X-Git-Url: https://gerrit.fd.io/r/gitweb?p=csit.git;a=blobdiff_plain;f=resources%2Ftools%2Fpresentation%2Fgenerator_cpta.py;h=923d56bf4252d3cd7941099f8071280c1f0085e2;hp=997333a769b6c4862bf8bb6c9fbadc4611385052;hb=e8cf3c940355454a9dfe000f6056581a0f8e5583;hpb=a4fe771848907ee4a551cf06432f1ec6da496608
diff --git a/resources/tools/presentation/generator_cpta.py b/resources/tools/presentation/generator_cpta.py
index 997333a769..923d56bf42 100644
--- a/resources/tools/presentation/generator_cpta.py
+++ b/resources/tools/presentation/generator_cpta.py
@@ -13,7 +13,6 @@
"""Generation of Continuous Performance Trending and Analysis.
"""
-
import re
import logging
import csv
@@ -21,6 +20,7 @@ import csv
from collections import OrderedDict
from datetime import datetime
from copy import deepcopy
+from os import listdir
import prettytable
import plotly.offline as ploff
@@ -180,25 +180,32 @@ def _generate_trending_traces(in_data, job_name, build_info,
:rtype: tuple(traces, result)
"""
- if incl_tests not in (u"mrr", u"ndr", u"pdr"):
+ if incl_tests not in (u"mrr", u"ndr", u"pdr", u"pdr-lat"):
return list(), None
data_x = list(in_data.keys())
data_y_pps = list()
data_y_mpps = list()
data_y_stdev = list()
- for item in in_data.values():
- data_y_pps.append(float(item[u"receive-rate"]))
- data_y_stdev.append(float(item[u"receive-stdev"]) / 1e6)
- data_y_mpps.append(float(item[u"receive-rate"]) / 1e6)
-
+ if incl_tests == u"pdr-lat":
+ for item in in_data.values():
+ data_y_pps.append(float(item.get(u"lat_1", u"nan")) / 1e6)
+ data_y_stdev.append(float(u"nan"))
+ data_y_mpps.append(float(item.get(u"lat_1", u"nan")) / 1e6)
+ multi = 1.0
+ else:
+ for item in in_data.values():
+ data_y_pps.append(float(item[u"receive-rate"]))
+ data_y_stdev.append(float(item[u"receive-stdev"]) / 1e6)
+ data_y_mpps.append(float(item[u"receive-rate"]) / 1e6)
+ multi = 1e6
hover_text = list()
xaxis = list()
for index, key in enumerate(data_x):
str_key = str(key)
date = build_info[job_name][str_key][0]
hover_str = (u"date: {date}
"
- u"{property} [Mpps]: {value:.3f}
"
+ u"{property} [Mpps]:
"
u""
u"{sut}-ref: {build}
"
u"csit-ref: {test}-{period}-build-{build_nr}
"
@@ -209,10 +216,26 @@ def _generate_trending_traces(in_data, job_name, build_info,
)
else:
hover_str = hover_str.replace(u"", u"")
+ if incl_tests == u"pdr-lat":
+ hover_str = hover_str.replace(u"", u"{value:.1e}")
+ else:
+ hover_str = hover_str.replace(u"", u"{value:.3f}")
if u"-cps" in name:
- hover_str = hover_str.replace(u"[Mpps]", u"[Mcps]")
- if u"dpdk" in job_name:
- hover_text.append(hover_str.format(
+ hover_str = hover_str.replace(u"[Mpps]", u"[Mcps]").\
+ replace(u"throughput", u"connection rate")
+ if u"vpp" in job_name:
+ hover_str = hover_str.format(
+ date=date,
+ property=u"average" if incl_tests == u"mrr" else u"throughput",
+ value=data_y_mpps[index],
+ sut=u"vpp",
+ build=build_info[job_name][str_key][1].rsplit(u'~', 1)[0],
+ test=incl_tests,
+ period=u"daily" if incl_tests == u"mrr" else u"weekly",
+ build_nr=str_key,
+ testbed=build_info[job_name][str_key][2])
+ elif u"dpdk" in job_name:
+ hover_str = hover_str.format(
date=date,
property=u"average" if incl_tests == u"mrr" else u"throughput",
value=data_y_mpps[index],
@@ -221,22 +244,23 @@ def _generate_trending_traces(in_data, job_name, build_info,
test=incl_tests,
period=u"weekly",
build_nr=str_key,
- testbed=build_info[job_name][str_key][2]))
- elif u"vpp" in job_name:
+ testbed=build_info[job_name][str_key][2])
