freebsd-src/tests/atf_python/atf_pytest.py

import types
from typing import Any
from typing import Dict
from typing import List
from typing import NamedTuple
from typing import Tuple

import pytest
import os


class ATFCleanupItem(pytest.Item):
    def runtest(self):
        """Runs cleanup procedure for the test instead of the test"""
        instance = self.parent.cls()
        instance.cleanup(self.nodeid)

    def setup_method_noop(self, method):
        """Overrides runtest setup method"""
        pass

    def teardown_method_noop(self, method):
        """Overrides runtest teardown method"""
        pass


class ATFTestObj(object):
    def __init__(self, obj, has_cleanup):
        # Use nodeid without name to properly name class-derived tests
        self.ident = obj.nodeid.split("::", 1)[1]
        self.description = self._get_test_description(obj)
        self.has_cleanup = has_cleanup
        self.obj = obj

    def _get_test_description(self, obj):
        """Returns first non-empty line from func docstring or func name"""
        docstr = obj.function.__doc__
        if docstr:
            for line in docstr.split("\n"):
                if line:
                    return line
        return obj.name

    def _convert_marks(self, obj) -> Dict[str, Any]:
        wj_func = lambda x: " ".join(x)  # noqa: E731
        _map: Dict[str, Dict] = {
            "require_user": {"name": "require.user"},
            "require_arch": {"name": "require.arch", "fmt": wj_func},
            "require_diskspace": {"name": "require.diskspace"},
            "require_files": {"name": "require.files", "fmt": wj_func},
            "require_machine": {"name": "require.machine", "fmt": wj_func},
            "require_memory": {"name": "require.memory"},
            "require_progs": {"name": "require.progs", "fmt": wj_func},
            "timeout": {},
        }
        ret = {}
        for mark in obj.iter_markers():
            if mark.name in _map:
                name = _map[mark.name].get("name", mark.name)
                if "fmt" in _map[mark.name]:
                    val = _map[mark.name]["fmt"](mark.args[0])
                else:
                    val = mark.args[0]
                ret[name] = val
        return ret

    def as_lines(self) -> List[str]:
        """Output test definition in ATF-specific format"""
        ret = []
        ret.append("ident: {}".format(self.ident))
        ret.append("descr: {}".format(self._get_test_description(self.obj)))
        if self.has_cleanup:
            ret.append("has.cleanup: true")
        for key, value in self._convert_marks(self.obj).items():
            ret.append("{}: {}".format(key, value))
        return ret


class ATFHandler(object):
    class ReportState(NamedTuple):
        state: str
        reason: str

    def __init__(self):
        self._tests_state_map: Dict[str, ReportStatus] = {}

    def override_runtest(self, obj):
        # Override basic runtest command
        obj.runtest = types.MethodType(ATFCleanupItem.runtest, obj)
        # Override class setup/teardown
        obj.parent.cls.setup_method = ATFCleanupItem.setup_method_noop
        obj.parent.cls.teardown_method = ATFCleanupItem.teardown_method_noop

    def get_object_cleanup_class(self, obj):
        if hasattr(obj, "parent") and obj.parent is not None:
            if hasattr(obj.parent, "cls") and obj.parent.cls is not None:
                if hasattr(obj.parent.cls, "cleanup"):
                    return obj.parent.cls
        return None

    def has_object_cleanup(self, obj):
        return self.get_object_cleanup_class(obj) is not None

    def list_tests(self, tests: List[str]):
        print('Content-Type: application/X-atf-tp; version="1"')
        print()
        for test_obj in tests:
            has_cleanup = self.has_object_cleanup(test_obj)
            atf_test = ATFTestObj(test_obj, has_cleanup)
            for line in atf_test.as_lines():
                print(line)
            print()

    def set_report_state(self, test_name: str, state: str, reason: str):
        self._tests_state_map[test_name] = self.ReportState(state, reason)

    def _extract_report_reason(self, report):
        data = report.longrepr
        if data is None:
            return None
        if isinstance(data, Tuple):
            # ('/path/to/test.py', 23, 'Skipped: unable to test')
            reason = data[2]
            for prefix in "Skipped: ":
                if reason.startswith(prefix):
                    reason = reason[len(prefix):]
            return reason
        else:
            # string/ traceback / exception report. Capture the last line
            return str(data).split("\n")[-1]
        return None

    def add_report(self, report):
        # MAP pytest report state to the atf-desired state
        #
        # ATF test states:
        # (1) expected_death, (2) expected_exit, (3) expected_failure
        # (4) expected_signal, (5) expected_timeout, (6) passed
        # (7) skipped, (8) failed
        #
        # Note that ATF don't have the concept of "soft xfail" - xpass
        # is a failure. It also calls teardown routine in a separate
        # process, thus teardown states (pytest-only) are handled as
        # body continuation.

