# Copyright (c) 2019 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: # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Algorithms to generate tables. """ import logging import csv import re from string import replace from collections import OrderedDict from numpy import nan, isnan from xml.etree import ElementTree as ET from datetime import datetime as dt from datetime import timedelta from utils import mean, stdev, relative_change, classify_anomalies, \ convert_csv_to_pretty_txt, relative_change_stdev REGEX_NIC = re.compile(r'\d*ge\dp\d\D*\d*') def generate_tables(spec, data): """Generate all tables specified in the specification file. :param spec: Specification read from the specification file. :param data: Data to process. :type spec: Specification :type data: InputData """ logging.info("Generating the tables ...") for table in spec.tables: try: eval(table["algorithm"])(table, data) except NameError as err: logging.error("Probably algorithm '{alg}' is not defined: {err}". format(alg=table["algorithm"], err=repr(err))) logging.info("Done.") def table_details(table, input_data): """Generate the table(s) with algorithm: table_detailed_test_results specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table) # Prepare the header of the tables header = list() for column in table["columns"]: header.append('"{0}"'.format(str(column["title"]).replace('"', '""'))) # Generate the data for the table according to the model in the table # specification job = table["data"].keys()[0] build = str(table["data"][job][0]) try: suites = input_data.suites(job, build) except KeyError: logging.error(" No data available. The table will not be generated.") return for suite_longname, suite in suites.iteritems(): # Generate data suite_name = suite["name"] table_lst = list() for test in data[job][build].keys(): if data[job][build][test]["parent"] in suite_name: row_lst = list() for column in table["columns"]: try: col_data = str(data[job][build][test][column["data"]. split(" ")[1]]).replace('"', '""') if column["data"].split(" ")[1] in ("conf-history", "show-run"): col_data = replace(col_data, " |br| ", "", maxreplace=1) col_data = " |prein| {0} |preout| ".\ format(col_data[:-5]) row_lst.append('"{0}"'.format(col_data)) except KeyError: row_lst.append("No data") table_lst.append(row_lst) # Write the data to file if table_lst: file_name = "{0}_{1}{2}".format(table["output-file"], suite_name, table["output-file-ext"]) logging.info(" Writing file: '{}'".format(file_name)) with open(file_name, "w") as file_handler: file_handler.write(",".join(header) + "\n") for item in table_lst: file_handler.write(",".join(item) + "\n") logging.info(" Done.") def table_merged_details(table, input_data): """Generate the table(s) with algorithm: table_merged_details specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) data = input_data.merge_data(data) data.sort_index(inplace=True) logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) suites = input_data.filter_data( table, continue_on_error=True, data_set="suites") suites = input_data.merge_data(suites) # Prepare the header of the tables header = list() for column in table["columns"]: header.append('"{0}"'.format(str(column["title"]).replace('"', '""'))) for _, suite in suites.iteritems(): # Generate data suite_name = suite["name"] table_lst = list() for test in data.keys(): if data[test]["parent"] in suite_name: row_lst = list() for column in table["columns"]: try: col_data = str(data[test][column["data"]. split(" ")[1]]).replace('"', '""') col_data = replace(col_data, "No Data", "Not Captured ") if column["data"].split(" ")[1] in ("conf-history", "show-run"): col_data = replace(col_data, " |br| ", "", maxreplace=1) col_data = " |prein| {0} |preout| ".\ format(col_data[:-5]) row_lst.append('"{0}"'.format(col_data)) except KeyError: row_lst.append('"Not captured"') table_lst.append(row_lst) # Write the data to file if table_lst: file_name = "{0}_{1}{2}".format(table["output-file"], suite_name, table["output-file-ext"]) logging.info(" Writing file: '{}'".format(file_name)) with open(file_name, "w") as file_handler: file_handler.write(",".join(header) + "\n") for item in table_lst: file_handler.write(",".join(item) + "\n") logging.info(" Done.") def _tpc_modify_test_name(test_name): test_name_mod = test_name.replace("-ndrpdrdisc", ""). \ replace("-ndrpdr", "").replace("-pdrdisc", ""). \ replace("-ndrdisc", "").replace("-pdr", ""). \ replace("-ndr", ""). \ replace("1t1c", "1c").replace("2t1c", "1c"). \ replace("2t2c", "2c").replace("4t2c", "2c"). \ replace("4t4c", "4c").replace("8t4c", "4c") test_name_mod = re.sub(REGEX_NIC, "", test_name_mod) return test_name_mod def _tpc_modify_displayed_test_name(test_name): return