+ elif u"trex" in job_name:
hover_str = hover_str.format(
date=date,
property=u"average" if incl_tests == u"mrr" else u"throughput",
value=data_y_mpps[index],
- sut=u"vpp",
- build=build_info[job_name][str_key][1].rsplit(u'~', 1)[0],
+ sut=u"trex",
+ build=u"",
test=incl_tests,
period=u"daily" if incl_tests == u"mrr" else u"weekly",
build_nr=str_key,
testbed=build_info[job_name][str_key][2])
- if u"-cps" in name:
- hover_str = hover_str.replace(u"throughput", u"connection rate")
- hover_text.append(hover_str)
-
+ if incl_tests == u"pdr-lat":
+ hover_str = hover_str.replace(
+ u"throughput [Mpps]", u"latency [s]"
+ )
+ hover_text.append(hover_str)
xaxis.append(datetime(int(date[0:4]), int(date[4:6]), int(date[6:8]),
int(date[9:11]), int(date[12:])))
@@ -249,9 +273,9 @@ def _generate_trending_traces(in_data, job_name, build_info,
classify_anomalies(data_pd)
except ValueError as err:
logging.info(f"{err} Skipping")
- return
- avgs_mpps = [avg_pps / 1e6 for avg_pps in avgs_pps]
- stdevs_mpps = [stdev_pps / 1e6 for stdev_pps in stdevs_pps]
+ return list(), None
+ avgs_mpps = [avg_pps / multi for avg_pps in avgs_pps]
+ stdevs_mpps = [stdev_pps / multi for stdev_pps in stdevs_pps]
anomalies = OrderedDict()
anomalies_colors = list()
@@ -264,7 +288,7 @@ def _generate_trending_traces(in_data, job_name, build_info,
if anomaly_classification:
for index, (key, value) in enumerate(data_pd.items()):
if anomaly_classification[index] in (u"regression", u"progression"):
- anomalies[key] = value / 1e6
+ anomalies[key] = value / multi
anomalies_colors.append(
anomaly_color[anomaly_classification[index]])
anomalies_avgs.append(avgs_mpps[index])
@@ -294,10 +318,15 @@ def _generate_trending_traces(in_data, job_name, build_info,
trend_hover_text = list()
for idx in range(len(data_x)):
- trend_hover_str = (
- f"trend [Mpps]: {avgs_mpps[idx]:.3f}
"
- f"stdev [Mpps]: {stdevs_mpps[idx]:.3f}"
- )
+ if incl_tests == u"pdr-lat":
+ trend_hover_str = (
+ f"trend [s]: {avgs_mpps[idx]:.1e}
"
+ )
+ else:
+ trend_hover_str = (
+ f"trend [Mpps]: {avgs_mpps[idx]:.3f}
"
+ f"stdev [Mpps]: {stdevs_mpps[idx]:.3f}"
+ )
trend_hover_text.append(trend_hover_str)
trace_trend = plgo.Scatter(
@@ -317,6 +346,26 @@ def _generate_trending_traces(in_data, job_name, build_info,
)
traces.append(trace_trend)
+ if incl_tests == u"pdr-lat":
+ colorscale = [
+ [0.00, u"green"],
+ [0.33, u"green"],
+ [0.33, u"white"],
+ [0.66, u"white"],
+ [0.66, u"red"],
+ [1.00, u"red"]
+ ]
+ ticktext = [u"Progression", u"Normal", u"Regression"]
+ else:
+ colorscale = [
+ [0.00, u"red"],
+ [0.33, u"red"],
+ [0.33, u"white"],
+ [0.66, u"white"],
+ [0.66, u"green"],
+ [1.00, u"green"]
+ ]
+ ticktext = [u"Regression", u"Normal", u"Progression"]
trace_anomalies = plgo.Scatter(
x=list(anomalies.keys()),
y=anomalies_avgs,
@@ -329,14 +378,7 @@ def _generate_trending_traces(in_data, job_name, build_info,
u"size": 15,
u"symbol": u"circle-open",
u"color": anomalies_colors,
- u"colorscale": [
- [0.00, u"red"],
- [0.33, u"red"],
- [0.33, u"white"],
- [0.66, u"white"],
- [0.66, u"green"],
- [1.00, u"green"]
- ],
+ u"colorscale": colorscale,
u"showscale": True,
u"line": {
u"width": 2
@@ -351,7 +393,7 @@ def _generate_trending_traces(in_data, job_name, build_info,
},
u"tickmode": u"array",
u"tickvals": [0.167, 0.500, 0.833],
- u"ticktext": [u"Regression", u"Normal", u"Progression"],
+ u"ticktext": ticktext,
u"ticks": u"",
u"ticklen": 0,
u"tickangle": -90,
@@ -474,12 +516,18 @@ def _generate_all_charts(spec, input_data):
