VES app: Change Directory and file names to app.

    -Directories renamed
    -All files containing plugin name changed to app
    -Logfile name changed
    -Changed some Licenses

Change-Id: I578dcf8249e160a904d36b439d10f5c4e7940b98
Signed-off-by: Alan Carey <alan.carey@intel.com>

5 files changed, 1017 insertions, 0 deletions

diff --git a/3rd_party/collectd-ves-app/LICENSE b/3rd_party/collectd-ves-app/LICENSE
new file mode 100644
index 00000000..804ec198
--- /dev/null
+++ b/3rd_party/collectd-ves-app/LICENSE
@@ -0,0 +1,23 @@
+Copyright Intel Corporation 2016-2017
+
+Permission is hereby granted, free of charge, to any person obtaining a copy of
+this software and associated documentation files (the "Software"), to deal in
+the Software without restriction, including without limitation the rights to
+use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
+of the Software, and to permit persons to whom the Software is furnished to do
+so, subject to the following conditions:
+
+The above copyright notice and this permission notice shall be included in all
+copies or substantial portions of the Software.
+
+ 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.
diff --git a/3rd_party/collectd-ves-app/PSF_LICENSE_AGREEMENT b/3rd_party/collectd-ves-app/PSF_LICENSE_AGREEMENT
new file mode 100644
index 00000000..666648bb
--- /dev/null
+++ b/3rd_party/collectd-ves-app/PSF_LICENSE_AGREEMENT
@@ -0,0 +1,36 @@
+PSF LICENSE AGREEMENT FOR PYTHON 2.7.1
+1. This LICENSE AGREEMENT is between the Python Software Foundation (“PSF”),
+   and the Individual or Organization (“Licensee”) accessing and otherwise
+   using Python 2.7.1 software in source or binary form and its associated
+   documentation.
+2. Subject to the terms and conditions of this License Agreement, PSF hereby
+   grants Licensee a nonexclusive, royalty-free, world-wide license to
+   reproduce, analyze, test, perform and/or display publicly, prepare
+   derivative works, distribute, and otherwise use Python 2.7.1 alone or in any
+   derivative version, provided, however, that PSF’s License Agreement and
+   PSF’s notice of copyright, i.e., “Copyright © 2001-2010 Python Software
+   Foundation; All Rights Reserved” are retained in Python 2.7.1 alone or in
+   any derivative version prepared by Licensee.
+3. In the event Licensee prepares a derivative work that is based on or
+   incorporates Python 2.7.1 or any part thereof, and wants to make the
+   derivative work available to others as provided herein, then Licensee hereby
+   agrees to include in any such work a brief summary of the changes made to
+   Python 2.7.1.
+4. PSF is making Python 2.7.1 available to Licensee on an “AS IS” basis. PSF
+   MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED. BY WAY OF
+   EXAMPLE, BUT NOT LIMITATION, PSF MAKES NO AND DISCLAIMS ANY REPRESENTATION OR
+   WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR THAT
+   THE USE OF PYTHON 2.7.1 WILL NOT INFRINGE ANY THIRD PARTY RIGHTS.
+5. PSF SHALL NOT BE LIABLE TO LICENSEE OR ANY OTHER USERS OF PYTHON 2.7.1 FOR
+   ANY INCIDENTAL, SPECIAL, OR CONSEQUENTIAL DAMAGES OR LOSS AS A RESULT OF
+   MODIFYING, DISTRIBUTING, OR OTHERWISE USING PYTHON 2.7.1, OR ANY DERIVATIVE
+   THEREOF, EVEN IF ADVISED OF THE POSSIBILITY THEREOF.
+6. This License Agreement will automatically terminate upon a material breach
+   of its terms and conditions.
+7. Nothing in this License Agreement shall be deemed to create any relationship
+   of agency, partnership, or joint venture between PSF and Licensee. This
+   License Agreement does not grant permission to use PSF trademarks or trade name
+   in a trademark sense to endorse or promote products or services of Licensee,
+   or any third party. 8. By copying, installing or otherwise using Python
+   2.7.1, Licensee agrees to be bound by the terms and conditions of this License
+   Agreement.
diff --git a/3rd_party/collectd-ves-app/ves_app/__init__.py b/3rd_party/collectd-ves-app/ves_app/__init__.py
new file mode 100644
index 00000000..e69de29b
--- /dev/null
+++ b/3rd_party/collectd-ves-app/ves_app/__init__.py
diff --git a/3rd_party/collectd-ves-app/ves_app/ves_app.py b/3rd_party/collectd-ves-app/ves_app/ves_app.py
new file mode 100644
index 00000000..49e7635a
--- /dev/null
+++ b/3rd_party/collectd-ves-app/ves_app/ves_app.py
@@ -0,0 +1,945 @@
+#!/usr/bin/env python
+#
+# 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 json
+import sys
+import base64
+import ConfigParser
+import logging
+import argparse
+
+from distutils.util import strtobool
+from kafka import KafkaConsumer
+
+try:
+    # For Python 3.0 and later
+    import urllib.request as url
+except ImportError:
+    # Fall back to Python 2's urllib2
+    import urllib2 as url
+import socket
+import time
+from threading import Timer
+from threading import Lock
+
+
+class Event(object):
+    """Event header"""
+
+    def __init__(self):
+        """Construct the common header"""
+        self.version = 2.0
+        self.event_type = "Info"  # use "Info" unless a notification is generated
+        self.domain = ""
+        self.event_id = ""
+        self.source_id = ""
+        self.source_name = ""
+        self.functional_role = ""
+        self.reporting_entity_id = ""
+        self.reporting_entity_name = ""
+        self.priority = "Normal"  # will be derived from event if there is one
+        self.start_epoch_microsec = 0
+        self.last_epoch_micro_sec = 0
+        self.sequence = 0
+        self.event_name = ""
+        self.internal_header_fields = {}
+        self.nfc_naming_code = ""
+        self.nf_naming_code = ""
+
+    def get_json(self):
+        """Get the object of the datatype"""
+        obj = {}
+        obj['version'] = self.version
+        obj['eventType'] = self.event_type
+        obj['domain'] = self.domain
+        obj['eventId'] = self.event_id
+        obj['sourceId'] = self.source_id
+        obj['sourceName'] = self.source_name
+        obj['reportingEntityId'] = self.reporting_entity_id
+        obj['reportingEntityName'] = self.reporting_entity_name
