-# Copyright (c) 2016 Cisco and/or its affiliates.
+# Copyright (c) 2020 Cisco and/or its affiliates.
# 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:
"""Performance testing traffic generator library."""
+import time
+
from robot.api import logger
from robot.libraries.BuiltIn import BuiltIn
-from resources.libraries.python.constants import Constants
-from resources.libraries.python.ssh import SSH
-from resources.libraries.python.topology import NodeType
-from resources.libraries.python.topology import NodeSubTypeTG
-from resources.libraries.python.topology import Topology
-from resources.libraries.python.DropRateSearch import DropRateSearch
-
-__all__ = ['TrafficGenerator', 'TGDropRateSearchImpl']
+from .Constants import Constants
+from .CpuUtils import CpuUtils
+from .DropRateSearch import DropRateSearch
+from .MLRsearch.AbstractMeasurer import AbstractMeasurer
+from .MLRsearch.MultipleLossRatioSearch import MultipleLossRatioSearch
+from .MLRsearch.ReceiveRateMeasurement import ReceiveRateMeasurement
+from .PLRsearch.PLRsearch import PLRsearch
+from .OptionString import OptionString
+from .ssh import exec_cmd_no_error, exec_cmd
+from .topology import NodeType
+from .topology import NodeSubTypeTG
+from .topology import Topology
+
+__all__ = [u"TGDropRateSearchImpl", u"TrafficGenerator", u"OptimizedSearch"]
+
+
+def check_subtype(node):
+ """Return supported subtype of given node, or raise an exception.
+
+ Currently only one subtype is supported,
+ but we want our code to be ready for other ones.
+
+ :param node: Topology node to check. Can be None.
+ :type node: dict or NoneType
+ :returns: Subtype detected.
+ :rtype: NodeSubTypeTG
+ :raises RuntimeError: If node is not supported, message explains how.
+ """
+ if node.get(u"type") is None:
+ msg = u"Node type is not defined"
+ elif node[u"type"] != NodeType.TG:
+ msg = f"Node type is {node[u'type']!r}, not a TG"
+ elif node.get(u"subtype") is None:
+ msg = u"TG subtype is not defined"
+ elif node[u"subtype"] != NodeSubTypeTG.TREX:
+ msg = f"TG subtype {node[u'subtype']!r} is not supported"
+ else:
+ return NodeSubTypeTG.TREX
+ raise RuntimeError(msg)
class TGDropRateSearchImpl(DropRateSearch):
"""Drop Rate Search implementation."""
- def __init__(self):
- super(TGDropRateSearchImpl, self).__init__()
-
- def measure_loss(self, rate, frame_size, loss_acceptance,
- loss_acceptance_type, traffic_type):
-
+ # def __init__(self):
+ # super(TGDropRateSearchImpl, self).__init__()
+
+ def measure_loss(
+ self, rate, frame_size, loss_acceptance, loss_acceptance_type,
+ traffic_profile, skip_warmup=False):
+ """Runs the traffic and evaluate the measured results.
+
+ :param rate: Offered traffic load.
+ :param frame_size: Size of frame.
+ :param loss_acceptance: Permitted drop ratio or frames count.
+ :param loss_acceptance_type: Type of permitted loss.
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param skip_warmup: Start TRex without warmup traffic if true.
+ :type rate: float
+ :type frame_size: str
+ :type loss_acceptance: float
+ :type loss_acceptance_type: LossAcceptanceType
+ :type traffic_profile: str
+ :type skip_warmup: bool
+ :returns: Drop threshold exceeded? (True/False)
+ :rtype: bool
+ :raises NotImplementedError: If TG is not supported.
+ :raises RuntimeError: If TG is not specified.
+ """
# we need instance of TrafficGenerator instantiated by Robot Framework
# to be able to use trex_stl-*()
tg_instance = BuiltIn().get_library_instance(
- 'resources.libraries.python.TrafficGenerator')
-
- if tg_instance._node['subtype'] is None:
- raise Exception('TG subtype not defined')
- elif tg_instance._node['subtype'] == NodeSubTypeTG.TREX:
+ u"resources.libraries.python.TrafficGenerator"
+ )
+ subtype = check_subtype(tg_instance.node)
+ if subtype == NodeSubTypeTG.TREX:
unit_rate = str(rate) + self.get_rate_type_str()
- tg_instance.trex_stl_start_remote_exec(self.get_duration(),
- unit_rate, frame_size,
- traffic_type, False)
+ if skip_warmup:
+ tg_instance.trex_stl_start_remote_exec(
+ self.get_duration(), unit_rate, frame_size, traffic_profile,
+ warmup_time=0.0
+ )
+ else:
+ tg_instance.trex_stl_start_remote_exec(
+ self.get_duration(), unit_rate, frame_size, traffic_profile
+ )
loss = tg_instance.get_loss()
sent = tg_instance.get_sent()
if self.loss_acceptance_type_is_percentage():
loss = (float(loss) / float(sent)) * 100
+ logger.trace(
+ f"comparing: {loss} < {loss_acceptance} {loss_acceptance_type}"
+ )
+ return float(loss) <= float(loss_acceptance)
+ return False
- # TODO: getters for tg_instance
- logger.trace("comparing: {} < {} {}".format(loss,
- loss_acceptance,
- loss_acceptance_type))
- if float(loss) > float(loss_acceptance):
- return False
- else:
- return True
- else:
- raise NotImplementedError("TG subtype not supported")
+ def get_latency(self):
+ """Returns min/avg/max latency.
+
+ :returns: Latency stats.
+ :rtype: list
+ """
+ tg_instance = BuiltIn().get_library_instance(
+ u"resources.libraries.python.TrafficGenerator"
+ )
+ return tg_instance.get_latency_int()
-class TrafficGenerator(object):
+class TrexMode:
+ """Defines mode of T-Rex traffic generator."""
+ # Advanced stateful mode
+ ASTF = u"ASTF"
+ # Stateless mode
+ STL = u"STL"
+
+
+# TODO: Pylint says too-many-instance-attributes.
+class TrafficGenerator(AbstractMeasurer):
"""Traffic Generator."""
- # use one instance of TrafficGenerator for all tests in test suite
- ROBOT_LIBRARY_SCOPE = 'TEST SUITE'
+ # TODO: Remove "trex" from lines which could work with other TGs.
+
+ # Use one instance of TrafficGenerator for all tests in test suite
+ ROBOT_LIBRARY_SCOPE = u"TEST SUITE"
def __init__(self):
+ self._node = None
+ self._mode = None
+ # TG interface order mapping
+ self._ifaces_reordered = False
+ # Result holding fields, to be removed.
self._result = None
self._loss = None
self._sent = None
+ self._latency = None
self._received = None
- self._node = None
- # T-REX interface order mapping
- self._ifaces_reordered = 0
+ self._approximated_rate = None
+ self._approximated_duration = None
+ self._l7_data = None
+ # Measurement input fields, needed for async stop result.
+ self._start_time = None
+ self._rate = None
+ # Other input parameters, not knowable from measure() signature.
+ self.frame_size = None
+ self.traffic_profile = None
+ self.warmup_time = None
+ self.traffic_directions = None
+ self.negative_loss = None
+ self.use_latency = None
+ # Transient data needed for async measurements.
+ self._xstats = (None, None)
+ # TODO: Rename "xstats" to something opaque, so T-Rex is not privileged?
+
+ @property
+ def node(self):
+ """Getter.
+
+ :returns: Traffic generator node.
