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-rw-r--r--tools/pkt_gen/moongen/__init__.py13
-rw-r--r--tools/pkt_gen/moongen/moongen.py753
-rw-r--r--tools/pkt_gen/testcenter/testcenter-rfc2544-rest.py11
-rw-r--r--tools/pkt_gen/testcenter/testcenter.py120
-rw-r--r--tools/pkt_gen/xena/profiles/baseconfig.x25442
-rwxr-xr-xtools/pkt_gen/xena/xena.py57
-rw-r--r--tools/pkt_gen/xena/xena_json.py39
7 files changed, 960 insertions, 35 deletions
diff --git a/tools/pkt_gen/moongen/__init__.py b/tools/pkt_gen/moongen/__init__.py
new file mode 100644
index 00000000..562eb088
--- /dev/null
+++ b/tools/pkt_gen/moongen/__init__.py
@@ -0,0 +1,13 @@
+# Copyright 2016 Intel Corporation.
+#
+# 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/tools/pkt_gen/moongen/moongen.py b/tools/pkt_gen/moongen/moongen.py
new file mode 100644
index 00000000..d6c09e5d
--- /dev/null
+++ b/tools/pkt_gen/moongen/moongen.py
@@ -0,0 +1,753 @@
+# Copyright 2016 Red Hat Inc
+#
+# 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.
+#
+# Contributors:
+# Bill Michalowski, Red Hat Inc.
+# Andrew Theurer, Red Hat Inc.
+"""
+Moongen Traffic Generator Model
+"""
+
+# python imports
+import logging
+from collections import OrderedDict
+import subprocess
+import re
+
+# VSPerf imports
+from conf import settings
+from core.results.results_constants import ResultsConstants
+from tools.pkt_gen.trafficgen.trafficgenhelper import (
+ TRAFFIC_DEFAULTS,
+ merge_spec)
+from tools.pkt_gen.trafficgen.trafficgen import ITrafficGenerator
+
+class Moongen(ITrafficGenerator):
+ """Moongen Traffic generator wrapper."""
+ _traffic_defaults = TRAFFIC_DEFAULTS.copy()
+ _logger = logging.getLogger(__name__)
+
+ def __init__(self):
+ """Moongen class constructor."""
+ self._logger.info("In moongen __init__ method")
+ self._params = {}
+ self._moongen_host_ip_addr = (
+ settings.getValue('TRAFFICGEN_MOONGEN_HOST_IP_ADDR'))
+ self._moongen_base_dir = (
+ settings.getValue('TRAFFICGEN_MOONGEN_BASE_DIR'))
+ self._moongen_user = settings.getValue('TRAFFICGEN_MOONGEN_USER')
+ self._moongen_ports = settings.getValue('TRAFFICGEN_MOONGEN_PORTS')
+
+ @property
+ def traffic_defaults(self):
+ """Default traffic values.
+
+ These can be expected to be constant across traffic generators,
+ so no setter is provided. Changes to the structure or contents
+ will likely break traffic generator implementations or tests
+ respectively.
+ """
+ self._logger.info("In moongen traffic_defaults method")
+ return self._traffic_defaults
+
+ def create_moongen_cfg_file(self, traffic, duration=60,
+ acceptable_loss_pct=1, one_shot=0):
+ """Create the MoonGen configuration file from VSPERF's traffic profile
+ :param traffic: Detailed "traffic" spec, i.e. IP address, VLAN tags
+ :param duration: The length of time to generate packet throughput
+ :param acceptable_loss: Maximum packet loss acceptable
+ :param one_shot: No RFC 2544 binary search,
+ just packet flow at traffic specifics
+ """
+ logging.debug("traffic['frame_rate'] = " + \
+ str(traffic['frame_rate']))
+
+ logging.debug("traffic['multistream'] = " + \
+ str(traffic['multistream']))
+
+ logging.debug("traffic['stream_type'] = " + \
+ str(traffic['stream_type']))
+
+ logging.debug("traffic['l2']['srcmac'] = " + \
+ str(traffic['l2']['srcmac']))
+
+ logging.debug("traffic['l2']['dstmac'] = " + \
+ str(traffic['l2']['dstmac']))
+
+ logging.debug("traffic['l3']['proto'] = " + \
+ str(traffic['l3']['proto']))
+
+ logging.debug("traffic['l3']['srcip'] = " + \
+ str(traffic['l3']['srcip']))
+
+ logging.debug("traffic['l3']['dstip'] = " + \
+ str(traffic['l3']['dstip']))
+
+ logging.debug("traffic['l4']['srcport'] = " + \
+ str(traffic['l4']['srcport']))
+
+ logging.debug("traffic['l4']['dstport'] = " + \
+ str(traffic['l4']['dstport']))
+
+ logging.debug("traffic['vlan']['enabled'] = " + \
+ str(traffic['vlan']['enabled']))
+
+ logging.debug("traffic['vlan']['id'] = " + \
+ str(traffic['vlan']['id']))
+
+ logging.debug("traffic['vlan']['priority'] = " + \
+ str(traffic['vlan']['priority']))
+
+ logging.debug("traffic['vlan']['cfi'] = " + \
+ str(traffic['vlan']['cfi']))
+
+ logging.debug(traffic['l2']['framesize'])
+
+ out_file = open("opnfv-vsperf-cfg.lua", "wt")
