mib created this revision.
mib added reviewers: jingham, bulbazord, JDevlieghere.
mib added a project: LLDB.
Herald added a project: All.
mib requested review of this revision.
Herald added a subscriber: lldb-commits.
This patch improve the interactive scripted process debugging test by
adding test coverage for child process breakpoint setting and execution
state change.
This patch introduces a new test case for a multiplexed launch, which
does the same thing as the simple passthrough launch. After the
multiplexer process stops, this new test launches 2 other scripted processes
that should contain respectively the even and odd threads from the
multiplexer scripted process.
Then, we create a breakpoint on one the child scripted process, make
sure it was set probably on the child process, the multiplexer process
and the real process. This also test the breakpoint name tagging at the
multiplexer level.
Finally, we resume the child process that had a breakpoint and make sure
that all the processes has stopped at the right location.
Signed-off-by: Med Ismail Bennani <medismail.benn...@gmail.com>
Repository:
rG LLVM Github Monorepo
https://reviews.llvm.org/D149179
Files:
lldb/test/API/functionalities/interactive_scripted_process/TestInteractiveScriptedProcess.py
Index: lldb/test/API/functionalities/interactive_scripted_process/TestInteractiveScriptedProcess.py
===================================================================
--- lldb/test/API/functionalities/interactive_scripted_process/TestInteractiveScriptedProcess.py
+++ lldb/test/API/functionalities/interactive_scripted_process/TestInteractiveScriptedProcess.py
@@ -12,15 +12,185 @@
NO_DEBUG_INFO_TESTCASE = True
- def test_passthrough_launch(self):
- """Test a simple pass-through process launch"""
+ def setUp(self):
+ # Call super's setUp().
+ TestBase.setUp(self)
+ # Build and load test program
self.build()
self.runCmd("file " + self.getBuildArtifact("a.out"), CURRENT_EXECUTABLE_SET)
self.main_source_file = lldb.SBFileSpec("main.cpp")
self.script_module = "interactive_scripted_process"
self.script_file = self.script_module + ".py"
+
+ def test_passthrough_launch(self):
+ """Test a simple pass-through process launch"""
self.passthrough_launch()
+ lldbutil.run_break_set_by_source_regexp(self, "also break here")
+ self.assertEqual(self.mux_target.GetNumBreakpoints(), 2)
+ error = self.mux_process.Continue()
+ self.assertSuccess(error, "Resuming multiplexer scripted process")
+ self.assertTrue(self.mux_process.IsValid(), "Got a valid process")
+
+ event = lldbutil.fetch_next_event(
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
+ event = lldbutil.fetch_next_event(
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
+
+ def test_multiplexed_launch(self):
+ """Test a multiple interactive scripted process debugging"""
+ self.passthrough_launch()
+ self.assertEqual(self.dbg.GetNumTargets(), 2)
+
+ driving_target = self.mux_process.GetScriptedImplementation().driving_target
+ self.assertTrue(driving_target.IsValid(), "Driving target is invalid")
+
+ # Create a target for the multiplexed even scripted process
+ even_target = self.duplicate_target(driving_target)
+ self.assertTrue(
+ even_target.IsValid(),
+ "Couldn't duplicate driving target to launch multiplexed even scripted process",
+ )
+
+ class_name = f"{self.script_module}.MultiplexedScriptedProcess"
+ dictionary = {"driving_target_idx": self.dbg.GetIndexOfTarget(self.mux_target)}
+
+ dictionary["parity"] = 0
+ muxed_launch_info = self.get_launch_info(class_name, dictionary)
+
+ # Launch Even Child Scripted Process
+ error = lldb.SBError()
+ even_process = even_target.Launch(muxed_launch_info, error)
+ self.assertTrue(
+ even_process, "Couldn't launch multiplexed even scripted process"
+ )
+ self.multiplex(even_process)
+
+ # Check that the even process started running
+ event = lldbutil.fetch_next_event(
+ self, self.dbg.GetListener(), even_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
+ # Check that the even process stopped
+ event = lldbutil.fetch_next_event(
+ self, self.dbg.GetListener(), even_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