+        obj['priority'] = self.priority
+        obj['startEpochMicrosec'] = self.start_epoch_microsec
+        obj['lastEpochMicrosec'] = self.last_epoch_micro_sec
+        obj['sequence'] = self.sequence
+        obj['eventName'] = self.event_name
+        obj['internalHeaderFields'] = self.internal_header_fields
+        obj['nfcNamingCode'] = self.nfc_naming_code
+        obj['nfNamingCode'] = self.nf_naming_code
+        return json.dumps({
+            'event': {
+                'commonEventHeader': obj,
+                self.get_name(): self.get_obj()
+            }
+        }).encode()
+
+    def get_name():
+        assert False, 'abstract method get_name() is not implemented'
+
+    def get_obj():
+        assert False, 'abstract method get_obj() is not implemented'
+
+
+class Field(object):
+    """field datatype"""
+
+    def __init__(self, name, value):
+        self.name = name
+        self.value = value
+
+    def get_obj(self):
+        return {
+            'name': self.name,
+            'value': self.value
+        }
+
+
+class NamedArrayOfFields(object):
+    """namedArrayOfFields datatype"""
+
+    def __init__(self, name):
+        self.name = name
+        self.array_of_fields = []
+
+    def add(self, field):
+        self.array_of_fields.append(field.get_obj())
+
+    def get_obj(self):
+        return {
+            'name': self.name,
+            'arrayOfFields': self.array_of_fields
+        }
+
+
+class VESDataType(object):
+    """ Base VES datatype """
+
+    def set_optional(self, obj, key, val):
+        if val is not None:
+            obj[key] = val
+
+
+class DiskUsage(VESDataType):
+    """diskUsage datatype"""
+
+    def __init__(self, identifier):
+        self.disk_identifier = identifier
+        self.disk_io_time_avg = None
+        self.disk_io_time_last = None
+        self.disk_io_time_max = None
+        self.disk_io_time_min = None
+        self.disk_merged_read_avg = None
+        self.disk_merged_read_last = None
+        self.disk_merged_read_max = None
+        self.disk_merged_read_min = None
+        self.disk_merged_write_avg = None
+        self.disk_merged_write_last = None
+        self.disk_merged_write_max = None
+        self.disk_merged_write_min = None
+        self.disk_octets_read_avg = None
+        self.disk_octets_read_last = None
+        self.disk_octets_read_max = None
+        self.disk_octets_read_min = None
+        self.disk_octets_write_avg = None
+        self.disk_octets_write_last = None
+        self.disk_octets_write_max = None
+        self.disk_octets_write_min = None
+        self.disk_ops_read_avg = None
+        self.disk_ops_read_last = None
+        self.disk_ops_read_max = None
+        self.disk_ops_read_min = None
+        self.disk_ops_write_avg = None
+        self.disk_ops_write_last = None
+        self.disk_ops_write_max = None
+        self.disk_ops_write_min = None
+        self.disk_pending_operations_avg = None
+        self.disk_pending_operations_last = None
+        self.disk_pending_operations_max = None
+        self.disk_pending_operations_min = None
+        self.disk_time_read_avg = None
+        self.disk_time_read_last = None
+        self.disk_time_read_max = None
+        self.disk_time_read_min = None
+        self.disk_time_write_avg = None
+        self.disk_time_write_last = None
+        self.disk_time_write_max = None
+        self.disk_time_write_min = None
+
+    def get_obj(self):
+        obj = {
+            # required
+            'diskIdentifier': self.disk_identifier
+        }
+        self.set_optional(obj, 'diskIoTimeAvg', self.disk_io_time_avg)
+        self.set_optional(obj, 'diskIoTimeLast', self.disk_io_time_last)
+        self.set_optional(obj, 'diskIoTimeMax', self.disk_io_time_max)
+        self.set_optional(obj, 'diskIoTimeMin', self.disk_io_time_min)
+        self.set_optional(obj, 'diskMergedReadAvg', self.disk_merged_read_avg)
+        self.set_optional(obj, 'diskMergedReadLast', self.disk_merged_read_last)
+        self.set_optional(obj, 'diskMergedReadMax', self.disk_merged_read_max)
+        self.set_optional(obj, 'diskMergedReadMin', self.disk_merged_read_min)
+        self.set_optional(obj, 'diskMergedWriteAvg', self.disk_merged_write_avg)
+        self.set_optional(obj, 'diskMergedWriteLast', self.disk_merged_write_last)
+        self.set_optional(obj, 'diskMergedWriteMax', self.disk_merged_write_max)
+        self.set_optional(obj, 'diskMergedWriteMin', self.disk_merged_write_min)
+        self.set_optional(obj, 'diskOctetsReadAvg', self.disk_octets_read_avg)
+        self.set_optional(obj, 'diskOctetsReadLast', self.disk_octets_read_last)
+        self.set_optional(obj, 'diskOctetsReadMax', self.disk_octets_read_max)
+        self.set_optional(obj, 'diskOctetsReadMin', self.disk_octets_read_min)
+        self.set_optional(obj, 'diskOctetsWriteAvg', self.disk_octets_write_avg)
+        self.set_optional(obj, 'diskOctetsWriteLast', self.disk_octets_write_last)
+        self.set_optional(obj, 'diskOctetsWriteMax', self.disk_octets_write_max)
+        self.set_optional(obj, 'diskOctetsWriteMin', self.disk_octets_write_min)
+        self.set_optional(obj, 'diskOpsReadAvg', self.disk_ops_read_avg)
+        self.set_optional(obj, 'diskOpsReadLast', self.disk_ops_read_last)
+        self.set_optional(obj, 'diskOpsReadMax', self.disk_ops_read_max)
+        self.set_optional(obj, 'diskOpsReadMin', self.disk_ops_read_min)
+        self.set_optional(obj, 'diskOpsWriteAvg', self.disk_ops_write_avg)
+        self.set_optional(obj, 'diskOpsWriteLast', self.disk_ops_write_last)
+        self.set_optional(obj, 'diskOpsWriteMax', self.disk_ops_write_max)
+        self.set_optional(obj, 'diskOpsWriteMin', self.disk_ops_write_min)
+        self.set_optional(obj, 'diskPendingOperationsAvg', self.disk_pending_operations_avg)
+        self.set_optional(obj, 'diskPendingOperationsLast', self.disk_pending_operations_last)
+        self.set_optional(obj, 'diskPendingOperationsMax', self.disk_pending_operations_max)