test_name.replace("1t1c", "1c").replace("2t1c", "1c"). \ replace("2t2c", "2c").replace("4t2c", "2c"). \ replace("4t4c", "4c").replace("8t4c", "4c") def _tpc_insert_data(target, src, include_tests): try: if include_tests == "MRR": target.append(src["result"]["receive-rate"].avg) elif include_tests == "PDR": target.append(src["throughput"]["PDR"]["LOWER"]) elif include_tests == "NDR": target.append(src["throughput"]["NDR"]["LOWER"]) except (KeyError, TypeError): pass def _tpc_sort_table(table): # Sort the table: # 1. New in CSIT-XXXX # 2. See footnote # 3. Delta tbl_new = list() tbl_see = list() tbl_delta = list() for item in table: if isinstance(item[-1], str): if "New in CSIT" in item[-1]: tbl_new.append(item) elif "See footnote" in item[-1]: tbl_see.append(item) else: tbl_delta.append(item) # Sort the tables: tbl_new.sort(key=lambda rel: rel[0], reverse=False) tbl_see.sort(key=lambda rel: rel[0], reverse=False) tbl_see.sort(key=lambda rel: rel[-1], reverse=False) tbl_delta.sort(key=lambda rel: rel[-1], reverse=True) # Put the tables together: table = list() table.extend(tbl_new) table.extend(tbl_see) table.extend(tbl_delta) return table def table_performance_comparison(table, input_data): """Generate the table(s) with algorithm: table_performance_comparison specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the tables try: header = ["Test case", ] if table["include-tests"] == "MRR": hdr_param = "Rec Rate" else: hdr_param = "Thput" history = table.get("history", None) if history: for item in history: header.extend( ["{0} {1} [Mpps]".format(item["title"], hdr_param), "{0} Stdev [Mpps]".format(item["title"])]) header.extend( ["{0} {1} [Mpps]".format(table["reference"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["reference"]["title"]), "{0} {1} [Mpps]".format(table["compare"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["compare"]["title"]), "Delta [%]"]) header_str = ",".join(header) + "\n" except (AttributeError, KeyError) as err: logging.error("The model is invalid, missing parameter: {0}". format(err)) return # Prepare data to the table: tbl_dict = dict() for job, builds in table["reference"]["data"].items(): topo = "2n-skx" if "2n-skx" in job else "" for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: groups = re.search(REGEX_NIC, tst_data["parent"]) nic = groups.group(0) if groups else "" name = "{0}-{1}".format(nic, "-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} _tpc_insert_data(target=tbl_dict[tst_name_mod]["ref-data"], src=tst_data, include_tests=table["include-tests"]) for job, builds in table["compare"]["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: groups = re.search(REGEX_NIC, tst_data["parent"]) nic = groups.group(0) if groups else "" name = "{0}-{1}".format(nic, "-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} _tpc_insert_data(target=tbl_dict[tst_name_mod]["cmp-data"], src=tst_data, include_tests=table["include-tests"]) replacement = table["compare"].get("data-replacement", None) if replacement: create_new_list = True rpl_data = input_data.filter_data( table, data=replacement, continue_on_error=True) for job, builds in replacement.items(): for build in builds: for tst_name, tst_data in rpl_data[job][str(build)].iteritems(): tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: name = "{0}".format("-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} if create_new_list: create_new_list = False tbl_dict[tst_name_mod]["cmp-data"] = list() _tpc_insert_data(target=tbl_dict[tst_name_mod]["cmp-data"], src=tst_data, include_tests=table["include-tests"]) if history: for item in history: for job, builds in item["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: continue if tbl_dict[tst_name_mod].get("history", None) is None: tbl_dict[tst_name_mod]["history"] = OrderedDict() if tbl_dict[tst_name_mod]["history"].get(item["title"], None) is None: tbl_dict[tst_name_mod]["history"][item["title"]] = \ list() try: # TODO: Re-work when NDRPDRDISC tests are not used if table["include-tests"] == "MRR": tbl_dict[tst_name_mod]["history"][item["title" ]].append(tst_data["result"]["receive-rate"]. avg) elif table["include-tests"] == "PDR": if tst_data["type"] == "PDR": tbl_dict[tst_name_mod]["history"][ item["title"]].\ append(tst_data["throughput"]["value"]) elif tst_data["type"] == "NDRPDR": tbl_dict[tst_name_mod]["history"][item[ "title"]].append(tst_data["throughput"][ "PDR"]["LOWER"]) elif table["include-tests"] == "NDR": if tst_data["type"] == "NDR": tbl_dict[tst_name_mod]["history"][ item["title"]].