From b26fe6de7965f6621b54a80a938f82afe95aa585 Mon Sep 17 00:00:00 2001 From: Vratko Polak Date: Fri, 5 Feb 2021 11:46:40 +0100 Subject: NAT44ed: Add pure throuhput bidir tests + With ramp-up, without reset, with session verification. + Uses the same profile as pps tests. + Ramp up duration is not specified, as duration is computed. + Timeout tracking with automated ramp-up. + Correct computation of next duration. + Checking both early and late sessions. + No loss measurement also acts as a ramp-up. + Return ReceiveRateMeasurement from send_traffic_on_tg_internal, as that is needed for detecting whether trial is ok as ramp up. - Udp needs quite low ramp-up rate after recent regression. - Max scale has higher rate (so failing) to avoid session timeouts. + Bump copyright year. Change-Id: I50c928659cd5b985b490a2e5fb69c5cd790600b0 Signed-off-by: Vratko Polak --- resources/libraries/python/TrafficGenerator.py | 251 ++++++++++++++++++--- resources/libraries/python/autogen/Regenerator.py | 6 +- resources/libraries/robot/ip/nat.robot | 10 +- .../robot/performance/performance_utils.robot | 66 ++++-- .../robot/performance/performance_vars.robot | 51 +++-- 5 files changed, 313 insertions(+), 71 deletions(-) (limited to 'resources') diff --git a/resources/libraries/python/TrafficGenerator.py b/resources/libraries/python/TrafficGenerator.py index 23337b2848..30be3b9eba 100644 --- a/resources/libraries/python/TrafficGenerator.py +++ b/resources/libraries/python/TrafficGenerator.py @@ -1,4 +1,4 @@ -# Copyright (c) 2020 Cisco and/or its affiliates. +# Copyright (c) 2021 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: @@ -171,6 +171,11 @@ class TrafficGenerator(AbstractMeasurer): self.sleep_till_duration = None self.transaction_type = None self.duration_limit = None + self.ramp_up_start = None + self.ramp_up_stop = None + self.ramp_up_rate = None + self.ramp_up_duration = None + self.state_timeout = None # Transient data needed for async measurements. self._xstats = (None, None) # TODO: Rename "xstats" to something opaque, so T-Rex is not privileged? @@ -404,12 +409,11 @@ class TrafficGenerator(AbstractMeasurer): raise RuntimeError(u"Start TRex failed!") # Test T-Rex API responsiveness. - cmd = u"python3" - cmd += f" {Constants.REMOTE_FW_DIR}/GPL/tools/trex/" + cmd = f"python3 {Constants.REMOTE_FW_DIR}/GPL/tools/trex/" if osi_layer in (u"L2", u"L3"): - cmd += f"trex_stl_assert.py" + cmd += u"trex_stl_assert.py" elif osi_layer == u"L7": - cmd += f"trex_astf_assert.py" + cmd += u"trex_astf_assert.py" else: raise ValueError(u"Unknown OSI layer!") try: @@ -523,7 +527,43 @@ class TrafficGenerator(AbstractMeasurer): raise ValueError(u"Unsupported T-Rex traffic profile!") self._stop_time = time.monotonic() - return self.get_measurement_result() + return self._get_measurement_result() + + def _compute_duration(self, duration, multiplier): + """Compute duration for profile driver. + + The final result is influenced by transaction scale and duration limit. + It is assumed a higher level function has already set those to self. + The duration argument is the target value from search point of view, + before the overrides are applied here. + + Minus one (signalling async traffic start) is kept. + + Completeness flag is also included. Duration limited or async trials + are not considered complete for ramp-up purposes. + + :param duration: Time expressed in seconds for how long to send traffic. + :param multiplier: Traffic rate in transactions per second. + :type duration: float + :type multiplier: float + :returns: New duration and whether it was a complete ramp-up candidate. + :rtype: float, bool + """ + if duration < 0.0: + # Keep the async -1. + return duration, False + computed_duration = duration + if self.transaction_scale: + computed_duration = self.transaction_scale / multiplier + # Log the computed duration, + # so we can compare with what telemetry suggests + # the real duration was. + logger.debug(f"Expected duration {computed_duration}") + computed_duration += 0.1115 + if not self.duration_limit: + return computed_duration, True + limited_duration = min(computed_duration, self.duration_limit) + return limited_duration, (limited_duration == computed_duration) def