def setUp(self):
super(Volume, self).setUp()
self.primary_node = self.input["node"]
self.util = Util(self.primary_node)
self.data_load_flag = False
self.number_of_cycles = 300 # ToDO: scale it up later
self.number_of_kv_pairs = 100000 # ToDO: scale it up later
def infer(self, params):
window = {'tweets':[], 'start':0} # storing tweets
""" User distribution updating """
for tweet in self.tweets.stream():
if type(tweet) == type({}) and 'timestamp' in tweet:
current_time = Util.str_to_unixtime(Util.time_to_str(tweet['timestamp']))
window['tweets'].append(tweet)
if current_time - window['start'] > params['window_size']:
if params['tl']:
""" use tl-words """
tlwords = self.extract_local_words_(window['tweets'], params)
else:
""" dont use tl-words """
tlwords = Words()
self.update_user_distributions(window['tweets'], tlwords, params)
window = {'tweets':[], 'start':current_time}
""" Location prediction using user distribution """
for user in self.users.iter():
if user['location_point'] == None:
""" unlabeled user """
if user['id'] in self.user_distributions and len(self.user_distributions[user['id']]) > 0:
inferred_city = self.predict(self.user_distributions[user['id']], params)
inferred_location = self.model.means_[inferred_city]
user['location_point'] = inferred_location
else:
if params['default']:
""" no clues """
""" predict using prior """
inferred_city = self.predict({}, params)
inferred_location = self.model.means_[inferred_city]
user['location_point'] = inferred_location
def importprojectdir(cls, dir_project, file_type):
"""Imports all descriptor files under a given folder
this method is specific for Srv6_net_prog project type
"""
project = {'srv6_net_prog': {}, 'positions': {}}
for desc_type in project:
cur_type_path = os.path.join(dir_project, desc_type.upper())
log.debug(cur_type_path)
if os.path.isdir(cur_type_path):
for file in glob.glob(
os.path.join(cur_type_path, '*.' + file_type)):
if file_type == 'json' and os.path.basename(
file) != 'vertices.json':
project[desc_type][os.path.basename(file).split('.')
[0]] = Util.loadjsonfile(file)
elif file_type == 'yaml':
project[desc_type][os.path.basename(file).split('.')
[0]] = Util.loadyamlfile(file)
for vertices_file in glob.glob(
os.path.join(dir_project, "SRV6_NET_PROG", '*.json')):
if os.path.basename(vertices_file) == 'vertices.json':
project['positions']['vertices'] = Util.loadjsonfile(
vertices_file)
return project
def main():
opt = parse_cmdline()
flist = os.listdir(opt.yaml_dir)
ts = TreeShape(fanout=opt.fanout, width=900, height=900)
u = Util()
i = 0
for f in sorted(flist):
ybuf = u.file_to_yaml(f"{opt.yaml_dir}/{f}")
d = ts.process_yaml(ybuf)
if d != None:
ts.add_tree_data(d)
i += 1
p, slider = ts.plot_graph(title="cN Tree Shape")
if p == None:
print("Empty List")
return -1
if slider:
composite = [[p], [slider]]
else:
composite = [[p]]
output_file(opt.html_file)
plot = layout(composite)
save(plot)
print(f"Plot: {opt.html_file}")
def predict(self, user_id):
min_d = 100000000
min_p = None
p = self.user_locations[user_id]
for follower_id in self.graph.get_followers(user_id):
follower = self.users.get(follower_id)
if follower != None:
follower_p = follower['location_point']
if follower_p != None:
d = Util.hubeny_distance(follower_p, p)
if min_d > d:
min_d = d
min_p = follower_p
for friend_id in self.graph.get_friends(user_id):
friend = self.users.get(friend_id)
if friend != None:
friend_p = friend['location_point']
if friend_p != None:
d = Util.hubeny_distance(friend_p, p)
if min_d > d:
min_d = d
min_p = friend_p
for venue_name in self.venues.get_venues(user_id):
venue_p = self.venues.get_point(venue_name)
d = Util.hubeny_distance(venue_p, p)
if min_d > d:
min_d = d
min_p = venue_p
return min_p
def __query_server(url, params=None):
try:
url_params = urllib.urlencode(params) if params else None
if ETR.proxy:
proxy_handler = urllib2.ProxyHandler({'http': ETR.proxy})
opener = urllib2.build_opener(proxy_handler)
urllib2.install_opener(opener)
ws = urllib2.urlopen(url, url_params, timeout=ETR.timeout)
response = ws.read()
ws.close()
return response
except Exception, e:
if hasattr(e, 'reason'):
text = 'Error al intentar abrir la URL del host: ' + str(e.reason)
else:
text = 'Error al intentar abrir la URL del host: Tiempo de espera agotado'
try:
Util.write_error_log(getattr(params, 'linea'), getattr(params, 'parada'), text)
except Exception, e:
print 'Error al intentar guardar en el registro.'
