1 files changed, 265 insertions, 0 deletions

diff --git a/tools/collectors/collectd/collectd.py b/tools/collectors/collectd/collectd.py
new file mode 100644
index 00000000..90df6b04
--- /dev/null
+++ b/tools/collectors/collectd/collectd.py
@@ -0,0 +1,265 @@
+# Copyright 2017-2018 Spirent Communications.
+#
+# 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.
+
+"""
+Collects samples from collectd through collectd_bucky.
+Depending on the policy - decides to keep the sample or discard.
+Plot the values of the stored samples once the test is completed
+"""
+
+import copy
+import csv
+import logging
+import multiprocessing
+import os
+from collections import OrderedDict
+import queue
+
+import matplotlib.pyplot as plt
+import numpy as np
+import tools.collectors.collectd.collectd_bucky as cb
+from tools.collectors.collector import collector
+from conf import settings
+
+# The y-lables. Keys in this dictionary are used as y-labels.
+YLABELS = {'No/Of Packets': ['dropped', 'packets', 'if_octets', 'errors',
+                             'if_rx_octets', 'if_tx_octets'],
+           'Jiffies': ['cputime'],
+           'Bandwidth b/s': ['memory_bandwidth'],
+           'Bytes': ['bytes.llc']}
+
+
+def get_label(sample):
+    """
+    Returns the y-label for the plot.
+    """
+    for label in YLABELS:
+        if any(r in sample for r in YLABELS[label]):
+            return label
+
+
+def plot_graphs(dict_of_arrays):
+    """
+    Plot the values
+    Store the data used for plotting.
+    """
+    i = 1
+    results_dir = settings.getValue('RESULTS_PATH')
+    for key in dict_of_arrays:
+        tup_list = dict_of_arrays[key]
+        two_lists = list(map(list, zip(*tup_list)))
+        y_axis_list = two_lists[0]
+        x_axis_list = two_lists[1]
+        if np.count_nonzero(y_axis_list) > 0:
+            with open(os.path.join(results_dir,
+                                   str(key) + '.data'), "w") as pfile:
+                writer = csv.writer(pfile, delimiter='\t')
+                writer.writerows(zip(x_axis_list, y_axis_list))
+            plt.figure(i)
+            plt.plot(x_axis_list, y_axis_list)
+            plt.xlabel("Time (Ticks)")
+            plt.ylabel(get_label(key))
+            plt.savefig(os.path.join(results_dir, str(key) + '.png'))
+            plt.cla()
+            plt.clf()
+            plt.close()
+            i = i + 1
+
+
+def get_results_to_print(dict_of_arrays):
+    """
+    Return a results dictionary for report tool to
+    print the process-statistics.
+    """
+    presults = OrderedDict()
+    results = OrderedDict()
+    for key in dict_of_arrays:
+        if ('processes' in key and
+                any(proc in key for proc in ['ovs', 'vpp', 'qemu'])):
+            reskey = '.'.join(key.split('.')[2:])
+            preskey = key.split('.')[1] + '_collectd'
+            tup_list = dict_of_arrays[key]
+            two_lists = list(map(list, zip(*tup_list)))
+            y_axis_list = two_lists[0]
+            mean = 0.0
+            if np.count_nonzero(y_axis_list) > 0:
+                mean = np.mean(y_axis_list)
+            results[reskey] = mean
+            presults[preskey] = results
+    return presults
+
+
+class Receiver(multiprocessing.Process):
+    """
+    Wrapper Receiver (of samples) class
+    """
+    def __init__(self, pd_dict, control):
+        """
+        Initialize.
+        A queue will be shared with collectd_bucky
+        """
+        super(Receiver, self).__init__()
+        self.daemon = False
+        self.q_of_samples = multiprocessing.Queue()
+        self.server = cb.get_collectd_server(self.q_of_samples)
+        self.control = control
+        self.pd_dict = pd_dict
+        self.collectd_cpu_keys = settings.getValue('COLLECTD_CPU_KEYS')
+        self.collectd_processes_keys = settings.getValue(
+            'COLLECTD_PROCESSES_KEYS')
+        self.collectd_iface_keys = settings.getValue(
+            'COLLECTD_INTERFACE_KEYS')
+        self.collectd_iface_xkeys = settings.getValue(
+            'COLLECTD_INTERFACE_XKEYS')
+        self.collectd_intelrdt_keys = settings.getValue(
+            'COLLECTD_INTELRDT_KEYS')
+        self.collectd_ovsstats_keys = settings.getValue(
+            'COLLECTD_OVSSTAT_KEYS')
+        self.collectd_dpdkstats_keys = settings.getValue(
+            'COLLECTD_DPDKSTAT_KEYS')
+        self.collectd_intelrdt_xkeys = settings.getValue(
+            'COLLECTD_INTELRDT_XKEYS')
+        self.exclude_coreids = []
+        # Expand the ranges in the intelrdt-xkeys
+        for xkey in self.collectd_intelrdt_xkeys:
+            if '-' not in xkey:
+                self.exclude_coreids.append(int(xkey))
+            else:
+                left, right = map(int, xkey.split('-'))
+                self.exclude_coreids += range(left, right + 1)
+
+    def run(self):
+        """
+        Start receiving the samples.