+
+ out_file.write("VSPERF {\n")
+
+ out_file.write("testType = \"throughput\",\n")
+
+ out_file.write("runBidirec = " + \
+ traffic['bidir'].lower() + ",\n")
+
+ out_file.write("frameSize = " + \
+ str(traffic['l2']['framesize']) + ",\n")
+
+ out_file.write("srcMac = \"" + \
+ str(traffic['l2']['srcmac']) + "\",\n")
+
+ out_file.write("dstMac = \"" + \
+ str(traffic['l2']['dstmac']) + "\",\n")
+
+ out_file.write("srcIp = \"" + \
+ str(traffic['l3']['srcip']) + "\",\n")
+
+ out_file.write("dstIp = \"" + \
+ str(traffic['l3']['dstip']) + "\",\n")
+
+ out_file.write("vlanId = " + \
+ str(traffic['vlan']['id']) + ",\n")
+
+ out_file.write("searchRunTime = " + \
+ str(duration) + ",\n")
+
+ out_file.write("validationRunTime = " + \
+ str(duration) + ",\n")
+
+ out_file.write("acceptableLossPct = " + \
+ str(acceptable_loss_pct) + ",\n")
+
+ out_file.write("ports = " +\
+ str(self._moongen_ports) + ",\n")
+
+ if one_shot:
+ out_file.write("oneShot = true,\n")
+
+ # Assume 10G line rates at the moment. Need to convert VSPERF
+ # frame_rate (percentage of line rate) to Mpps for MoonGen
+
+ out_file.write("startRate = " + str((traffic['frame_rate'] / 100) * 14.88) + "\n")
+ out_file.write("}" + "\n")
+ out_file.close()
+
+ copy_moongen_cfg = "scp opnfv-vsperf-cfg.lua " + \
+ self._moongen_user + "@" + \
+ self._moongen_host_ip_addr + ":" + \
+ self._moongen_base_dir + \
+ "/. && rm opnfv-vsperf-cfg.lua"
+
+ find_moongen = subprocess.Popen(copy_moongen_cfg,
+ shell=True,
+ stderr=subprocess.PIPE)
+
+ output, error = find_moongen.communicate()
+
+ if error:
+ logging.error(output)
+ logging.error(error)
+ raise RuntimeError('MOONGEN: Error copying configuration file')
+
+ def connect(self):
+ """Connect to MoonGen traffic generator
+
+ Verify that MoonGen is on the system indicated by
+ the configuration file
+ """
+ self._logger.info("MOONGEN: In MoonGen connect method...")
+
+ if self._moongen_host_ip_addr:
+ cmd_ping = "ping -c1 " + self._moongen_host_ip_addr
+ else:
+ raise RuntimeError('MOONGEN: MoonGen host not defined')
+
+ ping = subprocess.Popen(cmd_ping, shell=True, stderr=subprocess.PIPE)
+ output, error = ping.communicate()
+
+ if ping.returncode:
+ self._logger.error(error)
+ self._logger.error(output)
+ raise RuntimeError('MOONGEN: Cannot ping MoonGen host at ' + \
+ self._moongen_host_ip_addr)
+
+ connect_moongen = "ssh " + self._moongen_user + \
+ "@" + self._moongen_host_ip_addr
+
+ cmd_find_moongen = connect_moongen + " ls " + \
+ self._moongen_base_dir + "/examples/opnfv-vsperf.lua"
+
+ find_moongen = subprocess.Popen(cmd_find_moongen,
+ shell=True,
+ stderr=subprocess.PIPE)
+
+ output, error = find_moongen.communicate()
+
+ if find_moongen.returncode:
+ self._logger.error(error)
+ self._logger.error(output)
+ raise RuntimeError(
+ 'MOONGEN: Cannot locate MoonGen program at %s within %s' \
+ % (self._moongen_host_ip_addr, self._moongen_base_dir))
+
+ self._logger.info("MOONGEN: MoonGen host successfully found...")
+
+ def disconnect(self):
+ """Disconnect from the traffic generator.
+
+ As with :func:`connect`, this function is optional.
+
+ Where implemented, this function should raise an exception on
+ failure.
+
+ :returns: None
+ """
+ self._logger.info("MOONGEN: In moongen disconnect method")
+
+ def send_burst_traffic(self, traffic=None, numpkts=100, duration=20):
+ """Send a burst of traffic.
+
+ Send a ``numpkts`` packets of traffic, using ``traffic``
+ configuration, with a timeout of ``time``.
+
+ :param traffic: Detailed "traffic" spec, i.e. IP address, VLAN tags
+ :param numpkts: Number of packets to send
+ :param duration: Time to wait to receive packets
+
+ :returns: dictionary of strings with following data:
+ - List of Tx Frames,
+ - List of Rx Frames,
+ - List of Tx Bytes,
+ - List of List of Rx Bytes,
+ - Payload Errors and Sequence Errors.
+ """
+ self._logger.info("In moongen send_burst_traffic method")
+ return NotImplementedError('Moongen Burst traffic not implemented')
+
+ def send_cont_traffic(self, traffic=None, duration=20):
+ """Send a continuous flow of traffic
+
+ Send packets at ``frame rate``, using ``traffic`` configuration,
+ until timeout ``time`` occurs.