+ :rtype: dict
+ """
+ return self._node
def get_loss(self):
"""Return number of lost packets.
- :return: Number of lost packets.
+ :returns: Number of lost packets.
:rtype: str
"""
return self._loss
def get_sent(self):
"""Return number of sent packets.
- :return: Number of sent packets.
+ :returns: Number of sent packets.
:rtype: str
"""
return self._sent
def get_received(self):
"""Return number of received packets.
- :return: Number of received packets.
+ :returns: Number of received packets.
:rtype: str
"""
return self._received
- #pylint: disable=too-many-arguments, too-many-locals
- def initialize_traffic_generator(self, tg_node, tg_if1, tg_if2,
- dut1_node, dut1_if1, dut1_if2,
- dut2_node, dut2_if1, dut2_if2,
- test_type):
+ def get_latency_int(self):
+ """Return rounded min/avg/max latency.
+
+ :returns: Latency stats.
+ :rtype: list
+ """
+ return self._latency
+
+ def get_approximated_rate(self):
+ """Return approximated rate computed as ratio of transmitted packets
+ over duration of trial.
+
+ :returns: Approximated rate.
+ :rtype: str
+ """
+ return self._approximated_rate
+
+ def get_l7_data(self):
+ """Return L7 data.
+
+ :returns: Number of received packets.
+ :rtype: dict
+ """
+ return self._l7_data
+
+ def check_mode(self, expected_mode):
+ """Check TG mode.
+
+ :param expected_mode: Expected traffic generator mode.
+ :type expected_mode: object
+ :raises RuntimeError: In case of unexpected TG mode.
+ """
+ if self._mode == expected_mode:
+ return
+ raise RuntimeError(
+ f"{self._node[u'subtype']} not running in {expected_mode} mode!"
+ )
+
+ # TODO: pylint says disable=too-many-locals.
+ # A fix is developed in https://gerrit.fd.io/r/c/csit/+/22221
+ def initialize_traffic_generator(
+ self, tg_node, tg_if1, tg_if2, tg_if1_adj_node, tg_if1_adj_if,
+ tg_if2_adj_node, tg_if2_adj_if, osi_layer, tg_if1_dst_mac=None,
+ tg_if2_dst_mac=None):
"""TG initialization.
+ TODO: Document why do we need (and how do we use) _ifaces_reordered.
+
:param tg_node: Traffic generator node.
:param tg_if1: TG - name of first interface.
:param tg_if2: TG - name of second interface.
- :param dut1_node: DUT1 node.
- :param dut1_if1: DUT1 - name of first interface.
- :param dut1_if2: DUT1 - name of second interface.
- :param dut2_node: DUT2 node.
- :param dut2_if1: DUT2 - name of first interface.
- :param dut2_if2: DUT2 - name of second interface.
- :test_type: 'L2' or 'L3' - src/dst MAC address.
+ :param tg_if1_adj_node: TG if1 adjecent node.
+ :param tg_if1_adj_if: TG if1 adjecent interface.
+ :param tg_if2_adj_node: TG if2 adjecent node.
+ :param tg_if2_adj_if: TG if2 adjecent interface.
+ :param osi_layer: 'L2', 'L3' or 'L7' - OSI Layer testing type.
+ :param tg_if1_dst_mac: Interface 1 destination MAC address.
+ :param tg_if2_dst_mac: Interface 2 destination MAC address.
:type tg_node: dict
:type tg_if1: str
:type tg_if2: str
- :type dut1_node: dict
- :type dut1_if1: str
- :type dut1_if2: str
- :type dut2_node: dict
- :type dut2_if1: str
- :type dut2_if2: str
- :type test_type: str
- :return: nothing
+ :type tg_if1_adj_node: dict
+ :type tg_if1_adj_if: str
+ :type tg_if2_adj_node: dict
+ :type tg_if2_adj_if: str
+ :type osi_layer: str
+ :type tg_if1_dst_mac: str
+ :type tg_if2_dst_mac: str
+ :returns: nothing
+ :raises RuntimeError: In case of issue during initialization.
"""
-
- topo = Topology()
-
- if tg_node['type'] != NodeType.TG:
- raise Exception('Node type is not a TG')
- self._node = tg_node
-
- if tg_node['subtype'] == NodeSubTypeTG.TREX:
- trex_path = "/opt/trex-core-2.03"
-
- ssh = SSH()
- ssh.connect(tg_node)
-
- (ret, stdout, stderr) = ssh.exec_command(
- "sudo sh -c '{}/resources/tools/t-rex/"
- "t-rex-installer.sh'".format(Constants.REMOTE_FW_DIR),
- timeout=1800)
- if int(ret) != 0:
- logger.error('trex installation failed: {0}'.format(
- stdout + stderr))
- raise RuntimeError('Installation of TG failed')
-
- if1_pci = topo.get_interface_pci_addr(tg_node, tg_if1)
- if2_pci = topo.get_interface_pci_addr(tg_node, tg_if2)
- if1_mac = topo.get_interface_mac(tg_node, tg_if1)
- if2_mac = topo.get_interface_mac(tg_node, tg_if2)
-
- if test_type == 'L2':
- if1_adj_mac = if2_mac
- if2_adj_mac = if1_mac
- elif test_type == 'L3':
- if1_adj_mac = topo.get_interface_mac(dut1_node, dut1_if1)
- if2_adj_mac = topo.get_interface_mac(dut2_node, dut2_if2)
+ subtype = check_subtype(tg_node)
+ if subtype == NodeSubTypeTG.TREX:
+ self._node = tg_node
+ self._mode = TrexMode.ASTF if osi_layer == u"L7" else TrexMode.STL
+ if1 = dict()
+ if2 = dict()
+ if1[u"pci"] = Topology().get_interface_pci_addr(self._node, tg_if1)
+ if2[u"pci"] = Topology().get_interface_pci_addr(self._node, tg_if2)
+ if1[u"addr"] = Topology().get_interface_mac(self._node, tg_if1)
+ if2[u"addr"] = Topology().get_interface_mac(self._node, tg_if2)
+
+ if osi_layer == u"L2":
+ if1[u"adj_addr"] = if2[u"addr"]
+ if2[u"adj_addr"] = if1[u"addr"]
+ elif osi_layer in (u"L3", u"L7"):
+ if1[u"adj_addr"] = Topology().get_interface_mac(
+ tg_if1_adj_node, tg_if1_adj_if
+ )
+ if2[u"adj_addr"] = Topology().get_interface_mac(
+ tg_if2_adj_node, tg_if2_adj_if
+ )
else:
- raise Exception("test_type unknown")
-
- if min(if1_pci, if2_pci) != if1_pci:
- if1_mac, if2_mac = if2_mac, if1_mac
- if1_pci, if2_pci = if2_pci, if1_pci
- if1_adj_mac, if2_adj_mac = if2_adj_mac, if1_adj_mac
- self._ifaces_reordered = 1
-
- if1_mac_hex = "0x"+if1_mac.replace(":", ",0x")
- if2_mac_hex = "0x"+if2_mac.replace(":", ",0x")
- if1_adj_mac_hex = "0x"+if1_adj_mac.replace(":", ",0x")
- if2_adj_mac_hex = "0x"+if2_adj_mac.replace(":", ",0x")
-
- (ret, stdout, stderr) = ssh.exec_command(
- "sudo sh -c 'cat << EOF > /etc/trex_cfg.yaml\n"
- "- port_limit : 2\n"
- " version : 2\n"
- " interfaces : [\"{}\",\"{}\"]\n"
- " port_bandwidth_gb : 10\n"
- " port_info :\n"
- " - dest_mac : [{}]\n"
- " src_mac : [{}]\n"
- " - dest_mac : [{}]\n"
- " src_mac : [{}]\n"
- "EOF'"\
- .format(if1_pci, if2_pci,
- if1_adj_mac_hex, if1_mac_hex,
- if2_adj_mac_hex, if2_mac_hex))
- if int(ret) != 0:
- logger.error("failed to create t-rex config: {}"\
- .format(stdout + stderr))
- raise RuntimeError('trex config generation error')
-
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c 'cd {0}/scripts/ && sudo ./trex-cfg'".format(trex_path))
- if int(ret) != 0:
- logger.error('trex-cfg failed: {0}'.format(stdout + stderr))
- raise RuntimeError('trex-cfg failed')
-
- (ret, _, _) = ssh.exec_command(
- "sh -c 'pgrep t-rex && sudo pkill t-rex'")
-
- (ret, _, _) = ssh.exec_command(
- "sh -c 'cd {0}/scripts/ && "
- "sudo nohup ./t-rex-64 -i -c 7 --iom 0 > /dev/null 2>&1 &'"
- "> /dev/null"\
- .format(trex_path))
- if int(ret) != 0:
- raise RuntimeError('t-rex-64 startup failed')
+ raise ValueError(u"Unknown OSI layer!")
