gecko-dev/testing/testinfo.py

957 строки
38 KiB
Python

# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import datetime
import errno
import json
import os
import posixpath
import re
import subprocess
from collections import defaultdict
import mozpack.path as mozpath
import requests
import six.moves.urllib_parse as urlparse
from mozbuild.base import MachCommandConditions as conditions
from mozbuild.base import MozbuildObject
from mozfile import which
from moztest.resolve import TestManifestLoader, TestResolver
from redo import retriable
REFERER = "https://wiki.developer.mozilla.org/en-US/docs/Mozilla/Test-Info"
MAX_DAYS = 30
class TestInfo(object):
"""
Support 'mach test-info'.
"""
def __init__(self, verbose):
self.verbose = verbose
here = os.path.abspath(os.path.dirname(__file__))
self.build_obj = MozbuildObject.from_environment(cwd=here)
def log_verbose(self, what):
if self.verbose:
print(what)
class TestInfoTests(TestInfo):
"""
Support 'mach test-info tests': Detailed report of specified tests.
"""
def __init__(self, verbose):
TestInfo.__init__(self, verbose)
self._hg = None
if conditions.is_hg(self.build_obj):
self._hg = which("hg")
if not self._hg:
raise OSError(errno.ENOENT, "Could not find 'hg' on PATH.")
self._git = None
if conditions.is_git(self.build_obj):
self._git = which("git")
if not self._git:
raise OSError(errno.ENOENT, "Could not find 'git' on PATH.")
def find_in_hg_or_git(self, test_name):
if self._hg:
cmd = [self._hg, "files", "-I", test_name]
elif self._git:
cmd = [self._git, "ls-files", test_name]
else:
return None
try:
out = subprocess.check_output(cmd, universal_newlines=True).splitlines()
except subprocess.CalledProcessError:
out = None
return out
def set_test_name(self):
# Generating a unified report for a specific test is complicated
# by differences in the test name used in various data sources.
# Consider:
# - It is often convenient to request a report based only on
# a short file name, rather than the full path;
# - Bugs may be filed in bugzilla against a simple, short test
# name or the full path to the test;
# This function attempts to find appropriate names for different
# queries based on the specified test name.
# full_test_name is full path to file in hg (or git)
self.full_test_name = None
out = self.find_in_hg_or_git(self.test_name)
if out and len(out) == 1:
self.full_test_name = out[0]
elif out and len(out) > 1:
print("Ambiguous test name specified. Found:")
for line in out:
print(line)
else:
out = self.find_in_hg_or_git("**/%s*" % self.test_name)
if out and len(out) == 1:
self.full_test_name = out[0]
elif out and len(out) > 1:
print("Ambiguous test name. Found:")
for line in out:
print(line)
if self.full_test_name:
self.full_test_name.replace(os.sep, posixpath.sep)
print("Found %s in source control." % self.full_test_name)
else:
print("Unable to validate test name '%s'!" % self.test_name)
self.full_test_name = self.test_name
# search for full_test_name in test manifests
here = os.path.abspath(os.path.dirname(__file__))
resolver = TestResolver.from_environment(
cwd=here, loader_cls=TestManifestLoader
)
relpath = self.build_obj._wrap_path_argument(self.full_test_name).relpath()
tests = list(resolver.resolve_tests(paths=[relpath]))
if len(tests) == 1:
relpath = self.build_obj._wrap_path_argument(tests[0]["manifest"]).relpath()
print("%s found in manifest %s" % (self.full_test_name, relpath))
if tests[0].get("flavor"):
print(" flavor: %s" % tests[0]["flavor"])
if tests[0].get("skip-if"):
print(" skip-if: %s" % tests[0]["skip-if"])