+
+ :param traffic: Detailed "traffic" spec, i.e. IP address, VLAN tags
+ :param duration: Time to wait to receive packets (secs)
+ :returns: dictionary of strings with following data:
+ - Tx Throughput (fps),
+ - Rx Throughput (fps),
+ - Tx Throughput (mbps),
+ - Rx Throughput (mbps),
+ - Tx Throughput (% linerate),
+ - Rx Throughput (% linerate),
+ - Min Latency (ns),
+ - Max Latency (ns),
+ - Avg Latency (ns)
+ """
+ self._logger.info("In moongen send_cont_traffic method")
+
+ self._params.clear()
+ self._params['traffic'] = self.traffic_defaults.copy()
+
+ if traffic:
+ self._params['traffic'] = merge_spec(self._params['traffic'],
+ traffic)
+
+ Moongen.create_moongen_cfg_file(self,
+ traffic,
+ duration=duration,
+ acceptable_loss_pct=100.0,
+ one_shot=1)
+
+ collected_results = Moongen.run_moongen_and_collect_results(self,
+ test_run=1)
+
+ total_throughput_rx_fps = (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_FPS]))
+
+ total_throughput_rx_mbps = (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_MBPS]))
+
+ total_throughput_rx_pct = (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_PERCENT]))
+
+ total_throughput_tx_fps = (
+ float(collected_results[ResultsConstants.TX_RATE_FPS]))
+
+ total_throughput_tx_mbps = (
+ float(collected_results[ResultsConstants.TX_RATE_MBPS]))
+
+ total_throughput_tx_pct = (
+ float(collected_results[ResultsConstants.TX_RATE_PERCENT]))
+
+ total_min_latency_ns = 0
+ total_max_latency_ns = 0
+ total_avg_latency_ns = 0
+
+ results = OrderedDict()
+ results[ResultsConstants.THROUGHPUT_RX_FPS] = (
+ '{:,.6f}'.format(total_throughput_rx_fps))
+
+ results[ResultsConstants.THROUGHPUT_RX_MBPS] = (
+ '{:,.3f}'.format(total_throughput_rx_mbps))
+
+ results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
+ '{:,.3f}'.format(total_throughput_rx_pct))
+
+ results[ResultsConstants.TX_RATE_FPS] = (
+ '{:,.6f}'.format(total_throughput_tx_fps))
+
+ results[ResultsConstants.TX_RATE_MBPS] = (
+ '{:,.3f}'.format(total_throughput_tx_mbps))
+
+ results[ResultsConstants.TX_RATE_PERCENT] = (
+ '{:,.3f}'.format(total_throughput_tx_pct))
+
+ results[ResultsConstants.MIN_LATENCY_NS] = (
+ '{:,.3f}'.format(total_min_latency_ns))
+
+ results[ResultsConstants.MAX_LATENCY_NS] = (
+ '{:,.3f}'.format(total_max_latency_ns))
+
+ results[ResultsConstants.AVG_LATENCY_NS] = (
+ '{:,.3f}'.format(total_avg_latency_ns))
+
+ return results
+
+ def start_cont_traffic(self, traffic=None, duration=20):
+ """ Non-blocking version of 'send_cont_traffic'.
+
+ Start transmission and immediately return. Do not wait for
+ results.
+ :param traffic: Detailed "traffic" spec, i.e. IP address, VLAN tags
+ :param duration: Time to wait to receive packets (secs)
+ """
+ self._logger.info("In moongen start_cont_traffic method")
+ return NotImplementedError('Moongen continuous traffic not implemented')
+
+ def stop_cont_traffic(self):
+ # Stop continuous transmission and return results.
+ self._logger.info("In moongen stop_cont_traffic method")
+
+ def run_moongen_and_collect_results(self, test_run=1):
+ """Execute MoonGen and transform results into VSPERF format
+ :param test_run: The number of tests to run
+ """
+ # Start MoonGen and create logfile of the run
+ connect_moongen = "ssh " + self._moongen_user + "@" + \
+ self._moongen_host_ip_addr
+
+ cmd_moongen = " 'cd " + self._moongen_base_dir + \
+ "; ./build/MoonGen examples/opnfv-vsperf.lua | tee moongen_log.txt'"
+
+ cmd_start_moongen = connect_moongen + cmd_moongen
+
+ start_moongen = subprocess.Popen(cmd_start_moongen,
+ shell=True, stderr=subprocess.PIPE)
+
+ output, error = start_moongen.communicate()
+
+ if start_moongen.returncode:
+ logging.debug(error)
+ logging.debug(output)
+ raise RuntimeError(
+ 'MOONGEN: Error starting MoonGen program at %s within %s' \
+ % (self._moongen_host_ip_addr, self._moongen_base_dir))
+
+ cmd_moongen = "mkdir -p /tmp/moongen/" + str(test_run)
+
+ moongen_create_log_dir = subprocess.Popen(cmd_moongen,
+ shell=True,
+ stderr=subprocess.PIPE)
+
+ output, error = moongen_create_log_dir.communicate()
+
+ if moongen_create_log_dir.returncode:
+ logging.debug(error)
+ logging.debug(output)
+ raise RuntimeError(
+ 'MOONGEN: Error obtaining MoonGen log from %s within %s' \
+ % (self._moongen_host_ip_addr, self._moongen_base_dir))
+
+ cmd_moongen = " scp " + self._moongen_user + "@" + \
+ self._moongen_host_ip_addr + ":" + \
+ self._moongen_base_dir + "/moongen_log.txt /tmp/moongen/" + \
+ str(test_run) + "/moongen-run.log"
+
+ copy_moongen_log = subprocess.Popen(cmd_moongen,
+ shell=True,
+ stderr=subprocess.PIPE)
+
+ output, error = copy_moongen_log.communicate()
+
+ if copy_moongen_log.returncode:
+ logging.debug(error)
+ logging.debug(output)
+ raise RuntimeError(
+ 'MOONGEN: Error obtaining MoonGen log from %s within %s' \
+ % (self._moongen_host_ip_addr, self._moongen_base_dir))
+
+ log_file = "/tmp/moongen/" + str(test_run) + "/moongen-run.log"
+
+ with open(log_file, 'r') as logfile_handle:
+ mytext = logfile_handle.read()
+
+ # REPORT results line
+ # match.group(1) = Tx frames
+ # match.group(2) = Rx frames
+ # match.group(3) = Frame loss (count)
+ # match.group(4) = Frame loss (percentage)
+ # match.group(5) = Tx Mpps
+ # match.group(6) = Rx Mpps
+ search_pattern = re.compile(
+ r'\[REPORT\]\s+total\:\s+'
+ r'Tx\s+frames\:\s+(\d+)\s+'
+ r'Rx\s+Frames\:\s+(\d+)\s+'
+ r'frame\s+loss\:\s+(\d+)\,'
+ r'\s+(\d+\.\d+|\d+)%\s+'
+ r'Tx\s+Mpps\:\s+(\d+.\d+|\d+)\s+'
+ r'Rx\s+Mpps\:\s+(\d+\.\d+|\d+)',
+ re.IGNORECASE)
+
+ results_match = search_pattern.search(mytext)
+
+ if not results_match:
+ logging.error('There was a problem parsing ' +\
+ 'MoonGen REPORT section of MoonGen log file')
+
+ moongen_results = OrderedDict()
