openstack/heat-translator
Code Issues Proposed changes
13adc548fa
heat-translator/translator/common/utils.py
Mathieu Velten f17a5c24af Fully implements the semantic of get_* functions : 
- handle optional capability/requirement parameter
- handle optional nested property / index

Handle functions in outputs.

Change-Id: I3f070f0a2531b31c897e96c3581280d8afb09d89
2016-07-07 10:23:43 +02:00

326 lines
11 KiB
Python
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# 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 json
import logging
import math
import numbers
import os
import re
import requests
import six
from six.moves.urllib.parse import urlparse
import yaml
from toscaparser.utils.gettextutils import _
import toscaparser.utils.yamlparser
YAML_ORDER_PARSER = toscaparser.utils.yamlparser.simple_ordered_parse
log = logging.getLogger('heat-translator')
# Required environment variables to create openstackclient object.
ENV_VARIABLES = ['OS_AUTH_URL', 'OS_PASSWORD', 'OS_USERNAME', 'OS_TENANT_NAME']
class MemoryUnit(object):
UNIT_SIZE_DEFAULT = 'B'
UNIT_SIZE_DICT = {'B': 1, 'kB': 1000, 'KiB': 1024, 'MB': 1000000,
'MiB': 1048576, 'GB': 1000000000,
'GiB': 1073741824, 'TB': 1000000000000,
'TiB': 1099511627776}
@staticmethod
def convert_unit_size_to_num(size, unit=None):
"""Convert given size to a number representing given unit.
If unit is None, convert to a number representing UNIT_SIZE_DEFAULT
:param size: unit size e.g. 1 TB
:param unit: unit to be converted to e.g GB
:return: converted number e.g. 1000 for 1 TB size and unit GB
"""
if unit:
unit = MemoryUnit.validate_unit(unit)
else:
unit = MemoryUnit.UNIT_SIZE_DEFAULT
log.info(_('A memory unit is not provided for size; using the '
'default unit %(default)s.') % {'default': 'B'})
regex = re.compile('(\d*)\s*(\w*)')
result = regex.match(str(size)).groups()
if result[1]:
unit_size = MemoryUnit.validate_unit(result[1])
converted = int(str_to_num(result[0])
* MemoryUnit.UNIT_SIZE_DICT[unit_size]
* math.pow(MemoryUnit.UNIT_SIZE_DICT
[unit], -1))
log.info(_('Given size %(size)s is converted to %(num)s '
'%(unit)s.') % {'size': size,
'num': converted, 'unit': unit})
else:
converted = (str_to_num(result[0]))
return converted
@staticmethod
def validate_unit(unit):
if unit in MemoryUnit.UNIT_SIZE_DICT.keys():
return unit
else:
for key in MemoryUnit.UNIT_SIZE_DICT.keys():
if key.upper() == unit.upper():
return key
msg = _('Provided unit "{0}" is not valid. The valid units are'
' {1}').format(unit, MemoryUnit.UNIT_SIZE_DICT.keys())
log.error(msg)
raise ValueError(msg)
class CompareUtils(object):
MISMATCH_VALUE1_LABEL = "<Expected>"
MISMATCH_VALUE2_LABEL = "<Provided>"
ORDERLESS_LIST_KEYS = ['allowed_values', 'depends_on']
@staticmethod
def compare_dicts(dict1, dict2):
"""Return False if not equal, True if both are equal."""
if dict1 is None and dict2 is None:
return True
if dict1 is None or dict2 is None:
return False
both_equal = True
for dict1_item, dict2_item in zip(dict1.items(), dict2.items()):
if dict1_item != dict2_item:
msg = (_("%(label1)s: %(item1)s \n is not equal to \n:"
"%(label2)s: %(item2)s")
% {'label1': CompareUtils.MISMATCH_VALUE2_LABEL,
'item1': dict1_item,
'label2': CompareUtils.MISMATCH_VALUE1_LABEL,
'item2': dict2_item})
log.warning(msg)
both_equal = False
break
return both_equal
@staticmethod
def compare_hot_yamls(generated_yaml, expected_yaml):
hot_translated_dict = YAML_ORDER_PARSER(generated_yaml)
hot_expected_dict = YAML_ORDER_PARSER(expected_yaml)
return CompareUtils.compare_dicts(hot_translated_dict,
hot_expected_dict)
@staticmethod
def reorder(dic):
'''Canonicalize list items in the dictionary for ease of comparison.
For properties whose value is a list in which the order does not
matter, some pre-processing is required to bring those lists into a
canonical format. We use sorting just to make sure such differences
in ordering would not cause to a mismatch.
'''
if type(dic) is not dict:
return None
reordered = {}
for key in dic.keys():
value = dic[key]
if type(value) is dict:
reordered[key] = CompareUtils.reorder(value)
elif type(value) is list \
and key in CompareUtils.ORDERLESS_LIST_KEYS:
reordered[key] = sorted(value)
else:
reordered[key] = value
return reordered
@staticmethod
def diff_dicts(dict1, dict2, reorder=True):
'''Compares two dictionaries and returns their differences.
Returns a dictionary of mismatches between the two dictionaries.
An empty dictionary is returned if two dictionaries are equivalent.
The reorder parameter indicates whether reordering is required