\ append(tst_data["throughput"]["value"]) elif tst_data["type"] == "NDRPDR": tbl_dict[tst_name_mod]["history"][item[ "title"]].append(tst_data["throughput"][ "NDR"]["LOWER"]) else: continue except (TypeError, KeyError): pass tbl_lst = list() footnote = False for tst_name in tbl_dict.keys(): item = [tbl_dict[tst_name]["name"], ] if history: if tbl_dict[tst_name].get("history", None) is not None: for hist_data in tbl_dict[tst_name]["history"].values(): if hist_data: item.append(round(mean(hist_data) / 1000000, 2)) item.append(round(stdev(hist_data) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) else: item.extend(["Not tested", "Not tested"]) data_t = tbl_dict[tst_name]["ref-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) data_t = tbl_dict[tst_name]["cmp-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) if item[-2] == "Not tested": pass elif item[-4] == "Not tested": item.append("New in CSIT-1908") elif topo == "2n-skx" and "dot1q" in tbl_dict[tst_name]["name"]: item.append("See footnote [1]") footnote = True elif item[-4] != 0: item.append(int(relative_change(float(item[-4]), float(item[-2])))) if (len(item) == len(header)) and (item[-3] != "Not tested"): tbl_lst.append(item) tbl_lst = _tpc_sort_table(tbl_lst) # Generate csv tables: csv_file = "{0}.csv".format(table["output-file"]) with open(csv_file, "w") as file_handler: file_handler.write(header_str) for test in tbl_lst: file_handler.write(",".join([str(item) for item in test]) + "\n") txt_file_name = "{0}.txt".format(table["output-file"]) convert_csv_to_pretty_txt(csv_file, txt_file_name) if footnote: with open(txt_file_name, 'a') as txt_file: txt_file.writelines([ "\nFootnotes:\n", "[1] CSIT-1908 changed test methodology of dot1q tests in " "2-node testbeds, dot1q encapsulation is now used on both " "links of SUT.\n", " Previously dot1q was used only on a single link with the " "other link carrying untagged Ethernet frames. This changes " "results\n", " in slightly lower throughput in CSIT-1908 for these " "tests. See release notes." ]) def table_performance_comparison_nic(table, input_data): """Generate the table(s) with algorithm: table_performance_comparison specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the tables try: header = ["Test case", ] if table["include-tests"] == "MRR": hdr_param = "Rec Rate" else: hdr_param = "Thput" history = table.get("history", None) if history: for item in history: header.extend( ["{0} {1} [Mpps]".format(item["title"], hdr_param), "{0} Stdev [Mpps]".format(item["title"])]) header.extend( ["{0} {1} [Mpps]".format(table["reference"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["reference"]["title"]), "{0} {1} [Mpps]".format(table["compare"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["compare"]["title"]), "Delta [%]"]) header_str = ",".join(header) + "\n" except (AttributeError, KeyError) as err: logging.error("The model is invalid, missing parameter: {0}". format(err)) return # Prepare data to the table: tbl_dict = dict() for job, builds in table["reference"]["data"].items(): topo = "2n-skx" if "2n-skx" in job else "" for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): if table["reference"]["nic"] not in tst_data["tags"]: continue tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: name = "{0}".format("-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} _tpc_insert_data(target=tbl_dict[tst_name_mod]["ref-data"], src=tst_data, include_tests=table["include-tests"]) for job, builds in table["compare"]["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): if table["compare"]["nic"] not in tst_data["tags"]: continue tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: name = "{0}".format("-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} _tpc_insert_data(target=tbl_dict[tst_name_mod]["cmp-data"], src=tst_data, include_tests=table["include-tests"]) replacement = table["compare"].get("data-replacement", None) if replacement: create_new_list = True rpl_data = input_data.filter_data( table, data=replacement, continue_on_error=True) for job, builds in replacement.items(): for build in builds: for tst_name, tst_data in rpl_data[job][str(build)].iteritems(): if table["compare"]["nic"] not in tst_data["tags"]: continue tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: name = "{0}".format("-".join(tst_data["name"]. split("-")[:-1])) if "across testbeds" in table["title"].lower() or \ "across topologies" in table["title"].lower(): name = _tpc_modify_displayed_test_name(name) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} if create_new_list: create_new_list = False tbl_dict[tst_name_mod]["cmp-data"] = list() _tpc_insert_data(target=tbl_dict[tst_name_mod]["cmp-data"], src=tst_data, include_tests=table["include-tests"]) if history: for item in history: for job, builds in item["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): if item["nic"] not in tst_data["tags"]: continue tst_name_mod = _tpc_modify_test_name(tst_name) if "across topologies" in table["title"].lower(): tst_name_mod = tst_name_mod.replace("2n1l-", "") if tbl_dict.get(tst_name_mod, None) is None: continue if tbl_dict[tst_name_mod].get("history", None) is None: tbl_dict[tst_name_mod]["history"] = OrderedDict() if tbl_dict[tst_name_mod]["history"].get(item["title"], None) is None: tbl_dict[tst_name_mod]["history"][item["title"]] = \ list() try: # TODO: Re-work when NDRPDRDISC tests are not used if table["include-tests"] == "MRR": tbl_dict[tst_name_mod]["history"][item["title" ]].append(tst_data["result"]["receive-rate"]. avg) elif table["include-tests"] == "PDR": if tst_data["type"] == "PDR": tbl_dict[tst_name_mod]["history"][ item["title"]].