+        self.set_optional(obj, 'diskPendingOperationsMin', self.disk_pending_operations_min)
+        self.set_optional(obj, 'diskTimeReadAvg', self.disk_time_read_avg)
+        self.set_optional(obj, 'diskTimeReadLast', self.disk_time_read_last)
+        self.set_optional(obj, 'diskTimeReadMax', self.disk_time_read_max)
+        self.set_optional(obj, 'diskTimeReadMin', self.disk_time_read_min)
+        self.set_optional(obj, 'diskTimeWriteAvg', self.disk_time_write_avg)
+        self.set_optional(obj, 'diskTimeWriteLast', self.disk_time_write_last)
+        self.set_optional(obj, 'diskTimeWriteMax', self.disk_time_write_max)
+        self.set_optional(obj, 'diskTimeWriteMin', self.disk_time_write_min)
+        return obj
+
+
+class VNicPerformance(VESDataType):
+    """vNicPerformance datatype"""
+
+    def __init__(self, identifier):
+        self.received_broadcast_packets_accumulated = None
+        self.received_broadcast_packets_delta = None
+        self.received_discarded_packets_accumulated = None
+        self.received_discarded_packets_delta = None
+        self.received_error_packets_accumulated = None
+        self.received_error_packets_delta = None
+        self.received_multicast_packets_accumulated = None
+        self.received_multicast_packets_delta = None
+        self.received_octets_accumulated = None
+        self.received_octets_delta = None
+        self.received_total_packets_accumulated = None
+        self.received_total_packets_delta = None
+        self.received_unicast_packets_accumulated = None
+        self.received_unicast_packets_delta = None
+        self.transmitted_broadcast_packets_accumulated = None
+        self.transmitted_broadcast_packets_delta = None
+        self.transmitted_discarded_packets_accumulated = None
+        self.transmitted_discarded_packets_delta = None
+        self.transmitted_error_packets_accumulated = None
+        self.transmitted_error_packets_delta = None
+        self.transmitted_multicast_packets_accumulated = None
+        self.transmitted_multicast_packets_delta = None
+        self.transmitted_octets_accumulated = None
+        self.transmitted_octets_delta = None
+        self.transmitted_total_packets_accumulated = None
+        self.transmitted_total_packets_delta = None
+        self.transmitted_unicast_packets_accumulated = None
+        self.transmitted_unicast_packets_delta = None
+        self.values_are_suspect = 'true'
+        self.v_nic_identifier = identifier
+
+    def get_obj(self):
+        obj = {
+            # required
+            'valuesAreSuspect': self.values_are_suspect,
+            'vNicIdentifier': self.v_nic_identifier
+        }
+        # optional
+        self.set_optional(obj, 'receivedBroadcastPacketsAccumulated', self.received_broadcast_packets_accumulated)
+        self.set_optional(obj, 'receivedBroadcastPacketsDelta', self.received_broadcast_packets_delta)
+        self.set_optional(obj, 'receivedDiscardedPacketsAccumulated', self.received_discarded_packets_accumulated)
+        self.set_optional(obj, 'receivedDiscardedPacketsDelta', self.received_discarded_packets_delta)
+        self.set_optional(obj, 'receivedErrorPacketsAccumulated', self.received_error_packets_accumulated)
+        self.set_optional(obj, 'receivedErrorPacketsDelta', self.received_error_packets_delta)
+        self.set_optional(obj, 'receivedMulticastPacketsAccumulated', self.received_multicast_packets_accumulated)
+        self.set_optional(obj, 'receivedMulticastPacketsDelta', self.received_multicast_packets_delta)
+        self.set_optional(obj, 'receivedOctetsAccumulated', self.received_octets_accumulated)
+        self.set_optional(obj, 'receivedOctetsDelta', self.received_octets_delta)
+        self.set_optional(obj, 'receivedTotalPacketsAccumulated', self.received_total_packets_accumulated)
+        self.set_optional(obj, 'receivedTotalPacketsDelta', self.received_total_packets_delta)
+        self.set_optional(obj, 'receivedUnicastPacketsAccumulated', self.received_unicast_packets_accumulated)
+        self.set_optional(obj, 'receivedUnicastPacketsDelta', self.received_unicast_packets_delta)
+        self.set_optional(obj, 'transmittedBroadcastPacketsAccumulated', self.transmitted_broadcast_packets_accumulated)
+        self.set_optional(obj, 'transmittedBroadcastPacketsDelta', self.transmitted_broadcast_packets_delta)
+        self.set_optional(obj, 'transmittedDiscardedPacketsAccumulated', self.transmitted_discarded_packets_accumulated)
+        self.set_optional(obj, 'transmittedDiscardedPacketsDelta', self.transmitted_discarded_packets_delta)
+        self.set_optional(obj, 'transmittedErrorPacketsAccumulated', self.transmitted_error_packets_accumulated)
+        self.set_optional(obj, 'transmittedErrorPacketsDelta', self.transmitted_error_packets_delta)
+        self.set_optional(obj, 'transmittedMulticastPacketsAccumulated', self.transmitted_multicast_packets_accumulated)
+        self.set_optional(obj, 'transmittedMulticastPacketsDelta', self.transmitted_multicast_packets_delta)
+        self.set_optional(obj, 'transmittedOctetsAccumulated', self.transmitted_octets_accumulated)
+        self.set_optional(obj, 'transmittedOctetsDelta', self.transmitted_octets_delta)
+        self.set_optional(obj, 'transmittedTotalPacketsAccumulated', self.transmitted_total_packets_accumulated)
+        self.set_optional(obj, 'transmittedTotalPacketsDelta', self.transmitted_total_packets_delta)
+        self.set_optional(obj, 'transmittedUnicastPacketsAccumulated', self.transmitted_unicast_packets_accumulated)
+        self.set_optional(obj, 'transmittedUnicastPacketsDelta', self.transmitted_unicast_packets_delta)
+        return obj
+
+
+class CpuUsage(VESDataType):
+    """cpuUsage datatype"""
+
+    def __init__(self, identifier):
+        self.cpu_identifier = identifier
+        self.cpu_idle = None
+        self.cpu_usage_interrupt = None
+        self.cpu_usage_nice = None
+        self.cpu_usage_soft_irq = None
+        self.cpu_usage_steal = None
+        self.cpu_usage_system = None