def create_eth_if_in_service_profile(ucsm_ssh, param, eth_cnt):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
current_eth_cnt = 0
data_vlan_start = int(test_bed) * 100 + 20 + 3
data_vlan_end = data_vlan_start + eth_cnt
eth_vlan_list = range(data_vlan_start, data_vlan_end)
eth_vlan_list.insert(0, VLAN_ISCSI)
eth_vlan_list.insert(0, VLAN_MEDUSA)
eth_vlan_list.insert(0, VLAN_PXE)
for eth_vlan in eth_vlan_list:
eth_id = str(current_eth_cnt).zfill(2)
param['tag_mac_address'] = get_mac_address(test_bed, chassis, cartridge, server, eth_id)
param["tag_eth_name"] = ''.join([param["eth_pxe_name_prefix"], str(eth_vlan)])
param["tag_eth_vlan"] = 'vlan' + str(eth_vlan)
param['tag_eth_order'] = str(int(current_eth_cnt) + 1)
if current_eth_cnt % 2 == 0:
param["tag_eth_fabric"] = 'a'
else:
param["tag_eth_fabric"] = 'b'
#pprint.pprint(param)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_eth_vlan.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
current_eth_cnt += 1
if current_eth_cnt >= eth_cnt:
break
def __requestAuthToken(self):
util = Util()
config = util.getPushConfig()
if config is None:
return None
requestTime = str(int(round(time.time() * 1000)))
sign = config['AppKey'] + requestTime + config['MasterSecret']
sh = hashlib.sha256()
sh.update(sign.encode("utf8"))
payload = {
"sign": sh.hexdigest(),
"timestamp": requestTime,
"appkey": config['AppKey']
}
try:
url = "https://restapi.getui.com/v1/" + config[
'AppId'] + "/auth_sign"
ret = util.httpsPost(url, params=payload)
if ret['result'] == 'ok':
self.__setAuthToken(ret)
return ret['auth_token']
except Exception as err:
print(err)
return None
def edit_descriptor(self, type_descriptor, descriptor_id, new_data,
data_type):
try:
##FIXME questa parte va completamente rivista cosi' ha varie lacune
#log.info('editing ',+ descriptor_id + ' ' + type_descriptor + ' ' + data_type)
current_data = json.loads(self.data_project)
new_descriptor = new_data
if data_type == 'json':
new_descriptor = json.loads(new_data)
elif data_type == 'yaml':
yaml_object = yaml.load(new_data)
new_descriptor = json.loads(Util.yaml2json(yaml_object))
if type_descriptor != 'click' and type_descriptor != 'oshi' and type_descriptor != 'cran':
reference_schema = self.get_json_schema_by_type(
type_descriptor)
Util.validate_json_schema(reference_schema, new_descriptor)
current_data[type_descriptor][descriptor_id] = new_descriptor
self.data_project = current_data
self.update()
result = True
except Exception as e:
log.debug(e)
result = False
return result
def importprojectdir(cls, dir_project, file_type):
"""Imports all files from NSD and VNFDs folders under a given folder
this method is specific for Etsi project type
"""
project = {'nsd': {}, 'vnfd': {}, 'positions': {}}
# my_util = Util()
NSD_PATH = dir_project + '/NSD'
VNFD_PATH = dir_project + '/VNFD'
#import network service description
#in root directory file name nsd.json / nsd.yaml
for nsd_filename in glob.glob(os.path.join(NSD_PATH,
'*.' + file_type)):
log.debug(nsd_filename)
nsd_object = Util.loadjsonfile(nsd_filename)
project['nsd'][nsd_object['nsdIdentifier']] = nsd_object
# import vnf descriptions
# each file in root_path/VFND/*.json
for vnfd_filename in glob.glob(
os.path.join(VNFD_PATH, '*.' + file_type)):
log.debug(vnfd_filename)
vnfd_object = Util.loadjsonfile(vnfd_filename)
project['vnfd'][vnfd_object['vnfdId']] = vnfd_object
for vertices_file in glob.glob(os.path.join(dir_project, '*.json')):
if os.path.basename(vertices_file) == 'vertices.json':
project['positions']['vertices'] = Util.loadjsonfile(
vertices_file)
return project
def importprojectdir(dir_project, file_type):
files = []
for file_name in glob.glob(os.path.join(dir_project, '*.' + file_type)):
files.append(Util().openfile(file_name))
for file_name in glob.glob(os.path.join(dir_project, '*.' + 'json')):
files.append(Util().openfile(file_name))
return importprojectfile(files)
def create_iscsi_in_service_profile(ucsm_ssh, param):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_iscsi.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def execute_cmd(ucsm_ssh, param):
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_deletion.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def reuse_local_lun(ucsm_ssh, param):
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "local_lun_reuse.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def stop_medusa(self):
file_json_step = Define.PATH_SNIC_JSON_LINUX + "medusa_stop.json"
Util.run_step_list(self._ssh, file_json_step)
def start_medusa(self, lun_type):
file_json_step = None
if lun_type == 1:
file_json_step = Define.PATH_SNIC_JSON_LINUX + "medusa_start_boot_lun.json"
elif lun_type == 2:
file_json_step = Define.PATH_SNIC_JSON_LINUX + "medusa_start_data_lun.json"
elif lun_type == 3:
file_json_step = Define.PATH_SNIC_JSON_LINUX + "medusa_start_all_lun.json"
Util.run_step_list(self._ssh, file_json_step)
def load(self):
print('load 1')
filelist = Util().getFileList(self.folder,".dep")
for fn in filelist:
#print('fn',fn, self.getOriginalName(fn))
if Util().file_exists(self.folder, self.getOriginalName(fn)):
print('found skip ', fn)
else:
#print('not found remove from git')
self.append(fn)
return self