\ append(tst_data["throughput"]["value"]) elif tst_data["type"] == "NDRPDR": tbl_dict[tst_name_mod]["history"][item[ "title"]].append(tst_data["throughput"][ "PDR"]["LOWER"]) elif table["include-tests"] == "NDR": if tst_data["type"] == "NDR": tbl_dict[tst_name_mod]["history"][ item["title"]].\ append(tst_data["throughput"]["value"]) elif tst_data["type"] == "NDRPDR": tbl_dict[tst_name_mod]["history"][item[ "title"]].append(tst_data["throughput"][ "NDR"]["LOWER"]) else: continue except (TypeError, KeyError): pass tbl_lst = list() footnote = False for tst_name in tbl_dict.keys(): item = [tbl_dict[tst_name]["name"], ] if history: if tbl_dict[tst_name].get("history", None) is not None: for hist_data in tbl_dict[tst_name]["history"].values(): if hist_data: item.append(round(mean(hist_data) / 1000000, 2)) item.append(round(stdev(hist_data) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) else: item.extend(["Not tested", "Not tested"]) data_t = tbl_dict[tst_name]["ref-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) data_t = tbl_dict[tst_name]["cmp-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend(["Not tested", "Not tested"]) if item[-2] == "Not tested": pass elif item[-4] == "Not tested": item.append("New in CSIT-1908") elif topo == "2n-skx" and "dot1q" in tbl_dict[tst_name]["name"]: item.append("See footnote [1]") footnote = True elif item[-4] != 0: item.append(int(relative_change(float(item[-4]), float(item[-2])))) if (len(item) == len(header)) and (item[-3] != "Not tested"): tbl_lst.append(item) tbl_lst = _tpc_sort_table(tbl_lst) # Generate csv tables: csv_file = "{0}.csv".format(table["output-file"]) with open(csv_file, "w") as file_handler: file_handler.write(header_str) for test in tbl_lst: file_handler.write(",".join([str(item) for item in test]) + "\n") txt_file_name = "{0}.txt".format(table["output-file"]) convert_csv_to_pretty_txt(csv_file, txt_file_name) if footnote: with open(txt_file_name, 'a') as txt_file: txt_file.writelines([ "\nFootnotes:\n", "[1] CSIT-1908 changed test methodology of dot1q tests in " "2-node testbeds, dot1q encapsulation is now used on both " "links of SUT.\n", " Previously dot1q was used only on a single link with the " "other link carrying untagged Ethernet frames. This changes " "results\n", " in slightly lower throughput in CSIT-1908 for these " "tests. See release notes." ]) def table_nics_comparison(table, input_data): """Generate the table(s) with algorithm: table_nics_comparison specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the tables try: header = ["Test case", ] if table["include-tests"] == "MRR": hdr_param = "Rec Rate" else: hdr_param = "Thput" header.extend( ["{0} {1} [Mpps]".format(table["reference"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["reference"]["title"]), "{0} {1} [Mpps]".format(table["compare"]["title"], hdr_param), "{0} Stdev [Mpps]".format(table["compare"]["title"]), "Delta [%]"]) header_str = ",".join(header) + "\n" except (AttributeError, KeyError) as err: logging.error("The model is invalid, missing parameter: {0}". format(err)) return # Prepare data to the table: tbl_dict = dict() for job, builds in table["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): tst_name_mod = tst_name.replace("-ndrpdrdisc", "").\ replace("-ndrpdr", "").replace("-pdrdisc", "").\ replace("-ndrdisc", "").replace("-pdr", "").\ replace("-ndr", "").\ replace("1t1c", "1c").replace("2t1c", "1c").\ replace("2t2c", "2c").replace("4t2c", "2c").