_stack_comments: Optional[str]
os_type_list: Optional[List[definitions.OSType]]
query_schema_validation: Optional[bool]
related_endpoint_rules: Optional[List[str]]
promotion: Optional[bool]
# Extended information as an arbitrary dictionary
extended: Optional[Dict[str, Any]]
def get_validation_stack_versions(self) -> Dict[str, dict]:
"""Get a dict of beats and ecs versions per stack release."""
stack_versions = get_stack_schemas(self.min_stack_version)
return stack_versions
@dataclass(frozen=True)
class RuleTransform(MarshmallowDataclassMixin):
"""Data stored in a rule's [transform] section of TOML."""
# note (investigation guides) Markdown plugins
# /elastic/kibana/tree/main/x-pack/plugins/security_solution/public/common/components/markdown_editor/plugins
##############################################
# timelines out of scope at the moment
@dataclass(frozen=True)
class OsQuery:
label: str
query: str
ecs_mapping: Optional[Dict[str, Dict[Literal['field', 'value'], str]]]
@dataclass(frozen=True)
class Investigate:
@dataclass(frozen=True)
class Provider:
excluded: bool
field: str
queryType: definitions.InvestigateProviderQueryType
value: str
valueType: definitions.InvestigateProviderValueType
label: str
description: Optional[str]
providers: List[List[Provider]]
relativeFrom: Optional[str]
relativeTo: Optional[str]
# these must be lists in order to have more than one. Their index in the list is how they will be referenced in the
# note string templates
osquery: Optional[List[OsQuery]]
investigate: Optional[List[Investigate]]
def render_investigate_osquery_to_string(self) -> Dict[definitions.TransformTypes, List[str]]:
obj = self.to_dict()
rendered: Dict[definitions.TransformTypes, List[str]] = {'osquery': [], 'investigate': []}
for plugin, entries in obj.items():
for entry in entries:
rendered[plugin].append(f'!{{{plugin}{json.dumps(entry, sort_keys=True, separators=(",", ":"))}}}')
return rendered
##############################################
@dataclass(frozen=True)
class BaseThreatEntry:
id: str
name: str
reference: str
@pre_load
def modify_url(self, data: Dict[str, Any], **kwargs):
"""Modify the URL to support MITRE ATT&CK URLS with and without trailing forward slash."""
if urlparse(data["reference"]).scheme:
if not data["reference"].endswith("/"):
data["reference"] += "/"
return data
@dataclass(frozen=True)
class SubTechnique(BaseThreatEntry):
"""Mapping to threat subtechnique."""
reference: definitions.SubTechniqueURL
@dataclass(frozen=True)
class Technique(BaseThreatEntry):
"""Mapping to threat subtechnique."""
# subtechniques are stored at threat[].technique.subtechnique[]
reference: definitions.TechniqueURL
subtechnique: Optional[List[SubTechnique]]
@dataclass(frozen=True)
class Tactic(BaseThreatEntry):
"""Mapping to a threat tactic."""
reference: definitions.TacticURL
@dataclass(frozen=True)
class ThreatMapping(MarshmallowDataclassMixin):
"""Mapping to a threat framework."""
framework: Literal["MITRE ATT&CK"]
tactic: Tactic
technique: Optional[List[Technique]]
@staticmethod
def flatten(threat_mappings: Optional[List]) -> 'FlatThreatMapping':
"""Get flat lists of tactic and technique info."""
tactic_names = []
tactic_ids = []
technique_ids = set()
technique_names = set()
sub_technique_ids = set()
sub_technique_names = set()
for entry in (threat_mappings or []):
tactic_names.append(entry.tactic.name)
tactic_ids.append(entry.tactic.id)
for technique in (entry.technique or []):
technique_names.add(technique.name)
technique_ids.add(technique.id)
for subtechnique in (technique.subtechnique or []):
sub_technique_ids.add(subtechnique.id)
sub_technique_names.add(subtechnique.name)
return FlatThreatMapping(
tactic_names=sorted(tactic_names),
tactic_ids=sorted(tactic_ids),
technique_names=sorted(technique_names),
technique_ids=sorted(technique_ids),
sub_technique_names=sorted(sub_technique_names),
sub_technique_ids=sorted(sub_technique_ids)
)
@dataclass(frozen=True)
class RiskScoreMapping(MarshmallowDataclassMixin):
field: str
operator: Optional[definitions.Operator]
value: Optional[str]
@dataclass(frozen=True)
class SeverityMapping(MarshmallowDataclassMixin):
field: str
operator: Optional[definitions.Operator]
value: Optional[str]
severity: Optional[str]
@dataclass(frozen=True)
class FlatThreatMapping(MarshmallowDataclassMixin):
tactic_names: List[str]
tactic_ids: List[str]
technique_names: List[str]
technique_ids: List[str]
sub_technique_names: List[str]
sub_technique_ids: List[str]
@dataclass(frozen=True)
class AlertSuppressionDuration:
"""Mapping to alert suppression duration."""
unit: definitions.TimeUnits
value: definitions.AlertSuppressionValue
@dataclass(frozen=True)
class AlertSuppressionMapping(MarshmallowDataclassMixin, StackCompatMixin):
"""Mapping to alert suppression."""
group_by: definitions.AlertSuppressionGroupBy
duration: Optional[AlertSuppressionDuration]
missing_fields_strategy: definitions.AlertSuppressionMissing
@dataclass(frozen=True)
class ThresholdAlertSuppression:
"""Mapping to alert suppression."""
duration: AlertSuppressionDuration
@dataclass(frozen=True)
class FilterStateStore:
store: definitions.StoreType
@dataclass(frozen=True)
class FilterMeta:
alias: Optional[Union[str, None]] = None
disabled: Optional[bool] = None
negate: Optional[bool] = None
controlledBy: Optional[str] = None # identify who owns the filter
group: Optional[str] = None # allows grouping of filters
index: Optional[str] = None
isMultiIndex: Optional[bool] = None
type: Optional[str] = None
key: Optional[str] = None
params: Optional[str] = None # Expand to FilterMetaParams when needed
value: Optional[str] = None
@dataclass(frozen=True)
class WildcardQuery:
case_insensitive: bool
value: str
@dataclass(frozen=True)
class Query:
wildcard: Optional[Dict[str, WildcardQuery]] = None
@dataclass(frozen=True)
class Filter:
"""Kibana Filter for Base Rule Data."""