trex_astf_start_remote_exec( self, duration, multiplier, async_call=False): @@ -571,19 +611,9 @@ class TrafficGenerator(AbstractMeasurer): if not isinstance(duration, (float, int)): duration = float(duration) - # Duration logic. - computed_duration = duration - if duration > 0.0: - if self.transaction_scale: - computed_duration = self.transaction_scale / multiplier - # Log the computed duration, - # so we can compare with what telemetry suggests - # the real duration was. - logger.debug(f"Expected duration {computed_duration}") - computed_duration += 0.1115 - # Else keep -1. - if self.duration_limit: - computed_duration = min(computed_duration, self.duration_limit) + # TODO: Refactor the code so duration is computed only once, + # and both the initial and the computed durations are logged. + computed_duration, _ = self._compute_duration(duration, multiplier) command_line = OptionString().add(u"python3") dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex" @@ -687,8 +717,10 @@ class TrafficGenerator(AbstractMeasurer): p_0, p_1 = (1, 0) if self._ifaces_reordered else (0, 1) if not isinstance(duration, (float, int)): duration = float(duration) - if self.duration_limit: - duration = min(duration, self.duration_limit) + + # TODO: Refactor the code so duration is computed only once, + # and both the initial and the computed durations are logged. + duration, _ = self._compute_duration(duration=duration, multiplier=rate) command_line = OptionString().add(u"python3") dirname = f"{Constants.REMOTE_FW_DIR}/GPL/tools/trex" @@ -755,6 +787,10 @@ class TrafficGenerator(AbstractMeasurer): transaction_type=u"packet", duration_limit=0.0, use_latency=False, + ramp_up_rate=None, + ramp_up_duration=None, + state_timeout=300.0, + ramp_up_only=False, ): """Send traffic from all configured interfaces on TG. @@ -775,6 +811,8 @@ class TrafficGenerator(AbstractMeasurer): Bidirectional STL profiles are treated as transactions with two packets. + The return value is None for async. + :param duration: Duration of test traffic generation in seconds. :param rate: Traffic rate in transactions per second. :param frame_size: Frame size (L2) in Bytes. @@ -797,6 +835,10 @@ class TrafficGenerator(AbstractMeasurer): duration. :param use_latency: Whether to measure latency during the trial. Default: False. + :param ramp_up_rate: Rate to use in ramp-up trials [pps]. + :param ramp_up_duration: Duration of ramp-up trials [s]. + :param state_timeout: Time of life of DUT state [s]. + :param ramp_up_only: If true, do not perform main trial measurement. :type duration: float :type rate: float :type frame_size: str @@ -809,8 +851,12 @@ class TrafficGenerator(AbstractMeasurer): :type transaction_type: str :type duration_limit: float :type use_latency: bool + :type ramp_up_rate: float + :type ramp_up_duration: float + :type state_timeout: float + :type ramp_up_only: bool :returns: TG results. - :rtype: str + :rtype: ReceiveRateMeasurement or None :raises ValueError: If TG traffic profile is not supported. """ self.set_rate_provider_defaults( @@ -823,10 +869,19 @@ class TrafficGenerator(AbstractMeasurer): transaction_type=transaction_type, duration_limit=duration_limit, use_latency=use_latency, + ramp_up_rate=ramp_up_rate, + ramp_up_duration=ramp_up_duration, + state_timeout=state_timeout, + ) + return self._send_traffic_on_tg_with_ramp_up( + duration=duration, + rate=rate, + async_call=async_call, + ramp_up_only=ramp_up_only, ) - self._send_traffic_on_tg_internal(duration, rate, async_call) - def _send_traffic_on_tg_internal(self, duration, rate, async_call=False): + def _send_traffic_on_tg_internal( + self, duration, rate, async_call=False): """Send traffic from all configured interfaces on TG. This is an internal function, it assumes set_rate_provider_defaults @@ -838,6 +893,9 @@ class TrafficGenerator(AbstractMeasurer): need to specify their own values, and we do not want the measure call to overwrite them with defaults. + This function is used both for automated ramp-up trials + and for explicitly called trials. + :param duration: Duration of test traffic generation in seconds. :param rate: Traffic rate in transactions per second. :param async_call: Async mode. @@ -845,7 +903,7 @@ class TrafficGenerator(AbstractMeasurer): :type rate: float :type async_call: bool :returns: TG results. - :rtype: str + :rtype: ReceiveRateMeasurement or None :raises ValueError: If TG traffic profile is not supported. """ subtype = check_subtype(self._node) @@ -863,7 +921,103 @@ class TrafficGenerator(AbstractMeasurer): else: raise ValueError(u"Unsupported T-Rex traffic profile!") - return self._result + return None if async_call else self._get_measurement_result() + + def _send_traffic_on_tg_with_ramp_up( + self, duration, rate, async_call=False, ramp_up_only=False): + """Send traffic from all interfaces on TG, maybe after ramp-up. + + This is an internal function, it assumes set_rate_provider_defaults + has been called to remember most values. + The reason why need to remember various values is that + the traffic can be asynchronous, and parsing needs those values. + The reason why this is a separate function from the one + which calls set_rate_provider_defaults is that some search algorithms + need to specify their own values, and we do not want the measure call + to overwrite them with defaults. + + If ramp-up tracking is detected, a computation is performed, + and if state timeout is near, trial at ramp-up rate and duration + is inserted before the main trial measurement. + + The ramp_up_only parameter forces a ramp-up without immediate + trial measurement, which is useful in case self remembers + a previous ramp-up trial that belongs to a different test (phase). + + Return None if trial is async or ramp-up only. + + :param duration: Duration of test traffic generation in seconds. + :param rate: Traffic rate in transactions per second. + :param async_call: Async mode. + :param ramp_up_only: If true, do not perform main trial measurement. + :type duration: float + :type rate: float + :type async_call: bool + :type ramp_up_only: bool + :returns: TG results. + :rtype: ReceiveRateMeasurement or None + :raises ValueError: If TG traffic profile is not supported. + """ + complete = False + if self.ramp_up_rate: + # Figure out whether we need to insert a ramp-up trial. + # TODO: Give up on async_call=True? + if self.ramp_up_start is None: + # We never ramped up yet. + ramp_up_needed = True + else: + # We ramped up before, but maybe it was too long ago. + # Adding a constant overhead to be safe. + time_now = time.monotonic() + 1.0 + computed_duration, complete = self._compute_duration( + duration=duration, + multiplier=rate, + ) + # There are two conditions for inserting ramp-up. + # If early sessions are expiring already, + # or if late sessions are to expire before measurement is over. + ramp_up_start_delay = time_now - self.ramp_up_start + ramp_up_stop_delay = time_now - self.ramp_up_stop + ramp_up_stop_delay += computed_duration + bigger_delay = max(ramp_up_start_delay, ramp_up_stop_delay) + # Final boolean decision. + ramp_up_needed = (bigger_delay >= self.state_timeout) + if ramp_up_needed: + logger.debug( + u"State may time out during next real trial, " + u"inserting a ramp-up trial." + ) + self.ramp_up_start = time.monotonic() + self._send_traffic_on_tg_internal( + duration=self.ramp_up_duration, + rate=self.ramp_up_rate, + async_call=async_call, + ) + self.ramp_up_stop = time.monotonic() + logger.debug(u"Ramp-up done.") + else: + logger.debug( + u"State will probably not time out during next real trial, " + u"no ramp-up trial needed just yet." + ) + if ramp_up_only: + return None + trial_start = time.monotonic() + result = self._send_traffic_on_tg_internal( + duration=duration, + rate=rate, + async_call=async_call, + ) + trial_end = time.monotonic() + if self.ramp_up_rate: + # Optimization: No loss acts as a good ramp-up, if it was complete. + if complete and result is not None and result.loss_count == 0: + logger.debug(u"Good trial acts as a ramp-up") + self.ramp_up_start = trial_start + self.ramp_up_stop = trial_end + else: + logger.debug(u"Loss or incomplete, does not act as a ramp-up.") + return result def no_traffic_loss_occurred(self): """Fail if loss occurred in traffic run. @@ -1030,7 +1184,7 @@ class TrafficGenerator(AbstractMeasurer): self._l7_data[u"server"][u"tcp"][u"rx_bytes"] = \ int(self._result.get(u"server_tcp_rx_bytes", 