before comparison or not.
'''
if reorder:
dict1 = CompareUtils.reorder(dict1)
dict2 = CompareUtils.reorder(dict2)
if dict1 is None and dict2 is None:
return {}
if dict1 is None or dict2 is None:
return {CompareUtils.MISMATCH_VALUE1_LABEL: dict1,
CompareUtils.MISMATCH_VALUE2_LABEL: dict2}
diff = {}
keys1 = set(dict1.keys())
keys2 = set(dict2.keys())
for key in keys1.union(keys2):
if key in keys1 and key not in keys2:
diff[key] = {CompareUtils.MISMATCH_VALUE1_LABEL: dict1[key],
CompareUtils.MISMATCH_VALUE2_LABEL: None}
elif key not in keys1 and key in keys2:
diff[key] = {CompareUtils.MISMATCH_VALUE1_LABEL: None,
CompareUtils.MISMATCH_VALUE2_LABEL: dict2[key]}
else:
val1 = dict1[key]
val2 = dict2[key]
if val1 != val2:
if type(val1) is dict and type(val2) is dict:
diff[key] = CompareUtils.diff_dicts(val1, val2, False)
else:
diff[key] = {CompareUtils.MISMATCH_VALUE1_LABEL: val1,
CompareUtils.MISMATCH_VALUE2_LABEL: val2}
return diff
class YamlUtils(object):
@staticmethod
def get_dict(yaml_file):
'''Returns the dictionary representation of the given YAML spec.'''
try:
return yaml.load(open(yaml_file))
except IOError:
return None
@staticmethod
def compare_yamls(yaml1_file, yaml2_file):
'''Returns true if two dictionaries are equivalent, false otherwise.'''
dict1 = YamlUtils.get_dict(yaml1_file)
dict2 = YamlUtils.get_dict(yaml2_file)
return CompareUtils.compare_dicts(dict1, dict2)
@staticmethod
def compare_yaml_dict(yaml_file, dic):
'''Returns true if yaml matches the dictionary, false otherwise.'''
return CompareUtils.compare_dicts(YamlUtils.get_dict(yaml_file), dic)
class TranslationUtils(object):
@staticmethod
def compare_tosca_translation_with_hot(tosca_file, hot_file, params):
'''Verify tosca translation against the given hot specification.
inputs:
tosca_file: relative local path or URL to the tosca input file
hot_file: relative path to expected hot output
params: dictionary of parameter name value pairs
Returns as a dictionary the difference between the HOT translation
of the given tosca_file and the given hot_file.
'''
from toscaparser.tosca_template import ToscaTemplate
from translator.hot.tosca_translator import TOSCATranslator
tosca_tpl = os.path.normpath(os.path.join(
os.path.dirname(os.path.abspath(__file__)), tosca_file))
a_file = os.path.isfile(tosca_tpl)
if not a_file:
tosca_tpl = tosca_file
expected_hot_tpl = os.path.join(
os.path.dirname(os.path.abspath(__file__)), hot_file)
tosca = ToscaTemplate(tosca_tpl, params, a_file)
translate = TOSCATranslator(tosca, params)
output = translate.translate()
output_dict = toscaparser.utils.yamlparser.simple_parse(output)
expected_output_dict = YamlUtils.get_dict(expected_hot_tpl)
return CompareUtils.diff_dicts(output_dict, expected_output_dict)
class UrlUtils(object):
@staticmethod
def validate_url(path):
"""Validates whether the given path is a URL or not.
If the given path includes a scheme (http, https, ftp, ...) and a net
location (a domain name such as www.github.com) it is validated as a
URL.
"""
parsed = urlparse(path)
return bool(parsed.scheme) and bool(parsed.netloc)
def str_to_num(value):
"""Convert a string representation of a number into a numeric type."""
if isinstance(value, numbers.Number) \
or isinstance(value, six.integer_types) \
or isinstance(value, float):
return value
try:
return int(value)
except ValueError:
try:
return float(value)
except ValueError:
return None
def check_for_env_variables():
return set(ENV_VARIABLES) < set(os.environ.keys())
def get_ks_access_dict():
tenant_name = os.getenv('OS_TENANT_NAME')
username = os.getenv('OS_USERNAME')
password = os.getenv('OS_PASSWORD')
auth_url = os.getenv('OS_AUTH_URL')
auth_dict = {
"auth": {
"tenantName": tenant_name,
"passwordCredentials": {
"username": username,
"password": password
}
}
}
headers = {'Content-Type': 'application/json'}
try:
keystone_response = requests.post(auth_url + '/tokens',
data=json.dumps(auth_dict),
headers=headers)
if keystone_response.status_code != 200:
return None
return json.loads(keystone_response.content)
except Exception:
return None
def get_url_for(access_dict, service_type):
if access_dict is None:
return None
service_catalog = access_dict['access']['serviceCatalog']
service_url = ''
for service in service_catalog:
if service['type'] == service_type:
service_url = service['endpoints'][0]['publicURL']
break
return service_url
def get_token_id(access_dict):
if access_dict is None:
return None
return access_dict['access']['token']['id']
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