+
+ self.assertTrue(even_process.IsValid(), "Got a valid process")
+ self.assertState(
+ even_process.GetState(), lldb.eStateStopped, "Process is stopped"
+ )
+
+ # Create a target for the multiplexed odd scripted process
+ odd_target = self.duplicate_target(driving_target)
+ self.assertTrue(
+ odd_target.IsValid(),
+ "Couldn't duplicate driving target to launch multiplexed odd scripted process",
+ )
+
+ dictionary["parity"] = 1
+ muxed_launch_info = self.get_launch_info(class_name, dictionary)
+
+ # Launch Odd Child Scripted Process
+ error = lldb.SBError()
+ odd_process = odd_target.Launch(muxed_launch_info, error)
+ self.assertTrue(odd_process, "Couldn't launch multiplexed odd scripted process")
+ self.multiplex(odd_process)
+
+ # Check that the odd process started running
+ event = lldbutil.fetch_next_event(
+ self, self.dbg.GetListener(), odd_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
+ # Check that the odd process stopped
+ event = lldbutil.fetch_next_event(
+ self, self.dbg.GetListener(), odd_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
+
+ self.assertTrue(odd_process.IsValid(), "Got a valid process")
+ self.assertState(
+ odd_process.GetState(), lldb.eStateStopped, "Process is stopped"
+ )
+
+ # Set a breakpoint on the odd child process
+ bkpt = odd_target.BreakpointCreateBySourceRegex(
+ "also break here", self.main_source_file
+ )
+ self.assertEqual(odd_target.GetNumBreakpoints(), 1)
+ self.assertTrue(bkpt, "Second breakpoint set on child scripted process")
+ self.assertEqual(bkpt.GetNumLocations(), 1, "Second breakpoint has 1 location")
+
+ # Verify that the breakpoint was also set on the multiplexer & real target
+ self.assertEqual(self.mux_target.GetNumBreakpoints(), 2)
+ bkpt = self.mux_target.GetBreakpointAtIndex(1)
+ self.assertEqual(
+ bkpt.GetNumLocations(), 1, "Second breakpoint set on mux scripted process"
+ )
+ self.assertTrue(bkpt.MatchesName("multiplexed_scripted_process_421"))
+
+ self.assertGreater(driving_target.GetNumBreakpoints(), 1)
+
+ # Resume execution on child process
+ error = odd_process.Continue()
+ self.assertSuccess(error, "Resuming odd child scripted process")
+ self.assertTrue(odd_process.IsValid(), "Got a valid process")
+
+ # Since all the execution is asynchronous, the order in which events
+ # arrive is non-deterministic, so we need a data structure to make sure
+ # we received both the running and stopped event for each target.
+
+ # Initialize the execution event "bingo book", that maps a process index
+ # to a dictionary that contains flags that are not set for the process
+ # events that we care about (running & stopped)
+
+ execution_events = {
+ 1: {lldb.eStateRunning: False, lldb.eStateStopped: False},
+ 2: {lldb.eStateRunning: False, lldb.eStateStopped: False},
+ 3: {lldb.eStateRunning: False, lldb.eStateStopped: False},
+ }
+
+ def fetch_process_event(self, execution_events):
+ event = lldbutil.fetch_next_event(
+ self,
+ self.dbg.GetListener(),
+ lldb.SBProcess.GetBroadcasterClass(),
+ match_class=True,
+ )
+ state = lldb.SBProcess.GetStateFromEvent(event)
+ self.assertIn(state, [lldb.eStateRunning, lldb.eStateStopped])
+ event_process = lldb.SBProcess.GetProcessFromEvent(event)
+ self.assertTrue(event_process.IsValid())
+ event_target = event_process.GetTarget()
+ event_target_idx = self.dbg.GetIndexOfTarget(event_target)
+ self.assertFalse(
+ execution_events[event_target_idx][state],
+ "Event already received for this process",
+ )
+ execution_events[event_target_idx][state] = True
+
+ event = lldbutil.fetch_next_event(
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
+
+ event = lldbutil.fetch_next_event(
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
+ )
+ self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
+
+ for _ in range((self.dbg.GetNumTargets() - 1) * 2):
+ fetch_process_event(self, execution_events)
+
+ for target_index, event_states in execution_events.items():
+ for state, is_set in event_states.items():
+ self.assertTrue(is_set, f"Target {target_index} has state {state} set")
+
def duplicate_target(self, driving_target):