0)) - def get_measurement_result(self): + def _get_measurement_result(self): """Return the result of last measurement as ReceiveRateMeasurement. Separate function, as measurements can end either by time @@ -1158,12 +1312,11 @@ class TrafficGenerator(AbstractMeasurer): time_stop = time_start + duration if self.resetter: self.resetter() - self._send_traffic_on_tg_internal( + result = self._send_traffic_on_tg_with_ramp_up( duration=duration, rate=transmit_rate, async_call=False, ) - result = self.get_measurement_result() logger.debug(f"trial measurement result: {result!r}") # In PLRsearch, computation needs the specified time to complete. if self.sleep_till_duration: @@ -1188,6 +1341,9 @@ class TrafficGenerator(AbstractMeasurer): negative_loss=True, sleep_till_duration=False, use_latency=False, + ramp_up_rate=None, + ramp_up_duration=None, + state_timeout=300.0, ): """Store values accessed by measure(). @@ -1216,6 +1372,9 @@ class TrafficGenerator(AbstractMeasurer): sleep until it matches duration. Needed for PLRsearch. :param use_latency: Whether to measure latency during the trial. Default: False. + :param ramp_up_rate: Rate to use in ramp-up trials [pps]. + :param ramp_up_duration: Duration of ramp-up trials [s]. + :param state_timeout: Time of life of DUT state [s]. :type frame_size: str or int :type traffic_profile: str :type ppta: int @@ -1228,6 +1387,9 @@ class TrafficGenerator(AbstractMeasurer): :type negative_loss: bool :type sleep_till_duration: bool :type use_latency: bool + :type ramp_up_rate: float + :type ramp_up_duration: float + :type state_timeout: float """ self.frame_size = frame_size self.traffic_profile = str(traffic_profile) @@ -1241,6 +1403,9 @@ class TrafficGenerator(AbstractMeasurer): self.negative_loss = bool(negative_loss) self.sleep_till_duration = bool(sleep_till_duration) self.use_latency = bool(use_latency) + self.ramp_up_rate = float(ramp_up_rate) + self.ramp_up_duration = float(ramp_up_duration) + self.state_timeout = float(state_timeout) class OptimizedSearch: @@ -1270,6 +1435,9 @@ class OptimizedSearch: transaction_scale=0, transaction_type=u"packet", use_latency=False, + ramp_up_rate=None, + ramp_up_duration=None, + state_timeout=300.0, ): """Setup initialized TG, perform optimized search, return intervals. @@ -1312,6 +1480,9 @@ class OptimizedSearch: transactions. Default: "packet". :param use_latency: Whether to measure latency during the trial. Default: False. + :param ramp_up_rate: Rate to use in ramp-up trials [pps]. + :param ramp_up_duration: Duration of ramp-up trials [s]. + :param state_timeout: Time of life of DUT state [s]. :type frame_size: str or int :type traffic_profile: str :type minimum_transmit_rate: float @@ -1330,6 +1501,9 @@ class OptimizedSearch: :type transaction_scale: int :type transaction_type: str :type use_latency: bool + :type ramp_up_rate: float + :type ramp_up_duration: float + :type state_timeout: float :returns: Structure containing narrowed down NDR and PDR intervals and their measurements. :rtype: NdrPdrResult @@ -1347,7 +1521,7 @@ class OptimizedSearch: initial_trial_duration = 1.0 final_trial_duration = 2.0 number_of_intermediate_phases = 0 - timeout = 3600.0 + timeout += transaction_scale * 3e-4 tg_instance.set_rate_provider_defaults( frame_size=frame_size, traffic_profile=traffic_profile, @@ -1359,6 +1533,9 @@ class OptimizedSearch: transaction_scale=transaction_scale, transaction_type=transaction_type, use_latency=use_latency, + ramp_up_rate=ramp_up_rate, + ramp_up_duration=ramp_up_duration, + state_timeout=state_timeout, ) algorithm = MultipleLossRatioSearch( measurer=tg_instance, @@ -1394,6 +1571,9 @@ class OptimizedSearch: transaction_scale=0, transaction_type=u"packet", use_latency=False, + ramp_up_rate=None, + ramp_up_duration=None, + state_timeout=300.0, ): """Setup initialized TG, perform soak search, return avg and stdev. @@ -1430,6 +1610,9 @@ class OptimizedSearch: transactions. Default: "packet". :param use_latency: Whether to measure latency during the trial. Default: False. + :param ramp_up_rate: Rate to use in ramp-up trials [pps]. + :param ramp_up_duration: Duration of ramp-up trials [s]. + :param state_timeout: Time of life of DUT state [s]. :type