def power_cycle_service_profile(ucsm_ssh, param, wait=False):
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
param['tag_power_cycle_timing'] = 'immediate'
if wait:
param['tag_power_cycle_timing'] = 'wait'
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_power_cycle.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def import_kubernetes_from_dir_project(cls, dir_project):
result = {}
for k8s_filename in glob.glob(
os.path.join(dir_project, 'K8S', '*.yaml')):
log.info(k8s_filename)
yaml_object = Util().loadyamlfile(k8s_filename)
json_object = Util.json_loads_byteified(
Util.yaml2json(yaml_object))
filename = os.path.splitext(os.path.basename(str(k8s_filename)))[0]
result[filename] = json_object
return result
def create_ipmi_in_service_profile(ucsm_ssh, param):
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
server_full_list = [chassis, cartridge, server]
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
param['tag_server_full_id'] = '/'.join(server_full_list)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_ipmi.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def set_vnic_adapter_policy_in_service_profile(ucsm_ssh, param, adapter_policy_dict):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
for eth_name, adapter_policy in adapter_policy_dict.iteritems():
param['tag_eth_name'] = eth_name
param['tag_adapter_policy'] = adapter_policy
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_vnic_adapter_policy.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def set_vnic_no_vlan_in_service_profile(ucsm_ssh, param, vlan_number_list):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
for vlan_number in vlan_number_list:
param['tag_eth_name'] = 'eth' + str(vlan_number)
param['tag_vlan_name'] = 'vlan' + str(vlan_number)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_vnic_no_vlan.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def set_server_ext_mgmt_ip(ucsm_ssh, param):
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "server_ext_mgmt_ip.txt"
ip_list = get_ip_list(param['tag_kvm_ip_start'], 16)
for chassis_id, chassis in config.iteritems():
if chassis_id != 1: continue
for cartridge_id, cartridge in chassis.iteritems():
for server_id, server in cartridge.iteritems():
param['tag_server_id'] = '/'.join([str(chassis_id), str(cartridge_id), str(server_id)])
param['tag_addr'] = ip_list.pop()
param['tag_default_gw'] = param['tag_kvm_ip_gateway']
param['tag_subnet'] = param['tag_kvm_ip_netmask']
Util.run_text_step(ucsm_ssh, file_text_step, param)
def calc_divergence(self, n, word_count, params):
if params['divergence'] == 'l2':
d = Util.l2dist_fast(self.regular_sum, self.model.weights_, n, word_count)
return d
elif params['divergence'] == 'kl':
d = Util.kl_div_fast(self.model.weights_, n, word_count)
return d
elif params['divergence'] == 'dispersion':
points = [self.model.means_[int(k)] for k,v in word_count.items() for i in range(0, v)]
d = Util.calc_dispersion(points)
return d
else:
print 'invalid divergence'
exit()
def create_boot_policy(ucsm_ssh, param):
param['tag_boot_policy'] = 'disk-pxe-legacy'
param['tag_boot_mode'] = 'legacy'
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "boot_policy_order_disk_pxe.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
param['tag_boot_policy'] = 'disk-pxe-uefi'
param['tag_boot_mode'] = 'uefi'
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "boot_policy_order_disk_pxe.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
param['tag_boot_policy'] = 'iscsi-pxe-legacy'
param['tag_boot_mode'] = 'legacy'
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "boot_policy_order_iscsi_pxe.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
param['tag_boot_policy'] = 'iscsi-pxe-uefi'
param['tag_boot_mode'] = 'uefi'
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "boot_policy_order_iscsi_pxe.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def __requestAccessToken(self):
util = Util()
config = util.getConfigByAgentId(self.agentId)
if config is None:
print('No configuration for '+ str(self.agentId) +' was found!')
return None
requestTime = str(int(time.time()))
try:
res = util.httpsGet('https://qyapi.weixin.qq.com/cgi-bin/gettoken?corpid=' + config['CorpId'] + '&corpsecret=' + config['Secret'])
self.__setAccessToken({'expires_in': res['expires_in'], 'access_token': res['access_token'], 'request_time': requestTime})
return res['access_token']
except Exception as err:
print(err)
return None
def get_descriptor_template(cls, type_descriptor):
"""Returns a descriptor template for a given descriptor type"""
try:
# schema = Util.loadjsonfile(PATH_TO_DESCRIPTORS_TEMPLATES+type_descriptor+DESCRIPTOR_TEMPLATE_SUFFIX)
# print 'type_descriptor : '+type_descriptor
# FixMe bisogna creare un template
yaml_object = Util().loadyamlfile(
'toscaparser/extensions/nfv/tests/data/tosca_helloworld_nfv.yaml')
toscajson = json.loads(Util.yaml2json(yaml_object))
return toscajson
except Exception as e:
# log.error('Exception in get descriptor template') #TODO(stefano) add logging
print 'Exception in get descriptor template'
return False
def create_lun_in_service_profile(ucsm_ssh, param, lun):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