+
+ # in case of switched environment we can override MAC addresses
+ if tg_if1_dst_mac is not None and tg_if2_dst_mac is not None:
+ if1[u"adj_addr"] = tg_if1_dst_mac
+ if2[u"adj_addr"] = tg_if2_dst_mac
+
+ if min(if1[u"pci"], if2[u"pci"]) != if1[u"pci"]:
+ if1, if2 = if2, if1
+ self._ifaces_reordered = True
+
+ master_thread_id, latency_thread_id, socket, threads = \
+ CpuUtils.get_affinity_trex(
+ self._node, tg_if1, tg_if2,
+ tg_dtc=Constants.TREX_CORE_COUNT)
+
+ if osi_layer in (u"L2", u"L3", u"L7"):
+ exec_cmd_no_error(
+ self._node,
+ f"sh -c 'cat << EOF > /etc/trex_cfg.yaml\n"
+ f"- version: 2\n"
+ f" c: {len(threads)}\n"
+ f" limit_memory: {Constants.TREX_LIMIT_MEMORY}\n"
+ f" interfaces: [\"{if1[u'pci']}\",\"{if2[u'pci']}\"]\n"
+ f" port_info:\n"
+ f" - dest_mac: \'{if1[u'adj_addr']}\'\n"
+ f" src_mac: \'{if1[u'addr']}\'\n"
+ f" - dest_mac: \'{if2[u'adj_addr']}\'\n"
+ f" src_mac: \'{if2[u'addr']}\'\n"
+ f" platform :\n"
+ f" master_thread_id: {master_thread_id}\n"
+ f" latency_thread_id: {latency_thread_id}\n"
+ f" dual_if:\n"
+ f" - socket: {socket}\n"
+ f" threads: {threads}\n"
+ f"EOF'",
+ sudo=True, message=u"T-Rex config generation!"
+ )
+ else:
+ raise ValueError(u"Unknown OSI layer!")
+
+ TrafficGenerator.startup_trex(
+ self._node, osi_layer, subtype=subtype
+ )
@staticmethod
- def teardown_traffic_generator(node):
- """TG teardown.
+ def startup_trex(tg_node, osi_layer, subtype=None):
+ """Startup sequence for the TRex traffic generator.
+
+ :param tg_node: Traffic generator node.
+ :param osi_layer: 'L2', 'L3' or 'L7' - OSI Layer testing type.
+ :param subtype: Traffic generator sub-type.
+ :type tg_node: dict
+ :type osi_layer: str
+ :type subtype: NodeSubTypeTG
+ :raises RuntimeError: If T-Rex startup failed.
+ :raises ValueError: If OSI layer is not supported.
+ """
+ if not subtype:
+ subtype = check_subtype(tg_node)
+ if subtype == NodeSubTypeTG.TREX:
+ for _ in range(0, 3):
+ # Kill TRex only if it is already running.
+ cmd = u"sh -c \"pgrep t-rex && pkill t-rex && sleep 3 || true\""
+ exec_cmd_no_error(
+ tg_node, cmd, sudo=True, message=u"Kill TRex failed!"
+ )
+
+ # Configure TRex.
+ ports = ''
+ for port in tg_node[u"interfaces"].values():
+ ports += f" {port.get(u'pci_address')}"
+
+ cmd = f"sh -c \"cd {Constants.TREX_INSTALL_DIR}/scripts/ && " \
+ f"./dpdk_nic_bind.py -u {ports} || true\""
+ exec_cmd_no_error(
+ tg_node, cmd, sudo=True,
+ message=u"Unbind PCI ports from driver failed!"
+ )
+
+ # Start TRex.
+ cd_cmd = f"cd '{Constants.TREX_INSTALL_DIR}/scripts/'"
+ trex_cmd = OptionString([u"nohup", u"./t-rex-64"])
+ trex_cmd.add(u"-i")
+ trex_cmd.add(u"--prefix $(hostname)")
+ trex_cmd.add(u"--hdrh")
+ trex_cmd.add(u"--no-scapy-server")
+ trex_cmd.add_if(u"--astf", osi_layer == u"L7")
+ # OptionString does not create double space if extra is empty.
+ trex_cmd.add(f"{Constants.TREX_EXTRA_CMDLINE}")
+ inner_command = f"{cd_cmd} && {trex_cmd} > /tmp/trex.log 2>&1 &"
+ cmd = f"sh -c \"{inner_command}\" > /dev/null"
+ try:
+ exec_cmd_no_error(tg_node, cmd, sudo=True)
+ except RuntimeError:
+ cmd = u"sh -c \"cat /tmp/trex.log\""
+ exec_cmd_no_error(
+ tg_node, cmd, sudo=True,
+ message=u"Get TRex logs failed!"
+ )
+ raise RuntimeError(u"Start TRex failed!")
+
+ # Test T-Rex API responsiveness.
+ cmd = u"python3"
+ cmd += f" {Constants.REMOTE_FW_DIR}/GPL/tools/trex/"
+ if osi_layer in (u"L2", u"L3"):
+ cmd += f"trex_stl_assert.py"
+ elif osi_layer == u"L7":
+ cmd += f"trex_astf_assert.py"
+ else:
+ raise ValueError(u"Unknown OSI layer!")
+ try:
+ exec_cmd_no_error(
+ tg_node, cmd, sudo=True,
+ message=u"T-Rex API is not responding!", retries=20
+ )
+ except RuntimeError:
+ continue
+ return
+ # After max retries TRex is still not responding to API critical
+ # error occurred.
+ exec_cmd(tg_node, u"cat /tmp/trex.log", sudo=True)
+ raise RuntimeError(u"Start T-Rex failed after multiple retries!")
+
+ @staticmethod
+ def is_trex_running(node):
+ """Check if T-Rex is running using pidof.
:param node: Traffic generator node.
:type node: dict
- :return: nothing
+ :returns: True if T-Rex is running otherwise False.
