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31eae6d995
Most of our tests use rtnetlink to read device stats, so they don't expose the drivers much to paths in which device stats are read under RCU. Add tests which hammer profcs reads to make sure drivers: - don't sleep while reporting stats, - can handle parallel reads, - can handle device going down while reading. Set ifname on the env class in NetDrvEnv, we already do that in NetDrvEpEnv. KTAP version 1 1..7 ok 1 stats.check_pause ok 2 stats.check_fec ok 3 stats.pkt_byte_sum ok 4 stats.qstat_by_ifindex ok 5 stats.check_down ok 6 stats.procfs_hammer # completed up/down cycles: 6 ok 7 stats.procfs_downup_hammer # Totals: pass:7 fail:0 xfail:0 xpass:0 skip:0 error:0 Reviewed-by: Petr Machata <petrm@nvidia.com> Reviewed-by: Willem de Bruijn <willemb@google.com> Link: https://patch.msgid.link/20250107022932.2087744-1-kuba@kernel.org Signed-off-by: Jakub Kicinski <kuba@kernel.org>
254 lines
6.1 KiB
Python
254 lines
6.1 KiB
Python
# SPDX-License-Identifier: GPL-2.0
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import builtins
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import functools
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import inspect
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import sys
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import time
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import traceback
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from .consts import KSFT_MAIN_NAME
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from .utils import global_defer_queue
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KSFT_RESULT = None
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KSFT_RESULT_ALL = True
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KSFT_DISRUPTIVE = True
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class KsftFailEx(Exception):
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pass
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class KsftSkipEx(Exception):
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pass
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class KsftXfailEx(Exception):
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pass
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def ksft_pr(*objs, **kwargs):
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print("#", *objs, **kwargs)
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def _fail(*args):
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global KSFT_RESULT
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KSFT_RESULT = False
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stack = inspect.stack()
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started = False
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for frame in reversed(stack[2:]):
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# Start printing from the test case function
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if not started:
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if frame.function == 'ksft_run':
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started = True
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continue
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ksft_pr("Check| At " + frame.filename + ", line " + str(frame.lineno) +
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", in " + frame.function + ":")
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ksft_pr("Check| " + frame.code_context[0].strip())
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ksft_pr(*args)
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def ksft_eq(a, b, comment=""):
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global KSFT_RESULT
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if a != b:
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_fail("Check failed", a, "!=", b, comment)
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def ksft_ne(a, b, comment=""):
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global KSFT_RESULT
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if a == b:
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_fail("Check failed", a, "==", b, comment)
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def ksft_true(a, comment=""):
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if not a:
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_fail("Check failed", a, "does not eval to True", comment)
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def ksft_in(a, b, comment=""):
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if a not in b:
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_fail("Check failed", a, "not in", b, comment)
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def ksft_is(a, b, comment=""):
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if a is not b:
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_fail("Check failed", a, "is not", b, comment)
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def ksft_ge(a, b, comment=""):
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if a < b:
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_fail("Check failed", a, "<", b, comment)
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def ksft_lt(a, b, comment=""):
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if a >= b:
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_fail("Check failed", a, ">=", b, comment)
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class ksft_raises:
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def __init__(self, expected_type):
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self.exception = None
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self.expected_type = expected_type
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def __enter__(self):
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return self
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def __exit__(self, exc_type, exc_val, exc_tb):
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if exc_type is None:
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_fail(f"Expected exception {str(self.expected_type.__name__)}, none raised")
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elif self.expected_type != exc_type:
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_fail(f"Expected exception {str(self.expected_type.__name__)}, raised {str(exc_type.__name__)}")
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self.exception = exc_val
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# Suppress the exception if its the expected one
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return self.expected_type == exc_type
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def ksft_busy_wait(cond, sleep=0.005, deadline=1, comment=""):
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end = time.monotonic() + deadline
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while True:
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if cond():
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return
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if time.monotonic() > end:
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_fail("Waiting for condition timed out", comment)
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return
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time.sleep(sleep)
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def ktap_result(ok, cnt=1, case="", comment=""):
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global KSFT_RESULT_ALL
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KSFT_RESULT_ALL = KSFT_RESULT_ALL and ok
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res = ""
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if not ok:
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res += "not "
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res += "ok "
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res += str(cnt) + " "
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res += KSFT_MAIN_NAME
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if case:
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res += "." + str(case.__name__)
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if comment:
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res += " # " + comment
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print(res)
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def ksft_flush_defer():
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global KSFT_RESULT
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i = 0
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qlen_start = len(global_defer_queue)
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while global_defer_queue:
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i += 1
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entry = global_defer_queue.pop()
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try:
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entry.exec_only()
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except:
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ksft_pr(f"Exception while handling defer / cleanup (callback {i} of {qlen_start})!")
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tb = traceback.format_exc()
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for line in tb.strip().split('\n'):
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ksft_pr("Defer Exception|", line)
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KSFT_RESULT = False
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def ksft_disruptive(func):
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"""
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Decorator that marks the test as disruptive (e.g. the test
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that can down the interface). Disruptive tests can be skipped
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by passing DISRUPTIVE=False environment variable.
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"""
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@functools.wraps(func)
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def wrapper(*args, **kwargs):
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if not KSFT_DISRUPTIVE:
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raise KsftSkipEx(f"marked as disruptive")
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return func(*args, **kwargs)
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return wrapper
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def ksft_setup(env):
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"""
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Setup test framework global state from the environment.
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"""
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def get_bool(env, name):
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value = env.get(name, "").lower()
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if value in ["yes", "true"]:
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return True
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if value in ["no", "false"]:
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return False
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try:
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return bool(int(value))
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except:
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raise Exception(f"failed to parse {name}")
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if "DISRUPTIVE" in env:
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global KSFT_DISRUPTIVE
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KSFT_DISRUPTIVE = get_bool(env, "DISRUPTIVE")
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return env
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def ksft_run(cases=None, globs=None, case_pfx=None, args=()):
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cases = cases or []
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if globs and case_pfx:
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for key, value in globs.items():
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if not callable(value):
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continue
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for prefix in case_pfx:
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if key.startswith(prefix):
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cases.append(value)
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break
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totals = {"pass": 0, "fail": 0, "skip": 0, "xfail": 0}
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print("KTAP version 1")
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print("1.." + str(len(cases)))
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global KSFT_RESULT
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cnt = 0
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stop = False
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for case in cases:
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KSFT_RESULT = True
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cnt += 1
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comment = ""
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cnt_key = ""
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try:
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case(*args)
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except KsftSkipEx as e:
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comment = "SKIP " + str(e)
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cnt_key = 'skip'
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except KsftXfailEx as e:
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comment = "XFAIL " + str(e)
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cnt_key = 'xfail'
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except BaseException as e:
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stop |= isinstance(e, KeyboardInterrupt)
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tb = traceback.format_exc()
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for line in tb.strip().split('\n'):
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ksft_pr("Exception|", line)
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if stop:
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ksft_pr("Stopping tests due to KeyboardInterrupt.")
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KSFT_RESULT = False
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cnt_key = 'fail'
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ksft_flush_defer()
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if not cnt_key:
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cnt_key = 'pass' if KSFT_RESULT else 'fail'
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ktap_result(KSFT_RESULT, cnt, case, comment=comment)
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totals[cnt_key] += 1
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if stop:
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break
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print(
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f"# Totals: pass:{totals['pass']} fail:{totals['fail']} xfail:{totals['xfail']} xpass:0 skip:{totals['skip']} error:0"
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)
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def ksft_exit():
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global KSFT_RESULT_ALL
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sys.exit(0 if KSFT_RESULT_ALL else 1)
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