for lun_order, lun_detail in lun.iteritems():
param['tag_lun_order'] = str(lun_order)
param['tag_disk_size'] = str(lun_detail['disk_size'])
raid_level = lun_detail['raid_level']
param['tag_disk_group_config_policy_name'] = raid_level_disk_group_config_policy_dict[raid_level]['policy_name']
param['tag_local_lun'] = ''.join(['lun', chassis, cartridge, server]) + '_' + str(lun_order)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile_storage_lun.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def get_add_element(self, request):
result = False
group_id = request.POST.get('group_id')
element_id = request.POST.get('element_id')
element_type = request.POST.get('element_type')
current_data = json.loads(self.data_project)
tosca_nfv_definition = Util().loadyamlfile(PATH_TO_TOSCA_NFV_DEFINITION)
node_types = {}
node_types.update(tosca_nfv_definition['node_types'])
new_element = {}
new_element['type'] = element_type
type_definition = node_types[element_type]
while element_type in node_types:
type_definition = node_types[element_type]
if 'properties' in type_definition:
for propriety in type_definition['properties']:
if 'required' not in type_definition['properties'][propriety] or \
type_definition['properties'][propriety]['required']:
if 'properties' not in new_element:
new_element['properties'] = {}
if propriety == 'version':
new_element['properties'][propriety] = 1.0
else:
new_element['properties'][propriety] = 'prova'
element_type = type_definition['derived_from'] if 'derived_from' in type_definition else None
if new_element['type'] == 'tosca.nodes.nfv.VNF':
if 'imports' not in current_data['toscayaml'][group_id] or current_data['toscayaml'][group_id][
'imports'] is None:
current_data['toscayaml'][group_id]['imports'] = []
current_data['toscayaml'][group_id]['imports'].append(element_id + '.yaml')
vnf_template = Util().loadyamlfile(PATH_TO_DESCRIPTORS_TEMPLATES + 'vnf.yaml')
vnf_template['topology_template']['subsititution_mappings'] = 'tosca.nodes.nfv.VNF.' + element_id
vnf_template['topology_template']['node_templates'] = {}
vnf_template['imports'] = []
vnf_template['node_types']['tosca.nodes.nfv.VNF.' + element_id] = {}
vnf_template['node_types']['tosca.nodes.nfv.VNF.' + element_id]['derived_from'] = 'tosca.nodes.nfv.VNF'
current_data['toscayaml'][element_id] = vnf_template
if 'node_templates' not in current_data['toscayaml'][group_id]['topology_template'] or current_data['toscayaml'][group_id]['topology_template']['node_templates'] is None:
current_data['toscayaml'][group_id]['topology_template']['node_templates'] = {}
current_data['toscayaml'][group_id]['topology_template']['node_templates'][element_id] = new_element
self.data_project = current_data
# self.validated = validate #TODO(stefano) not clear if this is the validation for the whole project
self.update()
result = True
return result
def create_descriptor(self, descriptor_name, type_descriptor, new_data, data_type):
"""Creates a descriptor of a given type from a json or yaml representation
Returns the descriptor id or False
"""
try:
current_data = json.loads(self.data_project)
if data_type == 'json':
new_descriptor = json.loads(new_data)
elif data_type == 'yaml':
yaml_object = yaml.load(new_data)
new_descriptor = json.loads(Util.yaml2json(yaml_object))
elif data_type == 'click':
new_descriptor = new_data
elif data_type == 'k8s':
new_descriptor = new_data
elif data_type == 'resource':
new_descriptor = new_data
else:
log.debug('Create descriptor: Unknown data type')
return False
validate = False
new_descriptor_id = descriptor_name
if type_descriptor not in current_data:
current_data[type_descriptor] = {}
current_data[type_descriptor][new_descriptor_id] = new_descriptor
self.data_project = current_data
self.validated = validate
self.update()
result = new_descriptor_id
except Exception as e:
log.exception(e)
result = False
return result
def infer(self, qtree):
self.ud = UserDistribution(self.params['N'])
self.wd = WordDistribution(self.params['N'])
self.window = Window(self.params['N'])
self.kl = KL(params['N'], self.population)
for tweet in self.tweets.stream():
if type(tweet) == type({}) and 'timestamp' in tweet:
user = self.users.get(tweet['user_id'])
if user != None:
cl = user['location'] # user who posts this tweet
words = set(
Util.get_nouns(tweet['text'], self.params['lang'])
) # words contained in this tweet
if cl != None:
""" labeled user """
aid = qtree.get_area_id(cl)
if aid != None:
self.updateKL(user, qtree.get_area_id(cl), words)
else:
""" unlabeled user """
self.updateUD(user, words, self.params['dmin'])
""" Location prediction using user distribution """
for user in self.users.iter():
if user['location'] == None:
""" unlabeled user """
ud = self.ud.get(user['id'])
if ud != None:
""" at least one observation """
inferred_location_number = self.predict(ud)
inferred_location_coordinates = qtree.leaves[
inferred_location_number].center
user['location'] = inferred_location_coordinates
def extract_local_words_(self, tweets, params):
lwords = {}
word_counts = {}
word_sets = {}
for tweet in tweets:
if not tweet['user_id'] in word_sets: word_sets[tweet['user_id']] = set([])
