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-rw-r--r--resources/tools/integrated/compare_perpatch.py173
1 files changed, 116 insertions, 57 deletions
diff --git a/resources/tools/integrated/compare_perpatch.py b/resources/tools/integrated/compare_perpatch.py
index b4d52dcdfe..0adb6ae73e 100644
--- a/resources/tools/integrated/compare_perpatch.py
+++ b/resources/tools/integrated/compare_perpatch.py
@@ -1,4 +1,4 @@
-# Copyright (c) 2021 Cisco and/or its affiliates.
+# Copyright (c) 2023 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:
@@ -13,72 +13,127 @@
"""Script for determining whether per-patch perf test votes -1.
-This script assumes there exist two text files with processed BMRR results,
-located at hardcoded relative paths (subdirs thereof), having several lines
-of json-parseable lists of float values, corresponding to testcase results.
+This script expects a particular tree created on a filesystem by
+per_patch_perf.sh bootstrap script, including test results
+exported as json files according to a current model schema.
+This script extracts the results (according to tresult type)
+and joins them into one list of floats for parent and one for current.
+
This script then uses jumpavg library to determine whether there was
a regression, progression or no change for each testcase.
-If number of tests does not match, or there was a regression,
+
+If the set of test names does not match, or there was a regression,
this script votes -1 (by exiting with code 1), otherwise it votes +1 (exit 0).
"""
import json
+import os
import sys
+from typing import Dict, List
+
from resources.libraries.python import jumpavg
-def main():
- """Execute the main logic, return the code to return as return code.
+def parse(dirpath: str, fake_value: float) -> Dict[str, List[float]]:
+ """Looks for test jsons, extract scalar results.
+
+ Files other than .json are skipped, jsons without test_id are skipped.
+ If the test failed, four fake values are used as a fake result.
+
+ Units are ignored, as both parent and current are tested
+ with the same CSIT code so the unit should be identical.
+
+ :param dirpath: Path to the directory tree to examine.
+ :param fail_value: Fake value to use for test cases that failed.
+ :type dirpath: str
+ :returns: Mapping from test IDs to list of measured values.
+ :rtype: Dict[str, List[float]]
+ :raises RuntimeError: On duplicate test ID or unknown test type.
+ """
+ results = {}
+ for root, _, files in os.walk(dirpath):
+ for filename in files:
+ if not filename.endswith(".json"):
+ continue
+ filepath = os.path.join(root, filename)
+ with open(filepath, "rt", encoding="utf8") as file_in:
+ data = json.load(file_in)
+ if "test_id" not in data:
+ continue
+ name = data["test_id"]
+ if name in results:
+ raise RuntimeError(f"Duplicate: {name}")
+ if not data["passed"]:
+ results[name] = [fake_value] * 4
+ continue
+ result_object = data["result"]
+ result_type = result_object["type"]
+ if result_type == "mrr":
+ results[name] = result_object["receive_rate"]["rate"]["values"]
+ elif result_type == "ndrpdr":
+ results[name] = [result_object["pdr"]["lower"]["rate"]["value"]]
+ elif result_type == "soak":
+ results[name] = [
+ result_object["critical_rate"]["lower"]["rate"]["value"]
+ ]
+ elif result_type == "reconf":
+ results[name] = [result_object["loss"]["time"]["value"]]
+ elif result_type == "hoststack":
+ results[name] = [result_object["bandwidth"]["value"]]
+ else:
+ raise RuntimeError(f"Unknown result type: {result_type}")
+ return results
+
+
+def main() -> int:
+ """Execute the main logic, return a number to return as the return code.
+
+ Call parse to get parent and current data.
+ Use higher fake value for parent, so changes that keep a test failing
+ are marked as regressions.
+
+ If there are multiple iterations, the value lists are joined.
+ For each test, call jumpavg.classify to detect possible regression.
+
+ If there is at least one regression, return 3.
:returns: Return code, 0 or 3 based on the comparison result.