+ moongen_results[ResultsConstants.THROUGHPUT_RX_FPS] = 0
+ moongen_results[ResultsConstants.THROUGHPUT_RX_MBPS] = 0
+ moongen_results[ResultsConstants.THROUGHPUT_RX_PERCENT] = 0
+ moongen_results[ResultsConstants.TX_RATE_FPS] = 0
+ moongen_results[ResultsConstants.TX_RATE_MBPS] = 0
+ moongen_results[ResultsConstants.TX_RATE_PERCENT] = 0
+ moongen_results[ResultsConstants.B2B_TX_COUNT] = 0
+ moongen_results[ResultsConstants.B2B_FRAMES] = 0
+ moongen_results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] = 0
+ moongen_results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] = 0
+
+ # find PARAMETERS line
+ # parameters_match.group(1) = Frame size
+
+ search_pattern = re.compile(
+ r'\[PARAMETERS\]\s+.*frameSize\:\s+(\d+)',
+ flags=re.IGNORECASE)
+ parameters_match = search_pattern.search(mytext)
+
+ if parameters_match:
+ frame_size = int(parameters_match.group(1))
+ else:
+ logging.error('There was a problem parsing MoonGen ' +\
+ 'PARAMETERS section of MoonGen log file')
+ frame_size = 0
+
+ if results_match and parameters_match:
+ # Assume for now 10G link speed
+ max_theoretical_mfps = (
+ (10000000000 / 8) / (frame_size + 20))
+
+ moongen_results[ResultsConstants.THROUGHPUT_RX_FPS] = (
+ float(results_match.group(6)) * 1000000)
+
+ moongen_results[ResultsConstants.THROUGHPUT_RX_MBPS] = (
+ (float(results_match.group(6)) * frame_size + 20) * 8)
+
+ moongen_results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
+ float(results_match.group(6)) * \
+ 1000000 / max_theoretical_mfps * 100)
+
+ moongen_results[ResultsConstants.TX_RATE_FPS] = (
+ float(results_match.group(5)) * 1000000)
+
+ moongen_results[ResultsConstants.TX_RATE_MBPS] = (
+ float(results_match.group(5)) * (frame_size + 20) * 8)
+
+ moongen_results[ResultsConstants.TX_RATE_PERCENT] = (
+ float(results_match.group(5)) *
+ 1000000 / max_theoretical_mfps * 100)
+
+ moongen_results[ResultsConstants.B2B_TX_COUNT] = (
+ float(results_match.group(1)))
+
+ moongen_results[ResultsConstants.B2B_FRAMES] = (
+ float(results_match.group(2)))
+
+ moongen_results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] = (
+ float(results_match.group(3)))
+
+ moongen_results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] = (
+ float(results_match.group(4)))
+
+ return moongen_results
+
+ def send_rfc2544_throughput(self, traffic=None, duration=20,
+ lossrate=0.0, trials=1):
+ #
+ # Send traffic per RFC2544 throughput test specifications.
+ #
+ # Send packets at a variable rate, using ``traffic``
+ # configuration, until minimum rate at which no packet loss is
+ # detected is found.
+ #
+ # :param traffic: Detailed "traffic" spec, see design docs for details
+ # :param trials: Number of trials to execute
+ # :param duration: Per iteration duration
+ # :param lossrate: Acceptable lossrate percentage
+ # :returns: dictionary of strings with following data:
+ # - Tx Throughput (fps),
+ # - Rx Throughput (fps),
+ # - Tx Throughput (mbps),
+ # - Rx Throughput (mbps),
+ # - Tx Throughput (% linerate),
+ # - Rx Throughput (% linerate),
+ # - Min Latency (ns),
+ # - Max Latency (ns),
+ # - Avg Latency (ns)
+ #
+ self._logger.info("In moongen send_rfc2544_throughput method")
+ self._params.clear()
+ self._params['traffic'] = self.traffic_defaults.copy()
+
+ if traffic:
+ self._params['traffic'] = merge_spec(self._params['traffic'],
+ traffic)
+ Moongen.create_moongen_cfg_file(self,
+ traffic,
+ duration=duration,
+ acceptable_loss_pct=lossrate)
+
+ total_throughput_rx_fps = 0
+ total_throughput_rx_mbps = 0
+ total_throughput_rx_pct = 0
+ total_throughput_tx_fps = 0
+ total_throughput_tx_mbps = 0
+ total_throughput_tx_pct = 0
+ total_min_latency_ns = 0
+ total_max_latency_ns = 0
+ total_avg_latency_ns = 0
+
+ for test_run in range(1, trials+1):
+ collected_results = (
+ Moongen.run_moongen_and_collect_results(self, test_run=test_run))
+
+ total_throughput_rx_fps += (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_FPS]))
+
+ total_throughput_rx_mbps += (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_MBPS]))
+
+ total_throughput_rx_pct += (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_PERCENT]))
+
+ total_throughput_tx_fps += (
+ float(collected_results[ResultsConstants.TX_RATE_FPS]))
+
+ total_throughput_tx_mbps += (
+ float(collected_results[ResultsConstants.TX_RATE_MBPS]))
+
+ total_throughput_tx_pct += (
+ float(collected_results[ResultsConstants.TX_RATE_PERCENT]))
+
+ # Latency not supported now, leaving as placeholder
+ total_min_latency_ns = 0
+ total_max_latency_ns = 0
+ total_avg_latency_ns = 0
+
+ results = OrderedDict()
+ results[ResultsConstants.THROUGHPUT_RX_FPS] = (
+ '{:,.6f}'.format(total_throughput_rx_fps / trials))
+
+ results[ResultsConstants.THROUGHPUT_RX_MBPS] = (
+ '{:,.3f}'.format(total_throughput_rx_mbps / trials))
+
+ results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
+ '{:,.3f}'.format(total_throughput_rx_pct / trials))
+
+ results[ResultsConstants.TX_RATE_FPS] = (
+ '{:,.6f}'.format(total_throughput_tx_fps / trials))
+
+ results[ResultsConstants.TX_RATE_MBPS] = (
+ '{:,.3f}'.format(total_throughput_tx_mbps / trials))
+
+ results[ResultsConstants.TX_RATE_PERCENT] = (
+ '{:,.3f}'.format(total_throughput_tx_pct / trials))
+
+ results[ResultsConstants.MIN_LATENCY_NS] = (
+ '{:,.3f}'.format(total_min_latency_ns / trials))
+
+ results[ResultsConstants.MAX_LATENCY_NS] = (
+ '{:,.3f}'.format(total_max_latency_ns / trials))
+
+ results[ResultsConstants.AVG_LATENCY_NS] = (
+ '{:,.3f}'.format(total_avg_latency_ns / trials))
+
+ return results
+
+ def start_rfc2544_throughput(self, traffic=None, trials=3, duration=20,
+ lossrate=0.0):
+ """Non-blocking version of 'send_rfc2544_throughput'.