# CSIT-1180: Itm will be list, compute stats.
try:
tst_lst.append(str(itm.get(u"receive-rate", u"")))
- tst_lst_lat_1.append(str(itm.get(u"lat_1", u"")))
- tst_lst_lat_2.append(str(itm.get(u"lat_2", u"")))
+ if ttype == u"pdr":
+ tst_lst_lat_1.append(
+ str(itm.get(u"lat_1", u""))
+ )
+ tst_lst_lat_2.append(
+ str(itm.get(u"lat_2", u""))
+ )
except AttributeError:
tst_lst.append(u"")
- tst_lst_lat_1.append(u"")
- tst_lst_lat_2.append(u"")
+ if ttype == u"pdr":
+ tst_lst_lat_1.append(u"")
+ tst_lst_lat_2.append(u"")
csv_tbl.append(f"{tst_name}," + u",".join(tst_lst) + u'\n')
csv_tbl_lat_1.append(
f"{tst_name}," + u",".join(tst_lst_lat_1) + u"\n"
@@ -490,6 +538,7 @@ def _generate_all_charts(spec, input_data):
# Generate traces:
traces = list()
+ traces_lat = list()
index = 0
groups = graph.get(u"groups", None)
visibility = list()
@@ -544,6 +593,18 @@ def _generate_all_charts(spec, input_data):
color=COLORS[index],
incl_tests=ttype
)
+ if ttype == u"pdr":
+ trace_lat, _ = _generate_trending_traces(
+ test_data,
+ job_name=job_name,
+ build_info=build_info,
+ name=u'-'.join(
+ tst_name.split(u'.')[-1].split(
+ u'-')[2:-1]),
+ color=COLORS[index],
+ incl_tests=u"pdr-lat"
+ )
+ traces_lat.extend(trace_lat)
except IndexError:
logging.error(
f"Out of colors: index: "
@@ -621,6 +682,33 @@ def _generate_all_charts(spec, input_data):
except plerr.PlotlyEmptyDataError:
logging.warning(u"No data for the plot. Skipped.")
+ if traces_lat:
+ try:
+ layout = deepcopy(graph[u"layout"])
+ layout[u"yaxis"][u"title"] = u"Latency [s]"
+ layout[u"yaxis"][u"tickformat"] = u".3s"
+ except KeyError as err:
+ logging.error(u"Finished with error: No layout defined")
+ logging.error(repr(err))
+ return dict()
+ name_file = (
+ f"{spec.cpta[u'output-file']}/"
+ f"{graph[u'output-file-name']}-lat.html"
+ )
+ name_file = name_file.format(core=core, test_type=ttype)
+
+ logging.info(f" Writing the file {name_file}")
+ plpl = plgo.Figure(data=traces_lat, layout=layout)
+ try:
+ ploff.plot(
+ plpl,
+ show_link=False,
+ auto_open=False,
+ filename=name_file
+ )
+ except plerr.PlotlyEmptyDataError:
+ logging.warning(u"No data for the plot. Skipped.")
+
return_lst.append(
{
u"job_name": job_name,
@@ -750,22 +838,74 @@ def _generate_all_charts(spec, input_data):
# Evaluate result:
if anomaly_classifications:
+ legend_str = (f"Legend:\n[ Last trend in Mpps/Mcps | number of runs for"
+ f" last trend | ")
result = u"PASS"
for job_name, job_data in anomaly_classifications.items():
+ data = []
+ tb = u"-".join(job_name.split(u"-")[-2:])
+ for file in listdir(f"{spec.cpta[u'output-file']}"):
+ if tb in file and u"performance-trending-dashboard" in \
+ file and u"txt" in file:
+ file_to_read = f"{spec.cpta[u'output-file']}/{file}"
+ with open(f"{file_to_read}", u"rt") as input:
+ data = data + input.readlines()
file_name = \
f"{spec.cpta[u'output-file']}/regressions-{job_name}.txt"
with open(file_name, u'w') as txt_file:
for test_name, classification in job_data.items():
if classification == u"regression":
- txt_file.write(test_name + u'\n')
+ if u"2n" in test_name:
+ test_name = test_name.split("-", 2)
+ tst = test_name[2].split(".")[-1]
+ nic = test_name[1]
+ tst_name = f"{nic}-{tst}"
+ else:
+ test_name = test_name.split("-", 1)
+ tst = test_name[1].split(".")[-1]
+ nic = test_name[0].split(".")[-1]
+ tst_name = f"{nic}-{tst}"
+
+ for line in data:
+ if tst_name in line:
+ line = line.replace(" ", "")
+ trend = line.split("|")[2]
+ number = line.split("|")[3]
+ ltc = line.split("|")[4]
+ txt_file.write(f"{tst_name} [ {trend}M | "
+ f"#{number} | {ltc}% ]\n")
+
if classification in (u"regression", u"outlier"):
result = u"FAIL"
+
+ txt_file.write(f"\n{legend_str}regression in percentage ]")
+
file_name = \
f"{spec.cpta[u'output-file']}/progressions-{job_name}.txt"
with open(file_name, u'w') as txt_file:
for test_name, classification in job_data.items():
if classification == u"progression":
- txt_file.write(test_name + u'\n')
+ if u"2n" in test_name:
+ test_name = test_name.split("-", 2)
+ tst = test_name[2].split(".")[-1]
+ nic = test_name[1]
+ tst_name = f"{nic}-{tst}"
+ else:
+ test_name = test_name.split("-", 1)
+ tst = test_name[1].split(".")[-1]
+ nic = test_name[0].split(".")[-1]
+ tst_name = f"{nic}-{tst}"
+
+ for line in data:
+ if tst_name in line:
+ line = line.replace(" ", "")
+ trend = line.split("|")[2]
+ number = line.split("|")[3]
+ ltc = line.split("|")[4]
+ txt_file.write(f"{tst_name} [ {trend}M | "
+ f"#{number} | {ltc}% ]\n")
+
+ txt_file.write(f"\n{legend_str}progression in percentage ]")
else:
result = u"FAIL"