X-Git-Url: https://gerrit.fd.io/r/gitweb?p=csit.git;a=blobdiff_plain;f=resources%2Ftools%2Fpresentation%2Fgenerator_cpta.py;h=4b10440257bd338d030d2cfc3bd68c1d4a877fed;hp=ac0a5c60e17d0c14677f5f203565fdf1ea12da90;hb=1da19da813655f643bc3c6e4d03bed987f076f07;hpb=1945ebc5fe96f2289c6ffc4cc162daa1d3b8658f
diff --git a/resources/tools/presentation/generator_cpta.py b/resources/tools/presentation/generator_cpta.py
index ac0a5c60e1..4b10440257 100644
--- a/resources/tools/presentation/generator_cpta.py
+++ b/resources/tools/presentation/generator_cpta.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:
@@ -14,6 +14,7 @@
"""Generation of Continuous Performance Trending and Analysis.
"""
+import re
import logging
import csv
@@ -30,7 +31,7 @@ from pal_utils import archive_input_data, execute_command, classify_anomalies
# Command to build the html format of the report
-HTML_BUILDER = u'sphinx-build -v -c conf_cpta -a ' \
+HTML_BUILDER = u'sphinx-build -v -c sphinx_conf/trending -a ' \
u'-b html -E ' \
u'-t html ' \
u'-D version="{date}" ' \
@@ -92,20 +93,31 @@ THEME_OVERRIDES = u"""/* override table width restrictions */
}
"""
-COLORS = [
- u"SkyBlue", u"Olive", u"Purple", u"Coral", u"Indigo", u"Pink",
- u"Chocolate", u"Brown", u"Magenta", u"Cyan", u"Orange", u"Black",
- u"Violet", u"Blue", u"Yellow", u"BurlyWood", u"CadetBlue", u"Crimson",
- u"DarkBlue", u"DarkCyan", u"DarkGreen", u"Green", u"GoldenRod",
- u"LightGreen", u"LightSeaGreen", u"LightSkyBlue", u"Maroon",
- u"MediumSeaGreen", u"SeaGreen", u"LightSlateGrey",
- u"SkyBlue", u"Olive", u"Purple", u"Coral", u"Indigo", u"Pink",
- u"Chocolate", u"Brown", u"Magenta", u"Cyan", u"Orange", u"Black",
- u"Violet", u"Blue", u"Yellow", u"BurlyWood", u"CadetBlue", u"Crimson",
- u"DarkBlue", u"DarkCyan", u"DarkGreen", u"Green", u"GoldenRod",
- u"LightGreen", u"LightSeaGreen", u"LightSkyBlue", u"Maroon",
- u"MediumSeaGreen", u"SeaGreen", u"LightSlateGrey"
-]
+COLORS = (
+ u"#1A1110",
+ u"#DA2647",
+ u"#214FC6",
+ u"#01786F",
+ u"#BD8260",
+ u"#FFD12A",
+ u"#A6E7FF",
+ u"#738276",
+ u"#C95A49",
+ u"#FC5A8D",
+ u"#CEC8EF",
+ u"#391285",
+ u"#6F2DA8",
+ u"#FF878D",
+ u"#45A27D",
+ u"#FFD0B9",
+ u"#FD5240",
+ u"#DB91EF",
+ u"#44D7A8",
+ u"#4F86F7",
+ u"#84DE02",
+ u"#FFCFF1",
+ u"#614051"
+)
def generate_cpta(spec, data):
@@ -137,7 +149,7 @@ def generate_cpta(spec, data):
css_file:
css_file.write(THEME_OVERRIDES)
- if spec.configuration.get(u"archive-inputs", True):
+ if spec.environment.get(u"archive-inputs", False):
archive_input_data(spec)
logging.info(u"Done.")
@@ -146,7 +158,7 @@ def generate_cpta(spec, data):
def _generate_trending_traces(in_data, job_name, build_info,
- show_trend_line=True, name=u"", color=u""):
+ name=u"", color=u"", incl_tests=u"mrr"):
"""Generate the trending traces:
- samples,
- outliers, regress, progress
@@ -155,22 +167,30 @@ def _generate_trending_traces(in_data, job_name, build_info,
:param in_data: Full data set.
:param job_name: The name of job which generated the data.
:param build_info: Information about the builds.
- :param show_trend_line: Show moving median (trending plot).
:param name: Name of the plot
:param color: Name of the color for the plot.
+ :param incl_tests: Included tests, accepted values: mrr, ndr, pdr
:type in_data: OrderedDict
:type job_name: str
:type build_info: dict
- :type show_trend_line: bool
:type name: str
:type color: str
+ :type incl_tests: str
:returns: Generated traces (list) and the evaluated result.
