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# Copyright 2017 ZTE Corporation.
#
# 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 ftplib
import json
import logging
import os
import re
import shutil
import urllib
import paramiko
from toscaparser.tosca_template import ToscaTemplate
from toscaparser.properties import Property
from toscaparser.functions import Function, Concat, GetInput, get_function, function_mappings
from genericparser.pub.utils.toscaparsers.graph import Graph
from genericparser.pub.utils.toscaparsers.dataentityext import DataEntityExt
logger = logging.getLogger(__name__)
METADATA = "metadata"
PROPERTIES = "properties"
DESCRIPTION = "description"
REQUIREMENTS = "requirements"
INTERFACES = "interfaces"
TOPOLOGY_TEMPLATE = "topology_template"
INPUTS = "inputs"
CAPABILITIES = "capabilities"
ATTRIBUTES = "attributes"
ARTIFACTS = "artifacts"
DERIVED_FROM = "derived_from"
NODE_NAME = "name"
NODE_TYPE = "nodeType"
NODE_ROOT = "tosca.nodes.Root"
GROUP_TYPE = "groupType"
GROUPS_ROOT = "tosca.groups.Root"
class BaseInfoModel(object):
def __init__(self, path=None, params=None, tosca=None):
if tosca:
_tosca = tosca
else:
_tosca = self.buildToscaTemplate(path, params)
self.description = getattr(_tosca, "description", "")
self.parseModel(_tosca)
def parseModel(self, tosca):
pass
def buildInputs(self, tosca):
topo = tosca.tpl.get(TOPOLOGY_TEMPLATE, None)
return topo.get(INPUTS, {}) if topo else {}
def buildToscaTemplate(self, path, params):
file_name = None
try:
file_name = self._check_download_file(path)
valid_params = self._validate_input_params(file_name, params)
return self._create_tosca_template(file_name, valid_params)
finally:
if file_name is not None and file_name != path and os.path.exists(file_name):
try:
os.remove(file_name)
except Exception as e:
logger.error("Failed to parse package, error: %s", e.message)
def _validate_input_params(self, path, params):
valid_params = {}
inputs = {}
if isinstance(params, list):
for param in params:
key = param.get('key', 'undefined')
value = param.get('value', 'undefined')
inputs[key] = value
params = inputs
if params:
tmp = self._create_tosca_template(path, None)
if isinstance(params, dict):
for key, value in params.items():
if hasattr(tmp, 'inputs') and len(tmp.inputs) > 0:
for input_def in tmp.inputs:
if (input_def.name == key):
valid_params[key] = DataEntityExt.validate_datatype(input_def.type, value)
return valid_params
def _create_tosca_template(self, file_name, valid_params):
tosca_tpl = None
try:
tosca_tpl = ToscaTemplate(path=file_name,
parsed_params=valid_params,
no_required_paras_check=True,
debug_mode=True)
except Exception as e:
print e.message
finally:
if tosca_tpl is not None and hasattr(tosca_tpl, "temp_dir") and os.path.exists(tosca_tpl.temp_dir):
try:
shutil.rmtree(tosca_tpl.temp_dir)
except Exception as e:
logger.error("Failed to create tosca template, error: %s", e.message)
print "-----------------------------"
print '\n'.join(['%s:%s' % item for item in tosca_tpl.__dict__.items()])
print "-----------------------------"
return tosca_tpl
def _check_download_file(self, path):
if (path.startswith("ftp") or path.startswith("sftp")):
return self.downloadFileFromFtpServer(path)
elif (path.startswith("http")):
return self.download_file_from_httpserver(path)
return path
def download_file_from_httpserver(self, path):
path = path.encode("utf-8")
tmps = str.split(path, '/')
localFileName = tmps[len(tmps) - 1]
urllib.urlretrieve(path, localFileName)