if tests[0].get("fail-if"):
print(" fail-if: %s" % tests[0]["fail-if"])
elif len(tests) == 0:
print("%s not found in any test manifest!" % self.full_test_name)
else:
print("%s found in more than one manifest!" % self.full_test_name)
# short_name is full_test_name without path
self.short_name = None
name_idx = self.full_test_name.rfind("/")
if name_idx > 0:
self.short_name = self.full_test_name[name_idx + 1 :]
if self.short_name and self.short_name == self.test_name:
self.short_name = None
def get_platform(self, record):
if "platform" in record["build"]:
platform = record["build"]["platform"]
else:
platform = "-"
platform_words = platform.split("-")
types_label = ""
# combine run and build types and eliminate duplicates
run_types = []
if "run" in record and "type" in record["run"]:
run_types = record["run"]["type"]
run_types = run_types if isinstance(run_types, list) else [run_types]
build_types = []
if "build" in record and "type" in record["build"]:
build_types = record["build"]["type"]
build_types = (
build_types if isinstance(build_types, list) else [build_types]
)
run_types = list(set(run_types + build_types))
# '1proc' is used as a treeherder label but does not appear in run types
if "e10s" not in run_types:
run_types = run_types + ["1proc"]
for run_type in run_types:
# chunked is not interesting
if run_type == "chunked":
continue
# e10s is the default: implied
if run_type == "e10s":
continue
# sometimes a build/run type is already present in the build platform
if run_type in platform_words:
continue
if types_label:
types_label += "-"
types_label += run_type
return "%s/%s:" % (platform, types_label)
def report_bugs(self):
# Report open bugs matching test name
search = self.full_test_name
if self.test_name:
search = "%s,%s" % (search, self.test_name)
if self.short_name:
search = "%s,%s" % (search, self.short_name)
payload = {"quicksearch": search, "include_fields": "id,summary"}
response = requests.get("https://bugzilla.mozilla.org/rest/bug", payload)
response.raise_for_status()
json_response = response.json()
print("\nBugzilla quick search for '%s':" % search)
if "bugs" in json_response:
for bug in json_response["bugs"]:
print("Bug %s: %s" % (bug["id"], bug["summary"]))
else:
print("No bugs found.")
def report(
self,
test_names,
start,
end,
show_info,
show_bugs,
):
self.start = start
self.end = end
self.show_info = show_info
if not self.show_info and not show_bugs:
# by default, show everything
self.show_info = True
show_bugs = True
for test_name in test_names:
print("===== %s =====" % test_name)
self.test_name = test_name
if len(self.test_name) < 6:
print("'%s' is too short for a test name!" % self.test_name)
continue
self.set_test_name()
if show_bugs:
self.report_bugs()
class TestInfoReport(TestInfo):
"""
Support 'mach test-info report': Report of test runs summarized by
manifest and component.
"""
def __init__(self, verbose):
TestInfo.__init__(self, verbose)
self.threads = []
@retriable(attempts=3, sleeptime=5, sleepscale=2)
def get_url(self, target_url):
# if we fail to get valid json (i.e. end point has malformed data), return {}
retVal = {}
try:
self.log_verbose("getting url: %s" % target_url)
r = requests.get(target_url, headers={"User-agent": "mach-test-info/1.0"})
self.log_verbose("got status: %s" % r.status_code)
r.raise_for_status()
retVal = r.json()
except json.decoder.JSONDecodeError:
self.log_verbose("Error retrieving data from %s" % target_url)
return retVal
def update_report(self, by_component, result, path_mod):
def update_item(item, label, value):
