libraries/utility.py - voltha-system-tests - Gitiles

 # Copyright 2020 Open Networking Foundation
 # delivered by ADTRAN, 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.

 from __future__ import absolute_import
 from __future__ import print_function
 import inspect
 import os
 import operator

 # global definition of keys (find in given 'inventory_data')
 _NAME = 'name'
 _CHILDREN = 'children'
 _SENSOR_DATA = 'sensor_data'
 _ROOT = 'root'
 _INVENTORY = 'inventory'
 _UUID = 'uuid'


 def test(success):
     if success is True:
         return True
     return False


 def unique():
     """Returns the current filename and line number in our program."""
     trace = str(os.path.basename(__file__) +
                 "[" + str(inspect.currentframe().f_back.f_lineno) + "]:")
     return trace


 # check if given paramter exist in inventory data, search recursive
 def check_in_inventory_Component_data(inventory_data, name, element, value):
     print(unique(), str(inventory_data), str(name), str(element), str(value))
     if inventory_data.get(_NAME) == name and inventory_data.get(element) == value:
         return True

     for child in inventory_data[_CHILDREN]:
         print(unique(), str(child))
         if child.get(_NAME) == name and child.get(element) == value:
             return True
         if _SENSOR_DATA in child:
             for sensor_data in child[_SENSOR_DATA]:
                 print(unique(), str(sensor_data))
                 if sensor_data.get(element) == value:
                     return True
         if _CHILDREN in child:
             result = check_in_inventory_Component_data(child, name, element, value)
             if result is True:
                 return result
     return False


 # get uuid out of inventory data, search recursive
 def get_uuid_from_inventory_Component_data(inventory_data, searchFor):
     print(unique(), str(inventory_data), ', ', str(searchFor))
     if inventory_data.get(_NAME) == searchFor:
         return inventory_data.get(_UUID)
     for child in inventory_data[_CHILDREN]:
         print(unique(), str(child))
         result = None
         if child.get(_NAME) == searchFor:
             print(unique(), str(child[_NAME]))
             result = child.get(_UUID)
         print(unique(), child.keys())
         if result is None and _CHILDREN in child:
             result = get_uuid_from_inventory_Component_data(child, searchFor)
         if result is not None:
             return result
     return None


 def get_uuid_from_Inventory_Element(inventory, searchFor):
     for children in inventory[_INVENTORY][_ROOT][_CHILDREN]:
         return get_uuid_from_inventory_Component_data(children, searchFor)
     return None


 def check_Inventory_Element(inventory, name, element, value):
     for childrens in inventory[_INVENTORY][_ROOT][_CHILDREN]:
         return check_in_inventory_Component_data(childrens, name, element, value)
     return False


 def getWord(line, number):
     line_in_list = line.split()
     if len(line_in_list) >= number-1:
         return line_in_list[number-1]
     return ""


 def decode(data):
     decoded_data = data
     print(unique(), str(decoded_data))


 # Compares two values using a given operator. The values are converted to float first so that
 # numbers as strings are also accepted. Returns True or False.
 # operator: ==, !=, <, <=, >, >=
 # Example:
 # | ${result} | Compare | 100 | >  | 5  | # True |
 def compare(value1, op, value2):
     ops = {"==": operator.eq,
            "!=": operator.ne,
            "<":  operator.lt,
            "<=": operator.le,
            ">":  operator.gt,
            ">=": operator.ge}
     return ops[op](float(value1), float(value2))


 # Validates two values using a given operator.
 # The values are converted to float first so that numbers as strings are also accepted.
 # Second value has to be a list in case of operator is 'in' or 'range'
 # Returns True or False.
 # operator: in, range, ==, !=, <, <=, >, >=
 # Example:
 # | ${result} | validate | 100 | >  | 5  | # True |
 # | ${result} | validate | 11  | in | ['11','264','329']  | # True |
 # | ${result} | validate | 1   | range | ['0','1']  | # True |
 def validate(value1, op, value2):
     if op == "in":
         return (float(value1) in [float(i) for i in value2])
     if op == "range":
         return ((compare(value1, ">=", value2[0])) and (compare(value1, "<=", value2[1])))
     return compare(value1, op, value2)
	# Copyright 2020 Open Networking Foundation
	# delivered by ADTRAN, 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.

