import gdbremote_testcase from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class TestGdbRemote_qThreadStopInfo(gdbremote_testcase.GdbRemoteTestCaseBase): THREAD_COUNT = 5 def gather_stop_replies_via_qThreadStopInfo(self, threads): # 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 @skipIfNetBSD def test_qThreadStopInfo_works_for_multiple_threads(self): self.build() self.set_inferior_startup_launch() _, threads = self.launch_with_threads(self.THREAD_COUNT) stop_replies = self.gather_stop_replies_via_qThreadStopInfo(threads) triple = self.dbg.GetSelectedPlatform().GetTriple() # Consider one more thread created by calling DebugBreakProcess. if re.match(".*-.*-windows", triple): self.assertGreaterEqual(len(stop_replies), self.THREAD_COUNT) else: self.assertEqual(len(stop_replies), self.THREAD_COUNT) @expectedFailureAll(oslist=["freebsd"], bugnumber="llvm.org/pr48418") @expectedFailureNetBSD @expectedFailureAll(oslist=["windows"]) # Output forwarding not implemented def test_qThreadStopInfo_only_reports_one_thread_stop_reason_during_interrupt(self): self.build() self.set_inferior_startup_launch() procs = self.prep_debug_monitor_and_inferior( inferior_args=["thread:new"] * 4 + ["stop-me-now", "sleep:60"] ) self.test_sequence.add_log_lines( [ "read packet: $c#00", { "type": "output_match", "regex": self.maybe_strict_output_regex(r"stop-me-now\r\n"), }, "read packet: \x03", {"direction": "send", "regex": r"^\$T([0-9a-fA-F]{2})([^#]*)#..$"}, ], True, ) self.add_threadinfo_collection_packets() context = self.expect_gdbremote_sequence() threads = self.parse_threadinfo_packets(context) stop_replies = self.gather_stop_replies_via_qThreadStopInfo(threads) 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. triple = self.dbg.GetSelectedPlatform().GetTriple() # Consider one more thread created by calling DebugBreakProcess. if re.match(".*-.*-windows", triple): self.assertGreaterEqual(no_stop_reason_count, self.THREAD_COUNT - 1) else: self.assertEqual(no_stop_reason_count, self.THREAD_COUNT - 1) # Only one thread should should indicate a stop reason. self.assertEqual(with_stop_reason_count, 1)