deb-mistral/mistral/expressions.py
Winson Chan 55540e116e Replace copy.copy with copy.deepcopy
The function copy.copy only copies reference and so if the object has dict
or nested dicts, these instances can be modified by code that has reference
to the original dict.

Change-Id: Ib2680f09b5a5d45fd7180e95ab5fedef05664c5b
Closes-Bug: #1503851
2015-10-07 19:55:31 +00:00

211 lines
6.4 KiB
Python

# Copyright 2013 - Mirantis, Inc.
# Copyright 2015 - StackStorm, Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import abc
import copy
import inspect
import re
from oslo_log import log as logging
import six
from yaql.language import exceptions as yaql_exc
from yaql.language import factory
from mistral import exceptions as exc
from mistral.utils import yaql_utils
LOG = logging.getLogger(__name__)
YAQL_ENGINE = factory.YaqlFactory().create()
class Evaluator(object):
"""Expression evaluator interface.
Having this interface gives the flexibility to change the actual expression
language used in Mistral DSL for conditions, output calculation etc.
"""
@classmethod
@abc.abstractmethod
def validate(cls, expression):
"""Parse and validates the expression.
:param expression: Expression string
:return: True if expression is valid
"""
pass
@classmethod
@abc.abstractmethod
def evaluate(cls, expression, context):
"""Evaluates the expression against the given data context.
:param expression: Expression string
:param context: Data context
:return: Expression result
"""
pass
@classmethod
@abc.abstractmethod
def is_expression(cls, expression):
"""Check expression string and decide whether it is expression or not.
:param expression: Expression string
:return: True if string is expression
"""
pass
class YAQLEvaluator(Evaluator):
@classmethod
def validate(cls, expression):
LOG.debug("Validating YAQL expression [expression='%s']", expression)
try:
YAQL_ENGINE(expression)
except (yaql_exc.YaqlException, KeyError, ValueError, TypeError) as e:
raise exc.YaqlEvaluationException(getattr(e, 'message', e))
@classmethod
def evaluate(cls, expression, data_context):
LOG.debug("Evaluating YAQL expression [expression='%s', context=%s]"
% (expression, data_context))
try:
result = YAQL_ENGINE(expression).evaluate(
context=yaql_utils.get_yaql_context(data_context)
)
except (yaql_exc.YaqlException, KeyError, ValueError, TypeError) as e:
raise exc.YaqlEvaluationException(
"Can not evaluate YAQL expression: %s, data = %s; error:"
" %s" % (expression, data_context, str(e))
)
LOG.debug("YAQL expression result: %s" % result)
return result if not inspect.isgenerator(result) else list(result)
@classmethod
def is_expression(cls, s):
# TODO(rakhmerov): It should be generalized since it may not be YAQL.
# Treat any string as a YAQL expression.
return isinstance(s, six.string_types)
INLINE_YAQL_REGEXP = '<%.*?%>'
class InlineYAQLEvaluator(YAQLEvaluator):
# This regular expression will look for multiple occurrences of YAQL
# expressions in '<% %>' (i.e. <% any_symbols %>) within a string.
find_expression_pattern = re.compile(INLINE_YAQL_REGEXP)
@classmethod
def validate(cls, expression):
LOG.debug(
"Validating inline YAQL expression [expression='%s']", expression)
if not isinstance(expression, six.string_types):
raise exc.YaqlEvaluationException("Unsupported type '%s'." %
type(expression))
found_expressions = cls.find_inline_expressions(expression)
if found_expressions:
[super(InlineYAQLEvaluator, cls).validate(expr.strip("<%>"))
for expr in found_expressions]
@classmethod
def evaluate(cls, expression, data_context):
LOG.debug(
"Evaluating inline YAQL expression [expression='%s', context=%s]"
% (expression, data_context)
)
result = expression
found_expressions = cls.find_inline_expressions(expression)
if found_expressions:
for expr in found_expressions:
trim_expr = expr.strip("<%>")
evaluated = super(InlineYAQLEvaluator,
cls).evaluate(trim_expr, data_context)
if len(expression) == len(expr):
result = evaluated
else:
result = result.replace(expr, str(evaluated))
LOG.debug("Inline YAQL expression result: %s" % result)
return result
@classmethod
def is_expression(cls, s):
return s
@classmethod
def find_inline_expressions(cls, s):
return cls.find_expression_pattern.findall(s)
# TODO(rakhmerov): Make it configurable.
_EVALUATOR = InlineYAQLEvaluator
def validate(expression):
return _EVALUATOR.validate(expression)
def evaluate(expression, context):
# Check if the passed value is expression so we don't need to do this
# every time on a caller side.
if (not isinstance(expression, six.string_types) or
not _EVALUATOR.is_expression(expression)):
return expression
return _EVALUATOR.evaluate(expression, context)
def _evaluate_item(item, context):
if isinstance(item, six.string_types):
try:
return evaluate(item, context)
except AttributeError as e:
LOG.debug("Expression %s is not evaluated, [context=%s]: %s"
% (item, context, e))
return item
else:
return evaluate_recursively(item, context)
def evaluate_recursively(data, context):
data = copy.deepcopy(data)
if not context:
return data
if isinstance(data, dict):
for key in data:
data[key] = _evaluate_item(data[key], context)
elif isinstance(data, list):
for index, item in enumerate(data):
data[index] = _evaluate_item(item, context)
elif isinstance(data, six.string_types):
return _evaluate_item(data, context)
return data