# It is important to include any existing item value in case ActiveData
# returns multiple records for the same test; that can happen if the report
# sometimes maps more than one ActiveData record to the same path.
new_value = item.get(label, 0) + value
if type(new_value) == int:
item[label] = new_value
else:
item[label] = float(round(new_value, 2)) # pylint: disable=W1633
if "test" in result and "tests" in by_component:
test = result["test"]
if path_mod:
test = path_mod(test)
for bc in by_component["tests"]:
for item in by_component["tests"][bc]:
if test == item["test"]:
# pylint: disable=W1633
seconds = float(round(result.get("duration", 0), 2))
update_item(item, "total run time, seconds", seconds)
update_item(item, "total runs", result.get("count", 0))
update_item(item, "skipped runs", result.get("skips", 0))
update_item(item, "failed runs", result.get("failures", 0))
return True
return False
def path_mod_reftest(self, path):
# "<path1> == <path2>" -> "<path1>"
path = path.split(" ")[0]
# "<path>?<params>" -> "<path>"
path = path.split("?")[0]
# "<path>#<fragment>" -> "<path>"
path = path.split("#")[0]
return path
def path_mod_jsreftest(self, path):
# "<path>;assert" -> "<path>"
path = path.split(";")[0]
return path
def path_mod_marionette(self, path):
# "<path> <test-name>" -> "<path>"
path = path.split(" ")[0]
# "part1\part2" -> "part1/part2"
path = path.replace("\\", os.path.sep)
return path
def path_mod_wpt(self, path):
if path[0] == os.path.sep:
# "/<path>" -> "<path>"
path = path[1:]
# "<path>" -> "testing/web-platform/tests/<path>"
path = os.path.join("testing", "web-platform", "tests", path)
# "<path>?<params>" -> "<path>"
path = path.split("?")[0]
return path
def path_mod_jittest(self, path):
# "part1\part2" -> "part1/part2"
path = path.replace("\\", os.path.sep)
# "<path>" -> "js/src/jit-test/tests/<path>"
return os.path.join("js", "src", "jit-test", "tests", path)
def path_mod_xpcshell(self, path):
# <manifest>.{ini|toml}:<path> -> "<path>"
path = path.split(":")[-1]
return path
def description(
self,
components,
flavor,
subsuite,
paths,
show_manifests,
show_tests,
show_summary,
show_annotations,
filter_values,
filter_keys,
start_date,
end_date,
):
# provide a natural language description of the report options
what = []
if show_manifests:
what.append("test manifests")
if show_tests:
what.append("tests")
if show_annotations:
what.append("test manifest annotations")
if show_summary and len(what) == 0:
what.append("summary of tests only")
if len(what) > 1:
what[-1] = "and " + what[-1]
what = ", ".join(what)
d = "Test summary report for " + what
if components:
d += ", in specified components (%s)" % components
else:
d += ", in all components"
if flavor:
d += ", in specified flavor (%s)" % flavor
if subsuite:
d += ", in specified subsuite (%s)" % subsuite
if paths:
d += ", on specified paths (%s)" % paths
if filter_values:
d += ", containing '%s'" % filter_values
if filter_keys:
d += " in manifest keys '%s'" % filter_keys
else:
d += " in any part of manifest entry"
d += ", including historical run-time data for the last "
start = datetime.datetime.strptime(start_date, "%Y-%m-%d")
end = datetime.datetime.strptime(end_date, "%Y-%m-%d")
d += "%s days on trunk (autoland/m-c)" % ((end - start).days)
d += " as of %s." % end_date
return d
# TODO: this is hacked for now and very limited
def parse_test(self, summary):
if summary.endswith("single tracking bug"):
name_part = summary.split("|")[0] # remove 'single tracking bug'
name_part.strip()
return name_part.split()[-1] # get just the test name, not extra words
return None
def get_runcount_data(self, runcounts_input_file, start, end):
# TODO: use start/end properly
if runcounts_input_file:
try:
with open(runcounts_input_file, "r") as f:
runcounts = json.load(f)
except:
print("Unable to load runcounts from path: %s" % runcounts_input_file)
raise
else:
runcounts = self.get_runcounts(days=MAX_DAYS)
runcounts = self.squash_runcounts(runcounts, days=MAX_DAYS)
return runcounts
def get_testinfoall_index_url(self):
import taskcluster
index = taskcluster.Index(
{
"rootUrl": "https://firefox-ci-tc.services.mozilla.com",
}
)
route = "gecko.v2.mozilla-central.latest.source.test-info-all"
queue = taskcluster.Queue(
{
"rootUrl": "https://firefox-ci-tc.services.mozilla.com",
}
)
task_id = index.findTask(route)["taskId"]
artifacts = queue.listLatestArtifacts(task_id)["artifacts"]
url = ""
for artifact in artifacts:
if artifact["name"].endswith("test-run-info.json"):
url = queue.buildUrl("getLatestArtifact", task_id, artifact["name"])