frame_size: str or int :type traffic_profile: str :type minimum_transmit_rate: float @@ -1445,6 +1628,9 @@ class OptimizedSearch: :type transaction_scale: int :type transaction_type: str :type use_latency: bool + :type ramp_up_rate: float + :type ramp_up_duration: float + :type state_timeout: float :returns: Average and stdev of estimated aggregate rate giving PLR. :rtype: 2-tuple of float """ @@ -1455,6 +1641,8 @@ class OptimizedSearch: # TODO: Move to robot code? We have a single call site # but MLRsearch has two and we want the two to be used similarly. if transaction_scale: + # TODO: What is a good value for max scale? + # TODO: Scale the timeout with transaction scale. timeout = 7200.0 tg_instance.set_rate_provider_defaults( frame_size=frame_size, @@ -1468,6 +1656,9 @@ class OptimizedSearch: transaction_scale=transaction_scale, transaction_type=transaction_type, use_latency=use_latency, + ramp_up_rate=ramp_up_rate, + ramp_up_duration=ramp_up_duration, + state_timeout=state_timeout, ) algorithm = PLRsearch( measurer=tg_instance, diff --git a/resources/libraries/python/autogen/Regenerator.py b/resources/libraries/python/autogen/Regenerator.py index dd2672bd7c..a8de34ff7e 100644 --- a/resources/libraries/python/autogen/Regenerator.py +++ b/resources/libraries/python/autogen/Regenerator.py @@ -156,7 +156,11 @@ def add_default_testcases(testcase, iface, suite_id, file_out, tc_kwargs_list): emit = False if kwargs[u"frame_size"] not in MIN_FRAME_SIZE_VALUES: emit = False - if u"-cps-" in suite_id or u"-pps-" in suite_id: + if ( + u"-cps-" in suite_id + or u"-pps-" in suite_id + or u"-tput-" in suite_id + ): if kwargs[u"frame_size"] not in MIN_FRAME_SIZE_VALUES: emit = False if emit: diff --git a/resources/libraries/robot/ip/nat.robot b/resources/libraries/robot/ip/nat.robot index 75b8cce7b6..202ade34a5 100644 --- a/resources/libraries/robot/ip/nat.robot +++ b/resources/libraries/robot/ip/nat.robot @@ -1,4 +1,4 @@ -# Copyright (c) 2020 Cisco and/or its affiliates. +# Copyright (c) 2021 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: @@ -57,8 +57,8 @@ | | ... | ${dut1} | ${DUT1_${int}1}[0] | ${DUT1_${int}2}[0] | | ${resetter} = | Set NAT44 Address Range | | ... | ${dut1} | ${out_net} | ${out_net_end} -| | ${ramp_up_duration} = | Get Ramp Up Duration -| | Return From Keyword If | ${ramp_up_duration} +| | ${ramp_up_rate} = | Get Ramp Up Rate +| | Return From Keyword If | ${ramp_up_rate} | | Set Test Variable | \${resetter} # TODO: Remove when 'ip4.Initialize IPv4 forwarding in circular topology' KW @@ -221,8 +221,8 @@ | | | | ${resetter} = | Set DET44 Mapping | | ... | ${node} | ${ip_in} | ${subnet_in} | ${ip_out} | ${subnet_out} -| | ${ramp_up_duration} = | Get Ramp Up Duration -| | Return From Keyword If | ${ramp_up_duration} +| | ${ramp_up_rate} = | Get Ramp Up Rate +| | Return From Keyword If | ${ramp_up_rate} | | Set Test Variable | \${resetter} | Initialize NAT44 deterministic mode in circular topology diff --git a/resources/libraries/robot/performance/performance_utils.robot b/resources/libraries/robot/performance/performance_utils.robot index 9a1de5cc77..638a834fc1 100644 --- a/resources/libraries/robot/performance/performance_utils.robot +++ b/resources/libraries/robot/performance/performance_utils.robot @@ -51,6 +51,8 @@ | | ... | \| Clear and show runtime counters with running traffic \| | | | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${runtime_duration} = | Get Runtime Duration | | ${runtime_rate} = | Get Runtime Rate | | ${traffic_directions} = | Get Traffic Directions @@ -72,6 +74,8 @@ | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} | | ... | duration_limit=${0.0} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | FOR | ${action} | IN | @{pre_run_stats} | | | Run Keyword | Additional Statistics Action For ${action} | | END @@ -89,7 +93,6 @@ | | ... | Fail if computed lower bound is 110% of the minimal rate or less. | | ... | Input rates are unidirectional, in transaction per second. | | ... | Reported result may contain aggregate pps rates, depending on test. -| | ... | Currently, the min_rate value is hardcoded to match test teardowns. | | ... | Call \${resetter} (if defined) to reset DUT state before each