	from __future__ import absolute_import
	from __future__ import print_function
	import inspect
	import os
	import operator

	# global definition of keys (find in given 'inventory_data')
	_NAME = 'name'
	_CHILDREN = 'children'
	_SENSOR_DATA = 'sensor_data'
	_ROOT = 'root'
	_INVENTORY = 'inventory'
	_UUID = 'uuid'


	def test(success):
	if success is True:
	return True
	return False


	def unique():
	"""Returns the current filename and line number in our program."""
	trace = str(os.path.basename(__file__) +
	"[" + str(inspect.currentframe().f_back.f_lineno) + "]:")
	return trace


	# check if given paramter exist in inventory data, search recursive
	def check_in_inventory_Component_data(inventory_data, name, element, value):
	print(unique(), str(inventory_data), str(name), str(element), str(value))
	if inventory_data.get(_NAME) == name and inventory_data.get(element) == value:
	return True

	for child in inventory_data[_CHILDREN]:
	print(unique(), str(child))
	if child.get(_NAME) == name and child.get(element) == value:
	return True
	if _SENSOR_DATA in child:
	for sensor_data in child[_SENSOR_DATA]:
	print(unique(), str(sensor_data))
	if sensor_data.get(element) == value:
	return True
	if _CHILDREN in child:
	result = check_in_inventory_Component_data(child, name, element, value)
	if result is True:
	return result
	return False


	# get uuid out of inventory data, search recursive
	def get_uuid_from_inventory_Component_data(inventory_data, searchFor):
	print(unique(), str(inventory_data), ', ', str(searchFor))
	if inventory_data.get(_NAME) == searchFor:
	return inventory_data.get(_UUID)
	for child in inventory_data[_CHILDREN]:
	print(unique(), str(child))
	result = None
	if child.get(_NAME) == searchFor:
	print(unique(), str(child[_NAME]))
	result = child.get(_UUID)
	print(unique(), child.keys())
	if result is None and _CHILDREN in child:
	result = get_uuid_from_inventory_Component_data(child, searchFor)
	if result is not None:
	return result
	return None


	def get_uuid_from_Inventory_Element(inventory, searchFor):
	for children in inventory[_INVENTORY][_ROOT][_CHILDREN]:
	return get_uuid_from_inventory_Component_data(children, searchFor)
	return None


	def check_Inventory_Element(inventory, name, element, value):
	for childrens in inventory[_INVENTORY][_ROOT][_CHILDREN]:
	return check_in_inventory_Component_data(childrens, name, element, value)
	return False


	def getWord(line, number):
	line_in_list = line.split()
	if len(line_in_list) >= number-1:
	return line_in_list[number-1]
	return ""


	def decode(data):
	decoded_data = data
	print(unique(), str(decoded_data))


	# Compares two values using a given operator. The values are converted to float first so that
	# numbers as strings are also accepted. Returns True or False.
	# operator: ==, !=, <, <=, >, >=
	# Example:
	# \| ${result} \| Compare \| 100 \| > \| 5 \| # True \|
	def compare(value1, op, value2):
	ops = {"==": operator.eq,
	"!=": operator.ne,
	"<": operator.lt,
	"<=": operator.le,
	">": operator.gt,
	">=": operator.ge}
	return ops[op](float(value1), float(value2))


	# Validates two values using a given operator.
	# The values are converted to float first so that numbers as strings are also accepted.
	# Second value has to be a list in case of operator is 'in' or 'range'
	# Returns True or False.
	# operator: in, range, ==, !=, <, <=, >, >=
	# Example:
	# \| ${result} \| validate \| 100 \| > \| 5 \| # True \|
	# \| ${result} \| validate \| 11 \| in \| ['11','264','329'] \| # True \|
	# \| ${result} \| validate \| 1 \| range \| ['0','1'] \| # True \|
	def validate(value1, op, value2):
	if op == "in":
	return (float(value1) in [float(i) for i in value2])
	if op == "range":
	return ((compare(value1, ">=", value2[0])) and (compare(value1, "<=", value2[1])))
	return compare(value1, op, value2)