""" A stress-test of sorts for LLDB's handling of threads in the inferior. This test sets a breakpoint in the main thread where test parameters (numbers of threads) can be adjusted, runs the inferior to that point, and modifies the locals that control the event thread counts. This test also sets a breakpoint in breakpoint_func (the function executed by each 'breakpoint' thread) and a watchpoint on a global modified in watchpoint_func. The inferior is continued until exit or a crash takes place, and the number of events seen by LLDB is verified to match the expected number of events. """ import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class ConcurrentEventsBase(TestBase): # Concurrency is the primary test factor here, not debug info variants. NO_DEBUG_INFO_TESTCASE = True def setUp(self): # Call super's setUp(). super(ConcurrentEventsBase, self).setUp() # Find the line number for our breakpoint. self.filename = "main.cpp" self.thread_breakpoint_line = line_number( self.filename, "// Set breakpoint here" ) self.setup_breakpoint_line = line_number( self.filename, "// Break here and adjust num" ) self.finish_breakpoint_line = line_number( self.filename, "// Break here and verify one thread is active" ) def describe_threads(self): ret = [] for x in self.inferior_process: id = x.GetIndexID() reason = x.GetStopReason() status = "stopped" if x.IsStopped() else "running" reason_str = lldbutil.stop_reason_to_str(reason) if reason == lldb.eStopReasonBreakpoint: bpid = x.GetStopReasonDataAtIndex(0) bp = self.inferior_target.FindBreakpointByID(bpid) reason_str = "%s hit %d times" % ( lldbutil.get_description(bp), bp.GetHitCount(), ) elif reason == lldb.eStopReasonWatchpoint: watchid = x.GetStopReasonDataAtIndex(0) watch = self.inferior_target.FindWatchpointByID(watchid) reason_str = "%s hit %d times" % ( lldbutil.get_description(watch), watch.GetHitCount(), ) elif reason == lldb.eStopReasonSignal: signals = self.inferior_process.GetUnixSignals() signal_name = signals.GetSignalAsCString(x.GetStopReasonDataAtIndex(0)) reason_str = "signal %s" % signal_name location = "\t".join( [ lldbutil.get_description(x.GetFrameAtIndex(i)) for i in range(x.GetNumFrames()) ] ) ret.append( "thread %d %s due to %s at\n\t%s" % (id, status, reason_str, location) ) return ret def add_breakpoint(self, line, descriptions): """Adds a breakpoint at self.filename:line and appends its description to descriptions, and returns the LLDB SBBreakpoint object. """ bpno = lldbutil.run_break_set_by_file_and_line( self, self.filename, line, num_expected_locations=-1 ) bp = self.inferior_target.FindBreakpointByID(bpno) descriptions.append(": file = 'main.cpp', line = %d" % line) return bp def inferior_done(self): """Returns true if the inferior is done executing all the event threads (and is stopped at self.finish_breakpoint, or has terminated execution. """ return ( self.finish_breakpoint.GetHitCount() > 0 or self.crash_count > 0 or self.inferior_process.GetState() == lldb.eStateExited ) def count_signaled_threads(self): count = 0 for thread in self.inferior_process: if ( thread.GetStopReason() == lldb.eStopReasonSignal and thread.GetStopReasonDataAtIndex(0) == self.inferior_process.GetUnixSignals().GetSignalNumberFromName( "SIGUSR1" ) ): count += 1 return count def do_thread_actions( self, num_breakpoint_threads=0, num_signal_threads=0, num_watchpoint_threads=0, num_crash_threads=0, num_delay_breakpoint_threads=0, num_delay_signal_threads=0, num_delay_watchpoint_threads=0, num_delay_crash_threads=0, ): """Sets a breakpoint in the main thread where test parameters (numbers of threads) can be adjusted, runs the inferior to that point, and modifies the locals that control the event thread counts. Also sets a breakpoint in breakpoint_func (the function executed by each 'breakpoint' thread) and a watchpoint on a global modified in watchpoint_func. The inferior is continued until exit or a crash takes place, and the number of events seen by LLDB is verified to match the expected number of events. """ exe = self.getBuildArtifact("a.out") self.runCmd("file " + exe, CURRENT_EXECUTABLE_SET) # Get the target self.inferior_target = self.dbg.GetSelectedTarget() expected_bps = [] # Initialize all the breakpoints (main thread/aux thread) self.setup_breakpoint = self.add_breakpoint( self.setup_breakpoint_line, expected_bps ) self.finish_breakpoint = self.add_breakpoint( self.finish_breakpoint_line, expected_bps ) # Set the thread breakpoint if num_breakpoint_threads + num_delay_breakpoint_threads > 0: self.thread_breakpoint = self.add_breakpoint( self.thread_breakpoint_line, expected_bps ) # Verify breakpoints self.expect( "breakpoint list -f", "Breakpoint locations shown correctly", substrs=expected_bps, ) # Run the program. self.runCmd("run", RUN_SUCCEEDED) # Check we are at line self.setup_breakpoint self.expect( "thread backtrace", STOPPED_DUE_TO_BREAKPOINT, substrs=["stop reason = breakpoint 1."], ) # Initialize the (single) watchpoint on the global variable (g_watchme) if num_watchpoint_threads + num_delay_watchpoint_threads > 0: # The concurrent tests have multiple threads modifying a variable # with the same value. The default "modify" style watchpoint will # only report this as 1 hit for all threads, because they all wrote # the same value. The testsuite