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#!/usr/bin/env python
#
# Licence statement goes here
#
import constants
import copy
def partition_tosca(filepath, nodesite, tpl, tpl_local={}):
file_paths = {} #holds the list of partitioned files
sitenodes = {} #holds nodes in each site
#identify the number of partitions
for node in nodesite:
if nodesite[node] != []:
if sitenodes.has_key(nodesite[node]):
sitenodes[nodesite[node]].append(node)
else:
sitenodes[nodesite[node]] = [node]
#prepare the nodes
#tpl_local = {}
for site in sitenodes:
tpl_local[site] = copy.deepcopy(tpl)
#remove the nodes not assigned to a site
for node in nodesite:
for site in sitenodes:
if node not in sitenodes[site]:
tpl_local[site]['topology_template']['node_templates'].pop(node,None)
rm_dependents(tpl_local[site]['topology_template']['node_templates'] , node)
#remove from policy targets
if tpl_local[site]['topology_template'].has_key('policies'):
for rule in tpl_local[site]['topology_template']['policies']:
for key in rule: #there should be only one key
if node in rule[key]['targets']:
rule[key]['targets'].remove(node)
# remove the rule if there is no target left!
if len(rule[key]['targets']) is 0:
tpl_local[site]['topology_template']['policies'].remove(rule)
for site in sitenodes:
tpl_l = tpl_local[site]
rm_orphans(tpl_l)
file_paths[site] = filepath + '_part' + str(site) + '.yaml'
fout = open(file_paths[site],'w')
if tpl_l.has_key('tosca_definitions_version'):
fout.write('tosca_definitions_version: ')
fout.write(tpl_l['tosca_definitions_version'] + '\n')
write_obj(fout, tpl_l['tosca_definitions_version'], None, ' ')
fout.write('\n')
if tpl_l.has_key('description'):
fout.write('description: ')
fout.write(tpl_l['description'] + '\n')
write_obj(fout, tpl_l['description'], None, ' ')
fout.write('\n')
if tpl_l.has_key('metadata'):
fout.write('metadata: ' + '\n')
write_obj(fout, tpl_l['metadata'], None, ' ')
fout.write('\n')
if tpl_l.has_key('policy_types'):
fout.write('policy_types: ' + '\n')
write_obj(fout, tpl_l['policy_types'], None, ' ')
fout.write('\n')
if tpl_l.has_key('topology_template'):
fout.write('topology_template: ' + '\n')
write_obj(fout, tpl_l['topology_template'], None, ' ')
fout.close()
return file_paths
def write_obj(f, curr, prev, prepad):
if type(curr) in (str,int,float,bool):
#should be a string, numerical, boolean, etc.
if type(prev) is dict:
#write on the same line, key should be written
f.write(' ' + str(curr) + '\n')
elif type(curr) is dict:
if prev is not None and type(prev) is not list:
f.write('\n')
for key in curr:
if type(prev) is list:
f.write(prepad + '- ' + str(key) + ':')
write_obj(f, curr[key], curr, prepad + ' ')
else:
f.write(prepad + str(key) + ':')
write_obj(f, curr[key], curr, prepad + ' ')
elif type(curr) is list:
#check if this list is a leaf node
if len(curr) is 0 or type(curr[0]) in (str,int,float,bool):
f.write(' ')
f.write(str(curr).replace("'",""))
#iterate over list of dictionaries
f.write('\n')
for item in curr:
write_obj(f, item, curr, prepad )
def rm_dependents(node_template , node):
del_list = []
#find the dependents
for nd in node_template:
if node_template[nd].has_key('requirements'):
for i in range(len(node_template[nd]['requirements'])):
if node_template[nd]['requirements'][i].has_key('virtualLink') and \
node_template[nd]['requirements'][i]['virtualLink'].has_key('node') and \
node_template[nd]['requirements'][i]['virtualLink']['node'] == node:
del_list.append(nd)
if node_template[nd]['requirements'][i].has_key('virtualBinding') and \
node_template[nd]['requirements'][i]['virtualBinding'].has_key('node') and \
node_template[nd]['requirements'][i]['virtualBinding']['node'] == node:
del_list.append(nd)
#remove the dependents
for i in range(len(del_list)):
del node_template[del_list[i]]
def rm_orphans(tpl):
nodes = tpl['topology_template']['node_templates']
keep_list = []
for node in nodes:
if nodes[node].has_key('requirements'):
for i in range(len(nodes[node]['requirements'])):
if nodes[node]['requirements'][i].has_key('virtualLink'):
keep_list.append(nodes[node]['requirements'][i]['virtualLink']['node'])
for node in list(nodes):
if (nodes[node]['type'] == 'tosca.nodes.nfv.VL') and (node not in keep_list):
del nodes[node]
def return_boundarylinks(tpl_site):
VL = {}
sites_of_VL = {}
# First find all the VLs copied to each site
for site in tpl_site.keys():
nodes = tpl_site[site]['topology_template']['node_templates']
for node in nodes:
if (nodes[node]['type'] == 'tosca.nodes.nfv.VL'):
if sites_of_VL.has_key(node): #if true, then this VL maps to more than 1 site
sites_of_VL[node].add(site)
VL[node] = nodes[node]
else:
sites_of_VL[node] = set([site])
return VL, sites_of_VL
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