:rtype: tuple(traces, result)
"""
+ if incl_tests not in (u"mrr", u"ndr", u"pdr"):
+ return list(), None
+
data_x = list(in_data.keys())
- data_y_pps = list(in_data.values())
- data_y_mpps = [float(item) / 1e6 for item in data_y_pps]
+ 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)
hover_text = list()
xaxis = list()
@@ -178,28 +198,44 @@ def _generate_trending_traces(in_data, job_name, build_info,
str_key = str(key)
date = build_info[job_name][str_key][0]
hover_str = (u"date: {date}
"
- u"value [Mpps]: {value:.3f}
"
+ u"{property} [Mpps]: {value:.3f}
"
+ u""
u"{sut}-ref: {build}
"
- u"csit-ref: mrr-{period}-build-{build_nr}
"
+ u"csit-ref: {test}-{period}-build-{build_nr}
"
u"testbed: {testbed}")
+ if incl_tests == u"mrr":
+ hover_str = hover_str.replace(
+ u"", f"stdev [Mpps]: {data_y_stdev[index]:.3f}
"
+ )
+ else:
+ hover_str = hover_str.replace(u"", u"")
+ 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(
date=date,
+ property=u"average" if incl_tests == u"mrr" else u"throughput",
value=data_y_mpps[index],
sut=u"dpdk",
build=build_info[job_name][str_key][1].rsplit(u'~', 1)[0],
+ test=incl_tests,
period=u"weekly",
build_nr=str_key,
testbed=build_info[job_name][str_key][2]))
elif u"vpp" in job_name:
- hover_text.append(hover_str.format(
+ 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],
- period=u"daily",
+ 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]))
+ 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)
xaxis.append(datetime(int(date[0:4]), int(date[4:6]), int(date[6:8]),
int(date[9:11]), int(date[12:])))
@@ -208,8 +244,14 @@ def _generate_trending_traces(in_data, job_name, build_info,
for key, value in zip(xaxis, data_y_pps):
data_pd[key] = value
- anomaly_classification, avgs_pps = classify_anomalies(data_pd)
+ try:
+ anomaly_classification, avgs_pps, stdevs_pps = \
+ 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]
anomalies = OrderedDict()
anomalies_colors = list()
@@ -221,8 +263,7 @@ 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"outlier", u"regression", u"progression"):
+ if anomaly_classification[index] in (u"regression", u"progression"):
anomalies[key] = value / 1e6
anomalies_colors.append(
anomaly_color[anomaly_classification[index]])
@@ -251,23 +292,30 @@ def _generate_trending_traces(in_data, job_name, build_info,
)
traces = [trace_samples, ]
- if show_trend_line:
- trace_trend = plgo.Scatter(
- x=xaxis,
- y=avgs_mpps,
- mode=u"lines",
- line={
- u"shape": u"linear",
- u"width": 1,
- u"color": color,
- },
- showlegend=False,
- legendgroup=name,
- name=f"{name}",
- text=[f"trend [Mpps]: {avg:.3f}" for avg in avgs_mpps],
- hoverinfo=u"text+name"
+ 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}"
)
- traces.append(trace_trend)
+ trend_hover_text.append(trend_hover_str)
+
+ trace_trend = plgo.Scatter(
+ x=xaxis,
+ y=avgs_mpps,
+ mode=u"lines",
+ line={
+ u"shape": u"linear",
+ u"width": 1,
+ u"color": color,
+ },
+ showlegend=False,
+ legendgroup=name,
+ name=f"{name}",
+ text=trend_hover_text,
+ hoverinfo=u"text+name"
+ )
+ traces.append(trace_trend)
trace_anomalies = plgo.Scatter(
x=list(anomalies.keys()),
@@ -342,182 +390,227 @@ def _generate_all_charts(spec, input_data):
job_name = list(graph[u"data"].keys())[0]
- csv_tbl = list()
- res = dict()
-
# Transform the data
logging.info(
- f" Creating the data set for the {graph.get(u'type', u'')} "
- f"{graph.get(u'title', u'')}."
+ f" Creating the data set for the {graph.get(u'type', u'')} "
+ f"{graph.get(u'title', u'')}."
)
- if graph.get(u"include", None):
- data = input_data.filter_tests_by_name(
- graph,
- params=[u"type", u"result", u"tags"],
- continue_on_error=True
- )
- else:
- data = input_data.filter_data(
- graph,
- params=[u"type", u"result", u"tags"],
- continue_on_error=True)
+ data = input_data.filter_tests_by_name(
+ graph,
+ params=[u"type", u"result", u"throughput", u"tags"],
+ continue_on_error=True
+ )
if data is None or data.empty:
logging.error(u"No data.")
return dict()
- chart_data = dict()
- chart_tags = dict()
- for job, job_data in data.items():
- if job != job_name:
- continue
- for index, bld in job_data.items():
- for test_name, test in bld.items():
- if chart_data.get(test_name, None) is None:
- chart_data[test_name] = OrderedDict()
- try:
- chart_data[test_name][int(index)] = \
- test[u"result"][u"receive-rate"]
- chart_tags[test_name] = test.get(u"tags", None)
- except (KeyError, TypeError):
- pass
-
- # Add items to the csv table:
- for tst_name, tst_data in chart_data.items():
- tst_lst = list()
- for bld in builds_dict[job_name]:
- itm = tst_data.get(int(bld), u'')
- # CSIT-1180: Itm will be list, compute stats.