+ :rtype: bool
"""
- if node['type'] != NodeType.TG:
- raise Exception('Node type is not a TG')
- if node['subtype'] == NodeSubTypeTG.TREX:
- ssh = SSH()
- ssh.connect(node)
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c 'sudo pkill t-rex'")
- if int(ret) != 0:
- logger.error('pkill t-rex failed: {0}'.format(stdout + stderr))
- raise RuntimeError('pkill t-rex failed')
+ ret, _, _ = exec_cmd(node, u"pgrep t-rex", sudo=True)
+ return bool(int(ret) == 0)
@staticmethod
- def trex_stl_stop_remote_exec(node):
- """Execute script on remote node over ssh to stop running traffic.
+ def teardown_traffic_generator(node):
+ """TG teardown.
- :param node: T-REX generator node.
+ :param node: Traffic generator node.
+ :type node: dict
+ :returns: nothing
+ :raises RuntimeError: If node type is not a TG,
+ or if T-Rex teardown fails.
+ """
+ subtype = check_subtype(node)
+ if subtype == NodeSubTypeTG.TREX:
+ exec_cmd_no_error(
+ node,
+ u"sh -c "
+ u"\"if pgrep t-rex; then sudo pkill t-rex && sleep 3; fi\"",
+ sudo=False,
+ message=u"T-Rex kill failed!"
+ )
+
+ def _parse_traffic_results(self, stdout):
+ """Parse stdout of scripts into fields of self.
+
+ Block of code to reuse, by sync start, or stop after async.
+
+ :param stdout: Text containing the standard output.
+ :type stdout: str
+ """
+ subtype = check_subtype(self._node)
+ if subtype == NodeSubTypeTG.TREX:
+ # Last line from console output
+ line = stdout.splitlines()[-1]
+ results = line.split(u",")
+ if results[-1] in (u" ", u""):
+ results.pop(-1)
+ self._result = dict()
+ for result in results:
+ key, value = result.split(u"=", maxsplit=1)
+ self._result[key.strip()] = value
+ logger.info(f"TrafficGen results:\n{self._result}")
+ self._received = self._result.get(u"total_received")
+ self._sent = self._result.get(u"total_sent")
+ self._loss = self._result.get(u"frame_loss")
+ self._approximated_duration = \
+ self._result.get(u"approximated_duration")
+ self._approximated_rate = self._result.get(u"approximated_rate")
+ self._latency = list()
+ self._latency.append(self._result.get(u"latency_stream_0(usec)"))
+ self._latency.append(self._result.get(u"latency_stream_1(usec)"))
+ if self._mode == TrexMode.ASTF:
+ self._l7_data = dict()
+ self._l7_data[u"client"] = dict()
+ self._l7_data[u"client"][u"active_flows"] = \
+ self._result.get(u"client_active_flows")
+ self._l7_data[u"client"][u"established_flows"] = \
+ self._result.get(u"client_established_flows")
+ self._l7_data[u"client"][u"err_rx_throttled"] = \
+ self._result.get(u"client_err_rx_throttled")
+ self._l7_data[u"client"][u"err_c_nf_throttled"] = \
+ self._result.get(u"client_err_nf_throttled")
+ self._l7_data[u"client"][u"err_flow_overflow"] = \
+ self._result.get(u"client_err_flow_overflow")
+ self._l7_data[u"server"] = dict()
+ self._l7_data[u"server"][u"active_flows"] = \
+ self._result.get(u"server_active_flows")
+ self._l7_data[u"server"][u"established_flows"] = \
+ self._result.get(u"server_established_flows")
+ self._l7_data[u"server"][u"err_rx_throttled"] = \
+ self._result.get(u"client_err_rx_throttled")
+ if u"udp" in self.traffic_profile:
+ self._l7_data[u"client"][u"udp"] = dict()
+ self._l7_data[u"client"][u"udp"][u"established_flows"] = \
+ self._result.get(u"client_udp_connects")
+ self._l7_data[u"client"][u"udp"][u"closed_flows"] = \
+ self._result.get(u"client_udp_closed")
+ self._l7_data[u"client"][u"udp"][u"tx_bytes"] = \
+ self._result.get(u"client_udp_tx_bytes")
+ self._l7_data[u"client"][u"udp"][u"rx_bytes"] = \
+ self._result.get(u"client_udp_rx_bytes")
+ self._l7_data[u"client"][u"udp"][u"tx_packets"] = \
+ self._result.get(u"client_udp_tx_packets")
+ self._l7_data[u"client"][u"udp"][u"rx_packets"] = \
+ self._result.get(u"client_udp_rx_packets")
+ self._l7_data[u"client"][u"udp"][u"keep_drops"] = \
+ self._result.get(u"client_udp_keep_drops")
+ self._l7_data[u"server"][u"udp"] = dict()
+ self._l7_data[u"server"][u"udp"][u"accepted_flows"] = \
+ self._result.get(u"server_udp_accepts")
+ self._l7_data[u"server"][u"udp"][u"closed_flows"] = \
+ self._result.get(u"server_udp_closed")
+ self._l7_data[u"server"][u"udp"][u"tx_bytes"] = \
+ self._result.get(u"server_udp_tx_bytes")
+ self._l7_data[u"server"][u"udp"][u"rx_bytes"] = \
+ self._result.get(u"server_udp_rx_bytes")
+ self._l7_data[u"server"][u"udp"][u"tx_packets"] = \
+ self._result.get(u"server_udp_tx_packets")
+ self._l7_data[u"server"][u"udp"][u"rx_packets"] = \
+ self._result.get(u"server_udp_rx_packets")
+ elif u"tcp" in self.traffic_profile:
+ self._l7_data[u"client"][u"tcp"] = dict()
+ self._l7_data[u"client"][u"tcp"][u"initiated_flows"] = \
+ self._result.get(u"client_tcp_connect_inits")
+ self._l7_data[u"client"][u"tcp"][u"established_flows"] = \
+ self._result.get(u"client_tcp_connects")
+ self._l7_data[u"client"][u"tcp"][u"closed_flows"] = \
+ self._result.get(u"client_tcp_closed")
+ self._l7_data[u"client"][u"tcp"][u"tx_bytes"] = \
+ self._result.get(u"client_tcp_tx_bytes")
+ self._l7_data[u"client"][u"tcp"][u"rx_bytes"] = \
+ self._result.get(u"client_tcp_rx_bytes")
+ self._l7_data[u"server"][u"tcp"] = dict()
+ self._l7_data[u"server"][u"tcp"][u"accepted_flows"] = \
+ self._result.get(u"server_tcp_accepts")
+ self._l7_data[u"server"][u"tcp"][u"established_flows"] = \
+ self._result.get(u"server_tcp_connects")
+ self._l7_data[u"server"][u"tcp"][u"closed_flows"] = \
+ self._result.get(u"server_tcp_closed")
+ self._l7_data[u"server"][u"tcp"][u"tx_bytes"] = \
+ self._result.get(u"server_tcp_tx_bytes")
+ self._l7_data[u"server"][u"tcp"][u"rx_bytes"] = \
+ self._result.get(u"server_tcp_rx_bytes")
+
+ def trex_astf_stop_remote_exec(self, node):
+ """Execute T-Rex ASTF script on remote node over ssh to stop running
+ traffic.
+
+ Internal state is updated with measurement results.
+
+ :param node: T-Rex generator node.
+ :type node: dict
+ :raises RuntimeError: If stop traffic script fails.
+ """
+ command_line = OptionString().add(u"python3")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex"
+ command_line.add(f"'{dirname}/trex_astf_stop.py'")
+ command_line.change_prefix(u"--")
+ for index, value in enumerate(self._xstats):
+ if value is not None:
+ value = value.replace(u"'", u"\"")
+ command_line.add_equals(f"xstat{index}", f"'{value}'")
+ stdout, _ = exec_cmd_no_error(
+ node, command_line,
+ message=u"T-Rex ASTF runtime error!"
