cti-python-stix2/stix2/pattern_visitor.py

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import importlib
import inspect
from antlr4 import CommonTokenStream, InputStream
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import six
from stix2patterns.grammars.STIXPatternLexer import STIXPatternLexer
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from stix2patterns.grammars.STIXPatternParser import (
STIXPatternParser, TerminalNode,
)
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from stix2patterns.grammars.STIXPatternVisitor import STIXPatternVisitor
from stix2patterns.validator import STIXPatternErrorListener
from .patterns import *
from .patterns import _BooleanExpression
# flake8: noqa F405
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def collapse_lists(lists):
result = []
for c in lists:
if isinstance(c, list):
result.extend(c)
else:
result.append(c)
return result
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def remove_terminal_nodes(parse_tree_nodes):
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values = []
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for x in parse_tree_nodes:
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if not isinstance(x, TerminalNode):
values.append(x)
return values
# This class defines a complete generic visitor for a parse tree produced by STIXPatternParser.
class STIXPatternVisitorForSTIX2(STIXPatternVisitor):
classes = {}
def __init__(self, module_suffix, module_name):
if module_suffix and module_name:
self.module_suffix = module_suffix
if not STIXPatternVisitorForSTIX2.classes:
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module = importlib.import_module(module_name)
for k, c in inspect.getmembers(module, inspect.isclass):
STIXPatternVisitorForSTIX2.classes[k] = c
else:
self.module_suffix = None
super(STIXPatternVisitor, self).__init__()
def get_class(self, class_name):
if class_name in STIXPatternVisitorForSTIX2.classes:
return STIXPatternVisitorForSTIX2.classes[class_name]
else:
return None
def instantiate(self, klass_name, *args):
klass_to_instantiate = None
if self.module_suffix:
klass_to_instantiate = self.get_class(klass_name + "For" + self.module_suffix)
if not klass_to_instantiate:
# use the classes in python_stix2
klass_to_instantiate = globals()[klass_name]
return klass_to_instantiate(*args)
# Visit a parse tree produced by STIXPatternParser#pattern.
def visitPattern(self, ctx):
children = self.visitChildren(ctx)
return children[0]
# Visit a parse tree produced by STIXPatternParser#observationExpressions.
def visitObservationExpressions(self, ctx):
children = self.visitChildren(ctx)
if len(children) == 1:
return children[0]
else:
return FollowedByObservationExpression([children[0], children[2]])
# Visit a parse tree produced by STIXPatternParser#observationExpressionOr.
def visitObservationExpressionOr(self, ctx):
children = self.visitChildren(ctx)
if len(children) == 1:
return children[0]
else:
return self.instantiate("OrObservationExpression", [children[0], children[2]])
# Visit a parse tree produced by STIXPatternParser#observationExpressionAnd.
def visitObservationExpressionAnd(self, ctx):
children = self.visitChildren(ctx)
if len(children) == 1:
return children[0]
else:
return self.instantiate("AndObservationExpression", [children[0], children[2]])
# Visit a parse tree produced by STIXPatternParser#observationExpressionRepeated.
def visitObservationExpressionRepeated(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("QualifiedObservationExpression", children[0], children[1])
# Visit a parse tree produced by STIXPatternParser#observationExpressionSimple.
def visitObservationExpressionSimple(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("ObservationExpression", children[1])
# Visit a parse tree produced by STIXPatternParser#observationExpressionCompound.
def visitObservationExpressionCompound(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("ObservationExpression", children[1])
# Visit a parse tree produced by STIXPatternParser#observationExpressionWithin.
def visitObservationExpressionWithin(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("QualifiedObservationExpression", children[0], children[1])
# Visit a parse tree produced by STIXPatternParser#observationExpressionStartStop.
def visitObservationExpressionStartStop(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("QualifiedObservationExpression", children[0], children[1])
# Visit a parse tree produced by STIXPatternParser#comparisonExpression.
def visitComparisonExpression(self, ctx):
children = self.visitChildren(ctx)
if len(children) == 1:
return children[0]
else:
if isinstance(children[0], _BooleanExpression):
children[0].operands.append(children[2])
return children[0]
else:
return self.instantiate("OrBooleanExpression", [children[0], children[2]])