words = Util.get_nouns(tweet['text'], params['lang'])
word_sets[tweet['user_id']] |= set(words)
for user_id in word_sets:
user = self.users.get(user_id)
if user != None:
location = user['location_point']
if location != None:
city = str(self.model.predict([location])[0])
for w in word_sets[user_id]:
if not w in word_counts: word_counts[w] = {}
if not city in word_counts[w]: word_counts[w][city] = 0
word_counts[w][city] += 1
""" calculating divergences """
for w in word_counts:
N = float(sum([v for v in word_counts[w].values()]))
if N >= params['cmin']:
d = self.calc_divergence(N, word_counts[w], params)
if self.check_divergence(d, params) == True:
lwords[w] = {'word':w, 'd':d, 'distribution':word_counts[w]} # save as dict
return Words(lwords)
def learn(self, params):
tf = {} # term frequency in a location
lf = {} # location frequency
global_tf = {} # term frequency
all_tf = 0.0
for user in self.users.iter():
location = user['location_point']
if location != None:
tweets = self.tweets.get(user['id'])
user_words = set([])
location = tuple(location)
if not location in tf: tf[location] = {}
if not location in lf: lf[location] = 0
for tweet in tweets:
user_words |= set(Util.get_nouns(tweet['text'], params['lang']))
for w in user_words:
if not w in tf[location]: tf[location][w] = 0
if not w in global_tf: global_tf[w] = 0
tf[location][w] += 1
global_tf[w] += 1
lf[location] += 1
all_tf += 1
for w in global_tf.keys():
if global_tf[w] < params['mincount']:
del global_tf[w]
else:
global_tf[w] /= all_tf
return {'tf':tf, 'global_tf':global_tf, 'lf':lf}
def update_user_distributions(self, tweets, tlwords, params):
for tweet in tweets:
neighbors = self.get_neighbors(tweet['user_id'], params)
users = neighbors | set([tweet['user_id']])
for user_id in users:
user = self.users.get(user_id)
if user != None:
if user['location_point'] == None:
""" unlabeled users """
if not user['id'] in self.user_distributions:
self.user_distributions[user['id']] = self.init_user_distribution()
words = Util.get_words(tweet['text'])
for w in words:
if tlwords.contain(w):
""" update using temporally-local word """
tlword = tlwords.get(w)
self.user_distributions[user['id']] = self.add_distribution(self.user_distributions[user['id']], tlword['distribution'])
if self.lwords.contain(w):
""" update using local word """
lword = self.lwords.get(w)
if params['divergence'] in ['l2', 'kl']:
if lword['d'] >= params['dmin']:
self.user_distributions[user['id']] = self.add_distribution(self.user_distributions[user['id']], lword['distribution'])
else:
if lword['d'] <= params['dmin']:
self.user_distributions[user['id']] = self.add_distribution(self.user_distributions[user['id']], lword['distribution'])
def extract_local_words_batch(self, params):
lwords = {}
word_counts = {}
for user in self.users.iter():
location = user['location_point']
if location != None:
city = str(self.model.predict([location])[0])
tweets = self.tweets.get(user['id'])
user_words = set([])
for tweet in tweets:
user_words |= set(Util.get_words(tweet['text']))
for w in user_words:
if not w in word_counts:
word_counts[w] = {city: 1}
elif not city in word_counts[w]:
word_counts[w][city] = 1
else:
word_counts[w][city] += 1
""" calculating divergences """
for w in word_counts:
N = float(sum([v for v in word_counts[w].values()]))
if N >= params['cmin']:
d = self.calc_divergence(N, word_counts[w], params)
if self.check_divergence(d, params) == True:
lwords[w] = {'word':w, 'd':d, 'distribution':word_counts[w]} # save as dict
return Words(lwords)
def __init__(self, ripper, queue):
Thread.__init__(self)
self._end_of_track = Event()
self._queue = queue
self._ripper = ripper
self._util = Util(self._queue)
def _is_valid_padding(self, requested_url): # TODO rename
request_sent = False
cnt = 0
while not request_sent:
try:
self._logger.debug('Requesting: %s', requested_url)
cnt = cnt + 1
if cnt > Constants.MAX_RETRIES:
self._logger.error("Max retries exceeded. Stopping...")
sys.exit(-1)
response = requests.get(requested_url, timeout=Constants.NETWORK_TIMEOUT, verify=False, allow_redirects=False)
request_sent = True
except (socket.error, requests.exceptions.RequestException):
self._logger.exception('Retrying request in %.2f seconds...', Constants.DEFAULT_WAIT_TIME)
time.sleep(Constants.DEFAULT_WAIT_TIME)
continue
content = response.text
self._logger.debug("Response content: %s", content)
padding_error = Util.has_padding_error(response=response,
success_msg=self._padding_success_msg,
fail_msg=self._padding_fail_msg, logger=self._logger)
return not padding_error
def create_descriptor(self, descriptor_name, type_descriptor, new_data,
data_type):
"""Creates a descriptor of a given type from a json or yaml representation
Returns the descriptor id or False
"""
try:
current_data = json.loads(self.data_project)
if data_type == 'json':
new_descriptor = json.loads(new_data)
elif data_type == 'yaml':
yaml_object = yaml.load(new_data)
new_descriptor = json.loads(Util.yaml2json(yaml_object))
else:
log.debug('Create descriptor: Unknown data type')
return False
# schema = cls.loadjsonfile("lib/cran/schemas/"+type_descriptor+".json")
#reference_schema = self.get_json_schema_by_type(type_descriptor)