return localFileName
def downloadFileFromFtpServer(self, path):
path = path.encode("utf-8")
tmp = str.split(path, '://')
protocol = tmp[0]
tmp = str.split(tmp[1], ':')
if len(tmp) == 2:
userName = tmp[0]
tmp = str.split(tmp[1], '@')
userPwd = tmp[0]
index = tmp[1].index('/')
hostIp = tmp[1][0:index]
remoteFileName = tmp[1][index:len(tmp[1])]
if protocol.lower() == 'ftp':
hostPort = 21
else:
hostPort = 22
if len(tmp) == 3:
userName = tmp[0]
userPwd = str.split(tmp[1], '@')[0]
hostIp = str.split(tmp[1], '@')[1]
index = tmp[2].index('/')
hostPort = tmp[2][0:index]
remoteFileName = tmp[2][index:len(tmp[2])]
localFileName = str.split(remoteFileName, '/')
localFileName = localFileName[len(localFileName) - 1]
if protocol.lower() == 'sftp':
self.sftp_get(userName, userPwd, hostIp, hostPort, remoteFileName, localFileName)
else:
self.ftp_get(userName, userPwd, hostIp, hostPort, remoteFileName, localFileName)
return localFileName
def sftp_get(self, userName, userPwd, hostIp, hostPort, remoteFileName, localFileName):
# return
t = None
try:
t = paramiko.Transport(hostIp, int(hostPort))
t.connect(username=userName, password=userPwd)
sftp = paramiko.SFTPClient.from_transport(t)
sftp.get(remoteFileName, localFileName)
finally:
if t is not None:
t.close()
def ftp_get(self, userName, userPwd, hostIp, hostPort, remoteFileName, localFileName):
f = None
try:
ftp = ftplib.FTP()
ftp.connect(hostIp, hostPort)
ftp.login(userName, userPwd)
f = open(localFileName, 'wb')
ftp.retrbinary('RETR ' + remoteFileName, f.write, 1024)
f.close()
finally:
if f is not None:
f.close()
def buildMetadata(self, tosca):
return tosca.tpl.get(METADATA, {}) if tosca else {}
def buildNode(self, nodeTemplate, tosca):
inputs = tosca.inputs
parsed_params = tosca.parsed_params
ret = {}
ret[NODE_NAME] = nodeTemplate.name
ret[NODE_TYPE] = nodeTemplate.type
if DESCRIPTION in nodeTemplate.entity_tpl:
ret[DESCRIPTION] = nodeTemplate.entity_tpl[DESCRIPTION]
else:
ret[DESCRIPTION] = ''
if METADATA in nodeTemplate.entity_tpl:
ret[METADATA] = nodeTemplate.entity_tpl[METADATA]
else:
ret[METADATA] = ''
props = self.buildProperties_ex(nodeTemplate, tosca.topology_template)
ret[PROPERTIES] = self.verify_properties(props, inputs, parsed_params)
ret[REQUIREMENTS] = self.build_requirements(nodeTemplate)
self.buildCapabilities(nodeTemplate, inputs, ret)
self.buildArtifacts(nodeTemplate, inputs, ret)
interfaces = self.build_interfaces(nodeTemplate)
if interfaces:
ret[INTERFACES] = interfaces
return ret
def buildProperties(self, nodeTemplate, parsed_params):
properties = {}
isMappingParams = parsed_params and len(parsed_params) > 0
for k, item in nodeTemplate.get_properties().items():
properties[k] = item.value
if isinstance(item.value, GetInput):
if item.value.result() and isMappingParams:
properties[k] = DataEntityExt.validate_datatype(item.type, item.value.result())
else:
tmp = {}
tmp[item.value.name] = item.value.input_name
properties[k] = tmp
if ATTRIBUTES in nodeTemplate.entity_tpl:
for k, item in nodeTemplate.entity_tpl[ATTRIBUTES].items():
properties[k] = str(item)
return properties
def buildProperties_ex(self, nodeTemplate, topology_template, properties=None):
if properties is None:
properties = nodeTemplate.get_properties()
_properties = {}
if isinstance(properties, dict):
for name, prop in properties.items():
if isinstance(prop, Property):
if isinstance(prop.value, Function):
if isinstance(prop.value, Concat): # support one layer inner function.