\ replace("4t4c", "4c").replace("8t4c", "4c") tst_name_mod = re.sub(REGEX_NIC, "", tst_name_mod) if tbl_dict.get(tst_name_mod, None) is None: name = "-".join(tst_data["name"].split("-")[:-1]) tbl_dict[tst_name_mod] = {"name": name, "ref-data": list(), "cmp-data": list()} try: if table["include-tests"] == "MRR": result = tst_data["result"]["receive-rate"].avg elif table["include-tests"] == "PDR": result = tst_data["throughput"]["PDR"]["LOWER"] elif table["include-tests"] == "NDR": result = tst_data["throughput"]["NDR"]["LOWER"] else: result = None if result: if table["reference"]["nic"] in tst_data["tags"]: tbl_dict[tst_name_mod]["ref-data"].append(result) elif table["compare"]["nic"] in tst_data["tags"]: tbl_dict[tst_name_mod]["cmp-data"].append(result) except (TypeError, KeyError) as err: logging.debug("No data for {0}".format(tst_name)) logging.debug(repr(err)) # No data in output.xml for this test tbl_lst = list() for tst_name in tbl_dict.keys(): item = [tbl_dict[tst_name]["name"], ] data_t = tbl_dict[tst_name]["ref-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend([None, None]) data_t = tbl_dict[tst_name]["cmp-data"] if data_t: item.append(round(mean(data_t) / 1000000, 2)) item.append(round(stdev(data_t) / 1000000, 2)) else: item.extend([None, None]) if item[-4] is not None and item[-2] is not None and item[-4] != 0: item.append(int(relative_change(float(item[-4]), float(item[-2])))) if len(item) == len(header): tbl_lst.append(item) # Sort the table according to the relative change tbl_lst.sort(key=lambda rel: rel[-1], reverse=True) # Generate csv tables: csv_file = "{0}.csv".format(table["output-file"]) with open(csv_file, "w") as file_handler: file_handler.write(header_str) for test in tbl_lst: file_handler.write(",".join([str(item) for item in test]) + "\n") convert_csv_to_pretty_txt(csv_file, "{0}.txt".format(table["output-file"])) def table_soak_vs_ndr(table, input_data): """Generate the table(s) with algorithm: table_soak_vs_ndr specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the table try: header = [ "Test case", "{0} Thput [Mpps]".format(table["reference"]["title"]), "{0} Stdev [Mpps]".format(table["reference"]["title"]), "{0} Thput [Mpps]".format(table["compare"]["title"]), "{0} Stdev [Mpps]".format(table["compare"]["title"]), "Delta [%]", "Stdev of delta [%]"] header_str = ",".join(header) + "\n" except (AttributeError, KeyError) as err: logging.error("The model is invalid, missing parameter: {0}". format(err)) return # Create a list of available SOAK test results: tbl_dict = dict() for job, builds in table["compare"]["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): if tst_data["type"] == "SOAK": tst_name_mod = tst_name.replace("-soak", "") if tbl_dict.get(tst_name_mod, None) is None: groups = re.search(REGEX_NIC, tst_data["parent"]) nic = groups.group(0) if groups else "" name = "{0}-{1}".format(nic, "-".join(tst_data["name"]. split("-")[:-1])) tbl_dict[tst_name_mod] = { "name": name, "ref-data": list(), "cmp-data": list() } try: tbl_dict[tst_name_mod]["cmp-data"].append( tst_data["throughput"]["LOWER"]) except (KeyError, TypeError): pass tests_lst = tbl_dict.keys() # Add corresponding NDR test results: for job, builds in table["reference"]["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): tst_name_mod = tst_name.replace("-ndrpdr", "").\ replace("-mrr", "") if tst_name_mod in tests_lst: try: if tst_data["type"] in ("NDRPDR", "MRR", "BMRR"): if table["include-tests"] == "MRR": result = tst_data["result"]["receive-rate"].avg elif table["include-tests"] == "PDR": result = tst_data["throughput"]["PDR"]["LOWER"] elif table["include-tests"] == "NDR": result = tst_data["throughput"]["NDR"]["LOWER"] else: result = None if result is not None: tbl_dict[tst_name_mod]["ref-data"].append( result) except (KeyError, TypeError): continue tbl_lst = list() for tst_name in tbl_dict.keys(): item = [tbl_dict[tst_name]["name"], ] data_r = tbl_dict[tst_name]["ref-data"] if data_r: data_r_mean = mean(data_r) item.append(round(data_r_mean / 1000000, 2)) data_r_stdev = stdev(data_r) item.append(round(data_r_stdev / 1000000, 2)) else: data_r_mean = None data_r_stdev = None item.extend([None, None]) data_c = tbl_dict[tst_name]["cmp-data"] if data_c: data_c_mean = mean(data_c) item.append(round(data_c_mean / 1000000, 2)) data_c_stdev = stdev(data_c) item.append(round(data_c_stdev / 1000000, 2)) else: data_c_mean = None data_c_stdev = None item.extend([None, None]) if data_r_mean and data_c_mean: delta, d_stdev = relative_change_stdev( data_r_mean, data_c_mean, data_r_stdev, data_c_stdev) item.append(round(delta, 2)) item.append(round(d_stdev, 2)) tbl_lst.append(item) # Sort the table according to the relative change tbl_lst.sort(key=lambda rel: rel[-1], reverse=True) # Generate csv tables: csv_file = "{0}.csv".format(table["output-file"]) with open(csv_file, "w") as file_handler: file_handler.write(header_str) for test in tbl_lst: file_handler.write(",".join([str(item) for item in test]) + "\n") convert_csv_to_pretty_txt(csv_file, "{0}.txt".format(table["output-file"])) def table_performance_trending_dashboard(table, input_data): """Generate the table(s) with algorithm: table_performance_trending_dashboard specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the tables header = ["Test Case", "Trend [Mpps]", "Short-Term