+ )
+ self._parse_traffic_results(stdout)
+
+ def trex_stl_stop_remote_exec(self, node):
+ """Execute T-Rex STL script on remote node over ssh to stop running
+ traffic.
+
+ Internal state is updated with measurement results.
+
+ :param node: T-Rex generator node.
:type node: dict
- :return: Nothing
+ :raises RuntimeError: If stop traffic script fails.
"""
- ssh = SSH()
- ssh.connect(node)
+ command_line = OptionString().add(u"python3")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex"
+ command_line.add(f"'{dirname}/trex_stl_stop.py'")
+ command_line.change_prefix(u"--")
+ for index, value in enumerate(self._xstats):
+ if value is not None:
+ value = value.replace(u"'", u"\"")
+ command_line.add_equals(f"xstat{index}", f"'{value}'")
+ stdout, _ = exec_cmd_no_error(
+ node, command_line,
+ message=u"T-Rex STL runtime error!"
+ )
+ self._parse_traffic_results(stdout)
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c '{}/resources/tools/t-rex/"
- "t-rex-stateless-stop.py'".format(Constants.REMOTE_FW_DIR))
- logger.trace(ret)
- logger.trace(stdout)
- logger.trace(stderr)
+ def stop_traffic_on_tg(self):
+ """Stop all traffic on TG.
- if int(ret) != 0:
- raise RuntimeError('T-rex stateless runtime error')
+ :returns: Structure containing the result of the measurement.
+ :rtype: ReceiveRateMeasurement
+ :raises ValueError: If TG traffic profile is not supported.
+ """
+ subtype = check_subtype(self._node)
+ if subtype == NodeSubTypeTG.TREX:
+ if u"trex-astf" in self.traffic_profile:
+ self.trex_astf_stop_remote_exec(self._node)
+ elif u"trex-stl" in self.traffic_profile:
+ self.trex_stl_stop_remote_exec(self._node)
+ else:
+ raise ValueError(u"Unsupported T-Rex traffic profile!")
- def trex_stl_start_remote_exec(self, duration, rate, framesize,
- traffic_type, async_call, warmup_time=5):
- """Execute script on remote node over ssh to start traffic.
+ return self.get_measurement_result()
+
+ def trex_astf_start_remote_exec(
+ self, duration, mult, frame_size, traffic_profile, async_call=False,
+ latency=True, warmup_time=5.0, traffic_directions=2, tx_port=0,
+ rx_port=1):
+ """Execute T-Rex ASTF script on remote node over ssh to start running
+ traffic.
+
+ In sync mode, measurement results are stored internally.
+ In async mode, initial data including xstats are stored internally.
:param duration: Time expresed in seconds for how long to send traffic.
- :param rate: Traffic rate expressed with units (pps, %)
- :param framesize: L2 frame size to send (without padding and IPG).
- :param traffic_type: Traffic profile.
- :param async_call: If enabled then don't wait for all incomming trafic.
+ :param mult: Traffic rate expressed with units (pps, %)
+ :param frame_size: L2 frame size to send (without padding and IPG).
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param async_call: If enabled then don't wait for all incoming traffic.
+ :param latency: With latency measurement.
:param warmup_time: Warmup time period.
- :type duration: int
- :type rate: str
- :type framesize: int
- :type traffic_type: str
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param tx_port: Traffic generator transmit port for first flow.
+ Default: 0
+ :param rx_port: Traffic generator receive port for first flow.
+ Default: 1
+ :type duration: float
+ :type mult: int
+ :type frame_size: str
+ :type traffic_profile: str
:type async_call: bool
- :type warmup_time: int
- :return: Nothing
+ :type latency: bool
+ :type warmup_time: float
+ :type traffic_directions: int
+ :type tx_port: int
+ :type rx_port: int
+ :raises RuntimeError: In case of T-Rex driver issue.
"""
- ssh = SSH()
- ssh.connect(self._node)
-
- _p0 = 1
- _p1 = 2
- _async = ""
-
+ self.check_mode(TrexMode.ASTF)
+ p_0, p_1 = (rx_port, tx_port) if self._ifaces_reordered \
+ else (tx_port, rx_port)
+ if not isinstance(duration, (float, int)):
+ duration = float(duration)
+ if not isinstance(warmup_time, (float, int)):
+ warmup_time = float(warmup_time)
+
+ command_line = OptionString().add(u"python3")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex"
+ command_line.add(f"'{dirname}/trex_astf_profile.py'")
+ command_line.change_prefix(u"--")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/traffic_profiles/trex"
+ command_line.add_with_value(
+ u"profile", f"'{dirname}/{traffic_profile}.py'"
+ )
+ command_line.add_with_value(u"duration", f"{duration!r}")
+ command_line.add_with_value(u"frame_size", frame_size)
+ command_line.add_with_value(u"mult", int(mult))
+ command_line.add_with_value(u"warmup_time", f"{warmup_time!r}")
+ command_line.add_with_value(u"port_0", p_0)
+ command_line.add_with_value(u"port_1", p_1)
+ command_line.add_with_value(u"traffic_directions", traffic_directions)
+ command_line.add_if(u"async_start", async_call)
+ command_line.add_if(u"latency", latency)
+ command_line.add_if(u"force", Constants.TREX_SEND_FORCE)
+
+ stdout, _ = exec_cmd_no_error(
+ self._node, command_line,
+ timeout=int(duration) + 600 if u"tcp" in self.traffic_profile
+ else 60,
+ message=u"T-Rex ASTF runtime error!"