        # (stage, state, wasxfail)

        # Just a passing test: WANT: passed
        # GOT: (setup, passed, F), (call, passed, F), (teardown, passed, F)
        #
        # Failing body test: WHAT: failed
        # GOT: (setup, passed, F), (call, failed, F), (teardown, passed, F)
        #
        # pytest.skip test decorator: WANT: skipped
        # GOT: (setup,skipped, False), (teardown, passed, False)
        #
        # pytest.skip call inside test function: WANT: skipped
        # GOT: (setup, passed, F), (call, skipped, F), (teardown,passed, F)
        #
        # mark.xfail decorator+pytest.xfail: WANT: expected_failure
        # GOT: (setup, passed, F), (call, skipped, T), (teardown, passed, F)
        #
        # mark.xfail decorator+pass: WANT: failed
        # GOT: (setup, passed, F), (call, passed, T), (teardown, passed, F)

        test_name = report.location[2]
        stage = report.when
        state = report.outcome
        reason = self._extract_report_reason(report)

        # We don't care about strict xfail - it gets translated to False

        if stage == "setup":
            if state in ("skipped", "failed"):
                # failed init -> failed test, skipped setup -> xskip
                # for the whole test
                self.set_report_state(test_name, state, reason)
        elif stage == "call":
            # "call" stage shouldn't matter if setup failed
            if test_name in self._tests_state_map:
                if self._tests_state_map[test_name].state == "failed":
                    return
            if state == "failed":
                # Record failure  & override "skipped" state
                self.set_report_state(test_name, state, reason)
            elif state == "skipped":
                if hasattr(reason, "wasxfail"):
                    # xfail() called in the test body
                    state = "expected_failure"
                else:
                    # skip inside the body
                    pass
                self.set_report_state(test_name, state, reason)
            elif state == "passed":
                if hasattr(reason, "wasxfail"):
                    # the test was expected to fail but didn't
                    # mark as hard failure
                    state = "failed"
                self.set_report_state(test_name, state, reason)
        elif stage == "teardown":
            if state == "failed":
                # teardown should be empty, as the cleanup
                # procedures should be implemented as a separate
                # function/method, so mark teardown failure as
                # global failure
                self.set_report_state(test_name, state, reason)

    def write_report(self, path):
        if self._tests_state_map:
            # If we're executing in ATF mode, there has to be just one test
            # Anyway, deterministically pick the first one
            first_test_name = next(iter(self._tests_state_map))
            test = self._tests_state_map[first_test_name]
            if test.state == "passed":
                line = test.state
            else:
                line = "{}: {}".format(test.state, test.reason)
            with open(path, mode="w") as f:
                print(line, file=f)

    @staticmethod
    def get_atf_vars() -> Dict[str, str]:
        px = "_ATF_VAR_"
        return {k[len(px):]: v for k, v in os.environ.items() if k.startswith(px)}
testing: Add basic atf support to pytest. Implementation consists of the pytest plugin implementing ATF format and a simple C++ wrapper, which reorders the provided arguments from ATF format to the format understandable by pytest. Each test has this wrapper specified after the shebang. When kyua executes the test, wrapper calls pytest, which loads atf plugin, does the work and returns the result. Additionally, a separate python "package", `/usr/tests/atf_python` has been added to collect code that may be useful across different tests. Current limitations: * Opaque metadata passing via X-Name properties. Require some fixtures to write * `-s srcdir` parameter passed by the runner is ignored. * No `atf-c-api(3)` or similar - relying on pytest framework & existing python libraries * No support for `atf_tc_<get\|has>_config_var()` & `atf_tc_set_md_var()`. Can be probably implemented with env variables & autoload fixtures Differential Revision: https://reviews.freebsd.org/D31084 Reviewed by: kp, ngie 2022-06-25 19:01:45 +00:00			`import types`
			`from typing import Any`
			`from typing import Dict`
			`from typing import List`
			`from typing import NamedTuple`
			`from typing import Tuple`

			`import pytest`
testing: pass ATF vars to pytest via env instead of arguments. This change is a continuation of 9c42645a1e4d workaround. Apparently pytest argument parser is not happy when parsing values with spaces or just more than one --atf-var argument. Switch wrapper to send these kv pairs as env variables. Specifically, use _ATF_VAR_key=value format to distinguish from the other vars. Add the `atf_vars` fixture returning all passed kv pairs as a dict. Reviewed by: lwhsu Differential Revision: https://reviews.freebsd.org/D35625 MFC after: 2 weeks 2022-06-28 10:49:41 +00:00			`import os`
testing: Add basic atf support to pytest. Implementation consists of the pytest plugin implementing ATF format and a simple C++ wrapper, which reorders the provided arguments from ATF format to the format understandable by pytest. Each test has this wrapper specified after the shebang. When kyua executes the test, wrapper calls pytest, which loads atf plugin, does the work and returns the result. Additionally, a separate python "package", `/usr/tests/atf_python` has been added to collect code that may be useful across different tests. Current limitations: * Opaque metadata passing via X-Name properties. Require some fixtures to write * `-s srcdir` parameter passed by the runner is ignored. * No `atf-c-api(3)` or similar - relying on pytest framework & existing python libraries * No support for `atf_tc_<get\|has>_config_var()` & `atf_tc_set_md_var()`. Can be probably implemented with env variables & autoload fixtures Differential Revision: https://reviews.freebsd.org/D31084 Reviewed by: kp, ngie 2022-06-25 19:01:45 +00:00