# TODO: Currently unused in BaseRuleData. Revisit to extend or remove.
# https://github.com/elastic/detection-rules/issues/3773
meta: FilterMeta
state: Optional[FilterStateStore] = field(metadata=dict(data_key="$state"))
query: Optional[Union[Query, Dict[str, Any]]] = None
@dataclass(frozen=True)
class BaseRuleData(MarshmallowDataclassMixin, StackCompatMixin):
"""Base rule data."""
@dataclass
class InvestigationFields:
field_names: List[definitions.NonEmptyStr]
@dataclass
class RequiredFields:
name: definitions.NonEmptyStr
type: definitions.NonEmptyStr
ecs: bool
@dataclass
class RelatedIntegrations:
package: definitions.NonEmptyStr
version: definitions.NonEmptyStr
integration: Optional[definitions.NonEmptyStr]
actions: Optional[list]
author: List[str]
building_block_type: Optional[definitions.BuildingBlockType]
description: str
enabled: Optional[bool]
exceptions_list: Optional[list]
license: Optional[str]
false_positives: Optional[List[str]]
filters: Optional[List[dict]]
# trailing `_` required since `from` is a reserved word in python
from_: Optional[str] = field(metadata=dict(data_key="from"))
interval: Optional[definitions.Interval]
investigation_fields: Optional[InvestigationFields] = field(metadata=dict(metadata=dict(min_compat="8.11")))
max_signals: Optional[definitions.MaxSignals]
meta: Optional[Dict[str, Any]]
name: definitions.RuleName
note: Optional[definitions.Markdown]
# can we remove this comment?
# explicitly NOT allowed!
# output_index: Optional[str]
references: Optional[List[str]]
related_integrations: Optional[List[RelatedIntegrations]] = field(metadata=dict(metadata=dict(min_compat="8.3")))
required_fields: Optional[List[RequiredFields]] = field(metadata=dict(metadata=dict(min_compat="8.3")))
revision: Optional[int] = field(metadata=dict(metadata=dict(min_compat="8.8")))
risk_score: definitions.RiskScore
risk_score_mapping: Optional[List[RiskScoreMapping]]
rule_id: definitions.UUIDString
rule_name_override: Optional[str]
setup: Optional[definitions.Markdown] = field(metadata=dict(metadata=dict(min_compat="8.3")))
severity_mapping: Optional[List[SeverityMapping]]
severity: definitions.Severity
tags: Optional[List[str]]
throttle: Optional[str]
timeline_id: Optional[definitions.TimelineTemplateId]
timeline_title: Optional[definitions.TimelineTemplateTitle]
timestamp_override: Optional[str]
to: Optional[str]
type: definitions.RuleType
threat: Optional[List[ThreatMapping]]
version: Optional[definitions.PositiveInteger]
@classmethod
def save_schema(cls):
"""Save the schema as a jsonschema."""
fields: Tuple[dataclasses.Field, ...] = dataclasses.fields(cls)
type_field = next(f for f in fields if f.name == "type")
rule_type = typing.get_args(type_field.type)[0] if cls != BaseRuleData else "base"
schema = cls.jsonschema()
version_dir = SCHEMA_DIR / "master"
version_dir.mkdir(exist_ok=True, parents=True)
# expand out the jsonschema definitions
with (version_dir / f"master.{rule_type}.json").open("w") as f:
json.dump(schema, f, indent=2, sort_keys=True)
def validate_query(self, meta: RuleMeta) -> None:
pass
@cached_property
def get_restricted_fields(self) -> Optional[Dict[str, tuple]]:
"""Get stack version restricted fields."""
fields: List[dataclasses.Field, ...] = list(dataclasses.fields(self))
return get_restricted_fields(fields)
@cached_property
def data_validator(self) -> Optional['DataValidator']:
return DataValidator(is_elastic_rule=self.is_elastic_rule, **self.to_dict())
@cached_property
def notify(self) -> bool:
return os.environ.get('DR_NOTIFY_INTEGRATION_UPDATE_AVAILABLE') is not None
@cached_property
def parsed_note(self) -> Optional[MarkoDocument]:
dv = self.data_validator
if dv:
return dv.parsed_note
@property
def is_elastic_rule(self):
return 'elastic' in [a.lower() for a in self.author]
def get_build_fields(self) -> {}:
"""Get a list of build-time fields along with the stack versions which they will build within."""
build_fields = {}
rule_fields = {f.name: f for f in dataclasses.fields(self)}
for fld in BUILD_FIELD_VERSIONS:
if fld in rule_fields:
build_fields[fld] = BUILD_FIELD_VERSIONS[fld]
return build_fields
@classmethod
def process_transforms(cls, transform: RuleTransform, obj: dict) -> dict:
"""Process transforms from toml [transform] called in TOMLRuleContents.to_dict."""
# only create functions that CAREFULLY mutate the obj dict
def process_note_plugins():
"""Format the note field with osquery and investigate plugin strings."""
note = obj.get('note')
if not note:
return
rendered = transform.render_investigate_osquery_to_string()
rendered_patterns = {}
for plugin, entries in rendered.items():
rendered_patterns.update(**{f'{plugin}_{i}': e for i, e in enumerate(entries)})
note_template = PatchedTemplate(note)
rendered_note = note_template.safe_substitute(**rendered_patterns)
obj['note'] = rendered_note
# call transform functions
if transform:
process_note_plugins()
return obj
@validates_schema
def validates_data(self, data, **kwargs):
"""Validate fields and data for marshmallow schemas."""