trial. | | | | ... | *Test (or broader scope) variables read:* @@ -106,8 +109,10 @@ | | | | # Get values via performance_vars. | | ${max_rate} = | Get Max Rate -| | ${min_rate} = | Get Min Rate +| | ${min_rate_soft} = | Get Min Rate Soft | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${resetter} = | Get Resetter | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration @@ -117,7 +122,7 @@ | | ${average} | ${stdev} = | Perform soak search | | ... | frame_size=${frame_size} | | ... | traffic_profile=${traffic_profile} -| | ... | minimum_transmit_rate=${min_rate} +| | ... | minimum_transmit_rate=${min_rate_soft} | | ... | maximum_transmit_rate=${max_rate} | | ... | plr_target=${1e-7} | | ... | tdpt=${0.1} @@ -131,11 +136,13 @@ | | ... | transaction_duration=${transaction_duration} | | ... | transaction_type=${transaction_type} | | ... | use_latency=${use_latency} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | ${lower} | ${upper} = | Display result of soak search | | ... | ${average} | ${stdev} | | Set Test Variable | \${rate for teardown} | ${lower} -| | Should Not Be True | 1.1 * ${min_rate} > ${lower} -| | ... | Lower bound ${lower} too small for unidirectional minimum ${min_rate}. +| | Should Not Be True | 1.1 * ${min_rate_soft} > ${lower} +| | ... | Lower bound ${lower} too small for unidir minimum ${min_rate_soft}. | Find NDR and PDR intervals using optimized search | | [Documentation] @@ -149,9 +156,6 @@ | | ... | even if latency stream is disabled in search. Their results | | ... | are also displayed. | | ... | Finally, two measurements for runtime stats are done (not displayed). -| | ... | Currently, the min_rate value is hardcoded to 90kpps, -| | ... | allowing measurement at 10% of the discovered rate -| | ... | without breaking latency streams. | | ... | Call \${resetter} (if defined) to reset DUT state before each trial. | | | | ... | *Test (or broader scope) variables read:* @@ -175,10 +179,12 @@ | | # Get values via performance_vars. | | ${disable_latency} = | Get Disable Latency | | ${max_rate} = | Get Max Rate -| | ${min_rate} = | Get Min Rate +| | ${min_rate_soft} = | Get Min Rate Soft | | # \${packet_loss_ratio} is used twice so it is worth a variable. | | ${packet_loss_ratio} = | Get Packet Loss Ratio | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${resetter} = | Get Resetter | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration @@ -188,7 +194,7 @@ | | ${result} = | Perform optimized ndrpdr search | | ... | frame_size=${frame_size} | | ... | traffic_profile=${traffic_profile} -| | ... | minimum_transmit_rate=${min_rate} +| | ... | minimum_transmit_rate=${min_rate_soft} | | ... | maximum_transmit_rate=${max_rate} | | ... | packet_loss_ratio=${packet_loss_ratio} | | ... | final_relative_width=${0.005} @@ -204,6 +210,8 @@ | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} | | ... | use_latency=${use_latency} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | Display result of NDRPDR search | ${result} | | Check NDRPDR interval validity | ${result.pdr_interval} | | ... | ${packet_loss_ratio} @@ -238,7 +246,6 @@ | | ... | Find and return lower bound NDR (zero PLR) | | ... | throughput using MLRsearch algorithm. | | ... | Input and output rates are understood as uni-directional, in tps. -| | ... | Currently, the min_rate value is hardcoded to match test teardowns. | | ... | Call \${resetter} (if defined) to reset DUT state before each trial. | | | | ... | *Test (or broader scope) variables read:* @@ -262,8 +269,10 @@ | | ... | \| \${throughpt}= \| Find Throughput Using MLRsearch \| | | | | ${max_rate} = | Get Max Rate -| | ${min_rate} = | Get Min Rate +| | ${min_rate_soft} = | Get Min Rate Soft | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${resetter} = | Get Resetter | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration @@ -273,7 +282,7 @@ | | ${result} = | Perform optimized ndrpdr search | | ... | frame_size=${frame_size} | | ... | traffic_profile=${traffic_profile} -| | ... | minimum_transmit_rate=${min_rate} +| | ... | minimum_transmit_rate=${min_rate_soft} | | ... | maximum_transmit_rate=${max_rate} | | ... | packet_loss_ratio=${0.0} | | ... | final_relative_width=${0.001} @@ -289,6 +298,8 @@ | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} | | ... | use_latency=${use_latency} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | Check NDRPDR interval validity | ${result.pdr_interval} | | ... | ${0.0} | | Return From Keyword | ${result.pdr_interval.measured_low.target_tr} @@ -313,9 +324,11 @@ | | | | [Arguments] | ${message_prefix} | ${rate} | | -| | ${min_rate} = | Get Min Rate +| | ${min_rate_hard} = | Get Min Rate Hard | | ${ppta} = | Get Packets Per Transaction Aggregated -| | ${real_rate} = | Evaluate | max(${rate}, ${min_rate}) +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate +| | ${real_rate} = | Evaluate | max(${rate}, ${min_rate_hard}) | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration | | ${transaction_scale} = | Get Transaction Scale @@ -334,12 +347,14 @@ | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} | | ... | use_latency=${True} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | ${latency} = | Get Latency Int | | Set Test Message | ${\n}${message_prefix} ${latency} | append=${True} | Send ramp-up traffic | | [Documentation] -| | ... | Do nothing unless positive ramp-up duration is specified. +| | ... | Fail unless positive ramp-up rate is specified. | | ... | Else perform one trial with appropriate rate and duration. | | ... | This is useful for tests that set DUT state via traffic. | | ... | Rate has to bee low enough so packets are not lost, @@ -362,9 +377,9 @@ | | | | ... | \| Send ramp-up traffic \| | | -| | ${ramp_up_duration} = | Get Ramp Up Duration -| | Run Keyword Unless | ${ramp_up_duration} > 0.0 | Return From Keyword | | ${ramp_up_rate} = | Get Ramp Up Rate +| | Run Keyword Unless | ${ramp_up_rate} > 0.0 | Fail | Ramp up rate missing! +| | ${ramp_up_duration} = | Get Ramp Up Duration | | ${ppta} = | Get Packets Per Transaction Aggregated | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration @@ -384,6 +399,9 @@ | | ... | transaction_duration=${transaction_duration} | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} +| | ... | ramp_up_only=${True} | Send traffic at specified rate | | [Documentation] @@ -413,6 +431,8 @@ | | ... | ${use_latency}=${False} | ${duration_limit}=${0.0} | | | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration | | ${transaction_scale} = | Get Transaction Scale @@ -424,7 +444,7 @@ | | ${results} = | Create List | | FOR | ${i} | IN RANGE | ${trial_multiplicity} | | | Call Resetter -| | | Send traffic on tg +| | | ${result}= | Send traffic on tg | | | ... | duration=${trial_duration} | | | ... | rate=${rate} | | | ... | frame_size=${frame_size} @@ -437,7 +457,8 @@ | | | ... | transaction_scale=${transaction_scale} | | | ... | transaction_type=${transaction_type} | | | ... | use_latency=${use_latency} -| | | ${result}= | Get Measurement Result +| | | ... | ramp_up_duration=${ramp_up_duration} +| | | ... | ramp_up_rate=${ramp_up_rate} | | | # Out of several quantities for aborted traffic (duration stretching), | | | # the approximated receive rate is the best estimate we have. | | | Append To List | ${results} | ${result.approximated_receive_rate} @@ -625,6 +646,8 @@ | | [Arguments] | ${rate} | | | | ${ppta} = | Get Packets Per Transaction Aggregated +| | ${ramp_up_duration} = | Get Ramp Up Duration +| | ${ramp_up_rate} = | Get Ramp Up Rate | | ${traffic_directions} = | Get Traffic Directions | | ${transaction_duration} = | Get Transaction Duration | | ${transaction_scale} = | Get Transaction Scale @@ -640,11 +663,14 @@ | | ... | async_call=${True} | | ... | duration_limit=${0.0} | | ... | ppta=${ppta} +| | ... | ramp_up_duration=${ramp_up_duration} +| | ... | ramp_up_rate=${ramp_up_rate} | | ... | traffic_directions=${traffic_directions} | | ... | transaction_duration=${transaction_duration} | | ... | transaction_scale=${transaction_scale} | | ... | transaction_type=${transaction_type} | | ... | use_latency=${use_latency} +| | # TODO: Ramp-up? | Stop Running Traffic | | [Documentation] diff --git a/resources/libraries/robot/performance/performance_vars.robot b/resources/libraries/robot/performance/performance_vars.robot index 4a6d385363..9fff489279 100644 --- a/resources/libraries/robot/performance/performance_vars.robot +++ b/resources/libraries/robot/performance/performance_vars.robot @@ -60,25 +60,46 @@ | | Return From Keyword If | ${max_rate} | ${max_rate} | | Fail | \${max_rate} is not defined. Call Set Max Rate And Jumbo keyword. -| Get Min Rate +| Get Min Rate Hard | | [Documentation] -| | ... | Return a hardcoded value. This is an abstraction, useful in case -| | ... | we start allowing various other overrides or computations. -| | ... | Call this just before calling a Python keyword, -| | ... | as those have restricted access to Robot variables. -| | -| | ... | The return value controls the minimal unidirectional packet rate. -| | ... | The value is also usable for minimal TPS value for ASTF tests. +| | ... | Return a hardcoded value. +| | ... | The return value controls the minimal unidirectional packet rate, +| | ... | to be used anywhere, including latency measurements at 0% load. | | ... | The current value is the smallest one permitted | | ... | by STL profiles with latency streams. | | ... | Return type: float. | | | | ... | *Example:* | | -| | ... | \| \${min_rate} = \| Get Min Rate \| +| | ... | \| \${min_rate_hard} = \| Get Min Rate Hard \| | | | | Return From Keyword | ${9001.0} +| Get Min Rate Soft +| | [Documentation] +| | ... | If ramp up rate is not defined, return the hard min value. +| | ... | If ramp up rate is defined (and larger than hard min), return that. +| | ... | The reason is, ramp up rate should already guarantee no loss. +| | +| | ... | The return value controls the minimal unidirectional packet rate, +| | ... | to be used in various search algorithms. +| | ... | Latency measurements may want even lower loads, use hard min for that. +| | +| | ... | The value is also usable for minimal TPS value for ASTF tests. +| | ... | Return type: float. +| | +| | ... | Currently, undefined ramp up rate is reported as zero, +| | ... | so we return the maximum of ramp up rate and the hard min rate. +| | +| | ... | *Example:* +| | +| | ... | \| \${min_rate_soft} = \| Get Min Rate Soft \| +| | +| | ${min_rate_hard} = | Get Min Rate Hard +| | ${ramp_up_rate} = | Get Ramp Up Rate +| | ${min_rate_soft} = | Evaluate | max(${ramp_up_rate}, ${min_rate_hard}) +| | Return From Keyword | ${min_rate_soft} + | Get Mrr Trial Duration | | [Documentation] | | ... | Return value from Constants. This is an abstraction, useful in case @@ -179,7 +200,7 @@ | | | | ... | The return value determines the required duration of ramp-up phase. | | ... | Typically used to prepare a specific state on DUT. -| | ... | If the value is zero, ramp-up phase is skipped. +| | ... | If the value is zero, ramp-up phase is either skipped or size-limited. | | ... | Return type: float. | | | | ... | *Example:* @@ -192,12 +213,13 @@ | Get Ramp Up Rate | | [Documentation] | | ... | Return value of \${ramp_up_rate}, -| | ... | if not defined return \${max_rate}. +| | ... | if not defined, return zero. | | | | ... | The return value determines the rate for ramp-up phase. | | ... | Typically used to limit the rate when max rate | | ... | would lose packets in the ramp up phase, thus not setting | | ... | the DUT state correctly. +| | ... | If the value is zero, ramp-up phase should be skipped. | | ... | Return type: float. | | | | ... | *Example:* @@ -205,13 +227,12 @@ | | ... | \| \${ramp_up_rate} = \| Get Ramp Up Rate \| | | | | ${ramp_up_rate} = | Get Variable Value | \${ramp_up_rate} | ${0.0} -| | Return From Keyword If | ${ramp_up_rate} | ${ramp_up_rate} -| | Run Keyword And Return | Get Max Rate +| | Return From Keyword | ${ramp_up_rate} | Get Rate For Teardown | | [Documentation] | | ... | Return value of \${rate_for_teardown}, -| | ... | if not defined (or zero) return the min rate. +| | ... | if not defined (or zero) return the soft min rate. | | | | ... | The return value determines the rate for teardown trial, | | ... | that is executed if a perf test fails. @@ -226,7 +247,7 @@ | | | | ${rate_for_teardown} = | Get Variable Value | \${rate_for_teardown} | ${0.0} | | Return From Keyword If | ${rate_for_teardown} | ${rate_for_teardown} -| | Run Keyword And Return | Get Min Rate +| | Run Keyword And Return | Get Min Rate Soft | Get Resetter | | [Documentation] -- cgit 1.2.3-korg