			`class ATFCleanupItem(pytest.Item):`
			`def runtest(self):`
			`"""Runs cleanup procedure for the test instead of the test"""`
			`instance = self.parent.cls()`
			`instance.cleanup(self.nodeid)`

			`def setup_method_noop(self, method):`
			`"""Overrides runtest setup method"""`
			`pass`

			`def teardown_method_noop(self, method):`
			`"""Overrides runtest teardown method"""`
			`pass`


			`class ATFTestObj(object):`
			`def __init__(self, obj, has_cleanup):`
			`# Use nodeid without name to properly name class-derived tests`
			`self.ident = obj.nodeid.split("::", 1)[1]`
			`self.description = self._get_test_description(obj)`
			`self.has_cleanup = has_cleanup`
			`self.obj = obj`

			`def _get_test_description(self, obj):`
			`"""Returns first non-empty line from func docstring or func name"""`
			`docstr = obj.function.__doc__`
			`if docstr:`
			`for line in docstr.split("\n"):`
			`if line:`
			`return line`
			`return obj.name`

			`def _convert_marks(self, obj) -> Dict[str, Any]:`
			`wj_func = lambda x: " ".join(x) # noqa: E731`
			`_map: Dict[str, Dict] = {`
			`"require_user": {"name": "require.user"},`
			`"require_arch": {"name": "require.arch", "fmt": wj_func},`
			`"require_diskspace": {"name": "require.diskspace"},`
			`"require_files": {"name": "require.files", "fmt": wj_func},`
			`"require_machine": {"name": "require.machine", "fmt": wj_func},`
			`"require_memory": {"name": "require.memory"},`
			`"require_progs": {"name": "require.progs", "fmt": wj_func},`
			`"timeout": {},`
			`}`
			`ret = {}`
			`for mark in obj.iter_markers():`
			`if mark.name in _map:`
			`name = _map[mark.name].get("name", mark.name)`
			`if "fmt" in _map[mark.name]:`
			`val = _map[mark.name]["fmt"](mark.args[0])`
			`else:`
			`val = mark.args[0]`
			`ret[name] = val`
			`return ret`

			`def as_lines(self) -> List[str]:`
			`"""Output test definition in ATF-specific format"""`
			`ret = []`
			`ret.append("ident: {}".format(self.ident))`
			`ret.append("descr: {}".format(self._get_test_description(self.obj)))`
			`if self.has_cleanup:`
			`ret.append("has.cleanup: true")`
			`for key, value in self._convert_marks(self.obj).items():`
			`ret.append("{}: {}".format(key, value))`
			`return ret`


			`class ATFHandler(object):`
			`class ReportState(NamedTuple):`
			`state: str`
			`reason: str`

			`def __init__(self):`
			`self._tests_state_map: Dict[str, ReportStatus] = {}`

			`def override_runtest(self, obj):`
			`# Override basic runtest command`
			`obj.runtest = types.MethodType(ATFCleanupItem.runtest, obj)`
			`# Override class setup/teardown`
			`obj.parent.cls.setup_method = ATFCleanupItem.setup_method_noop`
			`obj.parent.cls.teardown_method = ATFCleanupItem.teardown_method_noop`

			`def get_object_cleanup_class(self, obj):`
			`if hasattr(obj, "parent") and obj.parent is not None:`
			`if hasattr(obj.parent, "cls") and obj.parent.cls is not None:`
			`if hasattr(obj.parent.cls, "cleanup"):`
			`return obj.parent.cls`
			`return None`

			`def has_object_cleanup(self, obj):`
			`return self.get_object_cleanup_class(obj) is not None`

			`def list_tests(self, tests: List[str]):`
			`print('Content-Type: application/X-atf-tp; version="1"')`
			`print()`
			`for test_obj in tests:`
			`has_cleanup = self.has_object_cleanup(test_obj)`
			`atf_test = ATFTestObj(test_obj, has_cleanup)`
			`for line in atf_test.as_lines():`
			`print(line)`
			`print()`

			`def set_report_state(self, test_name: str, state: str, reason: str):`
			`self._tests_state_map[test_name] = self.ReportState(state, reason)`