- tst_lst.append(str(itm))
- csv_tbl.append(f"{tst_name}," + u",".join(tst_lst) + u'\n')
-
- # Generate traces:
- traces = list()
- index = 0
- groups = graph.get(u"groups", None)
- visibility = list()
-
- if groups:
- for group in groups:
- visible = list()
- for tag in group:
+ return_lst = list()
+
+ for ttype in graph.get(u"test-type", (u"mrr", )):
+ for core in graph.get(u"core", tuple()):
+ csv_tbl = list()
+ res = dict()
+ chart_data = dict()
+ chart_tags = dict()
+ for item in graph.get(u"include", tuple()):
+ reg_ex = re.compile(str(item.format(core=core)).lower())
+ for job, job_data in data.items():
+ if job != job_name:
+ continue
+ for index, bld in job_data.items():
+ for test_id, test in bld.items():
+ if not re.match(reg_ex, str(test_id).lower()):
+ continue
+ if chart_data.get(test_id, None) is None:
+ chart_data[test_id] = OrderedDict()
+ try:
+ if ttype == u"mrr":
+ rate = test[u"result"][u"receive-rate"]
+ stdev = \
+ test[u"result"][u"receive-stdev"]
+ elif ttype == u"ndr":
+ rate = \
+ test["throughput"][u"NDR"][u"LOWER"]
+ stdev = float(u"nan")
+ elif ttype == u"pdr":
+ rate = \
+ test["throughput"][u"PDR"][u"LOWER"]
+ stdev = float(u"nan")
+ else:
+ continue
+ chart_data[test_id][int(index)] = {
+ u"receive-rate": rate,
+ u"receive-stdev": stdev
+ }
+ chart_tags[test_id] = \
+ test.get(u"tags", None)
+ except (KeyError, TypeError):
+ pass
+
+ # Add items to the csv table:
+ for tst_name, tst_data in chart_data.items():
+ tst_lst = list()
+ for bld in builds_dict[job_name]:
+ itm = tst_data.get(int(bld), dict())
+ # CSIT-1180: Itm will be list, compute stats.
+ try:
+ tst_lst.append(str(itm.get(u"receive-rate", u"")))
+ except AttributeError:
+ tst_lst.append(u"")
+ csv_tbl.append(f"{tst_name}," + u",".join(tst_lst) + u'\n')
+
+ # Generate traces:
+ traces = list()
+ index = 0
+ groups = graph.get(u"groups", None)
+ visibility = list()
+
+ if groups:
+ for group in groups:
+ visible = list()
+ for tag in group:
+ for tst_name, test_data in chart_data.items():
+ if not test_data:
+ logging.warning(
+ f"No data for the test {tst_name}"
+ )
+ continue
+ if tag not in chart_tags[tst_name]:
+ continue
+ try:
+ trace, rslt = _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=ttype
+ )
+ except IndexError:
+ logging.error(f"Out of colors: index: "
+ f"{index}, test: {tst_name}")
+ index += 1
+ continue
+ traces.extend(trace)
+ visible.extend(
+ [True for _ in range(len(trace))]
+ )
+ res[tst_name] = rslt
+ index += 1
+ break
+ visibility.append(visible)
+ else:
for tst_name, test_data in chart_data.items():
if not test_data:
logging.warning(f"No data for the test {tst_name}")
continue
- if tag not in chart_tags[tst_name]:
- continue
try:
trace, rslt = _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])
+ name=u'-'.join(
+ tst_name.split(u'.')[-1].split(u'-')[2:-1]),
+ color=COLORS[index],
+ incl_tests=ttype
+ )
except IndexError:
- logging.error(f"Out of colors: index: "
- f"{index}, test: {tst_name}")
+ logging.error(
+ f"Out of colors: index: "
+ f"{index}, test: {tst_name}"
+ )
index += 1
continue
traces.extend(trace)
- visible.extend([True for _ in range(len(trace))])
res[tst_name] = rslt
index += 1
- break
- visibility.append(visible)
- else:
- for tst_name, test_data in chart_data.items():
- if not test_data:
- logging.warning(f"No data for the test {tst_name}")
- continue
- try:
- trace, rslt = _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])
- except IndexError:
- logging.error(
- f"Out of colors: index: {index}, test: {tst_name}"
- )
- index += 1
- continue
- traces.extend(trace)
- res[tst_name] = rslt
- index += 1
-
- if traces:
- # Generate the chart:
- try:
- layout = deepcopy(graph[u"layout"])
- except KeyError as err:
- logging.error(u"Finished with error: No layout defined")
- logging.error(repr(err))
