blob: 848ccc062b28a60785a2df434ae5f575c5f41f68 [file] [log] [blame]
import socket
import requests
import urllib2
import json
import msgpack
import collections
import time, thread, threading
from flask import request, Request, jsonify
from flask import Flask
from flask import make_response
app = Flask(__name__)
projects_map = {}
xos_tenant_info_map = {}
xos_instances_info_map = {}
use_kafka = True
if use_kafka:
import kafka
from kafka import TopicPartition
else:
UDP_IP = "0.0.0.0"
UDP_PORT = 12346
@app.route('/autoscaledata',methods=['GET'])
def autoscaledata():
response = app.make_response(json.dumps(projects_map.values()))
response.mimetype="application/json"
return response
def acquire_xos_monitoring_channel():
url = "http://ctl:9999/xoslib/monitoringchannel/"
admin_auth=("padmin@vicci.org", "letmein") # use your XOS username and password
monitoring_channels = requests.get(url, auth=admin_auth).json()
ceilometer_url = None
if not monitoring_channels:
print 'SRIKANTH: No monitoring channels for this user...'
return None
else:
monitoring_channel = monitoring_channels[0]
while not monitoring_channel['ceilometer_url']:
print 'SRIKANTH: Waiting for monitoring channel create'
sleep(0.5)
monitoring_channel = requests.get(url, auth=admin_auth).json()[0]
#TODO: Wait until URL is completely UP
while True:
print 'SRIKANTH: Waiting for ceilometer proxy URL %s is available' % monitoring_channel['ceilometer_url']
try:
response = urllib2.urlopen(monitoring_channel['ceilometer_url'],timeout=1)
break
except urllib2.HTTPError, e:
print 'SRIKANTH: HTTP error %s' % e.reason
break
except urllib2.URLError, e:
print 'SRIKANTH: URL error %s' % e.reason
pass
return monitoring_channel
def print_samples():
print ""
print ""
for project in projects_map.keys():
print "service=%s slice=%s, alarm_state=%s" % (projects_map[project]['service'], projects_map[project]['slice'] if projects_map[project]['slice'] else project, projects_map[project]['alarm'])
for resource in projects_map[project]['resources'].keys():
print "resource=%s" % (projects_map[project]['resources'][resource]['xos_instance_info']['instance_name'] if projects_map[project]['resources'][resource]['xos_instance_info'] else resource)
for i in projects_map[project]['resources'][resource]['queue']:
print " time=%s val=%s" % ( i['timestamp'],i['counter_volume'])
def periodic_print():
print_samples()
#Print every 1minute
threading.Timer(20, periodic_print).start()
CPU_UPPER_THRESHOLD = 80 #80%
CPU_LOWER_THRESHOLD = 30 #30%
CPU_THRESHOLD_REPEAT = 3
INITIAL_STATE = 'normal_config'
SCALE_UP_EVALUATION = 'scale_up_eval'
SCALE_DOWN_EVALUATION = 'scale_down_eval'
SCALE_UP_ALARM = 'scale_up'
SCALE_DOWN_ALARM = 'scale_down'
def loadAllXosTenantInfo():
print "SRIKANTH: Loading all XOS tenant info"
url = "http://ctl:9999/xos/controllerslices/"
admin_auth=("padmin@vicci.org", "letmein") # use your XOS username and password
controller_slices = requests.get(url, auth=admin_auth).json()
for cslice in controller_slices:
slice = requests.get(cslice['slice'], auth=admin_auth).json()
slice_name = slice['humanReadableName']
if slice['service']:
service = requests.get(slice['service'], auth=admin_auth).json()
service_name = service['humanReadableName']
else:
service_name = None
xos_tenant_info_map[cslice['tenant_id']] = {'service':service_name, 'slice':slice_name}
print "SRIKANTH: Project: %s Service:%s Slice:%s" % (cslice['tenant_id'],service_name,slice_name)