# Validate version and revision fields not supplied.
disallowed_fields = [field for field in ['version', 'revision'] if data.get(field) is not None]
if not disallowed_fields:
return
error_message = " and ".join(disallowed_fields)
# If version and revision fields are supplied, and using locked versions raise an error.
if BYPASS_VERSION_LOCK is not True:
msg = (f"Configuration error: Rule {data['name']} - {data['rule_id']} "
f"should not contain rules with `{error_message}` set.")
raise ValidationError(msg)
class DataValidator:
"""Additional validation beyond base marshmallow schema validation."""
def __init__(self,
name: definitions.RuleName,
is_elastic_rule: bool,
note: Optional[definitions.Markdown] = None,
interval: Optional[definitions.Interval] = None,
building_block_type: Optional[definitions.BuildingBlockType] = None,
setup: Optional[str] = None,
**extras):
# only define fields needing additional validation
self.name = name
self.is_elastic_rule = is_elastic_rule
self.note = note
# Need to use extras because from is a reserved word in python
self.from_ = extras.get('from')
self.interval = interval
self.building_block_type = building_block_type
self.setup = setup
self._setup_in_note = False
@cached_property
def parsed_note(self) -> Optional[MarkoDocument]:
if self.note:
return gfm.parse(self.note)
@property
def setup_in_note(self):
return self._setup_in_note
@setup_in_note.setter
def setup_in_note(self, value: bool):
self._setup_in_note = value
@cached_property
def skip_validate_note(self) -> bool:
return os.environ.get('DR_BYPASS_NOTE_VALIDATION_AND_PARSE') is not None
@cached_property
def skip_validate_bbr(self) -> bool:
return os.environ.get('DR_BYPASS_BBR_LOOKBACK_VALIDATION') is not None
def validate_bbr(self, bypass: bool = False):
"""Validate building block type and rule type."""
if self.skip_validate_bbr or bypass:
return
def validate_lookback(str_time: str) -> bool:
"""Validate that the time is at least now-119m and at least 60m respectively."""
try:
if "now-" in str_time:
str_time = str_time[4:]
time = convert_time_span(str_time)
# if from time is less than 119m as milliseconds
if time < 119 * 60 * 1000:
return False
else:
return False
except Exception as e:
raise ValidationError(f"Invalid time format: {e}")
return True
def validate_interval(str_time: str) -> bool:
"""Validate that the time is at least now-119m and at least 60m respectively."""
try:
time = convert_time_span(str_time)
# if interval time is less than 60m as milliseconds
if time < 60 * 60 * 1000:
return False
except Exception as e:
raise ValidationError(f"Invalid time format: {e}")
return True
bypass_instructions = "To bypass, use the environment variable `DR_BYPASS_BBR_LOOKBACK_VALIDATION`"
if self.building_block_type:
if not self.from_ or not self.interval:
raise ValidationError(
f"{self.name} is invalid."
"BBR require `from` and `interval` to be defined. "
"Please set or bypass." + bypass_instructions
)
elif not validate_lookback(self.from_) or not validate_interval(self.interval):
raise ValidationError(
f"{self.name} is invalid."
"Default BBR require `from` and `interval` to be at least now-119m and at least 60m respectively "
"(using the now-Xm and Xm format where x is in minutes). "
"Please update values or bypass. " + bypass_instructions
)
def validate_note(self):
if self.skip_validate_note or not self.note:
return
try:
for child in self.parsed_note.children:
if child.get_type() == "Heading":
header = gfm.renderer.render_children(child)
if header.lower() == "setup":
# check that the Setup header is correctly formatted at level 2
if child.level != 2:
raise ValidationError(f"Setup section with wrong header level: {child.level}")
# check that the Setup header is capitalized
if child.level == 2 and header != "Setup":
raise ValidationError(f"Setup header has improper casing: {header}")
self.setup_in_note = True
else:
# check that the header Config does not exist in the Setup section
if child.level == 2 and "config" in header.lower():
raise ValidationError(f"Setup header contains Config: {header}")
except Exception as e:
raise ValidationError(f"Invalid markdown in rule `{self.name}`: {e}. To bypass validation on the `note`"
f"field, use the environment variable `DR_BYPASS_NOTE_VALIDATION_AND_PARSE`")
# raise if setup header is in note and in setup
if self.setup_in_note and (self.setup and self.setup != "None"):
raise ValidationError("Setup header found in both note and setup fields.")
@dataclass
class QueryValidator:
query: str
@property
def ast(self) -> Any:
raise NotImplementedError()
@property
def unique_fields(self) -> Any:
raise NotImplementedError()
def validate(self, data: 'QueryRuleData', meta: RuleMeta) -> None:
raise NotImplementedError()
@cached
def get_required_fields(self, index: str) -> List[Optional[dict]]:
"""Retrieves fields needed for the query along with type information from the schema."""
if isinstance(self, ESQLValidator):
return []
current_version = Version.parse(load_current_package_version(), optional_minor_and_patch=True)
ecs_version = get_stack_schemas()[str(current_version)]['ecs']
beats_version = get_stack_schemas()[str(current_version)]['beats']
endgame_version = get_stack_schemas()[str(current_version)]['endgame']
ecs_schema = ecs.get_schema(ecs_version)
beat_types, beat_schema, schema = self.get_beats_schema(index or [], beats_version, ecs_version)
endgame_schema = self.get_endgame_schema(index or [], endgame_version)
# construct integration schemas
packages_manifest = load_integrations_manifests()
integrations_schemas = load_integrations_schemas()
datasets, _ = beats.get_datasets_and_modules(self.ast)
package_integrations = parse_datasets(datasets, packages_manifest)
int_schema = {}
data = {"notify": False}
for pk_int in package_integrations:
package = pk_int["package"]
integration = pk_int["integration"]
schema, _ = get_integration_schema_fields(integrations_schemas, package, integration,
current_version, packages_manifest, {}, data)
int_schema.update(schema)
required = []
unique_fields = self.unique_fields or []
for fld in unique_fields:
field_type = ecs_schema.get(fld, {}).get('type')
is_ecs = field_type is not None
if not is_ecs:
if int_schema:
field_type = int_schema.get(fld, None)
elif beat_schema:
field_type = beat_schema.get(fld, {}).get('type')
elif endgame_schema:
field_type = endgame_schema.endgame_schema.get(fld, None)
required.append(dict(name=fld, type=field_type or 'unknown', ecs=is_ecs))
return sorted(required, key=lambda f: f['name'])
@cached
def get_beats_schema(self, index: list, beats_version: str, ecs_version: str) -> (list, dict, dict):
"""Get an assembled beats schema."""
beat_types = beats.parse_beats_from_index(index)
beat_schema = beats.get_schema_from_kql(self.ast, beat_types, version=beats_version) if beat_types else None
schema = ecs.get_kql_schema(version=ecs_version, indexes=index, beat_schema=beat_schema)
return beat_types, beat_schema, schema
@cached
def get_endgame_schema(self, index: list, endgame_version: str) -> Optional[endgame.EndgameSchema]:
"""Get an assembled flat endgame schema."""