exe = driving_target.executable.fullpath
triple = driving_target.triple
@@ -36,6 +206,14 @@
launch_info.SetScriptedProcessDictionary(structured_data)
return launch_info
+ def multiplex(self, muxed_process):
+ muxed_process.GetScriptedImplementation().multiplexer = (
+ self.mux_process.GetScriptedImplementation()
+ )
+ self.mux_process.GetScriptedImplementation().multiplexed_processes[
+ muxed_process.GetProcessID()
+ ] = muxed_process
+
def passthrough_launch(self):
"""Test that a simple passthrough wrapper functions correctly"""
# First build the real target:
@@ -49,42 +227,42 @@
script_path = os.path.join(self.getSourceDir(), self.script_file)
self.runCmd(f"command script import '{script_path}'")
- mux_target = self.duplicate_target(real_target)
- self.assertTrue(mux_target.IsValid(), "duplicate target succeeded")
+ self.mux_target = self.duplicate_target(real_target)
+ self.assertTrue(self.mux_target.IsValid(), "duplicate target succeeded")
mux_class = f"{self.script_module}.MultiplexerScriptedProcess"
script_dict = {"driving_target_idx": real_target_id}
mux_launch_info = self.get_launch_info(mux_class, script_dict)
- mux_process_listener = lldb.SBListener(
+ self.mux_process_listener = lldb.SBListener(
"lldb.test.interactive-scripted-process.listener"
)
- mux_launch_info.SetPassthroughListener(mux_process_listener)
+ mux_launch_info.SetShadowListener(self.mux_process_listener)
self.dbg.SetAsync(True)
error = lldb.SBError()
- mux_process = mux_target.Launch(mux_launch_info, error)
+ self.mux_process = self.mux_target.Launch(mux_launch_info, error)
self.assertSuccess(error, "Launched multiplexer scripted process")
- self.assertTrue(mux_process.IsValid(), "Got a valid process")
+ self.assertTrue(self.mux_process.IsValid(), "Got a valid process")
# Check that the mux process started running
event = lldbutil.fetch_next_event(
- self, mux_process_listener, mux_process.GetBroadcaster(), timeout=60 * 5
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
)
self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
# Check that the real process started running
event = lldbutil.fetch_next_event(
- self, self.dbg.GetListener(), mux_process.GetBroadcaster()
+ self, self.dbg.GetListener(), self.mux_process.GetBroadcaster()
)
self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
# Check that the real process stopped
event = lldbutil.fetch_next_event(
- self, self.dbg.GetListener(), mux_process.GetBroadcaster(), timeout=60 * 5
+ self, self.dbg.GetListener(), self.mux_process.GetBroadcaster()
)
self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
# Check that the mux process stopped
event = lldbutil.fetch_next_event(
- self, mux_process_listener, mux_process.GetBroadcaster(), timeout=60 * 5
+ self, self.mux_process_listener, self.mux_process.GetBroadcaster()
)
self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
@@ -98,25 +276,10 @@
# Check that we got the right threads:
self.assertEqual(
len(real_process.threads),
- len(mux_process.threads),
+ len(self.mux_process.threads),
"Same number of threads",
)
for id in range(len(real_process.threads)):
real_pc = real_process.threads[id].frame[0].pc
- mux_pc = mux_process.threads[id].frame[0].pc
+ mux_pc = self.mux_process.threads[id].frame[0].pc
self.assertEqual(real_pc, mux_pc, f"PC's equal for {id}")
-
- lldbutil.run_break_set_by_source_regexp(self, "also break here")
- self.assertEqual(mux_target.GetNumBreakpoints(), 2)
- error = mux_process.Continue()
- self.assertSuccess(error, "Resuming multiplexer scripted process")
- self.assertTrue(mux_process.IsValid(), "Got a valid process")
-
- event = lldbutil.fetch_next_event(
- self, mux_process_listener, mux_process.GetBroadcaster()
- )
- self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateRunning)
- event = lldbutil.fetch_next_event(
- self, mux_process_listener, mux_process.GetBroadcaster()
- )
- self.assertState(lldb.SBProcess.GetStateFromEvent(event), lldb.eStateStopped)
_______________________________________________
lldb-commits mailing list
lldb-commits@lists.llvm.org
https://lists.llvm.org/cgi-bin/mailman/listinfo/lldb-commits