# Visit a parse tree produced by STIXPatternParser#comparisonExpressionAnd.
def visitComparisonExpressionAnd(self, ctx):
# TODO: NOT
children = self.visitChildren(ctx)
if len(children) == 1:
return children[0]
else:
if isinstance(children[0], _BooleanExpression):
children[0].operands.append(children[2])
return children[0]
else:
return self.instantiate("AndBooleanExpression", [children[0], children[2]])
# Visit a parse tree produced by STIXPatternParser#propTestEqual.
def visitPropTestEqual(self, ctx):
children = self.visitChildren(ctx)
operator = children[1].symbol.type
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negated = operator != STIXPatternParser.EQ
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return self.instantiate(
"EqualityComparisonExpression", children[0], children[3 if len(children) > 3 else 2],
negated,
)
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# Visit a parse tree produced by STIXPatternParser#propTestOrder.
def visitPropTestOrder(self, ctx):
children = self.visitChildren(ctx)
operator = children[1].symbol.type
if operator == STIXPatternParser.GT:
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return self.instantiate(
"GreaterThanComparisonExpression", children[0],
children[3 if len(children) > 3 else 2], False,
)
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elif operator == STIXPatternParser.LT:
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return self.instantiate(
"LessThanComparisonExpression", children[0],
children[3 if len(children) > 3 else 2], False,
)
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elif operator == STIXPatternParser.GE:
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return self.instantiate(
"GreaterThanEqualComparisonExpression", children[0],
children[3 if len(children) > 3 else 2], False,
)
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elif operator == STIXPatternParser.LE:
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return self.instantiate(
"LessThanEqualComparisonExpression", children[0],
children[3 if len(children) > 3 else 2], False,
)
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# Visit a parse tree produced by STIXPatternParser#propTestSet.
def visitPropTestSet(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("InComparisonExpression", children[0], children[3 if len(children) > 3 else 2], False)
# Visit a parse tree produced by STIXPatternParser#propTestLike.
def visitPropTestLike(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("LikeComparisonExpression", children[0], children[3 if len(children) > 3 else 2], False)
# Visit a parse tree produced by STIXPatternParser#propTestRegex.
def visitPropTestRegex(self, ctx):
children = self.visitChildren(ctx)
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return self.instantiate(
"MatchesComparisonExpression", children[0], children[3 if len(children) > 3 else 2],
False,
)
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# Visit a parse tree produced by STIXPatternParser#propTestIsSubset.
def visitPropTestIsSubset(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("IsSubsetComparisonExpression", children[0], children[3 if len(children) > 3 else 2])
# Visit a parse tree produced by STIXPatternParser#propTestIsSuperset.
def visitPropTestIsSuperset(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("IsSupersetComparisonExpression", children[0], children[3 if len(children) > 3 else 2])
# Visit a parse tree produced by STIXPatternParser#propTestParen.
def visitPropTestParen(self, ctx):
children = self.visitChildren(ctx)
return self.instantiate("ParentheticalExpression", children[1])
# Visit a parse tree produced by STIXPatternParser#startStopQualifier.
def visitStartStopQualifier(self, ctx):
children = self.visitChildren(ctx)
return StartStopQualifier(children[1], children[3])
# Visit a parse tree produced by STIXPatternParser#withinQualifier.
def visitWithinQualifier(self, ctx):
children = self.visitChildren(ctx)
return WithinQualifier(children[1])
# Visit a parse tree produced by STIXPatternParser#repeatedQualifier.
def visitRepeatedQualifier(self, ctx):
children = self.visitChildren(ctx)
return RepeatQualifier(children[1])
# Visit a parse tree produced by STIXPatternParser#objectPath.
def visitObjectPath(self, ctx):
children = self.visitChildren(ctx)
flat_list = collapse_lists(children[2:])
property_path = []
i = 0
while i < len(flat_list):
current = flat_list[i]
if i == len(flat_list)-1:
property_path.append(current)
break
next = flat_list[i+1]
if isinstance(next, TerminalNode):
property_path.append(self.instantiate("ListObjectPathComponent", current.property_name, next.getText()))
i += 2
else:
property_path.append(current)
i += 1
return self.instantiate("ObjectPath", children[0].getText(), property_path)