if index and "endgame-*" not in index:
return None
endgame_schema = endgame.read_endgame_schema(endgame_version=endgame_version)
return endgame.EndgameSchema(endgame_schema)
@dataclass(frozen=True)
class QueryRuleData(BaseRuleData):
"""Specific fields for query event types."""
type: Literal["query"]
index: Optional[List[str]]
data_view_id: Optional[str]
query: str
language: definitions.FilterLanguages
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.8")))
@cached_property
def index_or_dataview(self) -> list[str]:
"""Return the index or dataview depending on which is set. If neither returns empty list."""
if self.index is not None:
return self.index
elif self.data_view_id is not None:
return [self.data_view_id]
else:
return []
@cached_property
def validator(self) -> Optional[QueryValidator]:
if self.language == "kuery":
return KQLValidator(self.query)
elif self.language == "eql":
return EQLValidator(self.query)
elif self.language == "esql":
return ESQLValidator(self.query)
def validate_query(self, meta: RuleMeta) -> None:
validator = self.validator
if validator is not None:
return validator.validate(self, meta)
@cached_property
def ast(self):
validator = self.validator
if validator is not None:
return validator.ast
@cached_property
def unique_fields(self):
validator = self.validator
if validator is not None:
return validator.unique_fields
@cached
def get_required_fields(self, index: str) -> List[dict]:
validator = self.validator
if validator is not None:
return validator.get_required_fields(index or [])
@validates_schema
def validates_index_and_data_view_id(self, data, **kwargs):
"""Validate that either index or data_view_id is set, but not both."""
if data.get('index') and data.get('data_view_id'):
raise ValidationError("Only one of index or data_view_id should be set.")
@dataclass(frozen=True)
class MachineLearningRuleData(BaseRuleData):
type: Literal["machine_learning"]
anomaly_threshold: int
machine_learning_job_id: Union[str, List[str]]
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.15")))
@dataclass(frozen=True)
class ThresholdQueryRuleData(QueryRuleData):
"""Specific fields for query event types."""
@dataclass(frozen=True)
class ThresholdMapping(MarshmallowDataclassMixin):
@dataclass(frozen=True)
class ThresholdCardinality:
field: str
value: definitions.ThresholdValue
field: definitions.CardinalityFields
value: definitions.ThresholdValue
cardinality: Optional[List[ThresholdCardinality]]
type: Literal["threshold"]
threshold: ThresholdMapping
alert_suppression: Optional[ThresholdAlertSuppression] = field(metadata=dict(metadata=dict(min_compat="8.12")))
@dataclass(frozen=True)
class NewTermsRuleData(QueryRuleData):
"""Specific fields for new terms field rule."""
@dataclass(frozen=True)
class NewTermsMapping(MarshmallowDataclassMixin):
@dataclass(frozen=True)
class HistoryWindowStart:
field: definitions.NonEmptyStr
value: definitions.NonEmptyStr
field: definitions.NonEmptyStr
value: definitions.NewTermsFields
history_window_start: List[HistoryWindowStart]
type: Literal["new_terms"]
new_terms: NewTermsMapping
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.14")))
@pre_load
def preload_data(self, data: dict, **kwargs) -> dict:
"""Preloads and formats the data to match the required schema."""
if "new_terms_fields" in data and "history_window_start" in data:
new_terms_mapping = {
"field": "new_terms_fields",
"value": data["new_terms_fields"],
"history_window_start": [
{
"field": "history_window_start",
"value": data["history_window_start"]
}
]
}
data["new_terms"] = new_terms_mapping
# cleanup original fields after building into our toml format
data.pop("new_terms_fields")
data.pop("history_window_start")
return data
def transform(self, obj: dict) -> dict:
"""Transforms new terms data to API format for Kibana."""
obj[obj["new_terms"].get("field")] = obj["new_terms"].get("value")
obj["history_window_start"] = obj["new_terms"]["history_window_start"][0].get("value")
del obj["new_terms"]
return obj
@dataclass(frozen=True)
class EQLRuleData(QueryRuleData):
"""EQL rules are a special case of query rules."""
type: Literal["eql"]
language: Literal["eql"]
timestamp_field: Optional[str] = field(metadata=dict(metadata=dict(min_compat="8.0")))
event_category_override: Optional[str] = field(metadata=dict(metadata=dict(min_compat="8.0")))
tiebreaker_field: Optional[str] = field(metadata=dict(metadata=dict(min_compat="8.0")))
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.14")))
def convert_relative_delta(self, lookback: str) -> int:
now = len("now")
min_length = now + len('+5m')
if lookback.startswith("now") and len(lookback) >= min_length:
lookback = lookback[len("now"):]
sign = lookback[0] # + or -
span = lookback[1:]
amount = convert_time_span(span)
return amount * (-1 if sign == "-" else 1)
else:
return convert_time_span(lookback)
@cached_property
def is_sample(self) -> bool:
"""Checks if the current rule is a sample-based rule."""
return eql.utils.get_query_type(self.ast) == 'sample'
@cached_property
def is_sequence(self) -> bool:
"""Checks if the current rule is a sequence-based rule."""
return eql.utils.get_query_type(self.ast) == 'sequence'
@cached_property
def max_span(self) -> Optional[int]:
"""Maxspan value for sequence rules if defined."""
if self.is_sequence and hasattr(self.ast.first, 'max_span'):
return self.ast.first.max_span.as_milliseconds() if self.ast.first.max_span else None
@cached_property
def look_back(self) -> Optional[Union[int, Literal['unknown']]]:
"""Lookback value of a rule."""
# https://www.elastic.co/guide/en/elasticsearch/reference/current/common-options.html#date-math
to = self.convert_relative_delta(self.to) if self.to else 0
from_ = self.convert_relative_delta(self.from_ or "now-6m")
if not (to or from_):
return 'unknown'
else:
return to - from_
@cached_property
def interval_ratio(self) -> Optional[float]:
"""Ratio of interval time window / max_span time window."""
if self.max_span:
interval = convert_time_span(self.interval or '5m')
return interval / self.max_span
@dataclass(frozen=True)
class ESQLRuleData(QueryRuleData):
"""ESQL rules are a special case of query rules."""
type: Literal["esql"]
language: Literal["esql"]
query: str
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.15")))
@validates_schema
def validates_esql_data(self, data, **kwargs):
"""Custom validation for query rule type and subclasses."""
if data.get('index'):
raise ValidationError("Index is not a valid field for ES|QL rule type.")
