from __future__ import print_function import sys import unittest2 import gdbremote_testcase from lldbsuite.test.lldbtest import * class TestGdbRemote_qThreadStopInfo(gdbremote_testcase.GdbRemoteTestCaseBase): mydir = TestBase.compute_mydir(__file__) THREAD_COUNT = 5 def gather_stop_replies_via_qThreadStopInfo(self, thread_count): # Set up the inferior args. inferior_args=[] for i in range(thread_count - 1): inferior_args.append("thread:new") inferior_args.append("sleep:10") procs = self.prep_debug_monitor_and_inferior(inferior_args=inferior_args) # Assumes test_sequence has anything added needed to setup the initial state. # (Like optionally enabling QThreadsInStopReply.) self.test_sequence.add_log_lines([ "read packet: $c#63" ], True) context = self.expect_gdbremote_sequence() self.assertIsNotNone(context) # Give threads time to start up, then break. time.sleep(1) self.reset_test_sequence() self.test_sequence.add_log_lines([ "read packet: {}".format(chr(3)), {"direction":"send", "regex":r"^\$T([0-9a-fA-F]+)([^#]+)#[0-9a-fA-F]{2}$", "capture":{1:"stop_result", 2:"key_vals_text"} }, ], True) context = self.expect_gdbremote_sequence() self.assertIsNotNone(context) # Wait until all threads have started. threads = self.wait_for_thread_count(thread_count, timeout_seconds=3) self.assertIsNotNone(threads) self.assertEqual(len(threads), thread_count) # Grab stop reply for each thread via qThreadStopInfo{tid:hex}. stop_replies = {} thread_dicts = {} for thread in threads: # Run the qThreadStopInfo command. self.reset_test_sequence() self.test_sequence.add_log_lines([ "read packet: $qThreadStopInfo{:x}#00".format(thread), {"direction":"send", "regex":r"^\$T([0-9a-fA-F]+)([^#]+)#[0-9a-fA-F]{2}$", "capture":{1:"stop_result", 2:"key_vals_text"} }, ], True) context = self.expect_gdbremote_sequence() self.assertIsNotNone(context) # Parse stop reply contents. key_vals_text = context.get("key_vals_text") self.assertIsNotNone(key_vals_text) kv_dict = self.parse_key_val_dict(key_vals_text) self.assertIsNotNone(kv_dict) # Verify there is a thread and that it matches the expected thread id. kv_thread = kv_dict.get("thread") self.assertIsNotNone(kv_thread) kv_thread_id = int(kv_thread, 16) self.assertEqual(kv_thread_id, thread) # Grab the stop id reported. stop_result_text = context.get("stop_result") self.assertIsNotNone(stop_result_text) stop_replies[kv_thread_id] = int(stop_result_text, 16) # Hang on to the key-val dictionary for the thread. thread_dicts[kv_thread_id] = kv_dict return (stop_replies, thread_dicts) def qThreadStopInfo_works_for_multiple_threads(self, thread_count): (stop_replies, _) = self.gather_stop_replies_via_qThreadStopInfo(thread_count) self.assertEqual(len(stop_replies), thread_count) @debugserver_test def test_qThreadStopInfo_works_for_multiple_threads_debugserver(self): self.init_debugserver_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_works_for_multiple_threads(self.THREAD_COUNT) @llgs_test def test_qThreadStopInfo_works_for_multiple_threads_llgs(self): self.init_llgs_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_works_for_multiple_threads(self.THREAD_COUNT) def qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt(self, thread_count): (stop_replies, _) = self.gather_stop_replies_via_qThreadStopInfo(thread_count) self.assertIsNotNone(stop_replies) no_stop_reason_count = sum(1 for stop_reason in list(stop_replies.values()) if stop_reason == 0) with_stop_reason_count = sum(1 for stop_reason in list(stop_replies.values()) if stop_reason != 0) # All but one thread should report no stop reason. self.assertEqual(no_stop_reason_count, thread_count - 1) # Only one thread should should indicate a stop reason. self.assertEqual(with_stop_reason_count, 1) @debugserver_test def test_qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt_debugserver(self): self.init_debugserver_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt(self.THREAD_COUNT) @llgs_test def test_qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt_llgs(self): self.init_llgs_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt(self.THREAD_COUNT) def qThreadStopInfo_has_valid_thread_names(self, thread_count, expected_thread_name): (_, thread_dicts) = self.gather_stop_replies_via_qThreadStopInfo(thread_count) self.assertIsNotNone(thread_dicts) for thread_dict in list(thread_dicts.values()): name = thread_dict.get("name") self.assertIsNotNone(name) self.assertEqual(name, expected_thread_name) @unittest2.skip("MacOSX doesn't have a default thread name") @debugserver_test def test_qThreadStopInfo_has_valid_thread_names_debugserver(self): self.init_debugserver_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_has_valid_thread_names(self.THREAD_COUNT, "a.out") @skipUnlessPlatform(["linux"]) # test requires OS with set, equal thread names by default. @llgs_test def test_qThreadStopInfo_has_valid_thread_names_llgs(self): self.init_llgs_test() self.build() self.set_inferior_startup_launch() self.qThreadStopInfo_has_valid_thread_names(self.THREAD_COUNT, "a.out")