+
+ Start transmission and immediately return. Do not wait for
+ results.
+ """
+ self._logger.info(
+ "MOONGEN: In moongen start_rfc2544_throughput method")
+
+ def wait_rfc2544_throughput(self):
+ """Wait for and return results of RFC2544 test.
+ """
+ self._logger.info('In moongen wait_rfc2544_throughput')
+
+ def send_rfc2544_back2back(self, traffic=None, duration=60,
+ lossrate=0.0, trials=1):
+ """Send traffic per RFC2544 back2back test specifications.
+
+ Send packets at a fixed rate, using ``traffic``
+ configuration, for duration seconds.
+
+ :param traffic: Detailed "traffic" spec, see design docs for details
+ :param trials: Number of trials to execute
+ :param duration: Per iteration duration
+ :param lossrate: Acceptable loss percentage
+
+ :returns: Named tuple of Rx Throughput (fps), Rx Throughput (mbps),
+ Tx Rate (% linerate), Rx Rate (% linerate), Tx Count (frames),
+ Back to Back Count (frames), Frame Loss (frames), Frame Loss (%)
+ :rtype: :class:`Back2BackResult`
+ """
+ self._params.clear()
+ self._params['traffic'] = self.traffic_defaults.copy()
+
+ if traffic:
+ self._params['traffic'] = merge_spec(self._params['traffic'],
+ traffic)
+
+ Moongen.create_moongen_cfg_file(self,
+ traffic,
+ duration=duration,
+ acceptable_loss_pct=lossrate)
+
+ results = OrderedDict()
+ results[ResultsConstants.B2B_RX_FPS] = 0
+ results[ResultsConstants.B2B_TX_FPS] = 0
+ results[ResultsConstants.B2B_RX_PERCENT] = 0
+ results[ResultsConstants.B2B_TX_PERCENT] = 0
+ results[ResultsConstants.B2B_TX_COUNT] = 0
+ results[ResultsConstants.B2B_FRAMES] = 0
+ results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] = 0
+ results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] = 0
+ results[ResultsConstants.SCAL_STREAM_COUNT] = 0
+ results[ResultsConstants.SCAL_STREAM_TYPE] = 0
+ results[ResultsConstants.SCAL_PRE_INSTALLED_FLOWS] = 0
+
+ for test_run in range(1, trials+1):
+ collected_results = (
+ Moongen.run_moongen_and_collect_results(self, test_run=test_run))
+
+ results[ResultsConstants.B2B_RX_FPS] += (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_FPS]))
+
+ results[ResultsConstants.B2B_RX_PERCENT] += (
+ float(collected_results[ResultsConstants.THROUGHPUT_RX_PERCENT]))
+
+ results[ResultsConstants.B2B_TX_FPS] += (
+ float(collected_results[ResultsConstants.TX_RATE_FPS]))
+
+ results[ResultsConstants.B2B_TX_PERCENT] += (
+ float(collected_results[ResultsConstants.TX_RATE_PERCENT]))
+
+ results[ResultsConstants.B2B_TX_COUNT] += (
+ int(collected_results[ResultsConstants.B2B_TX_COUNT]))
+
+ results[ResultsConstants.B2B_FRAMES] += (
+ int(collected_results[ResultsConstants.B2B_FRAMES]))
+
+ results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] += (
+ int(collected_results[ResultsConstants.B2B_FRAME_LOSS_FRAMES]))
+
+ results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] += (
+ int(collected_results[ResultsConstants.B2B_FRAME_LOSS_PERCENT]))
+
+ # Calculate average results
+ results[ResultsConstants.B2B_RX_FPS] = (
+ results[ResultsConstants.B2B_RX_FPS] / trials)
+
+ results[ResultsConstants.B2B_RX_PERCENT] = (
+ results[ResultsConstants.B2B_RX_PERCENT] / trials)
+
+ results[ResultsConstants.B2B_TX_FPS] = (
+ results[ResultsConstants.B2B_TX_FPS] / trials)
+
+ results[ResultsConstants.B2B_TX_PERCENT] = (
+ results[ResultsConstants.B2B_TX_PERCENT] / trials)
+
+ results[ResultsConstants.B2B_TX_COUNT] = (
+ results[ResultsConstants.B2B_TX_COUNT] / trials)
+
+ results[ResultsConstants.B2B_FRAMES] = (
+ results[ResultsConstants.B2B_FRAMES] / trials)
+
+ results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] = (
+ results[ResultsConstants.B2B_FRAME_LOSS_FRAMES] / trials)
+
+ results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] = (
+ results[ResultsConstants.B2B_FRAME_LOSS_PERCENT] / trials)
+
+ results[ResultsConstants.SCAL_STREAM_COUNT] = 0
+ results[ResultsConstants.SCAL_STREAM_TYPE] = 0
+ results[ResultsConstants.SCAL_PRE_INSTALLED_FLOWS] = 0
+
+ return results
+
+ def start_rfc2544_back2back(self, traffic=None, trials=1, duration=20,
+ lossrate=0.0):
+ #
+ # Non-blocking version of 'send_rfc2544_back2back'.