# Convert the query string to lowercase to handle case insensitivity
query_lower = data['query'].lower()
# Combine both patterns using an OR operator and compile the regex
combined_pattern = re.compile(
r'(from\s+\S+\s+metadata\s+_id,\s*_version,\s*_index)|(\bstats\b.*?\bby\b)', re.DOTALL
)
# Ensure that non-aggregate queries have metadata
if not combined_pattern.search(query_lower):
raise ValidationError(
f"Rule: {data['name']} contains a non-aggregate query without"
f" metadata fields '_id', '_version', and '_index' ->"
f" Add 'metadata _id, _version, _index' to the from command or add an aggregate function."
)
# Enforce KEEP command for ESQL rules
if '| keep' not in query_lower:
raise ValidationError(
f"Rule: {data['name']} does not contain a 'keep' command ->"
f" Add a 'keep' command to the query."
)
@dataclass(frozen=True)
class ThreatMatchRuleData(QueryRuleData):
"""Specific fields for indicator (threat) match rule."""
@dataclass(frozen=True)
class Entries:
@dataclass(frozen=True)
class ThreatMapEntry:
field: definitions.NonEmptyStr
type: Literal["mapping"]
value: definitions.NonEmptyStr
entries: List[ThreatMapEntry]
type: Literal["threat_match"]
concurrent_searches: Optional[definitions.PositiveInteger]
items_per_search: Optional[definitions.PositiveInteger]
threat_mapping: List[Entries]
threat_filters: Optional[List[dict]]
threat_query: Optional[str]
threat_language: Optional[definitions.FilterLanguages]
threat_index: List[str]
threat_indicator_path: Optional[str]
alert_suppression: Optional[AlertSuppressionMapping] = field(metadata=dict(metadata=dict(min_compat="8.13")))
def validate_query(self, meta: RuleMeta) -> None:
super(ThreatMatchRuleData, self).validate_query(meta)
if self.threat_query:
if not self.threat_language:
raise ValidationError('`threat_language` required when a `threat_query` is defined')
if self.threat_language == "kuery":
threat_query_validator = KQLValidator(self.threat_query)
elif self.threat_language == "eql":
threat_query_validator = EQLValidator(self.threat_query)
else:
return
threat_query_validator.validate(self, meta)
# All of the possible rule types
# Sort inverse of any inheritance - see comment in TOMLRuleContents.to_dict
AnyRuleData = Union[EQLRuleData, ESQLRuleData, ThresholdQueryRuleData, ThreatMatchRuleData,
MachineLearningRuleData, QueryRuleData, NewTermsRuleData]
class BaseRuleContents(ABC):
"""Base contents object for shared methods between active and deprecated rules."""
@property
@abstractmethod
def id(self):
pass
@property
@abstractmethod
def name(self):
pass
@property
@abstractmethod
def version_lock(self):
pass
@property
@abstractmethod
def type(self):
pass
def lock_info(self, bump=True) -> dict:
version = self.autobumped_version if bump else (self.saved_version or 1)
contents = {"rule_name": self.name, "sha256": self.sha256(), "version": version, "type": self.type}
return contents
@property
def is_dirty(self) -> Optional[bool]:
"""Determine if the rule has changed since its version was locked."""
min_stack = Version.parse(self.get_supported_version(), optional_minor_and_patch=True)
existing_sha256 = self.version_lock.get_locked_hash(self.id, f"{min_stack.major}.{min_stack.minor}")
if existing_sha256 is not None:
return existing_sha256 != self.sha256()
@property
def lock_entry(self) -> Optional[dict]:
lock_entry = self.version_lock.version_lock.data.get(self.id)
if lock_entry:
return lock_entry.to_dict()
@property
def has_forked(self) -> bool:
"""Determine if the rule has forked at any point (has a previous entry)."""
lock_entry = self.lock_entry
if lock_entry:
return 'previous' in lock_entry
return False
@property
def is_in_forked_version(self) -> bool:
"""Determine if the rule is in a forked version."""
if not self.has_forked:
return False
locked_min_stack = Version.parse(self.lock_entry['min_stack_version'], optional_minor_and_patch=True)
current_package_ver = Version.parse(load_current_package_version(), optional_minor_and_patch=True)
return current_package_ver < locked_min_stack
def get_version_space(self) -> Optional[int]:
"""Retrieve the number of version spaces available (None for unbound)."""
if self.is_in_forked_version:
current_entry = self.lock_entry['previous'][self.metadata.min_stack_version]
current_version = current_entry['version']
max_allowable_version = current_entry['max_allowable_version']
return max_allowable_version - current_version - 1
@property
def saved_version(self) -> Optional[int]:
"""Retrieve the version from the version.lock or from the file if version locking is bypassed."""
toml_version = self.data.get("version")
if BYPASS_VERSION_LOCK:
return toml_version
if toml_version:
print(f"WARNING: Rule {self.name} - {self.id} has a version set in the rule TOML."
" This `version` will be ignored and defaulted to the version.lock.json file."
" Set `bypass_version_lock` to `True` in the rules config to use the TOML version.")
return self.version_lock.get_locked_version(self.id, self.get_supported_version())
@property
def autobumped_version(self) -> Optional[int]:
"""Retrieve the current version of the rule, accounting for automatic increments."""
version = self.saved_version
if BYPASS_VERSION_LOCK:
raise NotImplementedError("This method is not implemented when version locking is not in use.")
# Default to version 1 if no version is set yet
if version is None:
return 1
# Auto-increment version if the rule is 'dirty' and not bypassing version lock
return version + 1 if self.is_dirty else version
def get_synthetic_version(self, use_default: bool) -> Optional[int]:
"""
Get the latest actual representation of a rule's version, where changes are accounted for automatically when
version locking is used, otherwise, return the version defined in the rule toml if present else optionally
default to 1.