			`def _extract_report_reason(self, report):`
			`data = report.longrepr`
			`if data is None:`
			`return None`
			`if isinstance(data, Tuple):`
			`# ('/path/to/test.py', 23, 'Skipped: unable to test')`
			`reason = data[2]`
			`for prefix in "Skipped: ":`
			`if reason.startswith(prefix):`
			`reason = reason[len(prefix):]`
			`return reason`
			`else:`
			`# string/ traceback / exception report. Capture the last line`
			`return str(data).split("\n")[-1]`
			`return None`

			`def add_report(self, report):`
			`# MAP pytest report state to the atf-desired state`
			`#`
			`# ATF test states:`
			`# (1) expected_death, (2) expected_exit, (3) expected_failure`
			`# (4) expected_signal, (5) expected_timeout, (6) passed`
			`# (7) skipped, (8) failed`
			`#`
			`# Note that ATF don't have the concept of "soft xfail" - xpass`
			`# is a failure. It also calls teardown routine in a separate`
			`# process, thus teardown states (pytest-only) are handled as`
			`# body continuation.`

			`# (stage, state, wasxfail)`

			`# Just a passing test: WANT: passed`
			`# GOT: (setup, passed, F), (call, passed, F), (teardown, passed, F)`
			`#`
			`# Failing body test: WHAT: failed`
			`# GOT: (setup, passed, F), (call, failed, F), (teardown, passed, F)`
			`#`
			`# pytest.skip test decorator: WANT: skipped`
			`# GOT: (setup,skipped, False), (teardown, passed, False)`
			`#`
			`# pytest.skip call inside test function: WANT: skipped`
			`# GOT: (setup, passed, F), (call, skipped, F), (teardown,passed, F)`
			`#`
			`# mark.xfail decorator+pytest.xfail: WANT: expected_failure`
			`# GOT: (setup, passed, F), (call, skipped, T), (teardown, passed, F)`
			`#`
			`# mark.xfail decorator+pass: WANT: failed`
			`# GOT: (setup, passed, F), (call, passed, T), (teardown, passed, F)`

			`test_name = report.location[2]`
			`stage = report.when`
			`state = report.outcome`
			`reason = self._extract_report_reason(report)`

			`# We don't care about strict xfail - it gets translated to False`

			`if stage == "setup":`
			`if state in ("skipped", "failed"):`
			`# failed init -> failed test, skipped setup -> xskip`
			`# for the whole test`
			`self.set_report_state(test_name, state, reason)`
			`elif stage == "call":`
			`# "call" stage shouldn't matter if setup failed`
			`if test_name in self._tests_state_map:`
			`if self._tests_state_map[test_name].state == "failed":`
			`return`
			`if state == "failed":`
			`# Record failure & override "skipped" state`
			`self.set_report_state(test_name, state, reason)`
			`elif state == "skipped":`
			`if hasattr(reason, "wasxfail"):`
			`# xfail() called in the test body`
			`state = "expected_failure"`
			`else:`
			`# skip inside the body`
			`pass`
			`self.set_report_state(test_name, state, reason)`
			`elif state == "passed":`
			`if hasattr(reason, "wasxfail"):`
			`# the test was expected to fail but didn't`
			`# mark as hard failure`
			`state = "failed"`
			`self.set_report_state(test_name, state, reason)`
			`elif stage == "teardown":`
			`if state == "failed":`
			`# teardown should be empty, as the cleanup`
			`# procedures should be implemented as a separate`
			`# function/method, so mark teardown failure as`
			`# global failure`
			`self.set_report_state(test_name, state, reason)`

			`def write_report(self, path):`
			`if self._tests_state_map:`
			`# If we're executing in ATF mode, there has to be just one test`
			`# Anyway, deterministically pick the first one`
			`first_test_name = next(iter(self._tests_state_map))`
			`test = self._tests_state_map[first_test_name]`
			`if test.state == "passed":`
			`line = test.state`
			`else:`
			`line = "{}: {}".format(test.state, test.reason)`
			`with open(path, mode="w") as f:`
			`print(line, file=f)`
testing: pass ATF vars to pytest via env instead of arguments. This change is a continuation of 9c42645a1e4d workaround. Apparently pytest argument parser is not happy when parsing values with spaces or just more than one --atf-var argument. Switch wrapper to send these kv pairs as env variables. Specifically, use _ATF_VAR_key=value format to distinguish from the other vars. Add the `atf_vars` fixture returning all passed kv pairs as a dict. Reviewed by: lwhsu Differential Revision: https://reviews.freebsd.org/D35625 MFC after: 2 weeks 2022-06-28 10:49:41 +00:00
			`@staticmethod`
			`def get_atf_vars() -> Dict[str, str]:`
			`px = "_ATF_VAR_"`
			`return {k[len(px):]: v for k, v in os.environ.items() if k.startswith(px)}`