# validate = Util.validate_json_schema(reference_schema, new_descriptor)
validate = False
new_descriptor_id = descriptor_name
if not type_descriptor in current_data:
current_data[type_descriptor] = {}
current_data[type_descriptor][new_descriptor_id] = new_descriptor
self.data_project = current_data
self.validated = validate
self.update()
result = new_descriptor_id
except Exception as e:
log.exception(e)
result = False
return result
def extract_local_words(self, tweets, params):
lwords = {}
word_counts = {}
""" making user sets """
user_sets = {}
for tweet in tweets:
words = Util.get_words(tweet['text'])
for w in words:
if not w in user_sets: user_sets[w] = set([])
user_sets[w].add(tweet['user_id'])
""" making word distributions """
for w in user_sets:
for user_id in user_sets[w]:
user = self.users.get(user_id)
if user != None:
location = user['location_point']
if location != None:
""" labeled user """
if not w in word_counts: word_counts[w] = {}
city = str(self.model.predict([location])[0])
if not city in word_counts[w]: word_counts[w][city] = 0
word_counts[w][city] += 1
""" calculating divergences """
for w in word_counts:
N = float(sum([v for v in word_counts[w].values()]))
if N >= params['cmin']:
d = self.calc_divergence(N, word_counts[w], params)
if self.check_divergence(d, params) == True:
lwords[w] = {'word':w, 'd':d, 'distribution':word_counts[w]} # save as dict
return Words(lwords)
def extract_local_words_batch(self, params):
lwords = {}
word_counts = {}
for user in self.users.iter():
location = user['location_point']
if location != None:
tweets = self.tweets.get(user['id'])
user_words = set([])
city = str(tuple(location))
for tweet in tweets:
user_words |= set(Util.get_nouns(tweet['text'], params['lang']))
for w in user_words:
if not w in word_counts:
word_counts[w] = {city: 1}
elif not city in word_counts[w]:
word_counts[w][city] = 1
else:
word_counts[w][city] += 1
""" calculating divergences """
for w in word_counts:
N = float(sum([v for v in word_counts[w].values()]))
if N >= params['cmin']:
d = self.calc_dispersion(word_counts[w], params)
if d < params['dmax']:
lwords[w] = {'word':w, 'd':d, 'distribution':word_counts[w]} # save as dict
return Words(lwords)
def get_descriptor_template(cls, type_descriptor):
"""Returns a descriptor template for a given descriptor type"""
try:
#schema = Util.loadjsonfile(PATH_TO_DESCRIPTORS_TEMPLATES+type_descriptor+DESCRIPTOR_TEMPLATE_SUFFIX)
# print 'type_descriptor : '+type_descriptor
#FixMe bisogna creare un template
yaml_object = Util().loadyamlfile(
'usecases/TOSCA/One-Server-Three-Networks/YAML/tosca_one_server_three_networks.yaml'
)
toscajson = json.loads(Util.yaml2json(yaml_object))
return toscajson
except Exception as e:
# log.error('Exception in get descriptor template') #TODO(stefano) add logging
print 'Exception in get descriptor template'
return False
def infer(self, qtree):
self.ud = UserDistribution(self.params['N'])
self.wd = WordDistribution(self.params['N'])
self.window = Window(self.params['N'])
self.kl = KL(params['N'], self.population)
for tweet in self.tweets.stream():
if type(tweet) == type({}) and 'timestamp' in tweet:
user = self.users.get(tweet['user_id'])
if user != None:
cl = user['location'] # user who posts this tweet
words = set(Util.get_nouns(tweet['text'], self.params['lang'])) # words contained in this tweet
if cl != None:
""" labeled user """
aid = qtree.get_area_id(cl)
if aid != None:
self.updateKL(user, qtree.get_area_id(cl), words)
else:
""" unlabeled user """
self.updateUD(user, words, self.params['dmin'])
""" Location prediction using user distribution """
for user in self.users.iter():
if user['location'] == None:
""" unlabeled user """
ud = self.ud.get(user['id'])
if ud != None:
""" at least one observation """
inferred_location_number = self.predict(ud)
inferred_location_coordinates = qtree.leaves[inferred_location_number].center
user['location'] = inferred_location_coordinates
def create_descriptor(self, descriptor_name, type_descriptor, new_data, data_type):
"""Creates a descriptor of a given type from a json or yaml representation
Returns the descriptor id or False
"""
try:
# utility = Util()
current_data = json.loads(self.data_project)
if data_type == 'json':
new_descriptor = json.loads(new_data)
elif data_type == 'yaml':
# utility = Util()
yaml_object = yaml.load(new_data)
new_descriptor = json.loads(Util.yaml2json(yaml_object))
else:
log.debug('Create descriptor: Unknown data type')
return False
# schema = cls.loadjsonfile("lib/etsi/schemas/"+type_descriptor+".json")
reference_schema = self.get_json_schema_by_type(type_descriptor)
# validate = Util.validate_json_schema(reference_schema, new_descriptor)
validate = False
new_descriptor_id = new_descriptor['vnfdId'] if type_descriptor != "nsd" else new_descriptor[
'nsdIdentifier']
if not type_descriptor in current_data:
current_data[type_descriptor] = {}
current_data[type_descriptor][new_descriptor_id] = new_descriptor
self.data_project = current_data
self.validated = validate # TODO(stefano) not clear if this is the validation for the whole project
self.update()
result = new_descriptor_id
except Exception as e:
log.exception(e)
result = False
return result