+        self.cpu_usage_user = None
+        self.cpu_wait = None
+        self.percent_usage = 0
+
+    def get_obj(self):
+        obj = {
+            # required
+            'cpuIdentifier': self.cpu_identifier,
+            'percentUsage': self.percent_usage
+        }
+        # optional
+        self.set_optional(obj, 'cpuIdle', self.cpu_idle)
+        self.set_optional(obj, 'cpuUsageInterrupt', self.cpu_usage_interrupt)
+        self.set_optional(obj, 'cpuUsageNice', self.cpu_usage_nice)
+        self.set_optional(obj, 'cpuUsageSoftIrq', self.cpu_usage_soft_irq)
+        self.set_optional(obj, 'cpuUsageSteal', self.cpu_usage_steal)
+        self.set_optional(obj, 'cpuUsageSystem', self.cpu_usage_system)
+        self.set_optional(obj, 'cpuUsageUser', self.cpu_usage_user)
+        self.set_optional(obj, 'cpuWait', self.cpu_wait)
+        return obj
+
+
+class MemoryUsage(VESDataType):
+    """memoryUsage datatype"""
+
+    def __init__(self, identifier):
+        self.memory_buffered = None
+        self.memory_cached = None
+        self.memory_configured = None
+        self.memory_free = None
+        self.memory_slab_recl = None
+        self.memory_slab_unrecl = None
+        self.memory_used = None
+        self.vm_identifier = identifier
+
+    def __str__(self):
+        """ for debug purposes """
+        return 'vm_identifier : {vm_identifier}\nbuffered : {buffered}\n' \
+               'cached : {cached}\nconfigured : {configured}\nfree : {free}\n' \
+               'slab_recl : {slab_recl}\nslab_unrecl : {slab_unrecl}\n' \
+               'used : {used}\n'.format(buffered=self.memory_buffered,
+                                        cached=self.memory_cached, configured=self.memory_configured,
+                                        free=self.memory_free, slab_recl=self.memory_slab_recl,
+                                        slab_unrecl=self.memory_slab_unrecl, used=self.memory_used,
+                                        vm_identifier=self.vm_identifier)
+
+    def get_memory_free(self):
+        if self.memory_free is None:
+            # calculate the free memory
+            if None not in (self.memory_configured, self.memory_used):
+                return self.memory_configured - self.memory_used
+            else:
+                # required field, so return zero
+                return 0
+        else:
+            return self.memory_free
+
+    def get_memory_used(self):
+        if self.memory_used is None:
+            # calculate the memory used
+            if None not in (self.memory_configured, self.memory_free, self.memory_buffered,
+                            self.memory_cached, self.memory_slab_recl, self.memory_slab_unrecl):
+                return self.memory_configured - (self.memory_free +
+                                                 self.memory_buffered + self.memory_cached +
+                                                 self.memory_slab_recl + self.memory_slab_unrecl)
+            else:
+                # required field, so return zero
+                return 0
+        else:
+            return self.memory_used
+
+    def get_memory_total(self):
+        if self.memory_configured is None:
+            # calculate the total memory
+            if None not in (self.memory_used, self.memory_free, self.memory_buffered,
+                            self.memory_cached, self.memory_slab_recl, self.memory_slab_unrecl):
+                return (self.memory_used + self.memory_free +
+                        self.memory_buffered + self.memory_cached +
+                        self.memory_slab_recl + self.memory_slab_unrecl)
+            else:
+                return None
+        else:
+            return self.memory_configured
+
+    def get_obj(self):
+        obj = {
+            # required fields
+            'memoryFree': self.get_memory_free(),
+            'memoryUsed': self.get_memory_used(),
+            'vmIdentifier': self.vm_identifier
+        }
+        # optional fields
+        self.set_optional(obj, 'memoryBuffered', self.memory_buffered)
+        self.set_optional(obj, 'memoryCached', self.memory_cached)
+        self.set_optional(obj, 'memoryConfigured', self.memory_configured)
+        self.set_optional(obj, 'memorySlabRecl', self.memory_slab_recl)
+        self.set_optional(obj, 'memorySlabUnrecl', self.memory_slab_unrecl)
+        return obj
+
+
+class MeasurementsForVfScaling(Event):
+    """MeasurementsForVfScaling datatype"""
+
+    def __init__(self, event_id):
+        """Construct the header"""
+        super(MeasurementsForVfScaling, self).__init__()
+        # common attributes
+        self.domain = "measurementsForVfScaling"
+        self.event_type = 'hostOS'
+        self.event_id = event_id
+        # measurement attributes
+        self.additional_measurements = []
+        self.codec_usage_array = []
+        self.concurrent_sessions = 0
+        self.configured_entities = 0
+        self.cpu_usage_array = []
+        self.feature_usage_array = []
+        self.filesystem_usage_array = []
+        self.latency_distribution = []
+        self.mean_request_latency = 0
+        self.measurement_interval = 0
+        self.number_of_media_ports_in_use = 0
+        self.request_rate = 0
+        self.vnfc_scaling_metric = 0
+        self.additional_fields = []
+        self.additional_objects = []
+        self.disk_usage_array = []
+        self.measurements_for_vf_scaling_version = 2.0
+        self.memory_usage_array = []
+        self.v_nic_performance_array = []
+
+    def add_additional_measurement(self, named_array):
+        self.additional_measurements.append(named_array.get_obj())
+
+    def add_additional_fields(self, field):
+        self.additional_fields.append(field.get_obj())
+
+    def add_memory_usage(self, mem_usage):
+        self.memory_usage_array.append(mem_usage.get_obj())
+
+    def add_cpu_usage(self, cpu_usage):
+        self.cpu_usage_array.append(cpu_usage.get_obj())
+
+    def add_v_nic_performance(self, nic_performance):