def loadAllXosInstanceInfo():
print "SRIKANTH: Loading all XOS instance info"
url = "http://ctl:9999/xos/instances/"
admin_auth=("padmin@vicci.org", "letmein") # use your XOS username and password
xos_instances = requests.get(url, auth=admin_auth).json()
for instance in xos_instances:
xos_instances_info_map[instance['instance_uuid']] = {'instance_name':instance['instance_name']}
def getXosTenantInfo(project):
xos_tenant_info = xos_tenant_info_map.get(project, None)
if xos_tenant_info:
return xos_tenant_info
else:
loadAllXosTenantInfo()
xos_tenant_info = xos_tenant_info_map.get(project, None)
if not xos_tenant_info:
print "SRIKANTH: Project %s has no associated XOS slice" % project
return xos_tenant_info
def getXosInstanceInfo(resource):
xos_instance_info = xos_instances_info_map.get(resource, None)
if xos_instance_info:
return xos_instance_info
else:
loadAllXosInstanceInfo()
xos_instance_info = xos_instances_info_map.get(resource, None)
if not xos_instance_info:
print "SRIKANTH: Resource %s has no associated XOS instance" % project
return xos_instance_info
def handle_adjust_scale(project, adjust):
if (adjust != 'up') and (adjust != 'down'):
print "SRIKANTH: Invalid adjust value %s " % adjust
return
current_instances = len(projects_map[project]['resources'].keys())
if (current_instances <=1 and adjust == 'down'):
print "SRIKANTH: %s is running with already minimum instances and can not scale down further " % project
return
if (current_instances >=2 and adjust == 'up'):
print "SRIKANTH: %s is running with already maximum instances and can not scale up further " % project
return
#xos_tenant = getXosTenantInfo(project)
xos_service = projects_map[project]['service']
xos_slice = projects_map[project]['slice']
if not xos_service or not xos_slice:
print "SRIKANTH: Can not handle adjust_scale for Project %s because not associated with any service or slice" % project
return
print "SRIKANTH: SCALE %s for Project %s, Slice=%s, Service=%s from current=%d to new=%d" % (adjust, project, xos_slice, xos_service, current_instances, current_instances+1 if (adjust=='up') else current_instances-1)
query_params = {'service':xos_service, 'slice_hint':xos_slice, 'scale':current_instances+1 if (adjust=='up') else current_instances-1}
url = "http://ctl:9999/xoslib/serviceadjustscale/"
admin_auth=("padmin@vicci.org", "letmein") # use your XOS username and password
response = requests.get(url, params=query_params, auth=admin_auth).json()
print "SRIKANTH: XOS adjust_scale response: %s" % response
def periodic_cpu_threshold_evaluator():
for project in projects_map.keys():
aggregate_cpu_util = sum([resource['queue'][-1]['counter_volume'] \
for resource in projects_map[project]['resources'].values()]) \
/len(projects_map[project]['resources'].keys())
if (projects_map[project]['alarm'] == INITIAL_STATE or
projects_map[project]['alarm'] == SCALE_UP_ALARM or
projects_map[project]['alarm'] == SCALE_DOWN_ALARM):
if aggregate_cpu_util > CPU_UPPER_THRESHOLD:
projects_map[project]['uthreadshold_count'] = 1
projects_map[project]['alarm'] = SCALE_UP_EVALUATION
if projects_map[project]['uthreadshold_count'] >= CPU_THRESHOLD_REPEAT:
projects_map[project]['alarm'] = SCALE_UP_ALARM
handle_adjust_scale(project, 'up')
elif aggregate_cpu_util < CPU_LOWER_THRESHOLD:
projects_map[project]['lthreadshold_count'] = 1
projects_map[project]['alarm'] = SCALE_DOWN_EVALUATION
if projects_map[project]['lthreadshold_count'] >= CPU_THRESHOLD_REPEAT:
projects_map[project]['alarm'] = SCALE_DOWN_ALARM
handle_adjust_scale(project, 'down')
else:
projects_map[project]['uthreadshold_count'] = 0
projects_map[project]['lthreadshold_count'] = 0
projects_map[project]['alarm'] = INITIAL_STATE
elif projects_map[project]['alarm'] == SCALE_UP_EVALUATION:
if aggregate_cpu_util > CPU_UPPER_THRESHOLD:
projects_map[project]['uthreadshold_count'] += 1
if projects_map[project]['uthreadshold_count'] >= CPU_THRESHOLD_REPEAT:
projects_map[project]['alarm'] = SCALE_UP_ALARM
handle_adjust_scale(project, 'up')
elif aggregate_cpu_util < CPU_LOWER_THRESHOLD:
projects_map[project]['lthreadshold_count'] += 1
projects_map[project]['alarm'] = SCALE_DOWN_EVALUATION
else:
projects_map[project]['uthreadshold_count'] = 0
projects_map[project]['alarm'] = INITIAL_STATE
elif projects_map[project]['alarm'] == SCALE_DOWN_EVALUATION:
if aggregate_cpu_util < CPU_LOWER_THRESHOLD:
projects_map[project]['lthreadshold_count'] += 1
if projects_map[project]['lthreadshold_count'] >= CPU_THRESHOLD_REPEAT:
projects_map[project]['alarm'] = SCALE_DOWN_ALARM
handle_adjust_scale(project, 'down')
elif aggregate_cpu_util > CPU_UPPER_THRESHOLD:
projects_map[project]['uthreadshold_count'] += 1
projects_map[project]['alarm'] = SCALE_UP_EVALUATION
else:
projects_map[project]['lthreadshold_count'] = 0
projects_map[project]['alarm'] = INITIAL_STATE
threading.Timer(20, periodic_cpu_threshold_evaluator).start()
def read_notification_from_ceilometer_over_kafka(host,port,topic):
print "Kafka target" , host, port, topic
try :
consumer=kafka.KafkaConsumer(bootstrap_servers=["%s:%s" % (host,port)])
consumer.assign([TopicPartition(topic,0)])
consumer.seek_to_end()
for message in consumer:
#print message.value
#logging.debug("%s",message.value)
process_notification_from_ceilometer(json.loads(message.value))
#status = process_ceilometer_message(json.loads(message.value),message.value)
#print status
except Exception as e:
print "AUTO_SCALE Exception:",e
def read_notification_from_ceilometer(host,port):
udp = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) # UDP
udp.bind((host, port))
while True:
data, source = udp.recvfrom(64000)
try:
sample = msgpack.loads(data, encoding='utf-8')
process_notification_from_ceilometer(sample)
except Exception as e:
print e
def process_notification_from_ceilometer(sample):
if sample['counter_name'] == 'instance':
if 'delete' in sample['resource_metadata']['event_type']:
xosTenantInfo = getXosTenantInfo(sample['project_id'])
xosResourceInfo = getXosInstanceInfo(sample['resource_id'])
print "SRIKANTH: Project %s Instance %s is getting deleted" % (xosTenantInfo['slice'] if xosTenantInfo['slice'] else sample['project_id'],xosResourceInfo)
if sample['project_id'] not in projects_map.keys():
return
if sample['resource_id'] not in projects_map[sample['project_id']]['resources'].keys():
return
projects_map[sample['project_id']]['resources'].pop(sample['resource_id'], None)
return
elif sample['counter_name'] != 'cpu_util':
return
if sample['project_id'] not in projects_map.keys():
projects_map[sample['project_id']] = {}
xosTenantInfo = getXosTenantInfo(sample['project_id'])
projects_map[sample['project_id']]['project_id'] = sample['project_id']
projects_map[sample['project_id']]['slice'] = xosTenantInfo['slice']
projects_map[sample['project_id']]['service'] = xosTenantInfo['service']
projects_map[sample['project_id']]['resources'] = {}
projects_map[sample['project_id']]['uthreadshold_count'] = 0