- return dict()
- if groups:
- show = list()
- for i in range(len(visibility)):
- visible = list()
- for vis_idx, _ in enumerate(visibility):
- for _ in range(len(visibility[vis_idx])):
- visible.append(i == vis_idx)
- show.append(visible)
-
- buttons = list()
- buttons.append(dict(
- label=u"All",
- method=u"update",
- args=[{u"visible": [True for _ in range(len(show[0]))]}, ]
- ))
- for i in range(len(groups)):
+
+ if traces:
+ # Generate the chart:
try:
- label = graph[u"group-names"][i]
- except (IndexError, KeyError):
- label = f"Group {i + 1}"
- buttons.append(dict(
- label=label,
- method=u"update",
- args=[{u"visible": show[i]}, ]
- ))
-
- layout[u"updatemenus"] = list([
- dict(
- active=0,
- type=u"dropdown",
- direction=u"down",
- xanchor=u"left",
- yanchor=u"bottom",
- x=-0.12,
- y=1.0,
- buttons=buttons
+ layout = deepcopy(graph[u"layout"])
+ except KeyError as err:
+ logging.error(u"Finished with error: No layout defined")
+ logging.error(repr(err))
+ return dict()
+ if groups:
+ show = list()
+ for i in range(len(visibility)):
+ visible = list()
+ for vis_idx, _ in enumerate(visibility):
+ for _ in range(len(visibility[vis_idx])):
+ visible.append(i == vis_idx)
+ show.append(visible)
+
+ buttons = list()
+ buttons.append(dict(
+ label=u"All",
+ method=u"update",
+ args=[{u"visible":
+ [True for _ in range(len(show[0]))]}, ]
+ ))
+ for i in range(len(groups)):
+ try:
+ label = graph[u"group-names"][i]
+ except (IndexError, KeyError):
+ label = f"Group {i + 1}"
+ buttons.append(dict(
+ label=label,
+ method=u"update",
+ args=[{u"visible": show[i]}, ]
+ ))
+
+ layout[u"updatemenus"] = list([
+ dict(
+ active=0,
+ type=u"dropdown",
+ direction=u"down",
+ xanchor=u"left",
+ yanchor=u"bottom",
+ x=-0.12,
+ y=1.0,
+ buttons=buttons
+ )
+ ])
+
+ name_file = (
+ f"{spec.cpta[u'output-file']}/"
+ f"{graph[u'output-file-name']}.html"
)
- ])
+ name_file = name_file.format(core=core, test_type=ttype)
- name_file = (
- f"{spec.cpta[u'output-file']}/{graph[u'output-file-name']}"
- f"{spec.cpta[u'output-file-type']}")
+ logging.info(f" Writing the file {name_file}")
+ plpl = plgo.Figure(data=traces, 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.")
- logging.info(f" Writing the file {name_file} ...")
- plpl = plgo.Figure(data=traces, 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,
+ u"csv_table": csv_tbl,
+ u"results": res
+ }
+ )
- return {u"job_name": job_name, u"csv_table": csv_tbl, u"results": res}
+ return return_lst
builds_dict = dict()
- for job in spec.input[u"builds"].keys():
+ for job, builds in spec.input.items():
if builds_dict.get(job, None) is None:
builds_dict[job] = list()
- for build in spec.input[u"builds"][job]:
- status = build[u"status"]
- if status not in (u"failed", u"not found", u"removed", None):
+ for build in builds:
+ if build[u"status"] not in (u"failed", u"not found", u"removed",
+ None):
builds_dict[job].append(str(build[u"build"]))
# Create "build ID": "date" dict:
@@ -554,15 +647,17 @@ def _generate_all_charts(spec, input_data):
csv_tables[job_name].append(header)
for chart in spec.cpta[u"plots"]:
- result = _generate_chart(chart)
- if not result:
+ results = _generate_chart(chart)
+ if not results:
continue
- csv_tables[result[u"job_name"]].extend(result[u"csv_table"])
+ for result in results:
+ csv_tables[result[u"job_name"]].extend(result[u"csv_table"])
- if anomaly_classifications.get(result[u"job_name"], None) is None:
- anomaly_classifications[result[u"job_name"]] = dict()
- anomaly_classifications[result[u"job_name"]].update(result[u"results"])
+ if anomaly_classifications.get(result[u"job_name"], None) is None:
+ anomaly_classifications[result[u"job_name"]] = dict()
+ anomaly_classifications[result[u"job_name"]].\
+ update(result[u"results"])
# Write the tables:
for job_name, csv_table in csv_tables.items():