+ )
+
+ self.traffic_directions = traffic_directions
if async_call:
- _async = "--async"
- if self._ifaces_reordered != 0:
- _p0, _p1 = _p1, _p0
-
- if traffic_type in ["3-node-xconnect", "3-node-bridge"]:
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c '{0}/resources/tools/t-rex/t-rex-stateless.py "
- "--duration={1} -r {2} -s {3} "
- "--p{4}_src_start_ip 10.10.10.1 "
- "--p{4}_src_end_ip 10.10.10.254 "
- "--p{4}_dst_start_ip 20.20.20.1 "
- "--p{5}_src_start_ip 20.20.20.1 "
- "--p{5}_src_end_ip 20.20.20.254 "
- "--p{5}_dst_start_ip 10.10.10.1 "
- "{6} --warmup_time={7}'".format(Constants.REMOTE_FW_DIR,
- duration, rate, framesize, _p0,
- _p1, _async, warmup_time),
- timeout=int(duration)+60)
- elif traffic_type in ["3-node-IPv4"]:
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c '{0}/resources/tools/t-rex/t-rex-stateless.py "
- "--duration={1} -r {2} -s {3} "
- "--p{4}_src_start_ip 10.10.10.2 "
- "--p{4}_src_end_ip 10.10.10.254 "
- "--p{4}_dst_start_ip 20.20.20.2 "
- "--p{5}_src_start_ip 20.20.20.2 "
- "--p{5}_src_end_ip 20.20.20.254 "
- "--p{5}_dst_start_ip 10.10.10.2 "
- "{6} --warmup_time={7}'".format(Constants.REMOTE_FW_DIR,
- duration, rate, framesize, _p0,
- _p1, _async, warmup_time),
- timeout=int(duration)+60)
- elif traffic_type in ["3-node-IPv6"]:
- (ret, stdout, stderr) = ssh.exec_command(
- "sh -c '{0}/resources/tools/t-rex/t-rex-stateless.py "
- "--duration={1} -r {2} -s {3} -6 "
- "--p{4}_src_start_ip 2001:1::2 "
- "--p{4}_src_end_ip 2001:1::FE "
- "--p{4}_dst_start_ip 2001:2::2 "
- "--p{5}_src_start_ip 2001:2::2 "
- "--p{5}_src_end_ip 2001:2::FE "
- "--p{5}_dst_start_ip 2001:1::2 "
- "{6} --warmup_time={7}'".format(Constants.REMOTE_FW_DIR,
- duration, rate, framesize, _p0,
- _p1, _async, warmup_time),
- timeout=int(duration)+60)
+ # no result
+ self._start_time = time.time()
+ self._rate = float(mult)
+ self._received = None
+ self._sent = None
+ self._loss = None
+ self._latency = None
+ xstats = [None, None]
+ self._l7_data = dict()
+ self._l7_data[u"client"] = dict()
+ self._l7_data[u"client"][u"active_flows"] = None
+ self._l7_data[u"client"][u"established_flows"] = None
+ self._l7_data[u"server"] = dict()
+ self._l7_data[u"server"][u"active_flows"] = None
+ self._l7_data[u"server"][u"established_flows"] = None
+ if u"udp" in self.traffic_profile:
+ self._l7_data[u"client"][u"udp"] = dict()
+ self._l7_data[u"client"][u"udp"][u"established_flows"] = None
+ self._l7_data[u"client"][u"udp"][u"closed_flows"] = None
+ self._l7_data[u"server"][u"udp"] = dict()
+ self._l7_data[u"server"][u"udp"][u"accepted_flows"] = None
+ self._l7_data[u"server"][u"udp"][u"closed_flows"] = None
+ elif u"tcp" in self.traffic_profile:
+ self._l7_data[u"client"][u"tcp"] = dict()
+ self._l7_data[u"client"][u"tcp"][u"initiated_flows"] = None
+ self._l7_data[u"client"][u"tcp"][u"established_flows"] = None
+ self._l7_data[u"client"][u"tcp"][u"closed_flows"] = None
+ self._l7_data[u"server"][u"tcp"] = dict()
+ self._l7_data[u"server"][u"tcp"][u"accepted_flows"] = None
+ self._l7_data[u"server"][u"tcp"][u"established_flows"] = None
+ self._l7_data[u"server"][u"tcp"][u"closed_flows"] = None
+ else:
+ logger.warn(u"Unsupported T-Rex ASTF traffic profile!")
+ index = 0
+ for line in stdout.splitlines():
+ if f"Xstats snapshot {index}: " in line:
+ xstats[index] = line[19:]
+ index += 1
+ if index == 2:
+ break
+ self._xstats = tuple(xstats)
else:
- raise NotImplementedError('Unsupported traffic type')
+ self._parse_traffic_results(stdout)
+ self._start_time = None
+ self._rate = None
+
+ def trex_stl_start_remote_exec(
+ self, duration, rate, frame_size, traffic_profile, async_call=False,
+ latency=False, warmup_time=5.0, traffic_directions=2, tx_port=0,
+ rx_port=1):
+ """Execute T-Rex STL script on remote node over ssh to start running
+ traffic.
- logger.trace(ret)
- logger.trace(stdout)
- logger.trace(stderr)
+ In sync mode, measurement results are stored internally.
+ In async mode, initial data including xstats are stored internally.
- if int(ret) != 0:
- raise RuntimeError('T-rex stateless runtime error')
- elif async_call:
- #no result
+ :param duration: Time expressed in seconds for how long to send traffic.
+ :param rate: Traffic rate expressed with units (pps, %)
+ :param frame_size: L2 frame size to send (without padding and IPG).
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param async_call: If enabled then don't wait for all incoming traffic.
+ :param latency: With latency measurement.
+ :param warmup_time: Warmup time period.
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param tx_port: Traffic generator transmit port for first flow.
+ Default: 0
+ :param rx_port: Traffic generator receive port for first flow.
+ Default: 1
+ :type duration: float
+ :type rate: str
+ :type frame_size: str
+ :type traffic_profile: str
+ :type async_call: bool
+ :type latency: bool
+ :type warmup_time: float
+ :type traffic_directions: int
+ :type tx_port: int
+ :type rx_port: int
+ :raises RuntimeError: In case of T-Rex driver issue.
+ """
+ self.check_mode(TrexMode.STL)
+ p_0, p_1 = (rx_port, tx_port) if self._ifaces_reordered \
+ else (tx_port, rx_port)
+ if not isinstance(duration, (float, int)):
+ duration = float(duration)
+ if not isinstance(warmup_time, (float, int)):
+ warmup_time = float(warmup_time)
+
+ command_line = OptionString().add(u"python3")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex"
+ command_line.add(f"'{dirname}/trex_stl_profile.py'")
+ command_line.change_prefix(u"--")
+ dirname = f"{Constants.REMOTE_FW_DIR}/GPL/traffic_profiles/trex"
+ command_line.add_with_value(
+ u"profile", f"'{dirname}/{traffic_profile}.py'"
+ )
+ command_line.add_with_value(u"duration", f"{duration!r}")
+ command_line.add_with_value(u"frame_size", frame_size)
+ command_line.add_with_value(u"rate", f"{rate!r}")
+ command_line.add_with_value(u"warmup_time", f"{warmup_time!r}")
+ command_line.add_with_value(u"port_0", p_0)
+ command_line.add_with_value(u"port_1", p_1)
+ command_line.add_with_value(u"traffic_directions", traffic_directions)
+ command_line.add_if(u"async_start", async_call)
+ command_line.add_if(u"latency", latency)
+ command_line.add_if(u"force", Constants.TREX_SEND_FORCE)
+
+ stdout, _ = exec_cmd_no_error(
+ self._node, command_line, timeout=int(duration) + 60,
+ message=u"T-Rex STL runtime error"
+ )
+
+ self.traffic_directions = traffic_directions
+ if async_call:
+ # no result
+ self._start_time = time.time()
+ self._rate = float(rate[:-3]) if u"pps" in rate else float(rate)
self._received = None
self._sent = None
self._loss = None
+ self._latency = None
+
+ xstats = [None, None]
+ index = 0
+ for line in stdout.splitlines():
+ if f"Xstats snapshot {index}: " in line:
+ xstats[index] = line[19:]
+ index += 1
+ if index == 2:
+ break
+ self._xstats = tuple(xstats)
else:
- # last line from console output
- line = stdout.splitlines()[-1]
-
- self._result = line
- logger.info('TrafficGen result: {0}'.format(self._result))
+ self._parse_traffic_results(stdout)
+ self._start_time = None
+ self._rate = None
+
+ def send_traffic_on_tg(
+ self, duration, rate, frame_size, traffic_profile, warmup_time=5,
+ async_call=False, latency=False, traffic_directions=2, tx_port=0,
+ rx_port=1):
+ """Send traffic from all configured interfaces on TG.
- self._received = self._result.split(', ')[1].split('=')[1]
- self._sent = self._result.split(', ')[2].split('=')[1]
- self._loss = self._result.split(', ')[3].split('=')[1]
+ In async mode, xstats is stored internally,
+ to enable getting correct result when stopping the traffic.
+ In both modes, stdout is returned,
+ but _parse_traffic_results only works in sync output.
- def stop_traffic_on_tg(self):
- """Stop all traffic on TG
+ Note that bidirectional traffic also contains flows
+ transmitted from rx_port and received in tx_port.