+ #
+ # Start transmission and immediately return. Do not wait for results.
+ #
+ self._logger.info("In moongen start_rfc2544_back2back method")
+ return NotImplementedError(
+ 'Moongen start back2back traffic not implemented')
+
+ def wait_rfc2544_back2back(self):
+ self._logger.info("In moongen wait_rfc2544_back2back method")
+ #
+ # Wait and set results of RFC2544 test.
+ #
+ return NotImplementedError(
+ 'Moongen wait back2back traffic not implemented')
+
+if __name__ == "__main__":
+ pass
diff --git a/tools/pkt_gen/testcenter/testcenter-rfc2544-rest.py b/tools/pkt_gen/testcenter/testcenter-rfc2544-rest.py
index 428240a1..91f7e27f 100644
--- a/tools/pkt_gen/testcenter/testcenter-rfc2544-rest.py
+++ b/tools/pkt_gen/testcenter/testcenter-rfc2544-rest.py
@@ -169,6 +169,11 @@ def main():
default="PAIR",
help="The traffic pattern between endpoints",
dest="traffic_pattern")
+ optional_named.add_argument("--traffic_custom",
+ required=False,
+ default=None,
+ help="The traffic pattern between endpoints",
+ dest="traffic_custom")
optional_named.add_argument("--search_mode",
required=False,
choices=["COMBO", "STEP", "BINARY"],
@@ -318,6 +323,12 @@ def main():
logger.debug("Creating project ...")
project = stc.get("System1", "children-Project")
+ # Configure any custom traffic parameters
+ if args.traffic_custom == "cont":
+ if args.verbose:
+ logger.debug("Configure Continuous Traffic")
+ stc.create("ContinuousTestConfig", under=project)
+
# Create ports
if args.verbose:
logger.debug("Creating ports ...")
diff --git a/tools/pkt_gen/testcenter/testcenter.py b/tools/pkt_gen/testcenter/testcenter.py
index 2adf6c90..f05ce337 100644
--- a/tools/pkt_gen/testcenter/testcenter.py
+++ b/tools/pkt_gen/testcenter/testcenter.py
@@ -55,9 +55,125 @@ class TestCenter(trafficgen.ITrafficGenerator):
def send_cont_traffic(self, traffic=None, duration=30):
"""
- Do nothing.
+ Send Custom - Continuous Test traffic
+ Reuse RFC2544 throughput test specifications along with
+ 'custom' configuration
"""
- return None
+ verbose = False
+ custom = "cont"
+ framesize = settings.getValue("TRAFFICGEN_STC_FRAME_SIZE")
+ if traffic and 'l2' in traffic:
+ if 'framesize' in traffic['l2']:
+ framesize = traffic['l2']['framesize']
+ args = [settings.getValue("TRAFFICGEN_STC_PYTHON2_PATH"),
+ os.path.join(
+ settings.getValue("TRAFFICGEN_STC_TESTCENTER_PATH"),
+ settings.getValue(
+ "TRAFFICGEN_STC_RFC2544_TPUT_TEST_FILE_NAME")),
+ "--lab_server_addr",
+ settings.getValue("TRAFFICGEN_STC_LAB_SERVER_ADDR"),
+ "--license_server_addr",
+ settings.getValue("TRAFFICGEN_STC_LICENSE_SERVER_ADDR"),
+ "--east_chassis_addr",
+ settings.getValue("TRAFFICGEN_STC_EAST_CHASSIS_ADDR"),
+ "--east_slot_num",
+ settings.getValue("TRAFFICGEN_STC_EAST_SLOT_NUM"),
+ "--east_port_num",
+ settings.getValue("TRAFFICGEN_STC_EAST_PORT_NUM"),
+ "--west_chassis_addr",
+ settings.getValue("TRAFFICGEN_STC_WEST_CHASSIS_ADDR"),
+ "--west_slot_num",
+ settings.getValue("TRAFFICGEN_STC_WEST_SLOT_NUM"),
+ "--west_port_num",
+ settings.getValue("TRAFFICGEN_STC_WEST_PORT_NUM"),
+ "--test_session_name",
+ settings.getValue("TRAFFICGEN_STC_TEST_SESSION_NAME"),
+ "--results_dir",
+ settings.getValue("TRAFFICGEN_STC_RESULTS_DIR"),
+ "--csv_results_file_prefix",
+ settings.getValue("TRAFFICGEN_STC_CSV_RESULTS_FILE_PREFIX"),
+ "--num_trials",
+ settings.getValue("TRAFFICGEN_STC_NUMBER_OF_TRIALS"),
+ "--trial_duration_sec",
+ settings.getValue("TRAFFICGEN_STC_TRIAL_DURATION_SEC"),
+ "--traffic_pattern",
+ settings.getValue("TRAFFICGEN_STC_TRAFFIC_PATTERN"),
+ "--traffic_custom",
+ str(custom),
+ "--search_mode",
+ settings.getValue("TRAFFICGEN_STC_SEARCH_MODE"),
+ "--learning_mode",
+ settings.getValue("TRAFFICGEN_STC_LEARNING_MODE"),
+ "--rate_lower_limit_pct",
+ settings.getValue("TRAFFICGEN_STC_RATE_LOWER_LIMIT_PCT"),
+ "--rate_upper_limit_pct",
+ settings.getValue("TRAFFICGEN_STC_RATE_UPPER_LIMIT_PCT"),
+ "--rate_initial_pct",
+ settings.getValue("TRAFFICGEN_STC_RATE_INITIAL_PCT"),
+ "--rate_step_pct",
+ settings.getValue("TRAFFICGEN_STC_RATE_STEP_PCT"),
+ "--resolution_pct",
+ settings.getValue("TRAFFICGEN_STC_RESOLUTION_PCT"),
+ "--frame_size_list",
+ str(framesize),
+ "--acceptable_frame_loss_pct",
+ settings.getValue("TRAFFICGEN_STC_ACCEPTABLE_FRAME_LOSS_PCT"),
+ "--east_intf_addr",
+ settings.getValue("TRAFFICGEN_STC_EAST_INTF_ADDR"),
+ "--east_intf_gateway_addr",