:rtype: int
"""
iteration = -1
- parent_iterations = list()
- current_iterations = list()
- num_tests = None
+ parent_aggregate = {}
+ current_aggregate = {}
+ test_names = None
while 1:
iteration += 1
- parent_lines = list()
- current_lines = list()
- filename = f"csit_parent/{iteration}/results.txt"
- try:
- with open(filename) as parent_file:
- parent_lines = parent_file.readlines()
- except IOError:
+ parent_results = {}
+ current_results = {}
+ parent_results = parse(f"csit_parent/{iteration}", fake_value=2.0)
+ parent_names = set(parent_results.keys())
+ if test_names is None:
+ test_names = parent_names
+ if not parent_names:
+ # No more iterations.
break
- num_lines = len(parent_lines)
- filename = f"csit_current/{iteration}/results.txt"
- with open(filename) as current_file:
- current_lines = current_file.readlines()
- if num_lines != len(current_lines):
- print(
- f"Number of tests does not match within iteration {iteration}",
- file=sys.stderr
- )
- return 1
- if num_tests is None:
- num_tests = num_lines
- elif num_tests != num_lines:
- print(
- f"Number of tests does not match previous at iteration "
- f"{iteration}", file=sys.stderr
- )
- return 1
- parent_iterations.append(parent_lines)
- current_iterations.append(current_lines)
+ assert parent_names == test_names, f"{parent_names} != {test_names}"
+ current_results = parse(f"csit_current/{iteration}", fake_value=1.0)
+ current_names = set(current_results.keys())
+ assert (
+ current_names == parent_names
+ ), f"{current_names} != {parent_names}"
+ for name in test_names:
+ if name not in parent_aggregate:
+ parent_aggregate[name] = []
+ if name not in current_aggregate:
+ current_aggregate[name] = []
+ parent_aggregate[name].extend(parent_results[name])
+ current_aggregate[name].extend(current_results[name])
exit_code = 0
- for test_index in range(num_tests):
- parent_values = list()
- current_values = list()
- for iteration_index, _ in enumerate(parent_iterations):
- parent_values.extend(
- json.loads(parent_iterations[iteration_index][test_index])
- )
- current_values.extend(
- json.loads(current_iterations[iteration_index][test_index])
- )
+ for name in test_names:
+ print(f"Test name: {name}")
+ parent_values = parent_aggregate[name]
+ current_values = current_aggregate[name]
print(f"Time-ordered MRR values for parent build: {parent_values}")
print(f"Time-ordered MRR values for current build: {current_values}")
parent_values = sorted(parent_values)
@@ -87,11 +142,14 @@ def main():
parent_stats = jumpavg.AvgStdevStats.for_runs(parent_values)
current_stats = jumpavg.AvgStdevStats.for_runs(current_values)
parent_group_list = jumpavg.BitCountingGroupList(
- max_value=max_value).append_group_of_runs([parent_stats])
- combined_group_list = parent_group_list.copy(
- ).extend_runs_to_last_group([current_stats])
+ max_value=max_value
+ ).append_group_of_runs([parent_stats])
+ combined_group_list = (
+ parent_group_list.copy().extend_runs_to_last_group([current_stats])
+ )
separated_group_list = parent_group_list.append_group_of_runs(
- [current_stats])
+ [current_stats]
+ )
print(f"Value-ordered MRR values for parent build: {parent_values}")
print(f"Value-ordered MRR values for current build: {current_values}")
avg_diff = (current_stats.avg - parent_stats.avg) / parent_stats.avg
@@ -103,7 +161,7 @@ def main():
f" {combined_group_list[0].stats}"
)
bits_diff = separated_group_list.bits - combined_group_list.bits
- compared = u"longer" if bits_diff >= 0 else u"shorter"
+ compared = "longer" if bits_diff >= 0 else "shorter"
print(
f"Separate groups are {compared} than single group"
f" by {abs(bits_diff)} bits"
@@ -112,16 +170,17 @@ def main():
# That matters if only stats (not list of floats) are given.
classified_list = jumpavg.classify([parent_values, current_values])
if len(classified_list) < 2:
- print(f"Test test_index {test_index}: normal (no anomaly)")
+ print(f"Test {name}: normal (no anomaly)")
continue
anomaly = classified_list[1].comment
- if anomaly == u"regression":
- print(f"Test test_index {test_index}: anomaly regression")
+ if anomaly == "regression":
+ print(f"Test {name}: anomaly regression")
exit_code = 3 # 1 or 2 can be caused by other errors
continue
- print(f"Test test_index {test_index}: anomaly {anomaly}")
+ print(f"Test {name}: anomaly {anomaly}")
print(f"Exit code: {exit_code}")
return exit_code
-if __name__ == u"__main__":
+
+if __name__ == "__main__":
sys.exit(main())