value_str = ''
for arg in prop.value.args:
if isinstance(arg, str):
value_str += arg
elif isinstance(arg, dict):
raw_func = {}
for k, v in arg.items():
func_args = []
func_args.append(v)
raw_func[k] = func_args
func = get_function(topology_template, nodeTemplate, raw_func)
value_str += str(func.result())
_properties[name] = value_str
else:
_properties[name] = prop.value.result()
elif isinstance(prop.value, dict) or isinstance(prop.value, list):
_properties[name] = self.buildProperties_ex(nodeTemplate, topology_template, prop.value)
elif prop.type == 'string':
_properties[name] = prop.value
else:
_properties[name] = json.dumps(prop.value)
elif isinstance(prop, dict):
_properties[name] = self.buildProperties_ex(nodeTemplate, topology_template, prop)
elif isinstance(prop, list):
_properties[name] = self.buildProperties_ex(nodeTemplate, topology_template, prop)
elif name in function_mappings:
raw_func = {}
func_args = []
func_args.append(prop)
raw_func[name] = func_args
if name == 'CONCAT':
value_str = ''
for arg in prop:
if isinstance(arg, str):
value_str += arg
elif isinstance(arg, dict):
raw_func = {}
for k, v in arg.items():
func_args = []
func_args.append(v)
raw_func[k] = func_args
value_str += str(
get_function(topology_template, nodeTemplate, raw_func).result())
value = value_str
else:
return get_function(topology_template, nodeTemplate, raw_func).result()
else:
_properties[name] = prop
elif isinstance(properties, list):
value = []
for para in properties:
if isinstance(para, dict) or isinstance(para, list):
value.append(self.buildProperties_ex(nodeTemplate, topology_template, para))
else:
value.append(para)
return value
return _properties
def verify_properties(self, props, inputs, parsed_params):
ret_props = {}
if (props and len(props) > 0):
for key, value in props.items():
ret_props[key] = self._verify_value(value, inputs, parsed_params)
# if isinstance(value, str):
# ret_props[key] = self._verify_string(inputs, parsed_params, value);
# continue
# if isinstance(value, list):
# ret_props[key] = map(lambda x: self._verify_dict(inputs, parsed_params, x), value)
# continue
# if isinstance(value, dict):
# ret_props[key] = self._verify_map(inputs, parsed_params, value)
# continue
# ret_props[key] = value
return ret_props
def build_requirements(self, node_template):
rets = []
for req in node_template.requirements:
for req_name, req_value in req.items():
if (isinstance(req_value, dict)):
if ('node' in req_value and req_value['node'] not in node_template.templates):
continue # No target requirement for aria parser, not add to result.
rets.append({req_name: req_value})
return rets
def buildCapabilities(self, nodeTemplate, inputs, ret):
capabilities = json.dumps(nodeTemplate.entity_tpl.get(CAPABILITIES, None))
match = re.findall(r'\{"get_input":\s*"([\w|\-]+)"\}', capabilities)
for m in match:
aa = [input_def for input_def in inputs if m == input_def.name][0]
capabilities = re.sub(r'\{"get_input":\s*"([\w|\-]+)"\}', json.dumps(aa.default), capabilities, 1)
if capabilities != 'null':
ret[CAPABILITIES] = json.loads(capabilities)
def buildArtifacts(self, nodeTemplate, inputs, ret):
artifacts = json.dumps(nodeTemplate.entity_tpl.get('artifacts', None))
match = re.findall(r'\{"get_input":\s*"([\w|\-]+)"\}', artifacts)
for m in match:
aa = [input_def for input_def in inputs if m == input_def.name][0]
artifacts = re.sub(r'\{"get_input":\s*"([\w|\-]+)"\}', json.dumps(aa.default), artifacts, 1)
if artifacts != 'null':
ret[ARTIFACTS] = json.loads(artifacts)
def build_interfaces(self, node_template):
if INTERFACES in node_template.entity_tpl:
return node_template.entity_tpl[INTERFACES]
return None
def isNodeTypeX(self, node, nodeTypes, x):
node_type = node[NODE_TYPE]
while node_type != x:
node_type_derived = node_type
node_type = nodeTypes[node_type][DERIVED_FROM]
if node_type == NODE_ROOT or node_type == node_type_derived:
return False
return True
def get_requirement_node_name(self, req_value):
return self.get_prop_from_obj(req_value, 'node')
def getRequirementByNodeName(self, nodeTemplates, storage_name, prop):
for node in nodeTemplates:
if node[NODE_NAME] == storage_name:
if prop in node:
return node[prop]
def get_prop_from_obj(self, obj, prop):
if isinstance(obj, str):
return obj
if (isinstance(obj, dict) and prop in obj):
return obj[prop]
return None
def getNodeDependencys(self, node):
return self.getRequirementByName(node, 'dependency')
def getRequirementByName(self, node, requirementName):
requirements = []
if REQUIREMENTS in node:
for item in node[REQUIREMENTS]:
for key, value in item.items():
if key == requirementName:
requirements.append(value)
return requirements
def _verify_value(self, value, inputs, parsed_params):
if value == '{}':
