""" Test lldb-dap setBreakpoints request """ import dap_server from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil import lldbdap_testcase class TestDAP_step(lldbdap_testcase.DAPTestCaseBase): @skipIfWindows def test_step(self): """ Tests the stepping in/out/over in threads. """ program = self.getBuildArtifact("a.out") self.build_and_launch(program) source = "main.cpp" # source_path = os.path.join(os.getcwd(), source) breakpoint1_line = line_number(source, "// breakpoint 1") lines = [breakpoint1_line] # Set breakpoint in the thread function so we can step the threads breakpoint_ids = self.set_source_breakpoints(source, lines) self.assertEqual( len(breakpoint_ids), len(lines), "expect correct number of breakpoints" ) self.continue_to_breakpoints(breakpoint_ids) threads = self.dap_server.get_threads() for thread in threads: if "reason" in thread: reason = thread["reason"] if reason == "breakpoint": # We have a thread that is stopped at our breakpoint. # Get the value of "x" and get the source file and line. # These will help us determine if we are stepping # correctly. If we step a thread correctly we will verify # the correct falue for x as it progresses through the # program. tid = thread["id"] x1 = self.get_local_as_int("x", threadId=tid) (src1, line1) = self.get_source_and_line(threadId=tid) # Now step into the "recurse()" function call again and # verify, using the new value of "x" and the source file # and line if we stepped correctly self.stepIn(threadId=tid, waitForStop=True) x2 = self.get_local_as_int("x", threadId=tid) (src2, line2) = self.get_source_and_line(threadId=tid) self.assertEqual(x1, x2 + 1, "verify step in variable") self.assertLess(line2, line1, "verify step in line") self.assertEqual(src1, src2, "verify step in source") # Now step out and verify self.stepOut(threadId=tid, waitForStop=True) x3 = self.get_local_as_int("x", threadId=tid) (src3, line3) = self.get_source_and_line(threadId=tid) self.assertEqual(x1, x3, "verify step out variable") self.assertGreaterEqual(line3, line1, "verify step out line") self.assertEqual(src1, src3, "verify step in source") # Step over and verify self.stepOver(threadId=tid, waitForStop=True) x4 = self.get_local_as_int("x", threadId=tid) (src4, line4) = self.get_source_and_line(threadId=tid) self.assertEqual(x4, x3, "verify step over variable") self.assertGreater(line4, line3, "verify step over line") self.assertEqual(src1, src4, "verify step over source") # Step a single assembly instruction. # Unfortunately, there is no portable way to verify the correct # stepping behavior here, because the generated assembly code # depends highly on the compiler, its version, the operating # system, and many more factors. self.stepOver( threadId=tid, waitForStop=True, granularity="instruction" ) self.stepIn( threadId=tid, waitForStop=True, granularity="instruction" ) # only step one thread that is at the breakpoint and stop break def test_step_over_inlined_function(self): """ Test stepping over when the program counter is in another file. """ program = self.getBuildArtifact("a.out") self.build_and_launch(program) source = "main.cpp" breakpoint_lines = [line_number(source, "// breakpoint 2")] step_over_pos = line_number(source, "// position_after_step_over") breakpoint_ids = self.set_source_breakpoints(source, breakpoint_lines) self.assertEqual( len(breakpoint_ids), len(breakpoint_lines), "expect correct number of breakpoints.", ) self.continue_to_breakpoints(breakpoint_ids) thread_id = self.dap_server.get_thread_id() self.stepOver(thread_id) levels = 1 frames = self.get_stackFrames(thread_id, 0, levels) self.assertEqual(len(frames), levels, "expect current number of frame levels.") top_frame = frames[0] self.assertEqual( top_frame["source"]["name"], source, "expect we are in the same file." ) self.assertTrue( top_frame["source"]["path"].endswith(source), f"expect path ending with '{source}'.", ) self.assertEqual( top_frame["line"], step_over_pos, f"expect step_over on line {step_over_pos}", ) self.continue_to_exit()