+        self.v_nic_performance_array.append(nic_performance.get_obj())
+
+    def add_disk_usage(self, disk_usage):
+        self.disk_usage_array.append(disk_usage.get_obj())
+
+    def get_obj(self):
+        """Get the object of the datatype"""
+        obj = {}
+        obj['additionalMeasurements'] = self.additional_measurements
+        obj['codecUsageArray'] = self.codec_usage_array
+        obj['concurrentSessions'] = self.concurrent_sessions
+        obj['configuredEntities'] = self.configured_entities
+        obj['cpuUsageArray'] = self.cpu_usage_array
+        obj['featureUsageArray'] = self.feature_usage_array
+        obj['filesystemUsageArray'] = self.filesystem_usage_array
+        obj['latencyDistribution'] = self.latency_distribution
+        obj['meanRequestLatency'] = self.mean_request_latency
+        obj['measurementInterval'] = self.measurement_interval
+        obj['numberOfMediaPortsInUse'] = self.number_of_media_ports_in_use
+        obj['requestRate'] = self.request_rate
+        obj['vnfcScalingMetric'] = self.vnfc_scaling_metric
+        obj['additionalFields'] = self.additional_fields
+        obj['additionalObjects'] = self.additional_objects
+        obj['diskUsageArray'] = self.disk_usage_array
+        obj['measurementsForVfScalingVersion'] = self.measurements_for_vf_scaling_version
+        obj['memoryUsageArray'] = self.memory_usage_array
+        obj['vNicPerformanceArray'] = self.v_nic_performance_array
+        return obj
+
+    def get_name(self):
+        """Name of datatype"""
+        return "measurementsForVfScalingFields"
+
+
+class Fault(Event):
+    """Fault datatype"""
+
+    def __init__(self, event_id):
+        """Construct the header"""
+        super(Fault, self).__init__()
+        # common attributes
+        self.domain = "fault"
+        self.event_id = event_id
+        self.event_type = "Fault"
+        # fault attributes
+        self.fault_fields_version = 1.1
+        self.event_severity = 'NORMAL'
+        self.event_source_type = 'other(0)'
+        self.alarm_condition = ''
+        self.specific_problem = ''
+        self.vf_status = 'Active'
+        self.alarm_interface_a = ''
+        self.alarm_additional_information = []
+        self.event_category = ""
+
+    def get_name(self):
+        """Name of datatype"""
+        return 'faultFields'
+
+    def get_obj(self):
+        """Get the object of the datatype"""
+        obj = {}
+        obj['faultFieldsVersion'] = self.fault_fields_version
+        obj['eventSeverity'] = self.event_severity
+        obj['eventSourceType'] = self.event_source_type
+        obj['alarmCondition'] = self.alarm_condition
+        obj['specificProblem'] = self.specific_problem
+        obj['vfStatus'] = self.vf_status
+        obj['alarmInterfaceA'] = self.alarm_interface_a
+        obj['alarmAdditionalInformation'] = self.alarm_additional_information
+        obj['eventCategory'] = self.event_category
+        return obj
+
+
+class VESApp(object):
+    """VES Application"""
+
+    def __init__(self):
+        """Application initialization"""
+        self.__plugin_data_cache = {
+            'cpu': {'interval': 0.0, 'vls': []},
+            'virt': {'interval': 0.0, 'vls': []},
+            'disk': {'interval': 0.0, 'vls': []},
+            'interface': {'interval': 0.0, 'vls': []},
+            'memory': {'interval': 0.0, 'vls': []}
+        }
+        self.__app_config = {
+            'Domain': '127.0.0.1',
+            'Port': 30000,
+            'Path': '',
+            'Username': '',
+            'Password': '',
+            'Topic': '',
+            'UseHttps': False,
+            'SendEventInterval': 20.0,
+            'FunctionalRole': 'Collectd VES Agent',
+            'ApiVersion': 5.1,
+            'KafkaPort': 9092,
+            'KafkaBroker': 'localhost'
+        }
+        self.__host_name = None
+        self.__ves_timer = None
+        self.__lock = Lock()
+        self.__event_id = 0
+
+    def get_event_id(self):
+        """get event id"""
+        self.__event_id += 1
+        return str(self.__event_id)
+
+    def lock(self):
+        """Lock the application"""
+        self.__lock.acquire()
+
+    def unlock(self):
+        """Unlock the application"""
+        self.__lock.release()
+
+    def start_timer(self):
+        """Start event timer"""
+        self.__ves_timer = Timer(self.__app_config['SendEventInterval'], self.__on_time)
+        self.__ves_timer.start()
+
+    def stop_timer(self):
+        """Stop event timer"""
+        self.__ves_timer.cancel()
+
+    def __on_time(self):
+        """Timer thread"""
+        self.event_timer()
+        self.start_timer()
+
+    def event_send(self, event):
+        """Send event to VES"""
+        server_url = "http{}://{}:{}{}/eventListener/v{}{}".format(
+            's' if self.__app_config['UseHttps'] else '', self.__app_config['Domain'],
+            int(self.__app_config['Port']), '{}'.format(
+                '/{}'.format(self.__app_config['Path']) if (len(self.__app_config['Path']) > 0) else ''),
+            int(self.__app_config['ApiVersion']), '{}'.format(
+                '/{}'.format(self.__app_config['Topic']) if (len(self.__app_config['Topic']) > 0) else ''))
+        logging.info('Vendor Event Listener is at: {}'.format(server_url))
+        credentials = base64.b64encode('{}:{}'.format(
+            self.__app_config['Username'], self.__app_config['Password']).encode()).decode()
+        logging.info('Authentication credentials are: {}'.format(credentials))
+        try:
+            request = url.Request(server_url)
+            request.add_header('Authorization', 'Basic {}'.format(credentials))
+            request.add_header('Content-Type', 'application/json')
+            logging.debug("Sending {} to {}".format(event.get_json(), server_url))
+            vel = url.urlopen(request, event.get_json(), timeout=1)
+            logging.debug("Sent data to {} successfully".format(server_url))
+        except url.HTTPError as e:
+            logging.error('Vendor Event Listener exception: {}'.format(e))