return ''
if isinstance(value, str):
return self._verify_string(inputs, parsed_params, value)
if isinstance(value, list) or isinstance(value, dict):
return self._verify_object(value, inputs, parsed_params)
return value
def _verify_object(self, value, inputs, parsed_params):
s = self._verify_string(inputs, parsed_params, json.dumps(value))
return json.loads(s)
def _get_input_name(self, getInput):
input_name = getInput.split(':')[1]
input_name = input_name.strip()
return input_name.replace('"', '').replace('}', '')
def _verify_string(self, inputs, parsed_params, value):
getInputs = re.findall(r'{"get_input": "[a-zA-Z_0-9]+"}', value)
for getInput in getInputs:
input_name = self._get_input_name(getInput)
if parsed_params and input_name in parsed_params:
value = value.replace(getInput, json.dumps(parsed_params[input_name]))
else:
for input_def in inputs:
if input_def.default and input_name == input_def.name:
value = value.replace(getInput, json.dumps(input_def.default))
return value
def get_node_by_name(self, node_templates, name):
for node in node_templates:
if node[NODE_NAME] == name:
return node
return None
def getCapabilityByName(self, node, capabilityName):
if CAPABILITIES in node and capabilityName in node[CAPABILITIES]:
return node[CAPABILITIES][capabilityName]
return None
def get_base_path(self, tosca):
fpath, fname = os.path.split(tosca.path)
return fpath
def build_artifacts(self, node):
rets = []
if ARTIFACTS in node and len(node[ARTIFACTS]) > 0:
artifacts = node[ARTIFACTS]
for name, value in artifacts.items():
ret = {}
ret['artifact_name'] = name
ret['file'] = value
if isinstance(value, dict):
ret.update(value)
rets.append(ret)
else:
# TODO It is workaround for SDC-1900.
logger.error("VCPE specific code")
ret = {}
ret['artifact_name'] = "sw_image"
ret['file'] = "ubuntu_16.04"
ret['type'] = "tosca.artifacts.nfv.SwImage"
rets.append(ret)
return rets
def get_node_by_req(self, node_templates, req):
req_node_name = self.get_requirement_node_name(req)
return self.get_node_by_name(node_templates, req_node_name)
def isGroupTypeX(self, group, groupTypes, x):
group_type = group[GROUP_TYPE]
while group_type != x:
group_type_derived = group_type
group_type = groupTypes[group_type][DERIVED_FROM]
if group_type == GROUPS_ROOT or group_type == group_type_derived:
return False
return True
def setTargetValues(self, dict_target, target_keys, dict_source, source_keys):
i = 0
for item in source_keys:
dict_target[target_keys[i]] = dict_source.get(item, "")
i += 1
return dict_target
def get_deploy_graph(self, tosca, relations):
nodes = tosca.graph.nodetemplates
graph = Graph()
for node in nodes:
self._build_deploy_path(node, [], graph, relations)
return graph.to_dict()
def _build_deploy_path(self, node, node_parent, graph, relations):
graph.add_node(node.name, node_parent)
type_require_set = {}
type_requires = node.type_definition.requirements
for type_require in type_requires:
type_require_set.update(type_require)
for requirement in node.requirements:
for k in requirement.keys():
if type_require_set[k].get('relationship', None) in relations[0] or type_require_set[k].get('capability', None) in relations[0]:
if isinstance(requirement[k], dict):
next_node = requirement[k].get('node', None)
else:
next_node = requirement[k]
graph.add_node(next_node, [node.name])
if type_require_set[k].get('relationship', None) in relations[1]:
if isinstance(requirement[k], dict):
next_node = requirement[k].get('node', None)
else:
next_node = requirement[k]
graph.add_node(next_node, [node.name])
def get_substitution_mappings(self, tosca):
node = {
'properties': {},
'requirements': {},
'capabilities': {},
'metadata': {}
}
metadata = None
substitution_mappings = tosca.tpl['topology_template'].get('substitution_mappings', None)
if substitution_mappings:
nodeType = substitution_mappings['node_type']
logger.debug("nodeType %s", nodeType)
if "node_types" in tosca.tpl:
node_types = tosca.tpl['node_types'].get(nodeType, None)
derivedFrom = node_types.get('derived_from', "")
node['type'] = derivedFrom
node['properties'] = node_types.get('properties', {})
node['requirements'] = node_types.get('requirements', {})
node['capabilities'] = node_types.get('capabilities', {})
metadata = node_types.get('metadata', {})
if "type" not in node or node['type'] == "":
node['type'] = nodeType
node['properties'] = substitution_mappings.get('properties', {})
node['requirements'] = substitution_mappings.get('requirements', {})
node['capabilities'] = substitution_mappings.get('capabilities', {})
metadata = substitution_mappings.get('metadata', {})
node['metadata'] = metadata if metadata and metadata != {} else self.buildMetadata(tosca)
return node
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