+ settings.getValue("TRAFFICGEN_STC_EAST_INTF_GATEWAY_ADDR"),
+ "--west_intf_addr",
+ settings.getValue("TRAFFICGEN_STC_WEST_INTF_ADDR"),
+ "--west_intf_gateway_addr",
+ settings.getValue("TRAFFICGEN_STC_WEST_INTF_GATEWAY_ADDR")]
+
+ if settings.getValue("TRAFFICGEN_STC_VERBOSE") is "True":
+ args.append("--verbose")
+ verbose = True
+ self._logger.debug("Arguments used to call test: %s", args)
+ subprocess.check_call(args)
+
+ filec = os.path.join(settings.getValue("TRAFFICGEN_STC_RESULTS_DIR"),
+ settings.getValue(
+ "TRAFFICGEN_STC_CSV_RESULTS_FILE_PREFIX") +
+ ".csv")
+
+ if verbose:
+ self._logger.info("file: %s", filec)
+
+ result = {}
+
+ with open(filec, "r") as csvfile:
+ csvreader = csv.DictReader(csvfile)
+ for row in csvreader:
+ self._logger.info("Row: %s", row)
+ tx_fps = ((float(row["TxFrameCount"])) /
+ (float(row["Duration(sec)"])))
+ rx_fps = ((float(row["RxFrameCount"])) /
+ (float(row["Duration(sec)"])))
+ tx_mbps = ((float(row["TxFrameCount"]) *
+ float(row["ConfiguredFrameSize"])) /
+ (float(row["Duration(sec)"]) * 1000000.0))
+ rx_mbps = ((float(row["RxFrameCount"]) *
+ float(row["ConfiguredFrameSize"])) /
+ (float(row["Duration(sec)"]) * 1000000.0))
+ result[ResultsConstants.TX_RATE_FPS] = tx_fps
+ result[ResultsConstants.THROUGHPUT_RX_FPS] = rx_fps
+ result[ResultsConstants.TX_RATE_MBPS] = tx_mbps
+ result[ResultsConstants.THROUGHPUT_RX_MBPS] = rx_mbps
+ result[ResultsConstants.TX_RATE_PERCENT] = float(
+ row["OfferedLoad(%)"])
+ result[ResultsConstants.THROUGHPUT_RX_PERCENT] = float(
+ row["Throughput(%)"])
+ result[ResultsConstants.MIN_LATENCY_NS] = float(
+ row["MinimumLatency(us)"]) * 1000
+ result[ResultsConstants.MAX_LATENCY_NS] = float(
+ row["MaximumLatency(us)"]) * 1000
+ result[ResultsConstants.AVG_LATENCY_NS] = float(
+ row["AverageLatency(us)"]) * 1000
+ result[ResultsConstants.FRAME_LOSS_PERCENT] = float(
+ row["PercentLoss"])
+ return result
def send_rfc2544_throughput(self, traffic=None, trials=3, duration=20,
lossrate=0.0):
diff --git a/tools/pkt_gen/xena/profiles/baseconfig.x2544 b/tools/pkt_gen/xena/profiles/baseconfig.x2544
index 3ebe79dc..0612b329 100644
--- a/tools/pkt_gen/xena/profiles/baseconfig.x2544
+++ b/tools/pkt_gen/xena/profiles/baseconfig.x2544
@@ -207,7 +207,7 @@
"PassThreshold": 0.0
},
"ReportPropertyOptions": [
- "b"
+ "LatencyCounters"
],
"TestType": "Throughput",
"Enabled": false,
diff --git a/tools/pkt_gen/xena/xena.py b/tools/pkt_gen/xena/xena.py
index 194de343..7dd4b90b 100755
--- a/tools/pkt_gen/xena/xena.py
+++ b/tools/pkt_gen/xena/xena.py
@@ -30,6 +30,8 @@ import sys
from time import sleep
import xml.etree.ElementTree as ET
from collections import OrderedDict
+# scapy imports
+import scapy.layers.inet as inet
# VSPerf imports
from conf import settings
@@ -48,10 +50,6 @@ from tools.pkt_gen.xena.XenaDriver import (
XenaManager,
)
-# scapy imports
-import scapy.layers.inet as inet
-
-
class Xena(ITrafficGenerator):
"""
Xena Traffic generator wrapper class
@@ -94,11 +92,11 @@ class Xena(ITrafficGenerator):
if test_type == 'Throughput':
results = OrderedDict()
- results[ResultsConstants.THROUGHPUT_RX_FPS] = int(
- root[0][1][0][0].get('PortRxPps')) + int(
+ results[ResultsConstants.THROUGHPUT_RX_FPS] = float(
+ root[0][1][0][0].get('PortRxPps')) + float(
root[0][1][0][1].get('PortRxPps'))
- results[ResultsConstants.THROUGHPUT_RX_MBPS] = (int(
- root[0][1][0][0].get('PortRxBpsL1')) + int(
+ results[ResultsConstants.THROUGHPUT_RX_MBPS] = (float(
+ root[0][1][0][0].get('PortRxBpsL1')) + float(
root[0][1][0][1].get('PortRxBpsL1')))/ 1000000
results[ResultsConstants.THROUGHPUT_RX_PERCENT] = (
100 - int(root[0][1][0].get('TotalLossRatioPcnt'))) * float(
@@ -288,14 +286,23 @@ class Xena(ITrafficGenerator):
1, settings.getValue("TRAFFICGEN_XENA_PORT1_IP"),
settings.getValue("TRAFFICGEN_XENA_PORT1_CIDR"),
settings.getValue("TRAFFICGEN_XENA_PORT1_GATEWAY"))
- j_file.set_test_options(
- packet_sizes=self._params['traffic']['l2']['framesize'],
- iterations=trials, loss_rate=loss_rate,
- duration=self._duration, micro_tpld=True if self._params[
- 'traffic']['l2']['framesize'] == 64 else False)
+
if testtype == '2544_throughput':
+ j_file.set_test_options_tput(
+ packet_sizes=self._params['traffic']['l2']['framesize'],
+ iterations=trials, loss_rate=loss_rate,
+ duration=self._duration, micro_tpld=True if self._params[