"""
return self.autobumped_version or self.saved_version or (1 if use_default else None)
@classmethod
def convert_supported_version(cls, stack_version: Optional[str]) -> Version:
"""Convert an optional stack version to the minimum for the lock in the form major.minor."""
min_version = get_min_supported_stack_version()
if stack_version is None:
return min_version
return max(Version.parse(stack_version, optional_minor_and_patch=True), min_version)
def get_supported_version(self) -> str:
"""Get the lowest stack version for the rule that is currently supported in the form major.minor."""
rule_min_stack = self.metadata.get('min_stack_version')
min_stack = self.convert_supported_version(rule_min_stack)
return f"{min_stack.major}.{min_stack.minor}"
def _post_dict_conversion(self, obj: dict) -> dict:
"""Transform the converted API in place before sending to Kibana."""
# cleanup the whitespace in the rule
obj = nested_normalize(obj)
# fill in threat.technique so it's never missing
for threat_entry in obj.get("threat", []):
threat_entry.setdefault("technique", [])
return obj
@abstractmethod
def to_api_format(self, include_version: bool = True) -> dict:
"""Convert the rule to the API format."""
@cached
def sha256(self, include_version=False) -> str:
# get the hash of the API dict without the version by default, otherwise it'll always be dirty.
hashable_contents = self.to_api_format(include_version=include_version)
return utils.dict_hash(hashable_contents)
@dataclass(frozen=True)
class TOMLRuleContents(BaseRuleContents, MarshmallowDataclassMixin):
"""Rule object which maps directly to the TOML layout."""
metadata: RuleMeta
transform: Optional[RuleTransform]
data: AnyRuleData = field(metadata=dict(data_key="rule"))
@cached_property
def version_lock(self):
# VersionLock
from .version_lock import loaded_version_lock
if RULES_CONFIG.bypass_version_lock is True:
err_msg = "Cannot access the version lock when the versioning strategy is configured to bypass the" \
" version lock. Set `bypass_version_lock` to `false` in the rules config to use the version lock."
raise ValueError(err_msg)
return getattr(self, '_version_lock', None) or loaded_version_lock
def set_version_lock(self, value):
from .version_lock import VersionLock
err_msg = "Cannot set the version lock when the versioning strategy is configured to bypass the version lock." \
" Set `bypass_version_lock` to `false` in the rules config to use the version lock."
assert not RULES_CONFIG.bypass_version_lock, err_msg
if value and not isinstance(value, VersionLock):
raise TypeError(f'version lock property must be set with VersionLock objects only. Got {type(value)}')
# circumvent frozen class
self.__dict__['_version_lock'] = value
@classmethod
def all_rule_types(cls) -> set:
types = set()
for subclass in typing.get_args(AnyRuleData):
field = next(field for field in dataclasses.fields(subclass) if field.name == "type")
types.update(typing.get_args(field.type))
return types
@classmethod
def get_data_subclass(cls, rule_type: str) -> typing.Type[BaseRuleData]:
"""Get the proper subclass depending on the rule type"""
for subclass in typing.get_args(AnyRuleData):
field = next(field for field in dataclasses.fields(subclass) if field.name == "type")
if (rule_type, ) == typing.get_args(field.type):
return subclass
raise ValueError(f"Unknown rule type {rule_type}")
@property
def id(self) -> definitions.UUIDString:
return self.data.rule_id
@property
def name(self) -> str:
return self.data.name
@property
def type(self) -> str:
return self.data.type
def _add_known_nulls(self, rule_dict: dict) -> dict:
"""Add known nulls to the rule."""
# Note this is primarily as a stopgap until add support for Rule Actions
for pair in definitions.KNOWN_NULL_ENTRIES:
for compound_key, sub_key in pair.items():
value = get_nested_value(rule_dict, compound_key)
if isinstance(value, list):
items_to_update = [
item for item in value if isinstance(item, dict) and get_nested_value(item, sub_key) is None
]
for item in items_to_update:
set_nested_value(item, sub_key, None)
return rule_dict
def _post_dict_conversion(self, obj: dict) -> dict:
"""Transform the converted API in place before sending to Kibana."""
super()._post_dict_conversion(obj)
# build time fields
self._convert_add_related_integrations(obj)
self._convert_add_required_fields(obj)
self._convert_add_setup(obj)
# validate new fields against the schema
rule_type = obj['type']
subclass = self.get_data_subclass(rule_type)
subclass.from_dict(obj)
# rule type transforms
self.data.transform(obj) if hasattr(self.data, 'transform') else False
return obj
def _convert_add_related_integrations(self, obj: dict) -> None:
"""Add restricted field related_integrations to the obj."""
field_name = "related_integrations"
package_integrations = obj.get(field_name, [])
if not package_integrations and self.metadata.integration:
packages_manifest = load_integrations_manifests()
current_stack_version = load_current_package_version()
if self.check_restricted_field_version(field_name):
if (isinstance(self.data, QueryRuleData) or isinstance(self.data, MachineLearningRuleData)):
if (self.data.get('language') is not None and self.data.get('language') != 'lucene') or \
self.data.get('type') == 'machine_learning':
package_integrations = self.get_packaged_integrations(self.data, self.metadata,
packages_manifest)
if not package_integrations:
return
for package in package_integrations:
package["version"] = find_least_compatible_version(
package=package["package"],
integration=package["integration"],
current_stack_version=current_stack_version,
packages_manifest=packages_manifest)
# if integration is not a policy template remove
if package["version"]:
version_data = packages_manifest.get(package["package"],
{}).get(package["version"].strip("^"), {})
policy_templates = version_data.get("policy_templates", [])
if package["integration"] not in policy_templates:
del package["integration"]
# remove duplicate entries
package_integrations = list({json.dumps(d, sort_keys=True):
d for d in package_integrations}.values())
obj.setdefault("related_integrations", package_integrations)
def _convert_add_required_fields(self, obj: dict) -> None:
"""Add restricted field required_fields to the obj, derived from the query AST."""
if isinstance(self.data, QueryRuleData) and self.data.language != 'lucene':
index = obj.get('index') or []
required_fields = self.data.get_required_fields(index)
else:
required_fields = []
field_name = "required_fields"
if required_fields and self.check_restricted_field_version(field_name=field_name):
obj.setdefault(field_name, required_fields)
def _convert_add_setup(self, obj: dict) -> None:
"""Add restricted field setup to the obj."""