+        except url.URLError as e:
+            logging.error('Vendor Event Listener is is not reachable: {}'.format(e))
+        except Exception as e:
+            logging.error('Vendor Event Listener error: {}'.format(e))
+
+    def bytes_to_kb(self, bytes):
+        """Convert bytes to kibibytes"""
+        return round((bytes / 1024.0), 3)
+
+    def get_hostname(self):
+        return socket.gethostname()
+
+    def send_host_measurements(self):
+        # get list of all VMs
+        virt_vcpu_total = self.cache_get_value(plugin_name='virt', type_name='virt_cpu_total',
+                                               mark_as_read=False)
+        vm_names = [x['plugin_instance'] for x in virt_vcpu_total]
+        for vm_name in vm_names:
+            # make sure that 'virt' plugin cache is up-to-date
+            vm_values = self.cache_get_value(plugin_name='virt', plugin_instance=vm_name,
+                                             mark_as_read=False)
+            us_up_to_date = True
+            for vm_value in vm_values:
+                if vm_value['updated'] == False:
+                    logging.warning("%s" % vm_value)
+                    us_up_to_date = False
+                    break
+            if not us_up_to_date:
+                # one of the cache value is not up-to-date, break
+                logging.warning("virt collectd cache values are not up-to-date for {}".format(vm_name))
+                continue
+            # values are up-to-date, create an event message
+            measurement = MeasurementsForVfScaling(self.get_event_id())
+            measurement.functional_role = self.__app_config['FunctionalRole']
+            # fill out reporting_entity
+            measurement.reporting_entity_id = self.get_hostname()
+            measurement.reporting_entity_name = measurement.reporting_entity_id
+            # set source as a host value
+            measurement.source_id = vm_name
+            measurement.source_name = measurement.source_id
+            # fill out EpochMicrosec (convert to us)
+            measurement.start_epoch_microsec = (virt_vcpu_total[0]['time'] * 1000000)
+            # plugin interval
+            measurement.measurement_interval = self.__plugin_data_cache['virt']['interval']
+            # memoryUsage
+            mem_usage = MemoryUsage(vm_name)
+            memory_total = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                type_name='memory', type_instance='total')
+            memory_unused = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                 type_name='memory', type_instance='unused')
+            memory_rss = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                              type_name='memory', type_instance='rss')
+            if len(memory_total) > 0:
+                mem_usage.memory_configured = self.bytes_to_kb(memory_total[0]['values'][0])
+            if len(memory_unused) > 0:
+                mem_usage.memory_free = self.bytes_to_kb(memory_unused[0]['values'][0])
+            elif len(memory_rss) > 0:
+                mem_usage.memory_free = self.bytes_to_kb(memory_rss[0]['values'][0])
+            # since, "used" metric is not provided by virt plugn, set the rest of the memory stats
+            # to zero to calculate used based on provided stats only
+            mem_usage.memory_buffered = mem_usage.memory_cached = mem_usage.memory_slab_recl = \
+                mem_usage.memory_slab_unrecl = 0
+            measurement.add_memory_usage(mem_usage)
+            # cpuUsage
+            virt_vcpus = self.cache_get_value(plugin_instance=vm_name,
+                                              plugin_name='virt', type_name='virt_vcpu')
+            for virt_vcpu in virt_vcpus:
+                cpu_usage = CpuUsage(virt_vcpu['type_instance'])
+                cpu_usage.percent_usage = self.cpu_ns_to_percentage(virt_vcpu)
+                measurement.add_cpu_usage(cpu_usage)
+            # vNicPerformance
+            if_packets = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                              type_name='if_packets', mark_as_read=False)
+            if_names = [x['type_instance'] for x in if_packets]
+            for if_name in if_names:
+                if_packets = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                  type_name='if_packets', type_instance=if_name)
+                if_octets = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                 type_name='if_octets', type_instance=if_name)
+                if_errors = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                 type_name='if_errors', type_instance=if_name)
+                if_dropped = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                  type_name='if_dropped', type_instance=if_name)
+                v_nic_performance = VNicPerformance(if_name)
+                v_nic_performance.received_total_packets_accumulated = if_packets[0]['values'][0]
+                v_nic_performance.transmitted_total_packets_accumulated = if_packets[0]['values'][1]
+                v_nic_performance.received_octets_accumulated = if_octets[0]['values'][0]
+                v_nic_performance.transmitted_octets_accumulated = if_octets[0]['values'][1]
+                v_nic_performance.received_error_packets_accumulated = if_errors[0]['values'][0]
+                v_nic_performance.transmitted_error_packets_accumulated = if_errors[0]['values'][1]
+                v_nic_performance.received_discarded_packets_accumulated = if_dropped[0]['values'][0]
+                v_nic_performance.transmitted_discarded_packets_accumulated = if_dropped[0]['values'][1]
+                measurement.add_v_nic_performance(v_nic_performance)
+            # diskUsage
+            disk_octets = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                               type_name='disk_octets', mark_as_read=False)
+            disk_names = [x['type_instance'] for x in disk_octets]
+            for disk_name in disk_names:
+                disk_octets = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                   type_name='disk_octets', type_instance=disk_name)
+                disk_ops = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                                type_name='disk_ops', type_instance=disk_name)
+                disk_usage = DiskUsage(disk_name)
+                disk_usage.disk_octets_read_last = disk_octets[0]['values'][0]
+                disk_usage.disk_octets_write_last = disk_octets[0]['values'][1]
+                disk_usage.disk_ops_read_last = disk_ops[0]['values'][0]
+                disk_usage.disk_ops_write_last = disk_ops[0]['values'][1]
+                measurement.add_disk_usage(disk_usage)
+            # add additional measurements (perf)
+            perf_values = self.cache_get_value(plugin_instance=vm_name, plugin_name='virt',
+                                               type_name='perf')
+            named_array = NamedArrayOfFields('perf')
+            for perf in perf_values:
+                named_array.add(Field(perf['type_instance'], str(perf['values'][0])))
+            measurement.add_additional_measurement(named_array)
+            # add host values as additional measurements
+            self.set_additional_fields(measurement, exclude_plugins=['virt'])
+            # send event to the VES
+            self.event_send(measurement)
+        if len(vm_names) > 0:
+            # mark the additional measurements metrics as read
+            self.mark_cache_values_as_read(exclude_plugins=['virt'])
+
+    def event_timer(self):
+        """Event timer thread"""
+        self.lock()
+        try:
+            self.send_host_measurements()
+        finally:
+            self.unlock()
+
+    def mark_cache_values_as_read(self, exclude_plugins=None):
+        """mark the cache values as read"""
+        for plugin_name in self.__plugin_data_cache.keys():
+            if (exclude_plugins != None and plugin_name in exclude_plugins):
+                # skip excluded plugins
+                continue;
+            for val in self.__plugin_data_cache[plugin_name]['vls']:
+                val['updated'] = False
+
+    def set_additional_measurements(self, measurement, exclude_plugins=None):
+        """Set addition measurement filed with host/guets values"""
+        # add host/guest values as additional measurements
+        for plugin_name in self.__plugin_data_cache.keys():
+            if (exclude_plugins != None and plugin_name in exclude_plugins):
+                # skip excluded plugins
+                continue;
+            for val in self.__plugin_data_cache[plugin_name]['vls']:
+                if val['updated']:
+                    array_name = self.make_dash_string(plugin_name, val['plugin_instance'],
+                                                       val['type_instance'])
+                    named_array = NamedArrayOfFields(array_name)
+
+                    for index in range(len(val['dsnames'])):
+                        mname = '{}-{}'.format(val['type'], val['dsnames'][index])
+                        named_array.add(Field(mname, str(val['values'][index])))
+                    measurement.add_additional_measurement(named_array);
+                    val['updated'] = False
+
+    def set_additional_fields(self, measurement, exclude_plugins=None):
+        # set host values as additional fields
+        for plugin_name in self.__plugin_data_cache.keys():
+            if (exclude_plugins != None and plugin_name in exclude_plugins):
+                # skip excluded plugins
+                continue;
+            for val in self.__plugin_data_cache[plugin_name]['vls']:
+                if val['updated']:
+                    name_prefix = self.make_dash_string(plugin_name, val['plugin_instance'],
+                                                        val['type_instance'])
+
+                    for index in range(len(val['dsnames'])):
+                        field_name = self.make_dash_string(name_prefix, val['type'], val['dsnames'][index])
+                        measurement.add_additional_fields(Field(field_name, str(val['values'][index])))
+
+    def cpu_ns_to_percentage(self, vl):
+        """Convert CPU usage ns to CPU %"""
+        total = vl['values'][0]
+        total_time = vl['time']
+        pre_total = vl['pre_values'][0]
+        pre_total_time = vl['pre_time']
+        if (total_time - pre_total_time) == 0:
+            # return zero usage if time diff is zero
+            return 0.0
+        percent = (100.0 * (total - pre_total)) / ((total_time - pre_total_time) * 1000000000.0)
+        logging.debug("pre_time={}, pre_value={}, time={}, value={}, cpu={}%".format(
+            pre_total_time, pre_total, total_time, total, round(percent, 2)))
+        return round(percent, 2)
+
+    def make_dash_string(self, *args):
+        """Join non empty strings with dash symbol"""
+        return '-'.join(filter(lambda x: len(x) > 0, args))
+
+    def config(self, config):
+        """VES option configuration"""
+        for key, value in config.items('config'):
+            if key in self.__app_config:
+                try:
+                    if type(self.__app_config[key]) == int:
+                        value = int(value)
+                    elif type(self.__app_config[key]) == float:
+                        value = float(value)
+                    elif type(self.__app_config[key]) == bool:
+                        value = bool(distutils.util.strtobool(value))
+
+                    if isinstance(value, type(self.__app_config[key])):
+                        self.__app_config[key] = value
+                    else:
+                        logging.error("Type mismatch with %s" % key)
+                        sys.exit()
+                except ValueError:
+                    logging.error("Incorrect value type for %s" % key)
+                    sys.exit()
+            else:
+                logging.error("Incorrect key configuration %s" % key)
+                sys.exit()
+
+    def init(self):
+        """Initialisation"""