Change [%]", "Long-Term Change [%]", "Regressions [#]", "Progressions [#]" ] header_str = ",".join(header) + "\n" # Prepare data to the table: tbl_dict = dict() for job, builds in table["data"].items(): for build in builds: for tst_name, tst_data in data[job][str(build)].iteritems(): if tst_name.lower() in table.get("ignore-list", list()): continue if tbl_dict.get(tst_name, None) is None: groups = re.search(REGEX_NIC, tst_data["parent"]) if not groups: continue nic = groups.group(0) tbl_dict[tst_name] = { "name": "{0}-{1}".format(nic, tst_data["name"]), "data": OrderedDict()} try: tbl_dict[tst_name]["data"][str(build)] = \ tst_data["result"]["receive-rate"] except (TypeError, KeyError): pass # No data in output.xml for this test tbl_lst = list() for tst_name in tbl_dict.keys(): data_t = tbl_dict[tst_name]["data"] if len(data_t) < 2: continue classification_lst, avgs = classify_anomalies(data_t) win_size = min(len(data_t), table["window"]) long_win_size = min(len(data_t), table["long-trend-window"]) try: max_long_avg = max( [x for x in avgs[-long_win_size:-win_size] if not isnan(x)]) except ValueError: max_long_avg = nan last_avg = avgs[-1] avg_week_ago = avgs[max(-win_size, -len(avgs))] if isnan(last_avg) or isnan(avg_week_ago) or avg_week_ago == 0.0: rel_change_last = nan else: rel_change_last = round( ((last_avg - avg_week_ago) / avg_week_ago) * 100, 2) if isnan(max_long_avg) or isnan(last_avg) or max_long_avg == 0.0: rel_change_long = nan else: rel_change_long = round( ((last_avg - max_long_avg) / max_long_avg) * 100, 2) if classification_lst: if isnan(rel_change_last) and isnan(rel_change_long): continue if (isnan(last_avg) or isnan(rel_change_last) or isnan(rel_change_long)): continue tbl_lst.append( [tbl_dict[tst_name]["name"], round(last_avg / 1000000, 2), rel_change_last, rel_change_long, classification_lst[-win_size:].count("regression"), classification_lst[-win_size:].count("progression")]) tbl_lst.sort(key=lambda rel: rel[0]) tbl_sorted = list() for nrr in range(table["window"], -1, -1): tbl_reg = [item for item in tbl_lst if item[4] == nrr] for nrp in range(table["window"], -1, -1): tbl_out = [item for item in tbl_reg if item[5] == nrp] tbl_out.sort(key=lambda rel: rel[2]) tbl_sorted.extend(tbl_out) file_name = "{0}{1}".format(table["output-file"], table["output-file-ext"]) logging.info(" Writing file: '{0}'".format(file_name)) with open(file_name, "w") as file_handler: file_handler.write(header_str) for test in tbl_sorted: file_handler.write(",".join([str(item) for item in test]) + '\n') txt_file_name = "{0}.txt".format(table["output-file"]) logging.info(" Writing file: '{0}'".format(txt_file_name)) convert_csv_to_pretty_txt(file_name, txt_file_name) def _generate_url(base, testbed, test_name): """Generate URL to a trending plot from the name of the test case. :param base: The base part of URL common to all test cases. :param testbed: The testbed used for testing. :param test_name: The name of the test case. :type base: str :type testbed: str :type test_name: str :returns: The URL to the plot with the trending data for the given test case. :rtype str """ url = base file_name = "" anchor = ".html#" feature = "" if "lbdpdk" in test_name or "lbvpp" in test_name: file_name = "link_bonding" elif "114b" in test_name and "vhost" in test_name: file_name = "vts" elif "testpmd" in test_name or "l3fwd" in test_name: file_name = "dpdk" elif "memif" in test_name: file_name = "container_memif" feature = "-base" elif "srv6" in test_name: file_name = "srv6" elif "vhost" in test_name: if "l2xcbase" in test_name or "l2bdbasemaclrn" in test_name: file_name = "vm_vhost_l2" if "114b" in test_name: feature = "" elif "l2xcbase" in test_name and "x520" in test_name: feature = "-base-l2xc" elif "l2bdbasemaclrn" in test_name and "x520" in test_name: feature = "-base-l2bd" else: feature = "-base" elif "ip4base" in test_name: file_name = "vm_vhost_ip4" feature = "-base" elif "ipsecbasetnlsw" in test_name: file_name = "ipsecsw" feature = "-base-scale" elif "ipsec" in test_name: file_name = "ipsec" feature = "-base-scale" if "hw-" in test_name: file_name = "ipsechw" elif "sw-" in test_name: file_name = "ipsecsw" if "-int-" in test_name: feature = "-base-scale-int" elif "tnl" in test_name: feature = "-base-scale-tnl" elif "ethip4lispip" in test_name or "ethip4vxlan" in test_name: file_name = "ip4_tunnels" feature = "-base" elif "ip4base" in test_name or "ip4scale" in test_name: file_name = "ip4" if "xl710" in test_name: feature = "-base-scale-features" elif "iacl" in test_name: feature = "-features-iacl" elif "oacl" in test_name: feature = "-features-oacl" elif "snat" in test_name or "cop" in test_name: feature = "-features" else: feature = "-base-scale" elif "ip6base" in