def importprojectdir(cls, dir_project, file_type):
"""Imports all descriptor files under a given folder
this method is specific for Superfluidity project type
"""
project = {
'nsd': {},
'vnfd': {},
'click': {},
'k8s': {},
'resource': {},
'positions': {}
}
nfv_path = dir_project + "/NFV/"
etsi_project = EtsiParser.importprojectdir(nfv_path + '/JSON', 'json')
#print etsi_project
project['nsd'] = etsi_project['nsd']
project['vnfd'] = etsi_project['vnfd']
project['click'] = click_parser.importprojectdir(
dir_project + '/CLICK/', 'click')['click']
# FIXME import k8s descriptors
project['k8s'] = cls.import_kubernetes_from_dir_project(dir_project)
for vertices_file in glob.glob(os.path.join(dir_project, '*.json')):
if os.path.basename(vertices_file) == 'vertices.json':
project['positions']['vertices'] = Util.loadjsonfile(
vertices_file)
return project
def get_dataproject(self):
""" Return the python dict representation of the project data
"""
#current_data = json.loads(self.data_project)
current_data = Util.json_loads_byteified(self.data_project)
return current_data
def _send_delete(self, url, params=None, **kwargs):
try:
r = requests.delete(url, params=None, verify=False, **kwargs)
except Exception as e:
log.exception(e)
print "Exception during send DELETE"
return {'error': 'error during connection to agent'}
return Util.json_loads_byteified(r.text)
def translate_push_ns_on_repository(self, translator, nsd_id, repository, **kwargs):
ns_data = self.get_all_ns_descriptors(nsd_id)
if translator == 'k8sansible':
ansible_util = AnsibleUtility()
playbooks_path = kwargs['repo_path'] + '/project_' + str(self.id) + '/' + nsd_id + '/'
Util.writejsonfile('/tmp/testing', ns_data)
ansible_util.generate_playbook(ns_data, nsd_id,playbooks_path)
elif translator == 'sf2heat':
hot_path = kwargs['repo_path'] + '/project_' + str(self.id) + '/' + nsd_id + '_hot'
if not os.path.isdir(hot_path):
os.makedirs(hot_path)
nsd_translator = NSDTranslator(ns_data, hot_path, {'app_name': nsd_id, 'cloud_config_name': ns_data['nsd'][nsd_id]['nsdName']})
nsd_translator.translate()
commit_msg = kwargs['commit_msg'] if (
'commit_msg' in kwargs and kwargs['commit_msg'] != '') else 'update project_' + str(self.id) + ' nsd:' + nsd_id
push_result = repository.push_repository(msg=commit_msg)
return push_result
def get_descriptor_template(cls, type_descriptor):
"""Returns a descriptor template for a given descriptor type"""
try:
schema = Util.loadjsonfile(os.path.join(PATH_TO_DESCRIPTORS_TEMPLATES, type_descriptor + DESCRIPTOR_TEMPLATE_SUFFIX))
# print 'type_descriptor : '+type_descriptor
return schema
except Exception as e:
log.exception(e)
return False
def create_service_profile(ucsm_ssh, param):
test_bed = str(param['test_bed_id'])
chassis = str(param['chassis_id'])
cartridge = str(param['cartridge_id'])
server = str(param['server_id'])
chassis_id = str(chassis).zfill(2)
cartridge_id = str(cartridge).zfill(2)
server_id = str(server).zfill(2)
server_full_id_list = [chassis_id, cartridge_id, server_id]
server_full_id = ''.join(server_full_id_list)
param['tag_service_profile_name'] = get_service_profile_name(chassis, cartridge, server)
param['tag_uuid'] = ''.join([param['uuid_prefix'], server_full_id])
# pprint.pprint(param)
file_text_step = Define.PATH_SNIC_TEXT_UCSM + "service_profile.txt"
Util.run_text_step(ucsm_ssh, file_text_step, param)
def calc_error_distances(self, inferred_users):
error_distances = []
for test_user in self.test_users.iter():
true_point = test_user['location_point']
inferred_user = inferred_users.get(test_user['id'])
if inferred_user != None:
inferred_point = inferred_user['location_point']
if inferred_point != None:
error_distance = Util.hubeny_distance(inferred_point, true_point)
error_distances.append(error_distance)
return error_distances
def start_pingpong_server(q, server_ip, server_usnic):
server_node_name = Util.find_node_name_by_ip("bcnode", server_ip)
print "\n------------> server: " + server_node_name
server_node = NodeCompute(server_node_name)
ssh = server_node.get_ssh()
if not ssh:
print "Failed to ssh to server " + server_node_name
q.put(False)
else:
server_ret = server_node.start_pingpong_server(server_usnic)
q.put(server_ret)
def start_pingpong_client(client_ip, client_usnic, server_ip):
client_node_name = Util.find_node_name_by_ip("bcnode", client_ip)
print "\n------------> client: " + client_node_name
node = NodeCompute(client_node_name)
ssh = node.get_ssh()
if not ssh:
print "Failed to ssh to client " + client_node_name
return False
else:
ret = node.start_pingpong_client(usnic, server_ip)
return ret
def get_add_element(self, request):
result = False
group_id = request.POST.get('group_id')
element_id = request.POST.get('element_id')
element_type = request.POST.get('element_type')
x = request.POST.get('x')
y = request.POST.get('y')
current_data = json.loads(self.data_project)
tosca_definition = Util().loadyamlfile(PATH_TO_TOSCA_DEFINITION)
node_types = {}
node_types.update(tosca_definition['node_types'])
new_element = {}
new_element['type'] = element_type
type_definition = node_types[element_type]
while element_type in node_types:
type_definition = node_types[element_type]
if 'properties' in type_definition:
for propriety in type_definition['properties']:
if 'required' not in type_definition['properties'][
propriety] or type_definition['properties'][
propriety]['required']:
if 'properties' not in new_element:
new_element['properties'] = {}
if propriety == 'version':
new_element['properties'][propriety] = 1.0
else:
if type_definition['properties'][propriety][
'type'] == 'scalar-unit.size':
new_element['properties'][propriety] = '1 MB'
else:
new_element['properties'][propriety] = 'prova'
element_type = type_definition[
'derived_from'] if 'derived_from' in type_definition else None
if 'node_templates' not in current_data['toscayaml'][group_id][
'topology_template'] or current_data['toscayaml'][group_id][
'topology_template']['node_templates'] is None:
current_data['toscayaml'][group_id]['topology_template'][
'node_templates'] = {}
current_data['toscayaml'][group_id]['topology_template'][
'node_templates'][element_id] = new_element
if 'positions' not in current_data:
current_data['positions'] = {}
if 'vertices' not in current_data['positions']:
current_data['positions']['vertices'] = {}
if element_id not in current_data['positions']['vertices']:
current_data['positions']['vertices'][element_id] = {}
current_data['positions']['vertices'][element_id]['x'] = x
current_data['positions']['vertices'][element_id]['y'] = y
self.data_project = current_data
# self.validated = validate #TODO(stefano) not clear if this is the validation for the whole project
self.update()
result = True
return result
def __init__(self, *a, **kw):
Jukebox.__init__(self, *a, **kw)
self._json_queue = JsonQueue()
self._util = Util(self._json_queue)
self._ripper_thread = RipperThread(self, self._json_queue)
self._end_of_track = self._ripper_thread.get_end_of_track()
self.set_ui_thread(self._ripper_thread)
self.session.set_preferred_bitrate(1) # 320 kbps (ostensibly)
def create_descriptor(self, descriptor_name, type_descriptor, new_data,
data_type):
"""Creates a descriptor of a given type from a json or yaml representation
Returns the descriptor id or False
"""
result = False
try:
print type_descriptor, data_type
current_data = json.loads(self.data_project)
if data_type == 'json':
new_descriptor = json.loads(new_data)
elif data_type == 'yaml':
# utility = Util()
yaml_object = yaml.load(new_data)
new_descriptor = json.loads(Util.yaml2json(yaml_object))
else:
print 'Unknown data type'
return False
if type_descriptor == 'toscayaml':
if descriptor_name is None:
new_descriptor_id = Util.get_unique_id()
else:
new_descriptor_id = descriptor_name
if not type_descriptor in current_data:
current_data[type_descriptor] = {}
current_data[type_descriptor][
new_descriptor_id] = new_descriptor
self.data_project = current_data
#self.validated = validate #TODO(stefano) not clear if this is the validation for the whole project
self.update()
result = new_descriptor_id
else:
return False
except Exception as e:
print 'Exception in create descriptor', e
return result
def importprojectfile(cfg_files):
project = {'click': {}}
for file in cfg_files:
if os.path.basename(str(file.name)) == 'vertices.json':
print 'dentrpp ', str(file)
project['positions'] = {}
project['positions']['vertices'] = Util.loadjsonfile(file)
else:
project['click'][os.path.splitext(os.path.basename(
str(file)))[0]] = file.read()
return project
def query_summoner(summoner_name):
if request.method == "GET":
return render_template("index.html", summoner=summoner_name)
else:
mastery_data = data_analyzer.get_summoner_mastery_info(summoner_name)
main_roles = data_analyzer.get_main_role_analysis(mastery_data)
current_game_data = data_analyzer.get_current_game_data(summoner_name)
return Util.json_dump({
"mastery": mastery_data,
"main_role": main_roles,
"current_game": current_game_data
})
def node_info(self, deployment_id, node_id):
log.debug("get node info cRAN")
log.debug("get node info")
url = self.agent['base_url'] + "/deployments/" + str(
deployment_id) + "/node/" + str(node_id)
r = requests.get(url).json()
# WARNING: expect openvim data
if 'node_info' in r:
splitted = r['node_info'].splitlines(True)[1:]
joined = "".join(splitted)
r['node_info'] = Util.yaml2json(yaml.load(joined))
return r
def importprojectfiles(cls, file_dict):
"""Imports descriptors (extracted from the new project POST)
The keys in the dictionary are the file types
"""
project = {'nsd': {}, 'vnfd': {}, 'click': {}, 'k8s': {}}
for desc_type in project:
if desc_type in file_dict:
files_desc_type = file_dict[desc_type]
for file in files_desc_type:
if desc_type != 'k8s':
project[desc_type][os.path.splitext(
file.name)[0]] = json.loads(file.read())
else:
yaml_object = Util().loadyamlfile(file)
json_object = Util.json_loads_byteified(
Util.yaml2json(yaml_object))
filename = os.path.splitext(os.path.basename(
str(file)))[0]
project[desc_type][filename] = json_object
return project
def get_graph_model(cls, file_path):
"""Returns the model of the graph of the project type as a yaml object
Returns an empty dict if there is no file with the model
"""
# file_path = GRAPH_MODEL_FULL_NAME
graph_model = {}
try:
graph_model = Util.loadyamlfile(file_path)
except Exception as e:
log.exception(e)
pass
return graph_model
