deb-mistral/mistral/expressions.py
LingxianKong a674853d62 Make use of graduated oslo.log module
* use oslo.log for logging functionality
* get rid of the file /mistral/openstack/common/log.py

Implements: blueprint mistral-log-enhancement
Partial-Bug: #1459188

Change-Id: I6b62cffda0a20b6caf59cc30bcc33c21ae1e5898
2015-06-09 17:38:19 +08:00

211 lines
6.3 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
import yaql
from yaql import exceptions as yaql_exc
from mistral import exceptions as exc
from mistral import yaql_utils
LOG = logging.getLogger(__name__)
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.parse(expression)
except (yaql_exc.YaqlException, KeyError, ValueError, TypeError) as e:
raise exc.YaqlEvaluationException(e.message)
@classmethod
def evaluate(cls, expression, data_context):
LOG.debug("Evaluating YAQL expression [expression='%s', context=%s]"
% (expression, data_context))
try:
result = yaql.parse(expression).evaluate(
data=data_context,
context=yaql_utils.create_yaql_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.copy(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