+ But some tests use asymmetric traffic, so those arguments are relevant.
- :return: Nothing
- """
- if self._node is None:
- raise RuntimeError("TG is not set")
- if self._node['subtype'] == NodeSubTypeTG.TREX:
- self.trex_stl_stop_remote_exec(self._node)
-
- def send_traffic_on_tg(self, duration, rate, framesize,
- traffic_type, warmup_time=5, async_call=False):
- """Send traffic from all configured interfaces on TG.
+ Also note that traffic generator uses DPDK driver which might
+ reorder port numbers based on wiring and PCI numbering.
+ This method handles that, so argument values are invariant,
+ but you can see swapped valued in debug logs.
:param duration: Duration of test traffic generation in seconds.
- :param rate: Offered load per interface (e.g. 1%, 3gbps, 4mpps, ...).
- :param framesize: Frame size (L2) in Bytes.
- :param traffic_type: Traffic profile.
- :type duration: str
- :type rate: str
- :type framesize: str
- :type traffic_type: str
- :return: TG output.
+ :param rate: Traffic rate.
+ - T-Rex stateless mode => Offered load per interface in pps,
+ - T-Rex advanced stateful mode => multiplier of profile CPS.
+ :param frame_size: Frame size (L2) in Bytes.
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param warmup_time: Warmup phase in seconds.
+ :param async_call: Async mode.
+ :param latency: With latency measurement.
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param tx_port: Traffic generator transmit port for first flow.
+ Default: 0
+ :param rx_port: Traffic generator receive port for first flow.
+ Default: 1
+ :type duration: float
+ :type rate: float
+ :type frame_size: str
+ :type traffic_profile: str
+ :type warmup_time: float
+ :type async_call: bool
+ :type latency: bool
+ :type traffic_directions: int
+ :type tx_port: int
+ :type rx_port: int
+ :returns: TG results.
:rtype: str
+ :raises ValueError: If TG traffic profile is not supported.
"""
-
- node = self._node
- if node is None:
- raise RuntimeError("TG is not set")
-
- if node['type'] != NodeType.TG:
- raise Exception('Node type is not a TG')
-
- if node['subtype'] is None:
- raise Exception('TG subtype not defined')
- elif node['subtype'] == NodeSubTypeTG.TREX:
- self.trex_stl_start_remote_exec(duration, rate, framesize,
- traffic_type, async_call,
- warmup_time=warmup_time)
- else:
- raise NotImplementedError("TG subtype not supported")
+ subtype = check_subtype(self._node)
+ if subtype == NodeSubTypeTG.TREX:
+ if self.traffic_profile != str(traffic_profile):
+ self.traffic_profile = str(traffic_profile)
+ if u"trex-astf" in self.traffic_profile:
+ self.trex_astf_start_remote_exec(
+ duration, int(rate), frame_size, self.traffic_profile,
+ async_call, latency, warmup_time, traffic_directions,
+ tx_port, rx_port
+ )
+ elif u"trex-stl" in self.traffic_profile:
+ unit_rate_str = str(rate) + u"pps"
+ self.trex_stl_start_remote_exec(
+ duration, unit_rate_str, frame_size, self.traffic_profile,
+ async_call, latency, warmup_time, traffic_directions,
+ tx_port, rx_port
+ )
+ else:
+ raise ValueError(u"Unsupported T-Rex traffic profile!")
return self._result
def no_traffic_loss_occurred(self):
"""Fail if loss occurred in traffic run.
- :return: nothing
+ :returns: nothing
+ :raises Exception: If loss occured.
"""
if self._loss is None:
- raise Exception('The traffic generation has not been issued')
- if self._loss != '0':
- raise Exception('Traffic loss occurred: {0}'.format(self._loss))
+ raise RuntimeError(u"The traffic generation has not been issued")
+ if self._loss != u"0":
+ raise RuntimeError(f"Traffic loss occurred: {self._loss}")
+
+ def fail_if_no_traffic_forwarded(self):
+ """Fail if no traffic forwarded.
- def partial_traffic_loss_accepted(self, loss_acceptance,
- loss_acceptance_type):
+ :returns: nothing
+ :raises Exception: If no traffic forwarded.
+ """
+ if self._received is None:
+ raise RuntimeError(u"The traffic generation has not been issued")
+ if self._received == u"0":
+ raise RuntimeError(u"No traffic forwarded")
+
+ def partial_traffic_loss_accepted(
+ self, loss_acceptance, loss_acceptance_type):
"""Fail if loss is higher then accepted in traffic run.
- :return: nothing
+ :param loss_acceptance: Permitted drop ratio or frames count.
+ :param loss_acceptance_type: Type of permitted loss.
+ :type loss_acceptance: float
+ :type loss_acceptance_type: LossAcceptanceType
+ :returns: nothing
+ :raises Exception: If loss is above acceptance criteria.
"""
if self._loss is None:
- raise Exception('The traffic generation has not been issued')
+ raise Exception(u"The traffic generation has not been issued")
- if loss_acceptance_type == 'percentage':
+ if loss_acceptance_type == u"percentage":
loss = (float(self._loss) / float(self._sent)) * 100
- elif loss_acceptance_type == 'frames':
+ elif loss_acceptance_type == u"frames":
loss = float(self._loss)
else:
- raise Exception('Loss acceptance type not supported')
+ raise Exception(u"Loss acceptance type not supported")
if loss > float(loss_acceptance):
- raise Exception("Traffic loss {} above loss acceptance: {}".format(
- loss, loss_acceptance))
+ raise Exception(
+ f"Traffic loss {loss} above loss acceptance: {loss_acceptance}"
+ )
+
+ def set_rate_provider_defaults(
+ self, frame_size, traffic_profile, warmup_time=0.0,
+ traffic_directions=2, negative_loss=True, latency=False):
+ """Store values accessed by measure().
+
+ :param frame_size: Frame size identifier or value [B].
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param warmup_time: Traffic duration before measurement starts [s].
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param negative_loss: If false, negative loss is reported as zero loss.
+ :param latency: Whether to measure latency during the trial.
+ Default: False.
+ :type frame_size: str or int
+ :type traffic_profile: str
+ :type warmup_time: float
+ :type traffic_directions: int
+ :type negative_loss: bool
+ :type latency: bool
+ """
+ self.frame_size = frame_size
+ self.traffic_profile = str(traffic_profile)
+ self.warmup_time = float(warmup_time)
+ self.traffic_directions = traffic_directions
+ self.negative_loss = negative_loss
+ self.use_latency = latency
+
+ def get_measurement_result(self, duration=None, transmit_rate=None):
+ """Return the result of last measurement as ReceiveRateMeasurement.
+
+ Separate function, as measurements can end either by time
+ or by explicit call, this is the common block at the end.
+
+ TODO: Fail on running or already reported measurement.
+
+ :param duration: Measurement duration [s] if known beforehand.
+ For explicitly stopped measurement it is estimated.
+ :param transmit_rate: Target aggregate transmit rate [pps].
+ If not given, computed assuming it was bidirectional.
+ :type duration: float or NoneType
+ :type transmit_rate: float or NoneType
+ :returns: Structure containing the result of the measurement.