rule_note = obj.get("note", "")
field_name = "setup"
field_value = obj.get(field_name)
if not self.check_explicit_restricted_field_version(field_name):
return
data_validator = self.data.data_validator
if not data_validator.skip_validate_note and data_validator.setup_in_note and not field_value:
parsed_note = self.data.parsed_note
# parse note tree
for i, child in enumerate(parsed_note.children):
if child.get_type() == "Heading" and "Setup" in gfm.render(child):
field_value = self._convert_get_setup_content(parsed_note.children[i + 1:])
# clean up old note field
investigation_guide = rule_note.replace("## Setup\n\n", "")
investigation_guide = investigation_guide.replace(field_value, "").strip()
obj["note"] = investigation_guide
obj[field_name] = field_value
break
@cached
def _convert_get_setup_content(self, note_tree: list) -> str:
"""Get note paragraph starting from the setup header."""
setup = []
for child in note_tree:
if child.get_type() == "BlankLine" or child.get_type() == "LineBreak":
setup.append("\n")
elif child.get_type() == "CodeSpan":
setup.append(f"`{gfm.renderer.render_raw_text(child)}`")
elif child.get_type() == "Paragraph":
setup.append(self._convert_get_setup_content(child.children))
setup.append("\n")
elif child.get_type() == "FencedCode":
setup.append(f"```\n{self._convert_get_setup_content(child.children)}\n```")
setup.append("\n")
elif child.get_type() == "RawText":
setup.append(child.children)
elif child.get_type() == "Heading" and child.level >= 2:
break
else:
setup.append(self._convert_get_setup_content(child.children))
return "".join(setup).strip()
def check_explicit_restricted_field_version(self, field_name: str) -> bool:
"""Explicitly check restricted fields against global min and max versions."""
min_stack, max_stack = BUILD_FIELD_VERSIONS[field_name]
return self.compare_field_versions(min_stack, max_stack)
def check_restricted_field_version(self, field_name: str) -> bool:
"""Check restricted fields against schema min and max versions."""
min_stack, max_stack = self.data.get_restricted_fields.get(field_name)
return self.compare_field_versions(min_stack, max_stack)
@staticmethod
def compare_field_versions(min_stack: Version, max_stack: Version) -> bool:
"""Check current rule version is within min and max stack versions."""
current_version = Version.parse(load_current_package_version(), optional_minor_and_patch=True)
max_stack = max_stack or current_version
return min_stack <= current_version >= max_stack
@classmethod
def get_packaged_integrations(cls, data: QueryRuleData, meta: RuleMeta,
package_manifest: dict) -> Optional[List[dict]]:
packaged_integrations = []
datasets, _ = beats.get_datasets_and_modules(data.get('ast') or [])
# integration is None to remove duplicate references upstream in Kibana
# chronologically, event.dataset is checked for package:integration, then rule tags
# if both exist, rule tags are only used if defined in definitions for non-dataset packages
# of machine learning analytic packages
rule_integrations = meta.get("integration", [])
if rule_integrations:
for integration in rule_integrations:
ineligible_integrations = definitions.NON_DATASET_PACKAGES + \
[*map(str.lower, definitions.MACHINE_LEARNING_PACKAGES)]
if integration in ineligible_integrations or isinstance(data, MachineLearningRuleData):
packaged_integrations.append({"package": integration, "integration": None})
packaged_integrations.extend(parse_datasets(datasets, package_manifest))
return packaged_integrations
@validates_schema
def post_conversion_validation(self, value: dict, **kwargs):
"""Additional validations beyond base marshmallow schemas."""
data: AnyRuleData = value["data"]
metadata: RuleMeta = value["metadata"]
test_config = RULES_CONFIG.test_config
if not test_config.check_skip_by_rule_id(value['data'].rule_id):
data.validate_query(metadata)
data.data_validator.validate_note()
data.data_validator.validate_bbr(metadata.get('bypass_bbr_timing'))
data.validate(metadata) if hasattr(data, 'validate') else False
@staticmethod
def validate_remote(remote_validator: 'RemoteValidator', contents: 'TOMLRuleContents'):
remote_validator.validate_rule(contents)
@classmethod
def from_rule_resource(
cls, rule: dict, creation_date: str = TIME_NOW, updated_date: str = TIME_NOW, maturity: str = 'development'
) -> 'TOMLRuleContents':
"""Create a TOMLRuleContents from a kibana rule resource."""
integrations = [r.get("package") for r in rule.get("related_integrations")]
meta = {
"creation_date": creation_date,
"updated_date": updated_date,
"maturity": maturity,
"integration": integrations,
}
contents = cls.from_dict({'metadata': meta, 'rule': rule, 'transforms': None}, unknown=marshmallow.EXCLUDE)
return contents
def to_dict(self, strip_none_values=True) -> dict:
# Load schemas directly from the data and metadata classes to avoid schema ambiguity which can
# result from union fields which contain classes and related subclasses (AnyRuleData). See issue #1141
metadata = self.metadata.to_dict(strip_none_values=strip_none_values)
data = self.data.to_dict(strip_none_values=strip_none_values)
self.data.process_transforms(self.transform, data)
dict_obj = dict(metadata=metadata, rule=data)
return nested_normalize(dict_obj)
def flattened_dict(self) -> dict:
flattened = dict()
flattened.update(self.data.to_dict())
flattened.update(self.metadata.to_dict())
return flattened
def to_api_format(self, include_version: bool = not BYPASS_VERSION_LOCK, include_metadata: bool = False) -> dict:
"""Convert the TOML rule to the API format."""
rule_dict = self.to_dict()
rule_dict = self._add_known_nulls(rule_dict)
converted_data = rule_dict['rule']
converted = self._post_dict_conversion(converted_data)
if include_metadata:
converted["meta"] = rule_dict['metadata']
if include_version:
converted["version"] = self.autobumped_version
return converted
def check_restricted_fields_compatibility(self) -> Dict[str, dict]:
"""Check for compatibility between restricted fields and the min_stack_version of the rule."""
default_min_stack = get_min_supported_stack_version()
if self.metadata.min_stack_version is not None:
min_stack = Version.parse(self.metadata.min_stack_version, optional_minor_and_patch=True)
else:
min_stack = default_min_stack
restricted = self.data.get_restricted_fields
invalid = {}
for _field, values in restricted.items():
if self.data.get(_field) is not None:
min_allowed, _ = values
if min_stack < min_allowed:
invalid[_field] = {'min_stack_version': min_stack, 'min_allowed_version': min_allowed}
return invalid
@dataclass
class TOMLRule:
contents: TOMLRuleContents = field(hash=True)
path: Optional[Path] = None
gh_pr: Any = field(hash=False, compare=False, default=None, repr=False)
@property
def id(self):
return self.contents.id
@property
def name(self):
return self.contents.data.name
def get_asset(self) -> dict:
"""Generate the relevant fleet compatible asset."""