break
return url
def get_runcounts(self, days=MAX_DAYS):
testrundata = {}
# get historical data from test-info job artifact; if missing get fresh
url = self.get_testinfoall_index_url()
print("INFO: requesting runcounts url: %s" % url)
olddata = self.get_url(url)
# fill in any holes we have
endday = datetime.datetime.now(datetime.timezone.utc) - datetime.timedelta(
days=1
)
startday = endday - datetime.timedelta(days=days)
urls_to_fetch = []
# build list of dates with missing data
while startday < endday:
nextday = startday + datetime.timedelta(days=1)
if not olddata.get(str(nextday.date()), {}):
url = "https://treeherder.mozilla.org/api/groupsummary/"
url += "?startdate=%s&enddate=%s" % (
startday.date(),
nextday.date(),
)
urls_to_fetch.append([str(nextday.date()), url])
testrundata[str(nextday.date())] = olddata.get(str(nextday.date()), {})
startday = nextday
# limit missing data collection to 5 most recent days days to reduce overall runtime
for date, url in urls_to_fetch[-5:]:
try:
testrundata[date] = self.get_url(url)
except requests.exceptions.HTTPError:
# We want to see other errors, but can accept HTTPError failures
print(f"Unable to retrieve results for url: {url}")
pass
return testrundata
def squash_runcounts(self, runcounts, days=MAX_DAYS):
# squash all testrundata together into 1 big happy family for the last X days
endday = datetime.datetime.now(datetime.timezone.utc) - datetime.timedelta(
days=1
)
oldest = endday - datetime.timedelta(days=days)
testgroup_runinfo = defaultdict(lambda: defaultdict(int))
retVal = {}
for datekey in runcounts.keys():
# strip out older days
if datetime.date.fromisoformat(datekey) < oldest.date():
continue
jtn = runcounts[datekey].get("job_type_names", {})
if not jtn:
print("Warning: Missing job type names from date: %s" % datekey)
continue
for m in runcounts[datekey]["manifests"]:
man_name = list(m.keys())[0]
for job_type_id, result, classification, count in m[man_name]:
# format: job_type_name, result, classification, count
# find matching jtn, result, classification and increment 'count'
job_name = jtn[job_type_id]
key = (job_name, result, classification)
testgroup_runinfo[man_name][key] += count
for m in testgroup_runinfo:
retVal[m] = [
list(x) + [testgroup_runinfo[m][x]] for x in testgroup_runinfo[m]
]
return retVal
def get_intermittent_failure_data(self, start, end):
retVal = {}
# get IFV bug list
# i.e. https://th.m.o/api/failures/?startday=2022-06-22&endday=2022-06-29&tree=all
url = (
"https://treeherder.mozilla.org/api/failures/?startday=%s&endday=%s&tree=trunk"
% (start, end)
)
if_data = self.get_url(url)
buglist = [x["bug_id"] for x in if_data]
# get bug data for summary, 800 bugs at a time
# i.e. https://b.m.o/rest/bug?include_fields=id,product,component,summary&id=1,2,3...
max_bugs = 800
bug_data = []
fields = ["id", "product", "component", "summary"]
for bug_index in range(0, len(buglist), max_bugs):
bugs = [str(x) for x in buglist[bug_index : bug_index + max_bugs]]
if not bugs:
print(f"warning: found no bugs in range {bug_index}, +{max_bugs}")
continue
url = "https://bugzilla.mozilla.org/rest/bug?include_fields=%s&id=%s" % (
",".join(fields),
",".join(bugs),
)
data = self.get_url(url)
if data and "bugs" in data.keys():
bug_data.extend(data["bugs"])
# for each summary, parse filename, store component
# IF we find >1 bug with same testname, for now summarize as one
for bug in bug_data:
test_name = self.parse_test(bug["summary"])
if not test_name:
continue
c = int([x["bug_count"] for x in if_data if x["bug_id"] == bug["id"]][0])
if test_name not in retVal.keys():
retVal[test_name] = {
"id": bug["id"],
"count": 0,
"product": bug["product"],
"component": bug["component"],
}
retVal[test_name]["count"] += c
if bug["product"] != retVal[test_name]["product"]:
print(
"ERROR | %s | mismatched bugzilla product, bugzilla (%s) != repo (%s)"
% (bug["id"], bug["product"], retVal[test_name]["product"])
)
if bug["component"] != retVal[test_name]["component"]:
print(
"ERROR | %s | mismatched bugzilla component, bugzilla (%s) != repo (%s)"
% (bug["id"], bug["component"], retVal[test_name]["component"])
)
return retVal
def report(
self,
components,
flavor,
subsuite,
paths,
show_manifests,
show_tests,
show_summary,
show_annotations,
filter_values,
filter_keys,
show_components,
output_file,
start,
end,
show_testruns,
runcounts_input_file,
):
def matches_filters(test):
"""
Return True if all of the requested filter_values are found in this test;
if filter_keys are specified, restrict search to those test keys.
