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-rw-r--r-- | datacolletion.py | 142 |
1 files changed, 142 insertions, 0 deletions
diff --git a/datacolletion.py b/datacolletion.py new file mode 100644 index 0000000..3c59cf9 --- /dev/null +++ b/datacolletion.py @@ -0,0 +1,142 @@ +# Copyright 2016 Huawei Technologies Co. Ltd. +# +# Licensed to the Apache Software Foundation (ASF) under one or more +# contributor license agreements. See the NOTICE file distributed with +# this work for additional information regarding copyright ownership. +# The ASF licenses this file to You 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. +# + +""" +Collect the wanted data by using ceilometer client to send HTTP request to +ceilometer server +""" + +# Import modules +import subprocess +import ceilometerclient.client +import json +import readline # It automatically wraps studin + +# First source openrc * *; Otherwise, there is a error message. +print "source your openrc file, for example, source /opt/stack/devstack/openrc", +print "admin admin" +source = raw_input("> ") +dumps = '/usr/bin/python -c '\ + + '"import os, json; print json.dumps(dict(os.environ))"' +command = ['/bin/bash', '-c', source + '&&' + dumps] +pipe = subprocess.Popen(command, stdout=subprocess.PIPE) +env = json.loads(pipe.stdout.read()) + + +# Create an authenticated ceilometer client +c_client = ceilometerclient.client.get_client( + "2", os_username=env['OS_USERNAME'], + os_password=env['OS_PASSWORD'], + os_tenant_name=env['OS_TENANT_NAME'], + os_auth_url=env['OS_AUTH_URL']) + +resource_list = c_client.resources.list() +resource_id_list = [] +print '\nList all resource ids which can be measured:' +index = 0 +for each in resource_list: + print "\t* resource_id_list[%d]: " % index, each.resource_id + index += 1 + resource_id_list.append(each.resource_id) +print 'End', '=' * 15 + +print "\nThe following shows resources corresponding to resource ids: \n\ +\t* resource_id_list[0:3] represents image ids \n \ +\t* resource_id_list[3] represents instance ids \n \ +\t* resource_id_list[4:6] represents disk ids \n \ +\t* resource_id_list[6] represents interface ids \n \ +So you can collect what kind of data you like. Just type the number \ +from 0 to 6" +input_number = int(raw_input("> Please type the number: ")) +resource_id = resource_id_list[input_number] + +query_meter = [dict(field='resource_id', op='eq', value=resource_id)] +meter_list = c_client.meters.list(q=query_meter) +meter_name_list = [] +print '\nList meter names related with the resource id--' + resource_id + ":" +for each in meter_list: + print "\t-", each.name + meter_name_list.append(each.name) +print 'End', '+' * 15 + +print "\nYou can collect whatever meters you like just by typing the meter \ +names and using ',' as the separator,\n e.g., disk.read.requests.rate, \ +disk.write.requests.rate, disk.read.bytes.rate, \ +disk.write.bytes.rate, cpu_util." + +try: + input_meters = raw_input("> ") + collect_meters = input_meters.split(",") + collect_meters = [meter.strip() for meter in collect_meters] +except EOFError: + print "\n Good Bye! Welcome again next time!" + + +collect_meter_samples = [] +print "At the same time, you need to specify the beginning time and the \ +end time for the collection. \nThe time format is fixed, \ +e.g., 2016-02-28T00:00:00. " +begin_time = raw_input("> Please input the beginning time: ") +end_time = raw_input("> Please input the end time: ") +for each in collect_meters: + query = [ + dict(field='resource_id', op='eq', value=resource_id), + dict(field='timestamp', op='ge', value=begin_time), + dict(field='timestamp', op='lt', value=end_time), + dict(field='meter', op='eq', value=each) + ] + collect_meter_samples.\ + append(c_client.new_samples.list(q=query, limit=1000)) +# append(c_client.samples.list(each, limit=1000)) + + +fout = open('collectMeterSamples.arff', 'w') +head_info = "% ARFF file for the collected meter sampleh" \ + + " with some numeric feature from ceilometer API. \n \n" \ + + "@relation collected samples for VMs on host \n \n" \ + + "@attribute timestample \n" \ + + "@attribute resource id \n " + +for each in collect_meters: + head_info = head_info + "@attribute " + each + "\n" + +head_info = head_info + "@data \n \n" +fout.write(head_info) + +count = 0 +collect_meter_sample_values = [] +for each in collect_meter_samples[1:]: + each_sample_value = [] + for i in each: + # each_sample_value.append(str(i.counter_volume)) + each_sample_value.append(str(i.volume)) + collect_meter_sample_values.append(each_sample_value) + +for each in collect_meter_samples[0]: + fout.write(each.timestamp + ', ' + each.resource_id) + # fout.write(', ' + str(each.counter_volume)) + fout.write(', ' + str(each.volume)) + for i in collect_meter_sample_values: + fout.write(', ' + i[count]) + fout.write('\n') + count += 1 + +fout.close() +print "\nGreat! Collection is done. \n%d rows of meter samples have been \ +written in the file named 'collectMeterSamples.arff' in your current \ +directory. \nPlease check!" % count |