+        # start the VES timer
+        self.start_timer()
+
+    def update_cache_value(self, kafka_data):
+        """Update value internal collectd cache values or create new one
+         Please note, the cache should be locked before using this function"""
+        found = False
+        if kafka_data['plugin'] not in self.__plugin_data_cache:
+            self.__plugin_data_cache[kafka_data['plugin']] = {'vls': []}
+        plugin_vl = self.__plugin_data_cache[kafka_data['plugin']]['vls']
+
+        for index in range(len(plugin_vl)):
+            # record found, so just update time the values
+            if (plugin_vl[index]['plugin_instance'] == kafka_data['plugin_instance']) and \
+                    (plugin_vl[index]['type_instance'] == kafka_data['type_instance']) and \
+                    (plugin_vl[index]['type'] == kafka_data['type']):
+                plugin_vl[index]['pre_time'] = plugin_vl[index]['time']
+                plugin_vl[index]['time'] = kafka_data['time']
+                plugin_vl[index]['pre_values'] = plugin_vl[index]['values']
+                plugin_vl[index]['values'] = kafka_data['values']
+                plugin_vl[index]['dsnames'] = kafka_data['dsnames']
+                plugin_vl[index]['updated'] = True
+                found = True
+                break
+        if not found:
+            value = {}
+            # create new cache record
+            value['plugin_instance'] = kafka_data['plugin_instance']
+            value['type_instance'] = kafka_data['type_instance']
+            value['values'] = kafka_data['values']
+            value['pre_values'] = kafka_data['values']
+            value['type'] = kafka_data['type']
+            value['time'] = kafka_data['time']
+            value['pre_time'] = kafka_data['time']
+            value['host'] = kafka_data['host']
+            value['dsnames'] = kafka_data['dsnames']
+            value['updated'] = True
+            self.__plugin_data_cache[kafka_data['plugin']]['vls'].append(value)
+            # update plugin interval based on one received in the value
+            self.__plugin_data_cache[kafka_data['plugin']]['interval'] = kafka_data['interval']
+
+    def cache_get_value(self, plugin_name=None, plugin_instance=None,
+                        type_name=None, type_instance=None, type_names=None, mark_as_read=True):
+        """Get cache value by given criteria"""
+        ret_list = []
+        if plugin_name in self.__plugin_data_cache:
+            for val in self.__plugin_data_cache[plugin_name]['vls']:
+                if (type_name == None or type_name == val['type']) and \
+                        (plugin_instance == None or plugin_instance == val['plugin_instance']) and \
+                        (type_instance == None or type_instance == val['type_instance']) and \
+                        (type_names == None or val['type'] in type_names):
+                    if mark_as_read:
+                        val['updated'] = False
+                    ret_list.append(val)
+        return ret_list
+
+    def shutdown(self):
+        """Shutdown method for clean up"""
+        self.stop_timer()
+
+    def run(self):
+        """Consumer JSON data from kafka broker"""
+        kafka_server = '%s:%s' % (self.__app_config.get('KafkaBroker'), self.__app_config.get('KafkaPort'))
+        consumer = KafkaConsumer('collectd', bootstrap_servers=kafka_server, auto_offset_reset='latest',
+                                 enable_auto_commit=False,
+                                 value_deserializer=lambda m: json.loads(m.decode('ascii')))
+
+        for message in consumer:
+            for kafka_data in message.value:
+                self.lock()
+                try:
+                    # Receive Kafka data and update cache values
+                    self.update_cache_value(kafka_data)
+
+                finally:
+                    self.unlock()
+
+
+def main():
+    # Parsing cmdline options
+    parser = argparse.ArgumentParser()
+    parser.add_argument("--config", dest="configfile", default=None, help="Specify config file", metavar="FILE")
+    parser.add_argument("--loglevel", dest="level", choices=['DEBUG', 'INFO', 'WARNING', 'ERROR'], default='WARNING',
+                        help="Specify log level (default: %(default)s)", metavar="LEVEL")
+    parser.add_argument("--logfile", dest="logfile", default='ves_app.log',
+                        help="Specify log file (default: %(default)s)", metavar="FILE")
+    args = parser.parse_args()
+
+    # Create log file
+    logging.basicConfig(filename=args.logfile, format='%(asctime)s %(message)s', level=args.level)
+
+    # Create Application Instance
+    application_instance = VESApp()
+
+    # Read from config file
+    if args.configfile:
+        config = ConfigParser.ConfigParser()
+        config.optionxform = lambda option: option
+        config.read(args.configfile)
+        # Write Config Values
+        application_instance.config(config)
+    else:
+        logging.warning("No configfile specified, using default options")
+
+    # Start timer for interval
+    application_instance.init()
+
+    # Read Data from Kakfa
+    try:
+        # Kafka consumer & update cache
+        application_instance.run()
+    except KeyboardInterrupt:
+        logging.info(" - Ctrl-C handled, exiting gracefully")
+        application_instance.shutdown()
+        sys.exit()
+    except:
+        logging.error("Unknown Error")
+
+
+if __name__ == '__main__':
+    main()
diff --git a/3rd_party/collectd-ves-app/ves_app/ves_app_config.conf b/3rd_party/collectd-ves-app/ves_app/ves_app_config.conf
new file mode 100644
index 00000000..1dccd49b
--- /dev/null
+++ b/3rd_party/collectd-ves-app/ves_app/ves_app_config.conf
@@ -0,0 +1,13 @@
+[config]
+Domain = 127.0.0.1
+Port = 30000
+Path = vendor_event_listener
+Topic = example_vnf
+UseHttps = false
+Username =
+Password =
+FunctionalRole = Collectd VES Agent
+SendEventInterval = 20
+ApiVersion = 3
+KafkaPort = 9092
+KafkaBroker = localhost
\ No newline at end of file