+        """
+        while not self.control.value:
+            try:
+                sample = self.q_of_samples.get(True, 1)
+                if not sample:
+                    break
+                self.handle(sample)
+            except queue.Empty:
+                pass
+            except IOError:
+                continue
+            except (ValueError, IndexError, KeyError, MemoryError):
+                self.stop()
+                break
+
+    # pylint: disable=too-many-boolean-expressions
+    def handle(self, sample):
+        ''' Store values and names if names matches following:
+            1. cpu + keys
+            2. processes + keys
+            3. interface + keys +  !xkeys
+            4. ovs_stats + keys
+            5. dpdkstat + keys
+            6. intel_rdt + keys + !xkeys
+            sample[1] is the name of the sample, which is . separated strings.
+            The first field in sample[1] is the type - cpu, proceesses, etc.
+            For intel_rdt, the second field contains the core-id, which is
+            used to make the decision on 'exclusions'
+            sample[0]: Contains the host information - which is not considered.
+            sample[2]: Contains the Value.
+            sample[3]: Contains the Time (in ticks)
+            '''
+        if (('cpu' in sample[1] and
+             any(c in sample[1] for c in self.collectd_cpu_keys)) or
+                ('processes' in sample[1] and
+                 any(p in sample[1] for p in self.collectd_processes_keys)) or
+                ('interface' in sample[1] and
+                 (any(i in sample[1] for i in self.collectd_iface_keys) and
+                  any(x not in sample[1]
+                      for x in self.collectd_iface_xkeys))) or
+                ('ovs_stats' in sample[1] and
+                 any(o in sample[1] for o in self.collectd_ovsstats_keys)) or
+                ('dpdkstat' in sample[1] and
+                 any(d in sample[1] for d in self.collectd_dpdkstats_keys)) or
+                ('intel_rdt' in sample[1] and
+                 any(r in sample[1] for r in self.collectd_intelrdt_keys) and
+                 (int(sample[1].split('.')[1]) not in self.exclude_coreids))):
+            if sample[1] not in self.pd_dict:
+                self.pd_dict[sample[1]] = list()
+            val = self.pd_dict[sample[1]]
+            val.append((sample[2], sample[3]))
+            self.pd_dict[sample[1]] = val
+
+    def stop(self):
+        """
+        Stop receiving the samples.
+        """
+        self.server.close()
+        self.q_of_samples.put(None)
+        self.control.value = True
+
+
+# inherit from collector.Icollector.
+class Collectd(collector.ICollector):
+    """A collector of system statistics based on collectd
+
+    It starts a UDP server, receives metrics from collectd
+    and plot the results.
+    """
+
+    def __init__(self, results_dir, test_name):
+        """
+        Initialize collection of statistics
+        """
+        self._log = os.path.join(results_dir,
+                                 settings.getValue('LOG_FILE_COLLECTD') +
+                                 '_' + test_name + '.log')
+        self.results = {}
+        self.sample_dict = multiprocessing.Manager().dict()
+        self.control = multiprocessing.Value('b', False)
+        self.receiver = Receiver(self.sample_dict, self.control)
+
+    def start(self):
+        """
+        Start receiving samples
+        """
+        self.receiver.server.start()
+        self.receiver.start()
+
+    def stop(self):
+        """
+        Stop receiving samples
+        """
+        self.control.value = True
+        self.receiver.stop()
+        self.receiver.server.join(5)
+        self.receiver.join(5)
+        if self.receiver.server.is_alive():
+            self.receiver.server.terminate()
+        if self.receiver.is_alive():
+            self.receiver.terminate()
+        self.results = copy.deepcopy(self.sample_dict)
+
+    def get_results(self):
+        """
+        Return the results.
+        """
+        return get_results_to_print(self.results)
+
+    def print_results(self):
+        """
+        Print - Plot and save raw-data.
+        log the collected statistics
+        """
+        plot_graphs(self.results)
+        proc_stats = get_results_to_print(self.results)
+        for process in proc_stats:
+            logging.info("Process: " + '_'.join(process.split('_')[:-1]))
+            for(key, value) in proc_stats[process].items():
+                logging.info("         Statistic: " + str(key) +
+                             ", Value: " + str(value))