test_name or "ip6scale" in test_name: file_name = "ip6" feature = "-base-scale" elif "l2xcbase" in test_name or "l2xcscale" in test_name \ or "l2bdbasemaclrn" in test_name or "l2bdscale" in test_name \ or "l2dbbasemaclrn" in test_name or "l2dbscale" in test_name: file_name = "l2" if "macip" in test_name: feature = "-features-macip" elif "iacl" in test_name: feature = "-features-iacl" elif "oacl" in test_name: feature = "-features-oacl" else: feature = "-base-scale" if "x520" in test_name: nic = "x520-" elif "x710" in test_name: nic = "x710-" elif "xl710" in test_name: nic = "xl710-" elif "xxv710" in test_name: nic = "xxv710-" elif "vic1227" in test_name: nic = "vic1227-" elif "vic1385" in test_name: nic = "vic1385-" elif "x553" in test_name: nic = "x553-" else: nic = "" anchor += nic if "64b" in test_name: framesize = "64b" elif "78b" in test_name: framesize = "78b" elif "imix" in test_name: framesize = "imix" elif "9000b" in test_name: framesize = "9000b" elif "1518b" in test_name: framesize = "1518b" elif "114b" in test_name: framesize = "114b" else: framesize = "" anchor += framesize + '-' if "1t1c" in test_name: anchor += "1t1c" elif "2t2c" in test_name: anchor += "2t2c" elif "4t4c" in test_name: anchor += "4t4c" elif "2t1c" in test_name: anchor += "2t1c" elif "4t2c" in test_name: anchor += "4t2c" elif "8t4c" in test_name: anchor += "8t4c" return url + file_name + '-' + testbed + '-' + nic + framesize + \ feature.replace("-int", "").replace("-tnl", "") + anchor + feature def table_performance_trending_dashboard_html(table, input_data): """Generate the table(s) with algorithm: table_performance_trending_dashboard_html specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: dict :type input_data: InputData """ testbed = table.get("testbed", None) if testbed is None: logging.error("The testbed is not defined for the table '{0}'.". format(table.get("title", ""))) return logging.info(" Generating the table {0} ...". format(table.get("title", ""))) try: with open(table["input-file"], 'rb') as csv_file: csv_content = csv.reader(csv_file, delimiter=',', quotechar='"') csv_lst = [item for item in csv_content] except KeyError: logging.warning("The input file is not defined.") return except csv.Error as err: logging.warning("Not possible to process the file '{0}'.\n{1}". format(table["input-file"], err)) return # Table: dashboard = ET.Element("table", attrib=dict(width="100%", border='0')) # Table header: tr = ET.SubElement(dashboard, "tr", attrib=dict(bgcolor="#7eade7")) for idx, item in enumerate(csv_lst[0]): alignment = "left" if idx == 0 else "center" th = ET.SubElement(tr, "th", attrib=dict(align=alignment)) th.text = item # Rows: colors = {"regression": ("#ffcccc", "#ff9999"), "progression": ("#c6ecc6", "#9fdf9f"), "normal": ("#e9f1fb", "#d4e4f7")} for r_idx, row in enumerate(csv_lst[1:]): if int(row[4]): color = "regression" elif int(row[5]): color = "progression" else: color = "normal" background = colors[color][r_idx % 2] tr = ET.SubElement(dashboard, "tr", attrib=dict(bgcolor=background)) # Columns: for c_idx, item in enumerate(row): alignment = "left" if c_idx == 0 else "center" td = ET.SubElement(tr, "td", attrib=dict(align=alignment)) # Name: if c_idx == 0: url = _generate_url("../trending/", testbed, item) ref = ET.SubElement(td, "a", attrib=dict(href=url)) ref.text = item else: td.text = item try: with open(table["output-file"], 'w') as html_file: logging.info(" Writing file: '{0}'".format(table["output-file"])) html_file.write(".. raw:: html\n\n\t") html_file.write(ET.tostring(dashboard)) html_file.write("\n\t



\n") except KeyError: logging.warning("The output file is not defined.") return def table_last_failed_tests(table, input_data): """Generate the table(s) with algorithm: table_last_failed_tests specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) if data is None or data.empty: logging.warn(" No data for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) return tbl_list = list() for job, builds in table["data"].items(): for build in builds: build = str(build) try: version = input_data.metadata(job, build).get("version", "") except KeyError: logging.error("Data for {job}: {build} is not present.". format(job=job, build=build)) return tbl_list.append(build) tbl_list.append(version) for tst_name, tst_data in data[job][build].iteritems(): if tst_data["status"] != "FAIL": continue groups = re.search(REGEX_NIC, tst_data["parent"]) if not groups: continue nic = groups.group(0) tbl_list.append("{0}-{1}".format(nic, tst_data["name"])) file_name = "{0}{1}".format(table["output-file"], table["output-file-ext"]) logging.info(" Writing file: '{0}'".format(file_name)) with open(file_name, "w") as file_handler: for test in tbl_list: file_handler.write(test + '\n') def table_failed_tests(table, input_data): """Generate the table(s) with algorithm: table_failed_tests specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ logging.info(" Generating the table {0} ...". format(table.get("title", ""))) # Transform the data logging.info(" Creating the data set for the {0} '{1}'.". format(table.get("type", ""), table.get("title", ""))) data = input_data.filter_data(table, continue_on_error=True) # Prepare the header of the tables header = ["Test Case", "Failures [#]", "Last Failure [Time]", "Last Failure [VPP-Build-Id]", "Last Failure [CSIT-Job-Build-Id]"] # Generate the data for the table according to the model in the table # specification now = dt.utcnow() timeperiod = timedelta(int(table.get("window", 7))) tbl_dict = dict() for job, builds in table["data"].items(): for build in builds: build = str(build) for tst_name, tst_data in data[job][build].iteritems(): if tst_name.lower() in table.get("ignore-list", list()): continue if tbl_dict.get(tst_name, None) is None: groups = re.search(REGEX_NIC, tst_data["parent"]) if not groups: continue nic = groups.group(0) tbl_dict[tst_name] = { "name": "{0}-{1}".format(nic, tst_data["name"]), "data": OrderedDict()} try: generated = input_data.metadata(job, build).\ get("generated", "") if not generated: continue then = dt.strptime(generated, "%Y%m%d %H:%M") if (now - then) <= timeperiod: tbl_dict[tst_name]["data"][build] = ( tst_data["status"], generated, input_data.metadata(job, build).get("version", ""), build) except (TypeError, KeyError) as err: logging.warning("tst_name: {} - err: {}". format(tst_name, repr(err))) max_fails = 0 tbl_lst = list() for tst_data in tbl_dict.values(): fails_nr = 0 for val in tst_data["data"].values(): if val[0] == "FAIL": fails_nr += 1 fails_last_date = val[1] fails_last_vpp = val[2] fails_last_csit = val[3] if fails_nr: max_fails = fails_nr if fails_nr > max_fails else max_fails tbl_lst.append([tst_data["name"], fails_nr, fails_last_date, fails_last_vpp, "mrr-daily-build-{0}".format(fails_last_csit)]) tbl_lst.sort(key=lambda rel: rel[2], reverse=True) tbl_sorted = list() for nrf in range(max_fails, -1, -1): tbl_fails = [item for item in tbl_lst if item[1] == nrf] tbl_sorted.extend(tbl_fails) file_name = "{0}{1}".format(table["output-file"], table["output-file-ext"]) logging.info(" Writing file: '{0}'".format(file_name)) with open(file_name, "w") as file_handler: file_handler.write(",".join(header) + "\n") for test in tbl_sorted: file_handler.write(",".join([str(item) for item in test]) + '\n') txt_file_name = "{0}.txt".format(table["output-file"]) logging.info(" Writing file: '{0}'".format(txt_file_name)) convert_csv_to_pretty_txt(file_name, txt_file_name) def table_failed_tests_html(table, input_data): """Generate the table(s) with algorithm: table_failed_tests_html specified in the specification file. :param table: Table to generate. :param input_data: Data to process. :type table: pandas.Series :type input_data: InputData """ testbed = table.get("testbed", None) if testbed is None: logging.error("The testbed is not defined for the table '{0}'.". format(table.get("title", ""))) return logging.info(" Generating the table {0} ...". format(table.get("title", ""))) try: with open(table["input-file"], 'rb') as csv_file: csv_content = csv.reader(csv_file, delimiter=',', quotechar='"') csv_lst = [item for item in csv_content] except KeyError: logging.warning("The input file is not defined.") return except csv.Error as err: logging.warning("Not possible to process the file '{0}'.\n{1}". format(table["input-file"], err)) return # Table: failed_tests = ET.Element("table", attrib=dict(width="100%", border='0')) # Table header: tr = ET.SubElement(failed_tests, "tr", attrib=dict(bgcolor="#7eade7")) for idx, item in enumerate(csv_lst[0]): alignment = "left" if idx == 0 else "center" th = ET.SubElement(tr, "th", attrib=dict(align=alignment)) th.text = item # Rows: colors = ("#e9f1fb", "#d4e4f7") for r_idx, row in enumerate(csv_lst[1:]): background = colors[r_idx % 2] tr = ET.SubElement(failed_tests, "tr", attrib=dict(bgcolor=background)) # Columns: for c_idx, item in enumerate(row): alignment = "left" if c_idx == 0 else "center" td = ET.SubElement(tr, "td", attrib=dict(align=alignment)) # Name: if c_idx == 0: url = _generate_url("../trending/", testbed, item) ref = ET.SubElement(td, "a", attrib=dict(href=url)) ref.text = item else: td.text = item try: with open(table["output-file"], 'w') as html_file: logging.info(" Writing file: '{0}'".format(table["output-file"])) html_file.write(".. raw:: html\n\n\t") html_file.write(ET.tostring(failed_tests)) html_file.write("\n\t



\n") except KeyError: logging.warning("The output file is not defined.") return