+ 'traffic']['l2']['framesize'] == 64 else False)
j_file.enable_throughput_test()
+
elif testtype == '2544_b2b':
+ j_file.set_test_options_back2back(
+ packet_sizes=self._params['traffic']['l2']['framesize'],
+ iterations=trials, duration=self._duration,
+ startvalue=self._params['traffic']['frame_rate'],
+ endvalue=self._params['traffic']['frame_rate'],
+ micro_tpld=True if self._params[
+ 'traffic']['l2']['framesize'] == 64 else False)
j_file.enable_back2back_test()
j_file.set_header_layer2(
@@ -485,22 +492,18 @@ class Xena(ITrafficGenerator):
def send_burst_traffic(self, traffic=None, numpkts=100, duration=20):
"""Send a burst of traffic.
- Send a ``numpkts`` packets of traffic, using ``traffic``
- configuration, with a timeout of ``time``.
+ See ITrafficGenerator for description
+ """
+ self._duration = duration
- Attributes:
- :param traffic: Detailed "traffic" spec, i.e. IP address, VLAN tags
- :param numpkts: Number of packets to send
- :param duration: Time to wait to receive packets
+ self._params.clear()
+ self._params['traffic'] = self.traffic_defaults.copy()
+ if traffic:
+ self._params['traffic'] = merge_spec(self._params['traffic'],
+ traffic)
- :returns: dictionary of strings with following data:
- - List of Tx Frames,
- - List of Rx Frames,
- - List of Tx Bytes,
- - List of List of Rx Bytes,
- - Payload Errors and Sequence Errors.
- """
- raise NotImplementedError('Xena burst traffic not implemented')
+ self._start_traffic_api(numpkts)
+ return self._stop_api_traffic()
def send_cont_traffic(self, traffic=None, duration=20):
"""Send a continuous flow of traffic.
diff --git a/tools/pkt_gen/xena/xena_json.py b/tools/pkt_gen/xena/xena_json.py
index 23b56084..2a15a932 100644
--- a/tools/pkt_gen/xena/xena_json.py
+++ b/tools/pkt_gen/xena/xena_json.py
@@ -354,10 +354,10 @@ class XenaJSON(object):
self.json_data['PortHandler']['EntityList'][
port]["IpV6RoutingPrefix"] = int(netmask)
- def set_test_options(self, packet_sizes, duration, iterations, loss_rate,
- micro_tpld=False):
+ def set_test_options_tput(self, packet_sizes, duration, iterations,
+ loss_rate, micro_tpld=False):
"""
- Set the test options
+ Set the tput test options
:param packet_sizes: List of packet sizes to test, single int entry is
acceptable for one packet size testing
:param duration: time for each test in seconds as int
@@ -379,6 +379,35 @@ class XenaJSON(object):
self.json_data['TestOptions']['TestTypeOptionMap']['Throughput'][
'Iterations'] = iterations
+ def set_test_options_back2back(self, packet_sizes, duration,
+ iterations, startvalue, endvalue,
+ micro_tpld=False):
+ """
+ Set the back2back test options
+ :param packet_sizes: List of packet sizes to test, single int entry is
+ acceptable for one packet size testing
+ :param duration: time for each test in seconds as int
+ :param iterations: number of iterations of testing as int
+ :param micro_tpld: boolean if micro_tpld should be enabled or disabled
+ :param StartValue: start value
+ :param EndValue: end value
+ :return: None
+ """
+ if isinstance(packet_sizes, int):
+ packet_sizes = [packet_sizes]
+ self.json_data['TestOptions']['PacketSizes'][
+ 'CustomPacketSizes'] = packet_sizes
+ self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
+ 'Duration'] = duration
+ self.json_data['TestOptions']['FlowCreationOptions'][
+ 'UseMicroTpldOnDemand'] = 'true' if micro_tpld else 'false'
+ self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
+ 'Iterations'] = iterations
+ self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
+ 'RateSweepOptions']['StartValue'] = startvalue
+ self.json_data['TestOptions']['TestTypeOptionMap']['Back2Back'][
+ 'RateSweepOptions']['EndValue'] = endvalue
+
def set_topology_blocks(self):
"""
Set the test topology to a West to East config for half duplex flow with
@@ -586,8 +615,8 @@ if __name__ == "__main__":
JSON.set_header_layer3(src_ip='192.168.100.2', dst_ip='192.168.100.3',
protocol='udp')
JSON.set_header_layer4_udp(source_port=3000, destination_port=3001)
- JSON.set_test_options(packet_sizes=[64], duration=10, iterations=1,
- loss_rate=0.0, micro_tpld=True)
+ JSON.set_test_options_tput(packet_sizes=[64], duration=10, iterations=1,
+ loss_rate=0.0, micro_tpld=True)
JSON.add_header_segments(flows=4000, multistream_layer='L4')
JSON.set_topology_blocks()
write_json_file(JSON.json_data, './testthis.x2544')