needs "write" style watchpoints to # get the correct number of hits reported. self.runCmd("watchpoint set variable -w write g_watchme") for w in self.inferior_target.watchpoint_iter(): self.thread_watchpoint = w self.assertTrue( "g_watchme" in str(self.thread_watchpoint), "Watchpoint location not shown correctly", ) # Get the process self.inferior_process = self.inferior_target.GetProcess() # We should be stopped at the setup site where we can set the number of # threads doing each action (break/crash/signal/watch) self.assertEqual( self.inferior_process.GetNumThreads(), 1, "Expected to stop before any additional threads are spawned.", ) self.runCmd("expr num_breakpoint_threads=%d" % num_breakpoint_threads) self.runCmd("expr num_crash_threads=%d" % num_crash_threads) self.runCmd("expr num_signal_threads=%d" % num_signal_threads) self.runCmd("expr num_watchpoint_threads=%d" % num_watchpoint_threads) self.runCmd( "expr num_delay_breakpoint_threads=%d" % num_delay_breakpoint_threads ) self.runCmd("expr num_delay_crash_threads=%d" % num_delay_crash_threads) self.runCmd("expr num_delay_signal_threads=%d" % num_delay_signal_threads) self.runCmd( "expr num_delay_watchpoint_threads=%d" % num_delay_watchpoint_threads ) # Continue the inferior so threads are spawned self.runCmd("continue") # Make sure we see all the threads. The inferior program's threads all synchronize with a pseudo-barrier; that is, # the inferior program ensures all threads are started and running # before any thread triggers its 'event'. num_threads = self.inferior_process.GetNumThreads() expected_num_threads = ( num_breakpoint_threads + num_delay_breakpoint_threads + num_signal_threads + num_delay_signal_threads + num_watchpoint_threads + num_delay_watchpoint_threads + num_crash_threads + num_delay_crash_threads + 1 ) self.assertEqual( num_threads, expected_num_threads, "Expected to see %d threads, but seeing %d. Details:\n%s" % (expected_num_threads, num_threads, "\n\t".join(self.describe_threads())), ) self.signal_count = self.count_signaled_threads() self.crash_count = len( lldbutil.get_crashed_threads(self, self.inferior_process) ) # Run to completion (or crash) while not self.inferior_done(): if self.TraceOn(): self.runCmd("thread backtrace all") self.runCmd("continue") self.signal_count += self.count_signaled_threads() self.crash_count += len( lldbutil.get_crashed_threads(self, self.inferior_process) ) if num_crash_threads > 0 or num_delay_crash_threads > 0: # Expecting a crash self.assertTrue( self.crash_count > 0, "Expecting at least one thread to crash. Details: %s" % "\t\n".join(self.describe_threads()), ) # Ensure the zombie process is reaped self.runCmd("process kill") elif num_crash_threads == 0 and num_delay_crash_threads == 0: # There should be a single active thread (the main one) which hit # the breakpoint after joining self.assertEqual( 1, self.finish_breakpoint.GetHitCount(), "Expected main thread (finish) breakpoint to be hit once", ) # There should be a single active thread (the main one) which hit # the breakpoint after joining. Depending on the pthread # implementation we may have a worker thread finishing the pthread_join() # after it has returned. Filter the threads to only count those # with user functions on them from our test case file, # lldb/test/API/functionalities/thread/concurrent_events/main.cpp user_code_funcnames = [ "breakpoint_func", "crash_func", "do_action_args", "dotest", "main", "register_signal_handler", "signal_func", "sigusr1_handler", "start_threads", "watchpoint_func", ] num_threads_with_usercode = 0 for t in self.inferior_process.threads: thread_has_user_code = False for f in t.frames: for funcname in user_code_funcnames: if funcname in f.GetDisplayFunctionName(): thread_has_user_code = True break if thread_has_user_code: break if thread_has_user_code: num_threads_with_usercode += 1 self.assertEqual( 1, num_threads_with_usercode, "Expecting 1 thread but seeing %d. Details:%s" % (num_threads_with_usercode, "\n\t".join(self.describe_threads())), ) self.runCmd("continue") # The inferior process should have exited without crashing self.assertEqual( 0, self.crash_count, "Unexpected thread(s) in crashed state" ) self.assertEqual( self.inferior_process.GetState(), lldb.eStateExited, PROCESS_EXITED ) # Verify the number of actions took place matches expected numbers expected_breakpoint_threads = ( num_delay_breakpoint_threads + num_breakpoint_threads ) breakpoint_hit_count = ( self.thread_breakpoint.GetHitCount() if expected_breakpoint_threads > 0 else 0 ) self.assertEqual( expected_breakpoint_threads, breakpoint_hit_count, "Expected %d breakpoint hits, but got %d" % (expected_breakpoint_threads, breakpoint_hit_count), ) expected_signal_threads = num_delay_signal_threads + num_signal_threads self.assertEqual( expected_signal_threads, self.signal_count, "Expected %d stops due to signal delivery, but got %d" % (expected_signal_threads, self.signal_count), ) expected_watchpoint_threads = ( num_delay_watchpoint_threads + num_watchpoint_threads ) watchpoint_hit_count = ( self.thread_watchpoint.GetHitCount() if expected_watchpoint_threads > 0 else 0 ) self.assertEqual( expected_watchpoint_threads, watchpoint_hit_count, "Expected %d watchpoint hits, got %d" % (expected_watchpoint_threads, watchpoint_hit_count), )