return {"id": self.id, "attributes": self.contents.to_api_format(), "type": definitions.SAVED_OBJECT_TYPE}
def get_base_rule_dir(self) -> Path | None:
"""Get the base rule directory for the rule."""
rule_path = self.path.resolve()
for rules_dir in DEFAULT_PREBUILT_RULES_DIRS + DEFAULT_PREBUILT_BBR_DIRS:
if rule_path.is_relative_to(rules_dir):
return rule_path.relative_to(rules_dir)
return None
def save_toml(self, strip_none_values: bool = True):
assert self.path is not None, f"Can't save rule {self.name} (self.id) without a path"
converted = dict(
metadata=self.contents.metadata.to_dict(),
rule=self.contents.data.to_dict(strip_none_values=strip_none_values),
)
if self.contents.transform:
converted["transform"] = self.contents.transform.to_dict()
toml_write(converted, str(self.path.absolute()))
def save_json(self, path: Path, include_version: bool = True):
path = path.with_suffix('.json')
with open(str(path.absolute()), 'w', newline='\n') as f:
json.dump(self.contents.to_api_format(include_version=include_version), f, sort_keys=True, indent=2)
f.write('\n')
@dataclass(frozen=True)
class DeprecatedRuleContents(BaseRuleContents):
metadata: dict
data: dict
transform: Optional[dict]
@cached_property
def version_lock(self):
# VersionLock
from .version_lock import loaded_version_lock
return getattr(self, '_version_lock', None) or loaded_version_lock
def set_version_lock(self, value):
from .version_lock import VersionLock
err_msg = "Cannot set the version lock when the versioning strategy is configured to bypass the version lock." \
" Set `bypass_version_lock` to `false` in the rules config to use the version lock."
assert not RULES_CONFIG.bypass_version_lock, err_msg
if value and not isinstance(value, VersionLock):
raise TypeError(f'version lock property must be set with VersionLock objects only. Got {type(value)}')
# circumvent frozen class
self.__dict__['_version_lock'] = value
@property
def id(self) -> str:
return self.data.get('rule_id')
@property
def name(self) -> str:
return self.data.get('name')
@property
def type(self) -> str:
return self.data.get('type')
@classmethod
def from_dict(cls, obj: dict):
kwargs = dict(metadata=obj['metadata'], data=obj['rule'])
kwargs['transform'] = obj['transform'] if 'transform' in obj else None
return cls(**kwargs)
def to_api_format(self, include_version: bool = not BYPASS_VERSION_LOCK) -> dict:
"""Convert the TOML rule to the API format."""
data = copy.deepcopy(self.data)
if self.transform:
transform = RuleTransform.from_dict(self.transform)
BaseRuleData.process_transforms(transform, data)
converted = data
if include_version:
converted["version"] = self.autobumped_version
converted = self._post_dict_conversion(converted)
return converted
class DeprecatedRule(dict):
"""Minimal dict object for deprecated rule."""
def __init__(self, path: Path, contents: DeprecatedRuleContents, *args, **kwargs):
super(DeprecatedRule, self).__init__(*args, **kwargs)
self.path = path
self.contents = contents
def __repr__(self):
return f'{type(self).__name__}(contents={self.contents}, path={self.path})'
@property
def id(self) -> str:
return self.contents.id
@property
def name(self) -> str:
return self.contents.name
def downgrade_contents_from_rule(rule: TOMLRule, target_version: str,
replace_id: bool = True, include_metadata: bool = False) -> dict:
"""Generate the downgraded contents from a rule."""
rule_dict = rule.contents.to_dict()["rule"]
min_stack_version = target_version or rule.contents.metadata.min_stack_version or "8.3.0"
min_stack_version = Version.parse(min_stack_version,
optional_minor_and_patch=True)
rule_dict.setdefault("meta", {}).update(rule.contents.metadata.to_dict())
if replace_id:
rule_dict["rule_id"] = str(uuid4())
rule_dict = downgrade(rule_dict, target_version=str(min_stack_version))
meta = rule_dict.pop("meta")
rule_contents_dict = {"rule": rule_dict, "metadata": meta}
if rule.contents.transform:
rule_contents_dict["transform"] = rule.contents.transform.to_dict()
rule_contents = TOMLRuleContents.from_dict(rule_contents_dict)
payload = rule_contents.to_api_format(include_metadata=include_metadata)
payload = strip_non_public_fields(min_stack_version, payload)
return payload
def set_eql_config(min_stack_version: str) -> eql.parser.ParserConfig:
"""Based on the rule version set the eql functions allowed."""
if not min_stack_version:
min_stack_version = Version.parse(load_current_package_version(), optional_minor_and_patch=True)
else:
min_stack_version = Version.parse(min_stack_version, optional_minor_and_patch=True)
config = eql.parser.ParserConfig()
for feature, version_range in definitions.ELASTICSEARCH_EQL_FEATURES.items():
if version_range[0] <= min_stack_version <= (version_range[1] or min_stack_version):
config.context[feature] = True
return config
def get_unique_query_fields(rule: TOMLRule) -> List[str]:
"""Get a list of unique fields used in a rule query from rule contents."""
contents = rule.contents.to_api_format()
language = contents.get('language')
query = contents.get('query')
if language in ('kuery', 'eql'):
# TODO: remove once py-eql supports ipv6 for cidrmatch
cfg = set_eql_config(rule.contents.metadata.get('min_stack_version'))
with eql.parser.elasticsearch_syntax, eql.parser.ignore_missing_functions, eql.parser.skip_optimizations, cfg:
parsed = (kql.parse(query, normalize_kql_keywords=RULES_CONFIG.normalize_kql_keywords)
if language == 'kuery' else eql.parse_query(query))
return sorted(set(str(f) for f in parsed if isinstance(f, (eql.ast.Field, kql.ast.Field))))
# avoid a circular import
from .rule_validators import EQLValidator, ESQLValidator, KQLValidator # noqa: E402
from .remote_validation import RemoteValidator # noqa: E402