+ :rtype: ReceiveRateMeasurement
+ """
+ if duration is None:
+ duration = time.time() - self._start_time
+ self._start_time = None
+ if transmit_rate is None:
+ transmit_rate = self._rate * self.traffic_directions
+ transmit_count = int(self.get_sent())
+ loss_count = int(self.get_loss())
+ if loss_count < 0 and not self.negative_loss:
+ loss_count = 0
+ measurement = ReceiveRateMeasurement(
+ duration, transmit_rate, transmit_count, loss_count
+ )
+ measurement.latency = self.get_latency_int()
+ return measurement
+
+ def measure(self, duration, transmit_rate):
+ """Run trial measurement, parse and return aggregate results.
+
+ Aggregate means sum over traffic directions.
+
+ :param duration: Trial duration [s].
+ :param transmit_rate: Target aggregate transmit rate [pps] / Connections
+ per second (CPS) for UDP/TCP flows.
+ :type duration: float
+ :type transmit_rate: float
+ :returns: Structure containing the result of the measurement.
+ :rtype: ReceiveRateMeasurement
+ :raises RuntimeError: If TG is not set or if node is not TG
+ or if subtype is not specified.
+ :raises NotImplementedError: If TG is not supported.
+ """
+ duration = float(duration)
+ # TG needs target Tr per stream, but reports aggregate Tx and Dx.
+ unit_rate_int = transmit_rate / float(self.traffic_directions)
+ self.send_traffic_on_tg(
+ duration,
+ unit_rate_int,
+ self.frame_size,
+ self.traffic_profile,
+ warmup_time=self.warmup_time,
+ latency=self.use_latency,
+ traffic_directions=self.traffic_directions
+ )
+ return self.get_measurement_result(duration, transmit_rate)
+
+
+class OptimizedSearch:
+ """Class to be imported as Robot Library, containing search keywords.
+
+ Aside of setting up measurer and forwarding arguments,
+ the main business is to translate min/max rate from unidir to aggregate.
+ """
+
+ @staticmethod
+ def perform_optimized_ndrpdr_search(
+ frame_size, traffic_profile, minimum_transmit_rate,
+ maximum_transmit_rate, packet_loss_ratio=0.005,
+ final_relative_width=0.005, final_trial_duration=30.0,
+ initial_trial_duration=1.0, number_of_intermediate_phases=2,
+ timeout=720.0, doublings=1, traffic_directions=2, latency=False):
+ """Setup initialized TG, perform optimized search, return intervals.
+
+ :param frame_size: Frame size identifier or value [B].
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param minimum_transmit_rate: Minimal uni-directional
+ target transmit rate [pps].
+ :param maximum_transmit_rate: Maximal uni-directional
+ target transmit rate [pps].
+ :param packet_loss_ratio: Fraction of packets lost, for PDR [1].
+ :param final_relative_width: Final lower bound transmit rate
+ cannot be more distant that this multiple of upper bound [1].
+ :param final_trial_duration: Trial duration for the final phase [s].
+ :param initial_trial_duration: Trial duration for the initial phase
+ and also for the first intermediate phase [s].
+ :param number_of_intermediate_phases: Number of intermediate phases
+ to perform before the final phase [1].
+ :param timeout: The search will fail itself when not finished
+ before this overall time [s].
+ :param doublings: How many doublings to do in external search step.
+ Default 1 is suitable for fairly stable tests,
+ less stable tests might get better overal duration with 2 or more.
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param latency: Whether to measure latency during the trial.
+ Default: False.
+ :type frame_size: str or int
+ :type traffic_profile: str
+ :type minimum_transmit_rate: float
+ :type maximum_transmit_rate: float
+ :type packet_loss_ratio: float
+ :type final_relative_width: float
+ :type final_trial_duration: float
+ :type initial_trial_duration: float
+ :type number_of_intermediate_phases: int
+ :type timeout: float
+ :type doublings: int
+ :type traffic_directions: int
+ :type latency: bool
+ :returns: Structure containing narrowed down NDR and PDR intervals
+ and their measurements.
+ :rtype: NdrPdrResult
+ :raises RuntimeError: If total duration is larger than timeout.
+ """
+ minimum_transmit_rate *= traffic_directions
+ maximum_transmit_rate *= traffic_directions
+ # we need instance of TrafficGenerator instantiated by Robot Framework
+ # to be able to use trex_stl-*()
+ tg_instance = BuiltIn().get_library_instance(
+ u"resources.libraries.python.TrafficGenerator"
+ )
+ tg_instance.set_rate_provider_defaults(
+ frame_size,
+ traffic_profile,
+ traffic_directions=traffic_directions,
+ latency=latency
+ )
+ algorithm = MultipleLossRatioSearch(
+ measurer=tg_instance, final_trial_duration=final_trial_duration,
+ final_relative_width=final_relative_width,
+ number_of_intermediate_phases=number_of_intermediate_phases,
+ initial_trial_duration=initial_trial_duration, timeout=timeout,
+ doublings=doublings
+ )
+ result = algorithm.narrow_down_ndr_and_pdr(
+ minimum_transmit_rate, maximum_transmit_rate, packet_loss_ratio
+ )
+ return result
+
+ @staticmethod
+ def perform_soak_search(
+ frame_size, traffic_profile, minimum_transmit_rate,
+ maximum_transmit_rate, plr_target=1e-7, tdpt=0.1,
+ initial_count=50, timeout=1800.0, trace_enabled=False,
+ traffic_directions=2, latency=False):
+ """Setup initialized TG, perform soak search, return avg and stdev.
+
+ :param frame_size: Frame size identifier or value [B].
+ :param traffic_profile: Module name as a traffic profile identifier.
+ See GPL/traffic_profiles/trex for implemented modules.
+ :param minimum_transmit_rate: Minimal uni-directional
+ target transmit rate [pps].
+ :param maximum_transmit_rate: Maximal uni-directional
+ target transmit rate [pps].
+ :param plr_target: Fraction of packets lost to achieve [1].
+ :param tdpt: Trial duration per trial.
+ The algorithm linearly increases trial duration with trial number,
+ this is the increment between succesive trials, in seconds.
+ :param initial_count: Offset to apply before the first trial.
+ For example initial_count=50 makes first trial to be 51*tdpt long.
+ This is needed because initial "search" phase of integrator
+ takes significant time even without any trial results.
+ :param timeout: The search will stop after this overall time [s].
+ :param trace_enabled: True if trace enabled else False.
+ :param traffic_directions: Traffic is bi- (2) or uni- (1) directional.
+ Default: 2
+ :param latency: Whether to measure latency during the trial.
+ Default: False.
+ :type frame_size: str or int
+ :type traffic_profile: str
+ :type minimum_transmit_rate: float
+ :type maximum_transmit_rate: float
+ :type plr_target: float
+ :type initial_count: int
+ :type timeout: float
+ :type trace_enabled: bool
+ :type traffic_directions: int
+ :type latency: bool
+ :returns: Average and stdev of estimated aggregate rate giving PLR.
+ :rtype: 2-tuple of float
+ """
+ minimum_transmit_rate *= traffic_directions
+ maximum_transmit_rate *= traffic_directions
+ tg_instance = BuiltIn().get_library_instance(
+ u"resources.libraries.python.TrafficGenerator"
+ )
+ tg_instance.set_rate_provider_defaults(
+ frame_size,
+ traffic_profile,
+ traffic_directions=traffic_directions,
+ negative_loss=False,
+ latency=latency
+ )
+ algorithm = PLRsearch(
+ measurer=tg_instance, trial_duration_per_trial=tdpt,
+ packet_loss_ratio_target=plr_target,
+ trial_number_offset=initial_count, timeout=timeout,
+ trace_enabled=trace_enabled
+ )
+ result = algorithm.search(minimum_transmit_rate, maximum_transmit_rate)
+ return result