# Visit a parse tree produced by STIXPatternParser#objectType.
def visitObjectType(self, ctx):
children = self.visitChildren(ctx)
return children[0]
# Visit a parse tree produced by STIXPatternParser#firstPathComponent.
def visitFirstPathComponent(self, ctx):
children = self.visitChildren(ctx)
step = children[0].getText()
# if step.endswith("_ref"):
# return stix2.ReferenceObjectPathComponent(step)
# else:
return self.instantiate("BasicObjectPathComponent", step, False)
# Visit a parse tree produced by STIXPatternParser#indexPathStep.
def visitIndexPathStep(self, ctx):
children = self.visitChildren(ctx)
return children[1]
# Visit a parse tree produced by STIXPatternParser#pathStep.
def visitPathStep(self, ctx):
return collapse_lists(self.visitChildren(ctx))
# Visit a parse tree produced by STIXPatternParser#keyPathStep.
def visitKeyPathStep(self, ctx):
children = self.visitChildren(ctx)
if isinstance(children[1], StringConstant):
# special case for hashes
return children[1].value
else:
return self.instantiate("BasicObjectPathComponent", children[1].getText(), True)
# Visit a parse tree produced by STIXPatternParser#setLiteral.
def visitSetLiteral(self, ctx):
children = self.visitChildren(ctx)
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return self.instantiate("ListConstant", remove_terminal_nodes(children))
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# Visit a parse tree produced by STIXPatternParser#primitiveLiteral.
def visitPrimitiveLiteral(self, ctx):
children = self.visitChildren(ctx)
return children[0]
# Visit a parse tree produced by STIXPatternParser#orderableLiteral.
def visitOrderableLiteral(self, ctx):
children = self.visitChildren(ctx)
return children[0]
def visitTerminal(self, node):
if node.symbol.type == STIXPatternParser.IntPosLiteral or node.symbol.type == STIXPatternParser.IntNegLiteral:
return IntegerConstant(node.getText())
elif node.symbol.type == STIXPatternParser.FloatPosLiteral or node.symbol.type == STIXPatternParser.FloatNegLiteral:
return FloatConstant(node.getText())
elif node.symbol.type == STIXPatternParser.HexLiteral:
return HexConstant(node.getText(), from_parse_tree=True)
elif node.symbol.type == STIXPatternParser.BinaryLiteral:
return BinaryConstant(node.getText(), from_parse_tree=True)
elif node.symbol.type == STIXPatternParser.StringLiteral:
return StringConstant(node.getText().strip('\''), from_parse_tree=True)
elif node.symbol.type == STIXPatternParser.BoolLiteral:
return BooleanConstant(node.getText())
elif node.symbol.type == STIXPatternParser.TimestampLiteral:
return TimestampConstant(node.getText())
else:
return node
def aggregateResult(self, aggregate, nextResult):
if aggregate:
aggregate.append(nextResult)
elif nextResult:
aggregate = [nextResult]
return aggregate
def create_pattern_object(pattern, module_suffix="", module_name=""):
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"""
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Validates a pattern against the STIX Pattern grammar. Error messages are
returned in a list. The test passed if the returned list is empty.
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"""
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start = ''
if isinstance(pattern, six.string_types):
start = pattern[:2]
pattern = InputStream(pattern)
if not start:
start = pattern.readline()[:2]
pattern.seek(0)
parseErrListener = STIXPatternErrorListener()
lexer = STIXPatternLexer(pattern)
# it always adds a console listener by default... remove it.
lexer.removeErrorListeners()
stream = CommonTokenStream(lexer)
parser = STIXPatternParser(stream)
parser.buildParseTrees = True
# it always adds a console listener by default... remove it.
parser.removeErrorListeners()
parser.addErrorListener(parseErrListener)
# To improve error messages, replace "<INVALID>" in the literal
# names with symbolic names. This is a hack, but seemed like
# the simplest workaround.
for i, lit_name in enumerate(parser.literalNames):
if lit_name == u"<INVALID>":
parser.literalNames[i] = parser.symbolicNames[i]
tree = parser.pattern()
builder = STIXPatternVisitorForSTIX2(module_suffix, module_name)
return builder.visit(tree)