projects_map[sample['project_id']]['lthreadshold_count'] = 0
projects_map[sample['project_id']]['alarm'] = INITIAL_STATE
resource_map = projects_map[sample['project_id']]['resources']
if sample['resource_id'] not in resource_map.keys():
resource_map[sample['resource_id']] = {}
resource_map[sample['resource_id']]['xos_instance_info'] = getXosInstanceInfo(sample['resource_id'])
resource_map[sample['resource_id']]['queue'] = []
samples_queue = resource_map[sample['resource_id']]['queue']
sample = {'counter_name':sample['counter_name'],
'project_id':sample['project_id'],
'resource_id':sample['resource_id'],
'timestamp':sample['timestamp'],
'counter_unit':sample['counter_unit'],
'counter_volume':sample['counter_volume']}
deque = collections.deque(samples_queue, maxlen=10)
deque.append(sample)
resource_map[sample['resource_id']]['queue'] = list(deque)
def setup_webserver():
try:
#config = ConfigParser.ConfigParser()
#config.read('pub_sub.conf')
#webserver_host = config.get('WEB_SERVER','webserver_host')
#webserver_port = int (config.get('WEB_SERVER','webserver_port'))
#client_host = config.get('CLIENT','client_host')
#client_port = int (config.get('CLIENT','client_port'))
#log_level = config.get('LOGGING','level')
#log_file = config.get('LOGGING','filename')
#level = LEVELS.get(log_level, logging.NOTSET)
#logging.basicConfig(filename=log_file,format='%(asctime)s %(levelname)s %(message)s',\
# datefmt=_DEFAULT_LOG_DATE_FORMAT,level=level)
webserver_host = '0.0.0.0'
webserver_port = 9991
except Exception as e:
print("* Error in config file:",e.__str__())
logging.error("* Error in confing file:%s",e.__str__())
else:
app.run(host=webserver_host,port=webserver_port,debug=True, use_reloader=False)
def main():
monitoring_channel = acquire_xos_monitoring_channel()
if not monitoring_channel:
print 'SRIKANTH: XOS monitoring_channel is not created... Create it before using this app'
return
loadAllXosTenantInfo()
loadAllXosInstanceInfo()
ceilometer_url = monitoring_channel['ceilometer_url']
if use_kafka:
thread.start_new(read_notification_from_ceilometer_over_kafka, ("10.11.10.1","9092","auto-scale",))
subscribe_data = {"sub_info":"cpu_util","app_id":"xos_auto_scale","target":"kafka://10.11.10.1:9092?topic=auto-scale"}
else:
thread.start_new(read_notification_from_ceilometer,(UDP_IP,UDP_PORT,))
subscribe_data = {"sub_info":"cpu_util","app_id":"xos_auto_scale","target":"udp://10.11.10.1:12346"}
subscribe_url = ceilometer_url + 'v2/subscribe'
response = requests.post(subscribe_url, data=json.dumps(subscribe_data))
print 'SRIKANTH: Ceilometer meter "cpu_util" Subscription status:%s' % response.text
#TODO: Fix the typo in 'sucess'
if (not 'sucess' in response.text) and (not 'already exists' in response.text):
print 'SRIKANTH: Ceilometer meter "cpu_util" Subscription unsuccessful...Exiting'
return
subscribe_data = {"sub_info":"instance","app_id":"xos_auto_scale2","target":"udp://10.11.10.1:12346"}
subscribe_url = ceilometer_url + 'v2/subscribe'
response = requests.post(subscribe_url, data=json.dumps(subscribe_data))
print 'SRIKANTH: Ceilometer meter "instance" Subscription status:%s' % response.text
#TODO: Fix the typo in 'sucess'
if (not 'sucess' in response.text) and (not 'already exists' in response.text):
print 'SRIKANTH: Ceilometer meter "instance"Subscription unsuccessful...Exiting'
return
periodic_cpu_threshold_evaluator()
periodic_print()
setup_webserver()
if __name__ == "__main__":
main()