"""
for value in filter_values:
value_found = False
for key in test:
if not filter_keys or key in filter_keys:
if re.search(value, test[key]):
value_found = True
break
if not value_found:
return False
return True
start_time = datetime.datetime.now()
# Ensure useful report by default
if (
not show_manifests
and not show_tests
and not show_summary
and not show_annotations
):
show_manifests = True
show_summary = True
by_component = {}
if components:
components = components.split(",")
if filter_keys:
filter_keys = filter_keys.split(",")
if filter_values:
filter_values = filter_values.split(",")
else:
filter_values = []
display_keys = (filter_keys or []) + ["skip-if", "fail-if", "fails-if"]
display_keys = set(display_keys)
ifd = self.get_intermittent_failure_data(start, end)
runcount = {}
if show_testruns and os.environ.get("GECKO_HEAD_REPOSITORY", "") in [
"https://hg.mozilla.org/mozilla-central",
"https://hg.mozilla.org/try",
]:
runcount = self.get_runcount_data(runcounts_input_file, start, end)
print("Finding tests...")
here = os.path.abspath(os.path.dirname(__file__))
resolver = TestResolver.from_environment(
cwd=here, loader_cls=TestManifestLoader
)
tests = list(
resolver.resolve_tests(paths=paths, flavor=flavor, subsuite=subsuite)
)
manifest_paths = set()
for t in tests:
if t.get("manifest", None):
manifest_path = t["manifest"]
if t.get("ancestor_manifest", None):
manifest_path = "%s:%s" % (t["ancestor_manifest"], t["manifest"])
manifest_paths.add(manifest_path)
manifest_count = len(manifest_paths)
print(
"Resolver found {} tests, {} manifests".format(len(tests), manifest_count)
)
if show_manifests:
topsrcdir = self.build_obj.topsrcdir
by_component["manifests"] = {}
manifest_paths = list(manifest_paths)
manifest_paths.sort()
relpaths = []
for manifest_path in manifest_paths:
relpath = mozpath.relpath(manifest_path, topsrcdir)
if mozpath.commonprefix((manifest_path, topsrcdir)) != topsrcdir:
continue
relpaths.append(relpath)
reader = self.build_obj.mozbuild_reader(config_mode="empty")
files_info = reader.files_info(relpaths)
for manifest_path in manifest_paths:
relpath = mozpath.relpath(manifest_path, topsrcdir)
if mozpath.commonprefix((manifest_path, topsrcdir)) != topsrcdir:
continue
manifest_info = None
if relpath in files_info:
bug_component = files_info[relpath].get("BUG_COMPONENT")
if bug_component:
key = "{}::{}".format(
bug_component.product, bug_component.component
)
else:
key = "<unknown bug component>"
if (not components) or (key in components):
manifest_info = {"manifest": relpath, "tests": 0, "skipped": 0}
rkey = key if show_components else "all"
if rkey in by_component["manifests"]:
by_component["manifests"][rkey].append(manifest_info)
else:
by_component["manifests"][rkey] = [manifest_info]
if manifest_info:
for t in tests:
if t["manifest"] == manifest_path:
manifest_info["tests"] += 1
if t.get("skip-if"):
manifest_info["skipped"] += 1
for key in by_component["manifests"]:
by_component["manifests"][key].sort(key=lambda k: k["manifest"])
if show_tests:
by_component["tests"] = {}
if show_tests or show_summary or show_annotations:
test_count = 0
failed_count = 0
skipped_count = 0
annotation_count = 0
condition_count = 0
component_set = set()
relpaths = []
conditions = {}
known_unconditional_annotations = ["skip", "fail", "asserts", "random"]
known_conditional_annotations = [
"skip-if",
"fail-if",
"run-if",
"fails-if",
"fuzzy-if",
"random-if",
"asserts-if",
]
for t in tests:
relpath = t.get("srcdir_relpath")
relpaths.append(relpath)
reader = self.build_obj.mozbuild_reader(config_mode="empty")
files_info = reader.files_info(relpaths)
for t in tests:
if not matches_filters(t):
continue
if "referenced-test" in t:
# Avoid double-counting reftests: disregard reference file entries
continue
if show_annotations:
for key in t:
if key in known_unconditional_annotations:
annotation_count += 1
if key in known_conditional_annotations:
annotation_count += 1
# Here 'key' is a manifest annotation type like 'skip-if' and t[key]
# is the associated condition. For example, the manifestparser
# manifest annotation, "skip-if = os == 'win'", is expected to be
# encoded as t['skip-if'] = "os == 'win'".
# To allow for reftest manifests, t[key] may have multiple entries
# separated by ';', each corresponding to a condition for that test
# and annotation type. For example,
# "skip-if(Android&&webrender) skip-if(OSX)", would be
# encoded as t['skip-if'] = "Android&&webrender;OSX".
annotation_conditions = t[key].split(";")
# if key has \n in it, we need to strip it. for manifestparser format
# 1) from the beginning of the line
# 2) different conditions if in the middle of the line
annotation_conditions = [
x.strip("\n") for x in annotation_conditions
]
temp = []
for condition in annotation_conditions:
temp.extend(condition.split("\n"))
annotation_conditions = temp
for condition in annotation_conditions:
condition_count += 1
# Trim reftest fuzzy-if ranges: everything after the first comma
# eg. "Android,0-2,1-3" -> "Android"
condition = condition.split(",")[0]
if condition not in conditions:
conditions[condition] = 0
conditions[condition] += 1
test_count += 1
relpath = t.get("srcdir_relpath")
if relpath in files_info:
bug_component = files_info[relpath].get("BUG_COMPONENT")
if bug_component:
key = "{}::{}".format(
bug_component.product, bug_component.component
)
else:
key = "<unknown bug component>"
if (not components) or (key in components):
component_set.add(key)
test_info = {"test": relpath}
for test_key in display_keys:
value = t.get(test_key)
if value:
test_info[test_key] = value
if t.get("fail-if"):
failed_count += 1
if t.get("fails-if"):
failed_count += 1
if t.get("skip-if"):
skipped_count += 1
if "manifest_relpath" in t and "manifest" in t:
if "web-platform" in t["manifest_relpath"]:
test_info["manifest"] = [t["manifest"]]
else:
test_info["manifest"] = [t["manifest_relpath"]]
# handle included manifests as ancestor:child
if t.get("ancestor_manifest", None):
test_info["manifest"] = [
"%s:%s"
% (t["ancestor_manifest"], test_info["manifest"][0])
]
# add in intermittent failure data
if ifd.get(relpath):
if_data = ifd.get(relpath)
test_info["failure_count"] = if_data["count"]
if show_testruns:
total_runs = 0
for m in test_info["manifest"]:
if m in runcount.keys():
for x in runcount.get(m, []):
if not x:
break
total_runs += x[3]
if total_runs > 0:
test_info["total_runs"] = total_runs
if show_tests:
rkey = key if show_components else "all"
if rkey in by_component["tests"]:
# Avoid duplicates: Some test paths have multiple TestResolver
# entries, as when a test is included by multiple manifests.
found = False
for ctest in by_component["tests"][rkey]:
if ctest["test"] == test_info["test"]:
found = True
break
if not found:
by_component["tests"][rkey].append(test_info)
else:
for ti in by_component["tests"][rkey]:
if ti["test"] == test_info["test"]:
if (
test_info["manifest"][0]
not in ti["manifest"]
):
ti_manifest = test_info["manifest"]
if test_info.get(
"ancestor_manifest", None
):
ti_manifest = "%s:%s" % (
test_info["ancestor_manifest"],
ti_manifest,
)
ti["manifest"].extend(ti_manifest)
else:
by_component["tests"][rkey] = [test_info]
if show_tests:
for key in by_component["tests"]:
by_component["tests"][key].sort(key=lambda k: k["test"])
by_component["description"] = self.description(
components,
flavor,
subsuite,
paths,
show_manifests,
show_tests,
show_summary,
show_annotations,
filter_values,
filter_keys,
start,
end,
)
if show_summary:
by_component["summary"] = {}
by_component["summary"]["components"] = len(component_set)
by_component["summary"]["manifests"] = manifest_count
by_component["summary"]["tests"] = test_count
by_component["summary"]["failed tests"] = failed_count
by_component["summary"]["skipped tests"] = skipped_count
if show_annotations:
by_component["annotations"] = {}
by_component["annotations"]["total annotations"] = annotation_count
by_component["annotations"]["total conditions"] = condition_count
by_component["annotations"]["unique conditions"] = len(conditions)
by_component["annotations"]["conditions"] = conditions
self.write_report(by_component, output_file)
end_time = datetime.datetime.now()
self.log_verbose(
"%d seconds total to generate report"
% (end_time - start_time).total_seconds()
)
def write_report(self, by_component, output_file):
json_report = json.dumps(by_component, indent=2, sort_keys=True)
if output_file:
output_file = os.path.abspath(output_file)
output_dir = os.path.dirname(output_file)
if not os.path.isdir(output_dir):
os.makedirs(output_dir)
with open(output_file, "w") as f:
f.write(json_report)
else:
print(json_report)
def report_diff(self, before, after, output_file):
"""
Support for 'mach test-info report-diff'.
"""
def get_file(path_or_url):
if urlparse.urlparse(path_or_url).scheme:
response = requests.get(path_or_url)
response.raise_for_status()
return json.loads(response.text)
with open(path_or_url) as f:
return json.load(f)
report1 = get_file(before)
report2 = get_file(after)
by_component = {"tests": {}, "summary": {}}
self.diff_summaries(by_component, report1["summary"], report2["summary"])
self.diff_all_components(by_component, report1["tests"], report2["tests"])
self.write_report(by_component, output_file)
def diff_summaries(self, by_component, summary1, summary2):
"""
Update by_component with comparison of summaries.
"""
all_keys = set(summary1.keys()) | set(summary2.keys())
for key in all_keys:
delta = summary2.get(key, 0) - summary1.get(key, 0)
by_component["summary"]["%s delta" % key] = delta
def diff_all_components(self, by_component, tests1, tests2):
"""
Update by_component with any added/deleted tests, for all components.
"""
self.added_count = 0
self.deleted_count = 0
for component in tests1:
component1 = tests1[component]
component2 = [] if component not in tests2 else tests2[component]
self.diff_component(by_component, component, component1, component2)
for component in tests2:
if component not in tests1:
component2 = tests2[component]
self.diff_component(by_component, component, [], component2)
by_component["summary"]["added tests"] = self.added_count
by_component["summary"]["deleted tests"] = self.deleted_count
def diff_component(self, by_component, component, component1, component2):
"""
Update by_component[component] with any added/deleted tests for the
named component.
"added": tests found in component2 but missing from component1.
"deleted": tests found in component1 but missing from component2.
"""
tests1 = set([t["test"] for t in component1])
tests2 = set([t["test"] for t in component2])
deleted = tests1 - tests2
added = tests2 - tests1
if deleted or added:
by_component["tests"][component] = {}
if deleted:
by_component["tests"][component]["deleted"] = sorted(list(deleted))
if added:
by_component["tests"][component]["added"] = sorted(list(added))
self.added_count += len(added)
self.deleted_count += len(deleted)
common = len(tests1.intersection(tests2))
self.log_verbose(
"%s: %d deleted, %d added, %d common"
% (component, len(deleted), len(added), common)
)