forked from OSchip/llvm-project
246 lines
11 KiB
Python
246 lines
11 KiB
Python
"""Test stepping over and into inlined functions."""
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import os, time
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import unittest2
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import lldb
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import lldbutil
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from lldbtest import *
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class TestInlineStepping(TestBase):
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mydir = os.path.join("functionalities", "inline-stepping")
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@unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
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@python_api_test
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@dsym_test
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def test_with_dsym_and_python_api(self):
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"""Test stepping over and into inlined functions."""
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self.buildDsym()
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self.inline_stepping()
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@python_api_test
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@dwarf_test
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@expectedFailureFreeBSD('llvm.org/pr17214')
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@expectedFailureIcc # Not really a bug. ICC combines two inlined functions.
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def test_with_dwarf_and_python_api(self):
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"""Test stepping over and into inlined functions."""
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self.buildDwarf()
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self.inline_stepping()
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@unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
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@python_api_test
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@dsym_test
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def test_step_over_with_dsym_and_python_api(self):
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"""Test stepping over and into inlined functions."""
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self.buildDsym()
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self.inline_stepping_step_over()
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@python_api_test
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@dwarf_test
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def test_step_over_with_dwarf_and_python_api(self):
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"""Test stepping over and into inlined functions."""
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self.buildDwarf()
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self.inline_stepping_step_over()
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def setUp(self):
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# Call super's setUp().
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TestBase.setUp(self)
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# Find the line numbers that we will step to in main:
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self.main_source = "calling.cpp"
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self.source_lines = {}
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functions = ['caller_ref_1', 'caller_ref_2', 'inline_ref_1', 'inline_ref_2', 'called_by_inline_ref', 'caller_trivial_1', 'caller_trivial_2', 'inline_trivial_1', 'inline_trivial_2', 'called_by_inline_trivial' ]
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for name in functions:
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self.source_lines[name] = line_number(self.main_source, "// In " + name + ".")
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self.main_source_spec = lldb.SBFileSpec (self.main_source)
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def do_step(self, step_type, destination_line_entry):
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expected_stack_depth = self.thread.GetNumFrames()
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if step_type == "into":
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expected_stack_depth += 1
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self.thread.StepInto()
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elif step_type == "out":
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expected_stack_depth -= 1
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self.thread.StepOut()
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elif step_type == "over":
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self.thread.StepOver()
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else:
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self.fail ("Unrecognized step type: " + step_type)
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threads = lldbutil.get_stopped_threads (self.process, lldb.eStopReasonPlanComplete)
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if len(threads) != 1:
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destination_description = lldb.SBStream()
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destination_line_entry.GetDescription(destination_description)
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self.fail ("Failed to stop due to step " + step_type + " operation stepping to: " + destination_description.GetData())
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self.thread = threads[0]
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stop_line_entry = self.thread.GetFrameAtIndex(0).GetLineEntry()
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self.assertTrue (stop_line_entry.IsValid(), "Stop line entry was not valid.")
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# Don't use the line entry equal operator because we don't care about the column number.
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stop_at_right_place = (stop_line_entry.GetFileSpec() == destination_line_entry.GetFileSpec() and stop_line_entry.GetLine() == destination_line_entry.GetLine())
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if stop_at_right_place == False:
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destination_description = lldb.SBStream()
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destination_line_entry.GetDescription(destination_description)
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actual_description = lldb.SBStream()
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stop_line_entry.GetDescription(actual_description)
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self.fail ("Step " + step_type + " stopped at wrong place: expected: " + destination_description.GetData() + " got: " + actual_description.GetData() + ".")
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real_stack_depth = self.thread.GetNumFrames()
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if real_stack_depth != expected_stack_depth:
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destination_description = lldb.SBStream()
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destination_line_entry.GetDescription(destination_description)
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self.fail ("Step %s to %s got wrong number of frames, should be: %d was: %d."%(step_type, destination_description.GetData(), expected_stack_depth, real_stack_depth))
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def run_step_sequence(self, step_sequence):
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"""This function takes a list of duples instructing how to run the program. The first element in each duple is
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a source pattern for the target location, and the second is the operation that will take you from the current
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source location to the target location. It will then run all the steps in the sequence.
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It will check that you arrived at the expected source location at each step, and that the stack depth changed
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correctly for the operation in the sequence."""
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target_line_entry = lldb.SBLineEntry()
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target_line_entry.SetFileSpec(self.main_source_spec)
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for step_pattern in step_sequence:
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step_stop_line = line_number (self.main_source, step_pattern[0])
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target_line_entry.SetLine(step_stop_line)
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self.do_step (step_pattern[1], target_line_entry)
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def inline_stepping(self):
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"""Use Python APIs to test stepping over and hitting breakpoints."""
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exe = os.path.join(os.getcwd(), "a.out")
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target = self.dbg.CreateTarget(exe)
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self.assertTrue(target, VALID_TARGET)
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break_1_in_main = target.BreakpointCreateBySourceRegex ('// Stop here and step over to set up stepping over.', self.main_source_spec)
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self.assertTrue(break_1_in_main, VALID_BREAKPOINT)
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# Now launch the process, and do not stop at entry point.
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self.process = target.LaunchSimple (None, None, os.getcwd())
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self.assertTrue(self.process, PROCESS_IS_VALID)
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# The stop reason of the thread should be breakpoint.
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threads = lldbutil.get_threads_stopped_at_breakpoint (self.process, break_1_in_main)
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if len(threads) != 1:
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self.fail ("Failed to stop at first breakpoint in main.")
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self.thread = threads[0]
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# Step over the inline_value = 0 line to get us to inline_trivial_1 called from main. Doing it this way works
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# around a bug in lldb where the breakpoint on the containing line of an inlined function with no return value
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# gets set past the insertion line in the function.
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# Then test stepping over a simple inlined function. Note, to test all the parts of the inlined stepping
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# the calls inline_stepping_1 and inline_stepping_2 should line up at the same address, that way we will test
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# the "virtual" stepping.
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# FIXME: Put in a check to see if that is true and warn if it is not.
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step_sequence = [["// At inline_trivial_1 called from main.", "over"],
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["// At first call of caller_trivial_1 in main.", "over"]]
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self.run_step_sequence(step_sequence)
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# Now step from caller_ref_1 all the way into called_by_inline_trivial
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step_sequence = [["// In caller_trivial_1.", "into"],
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["// In caller_trivial_2.", "into"],
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["// In inline_trivial_1.", "into"],
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["// In inline_trivial_2.", "into"],
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["// At caller_by_inline_trivial in inline_trivial_2.", "over"],
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["// In called_by_inline_trivial.", "into"]]
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self.run_step_sequence(step_sequence)
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# Now run to the inline_trivial_1 just before the immediate step into inline_trivial_2:
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break_2_in_main = target.BreakpointCreateBySourceRegex ('// At second call of caller_trivial_1 in main.', self.main_source_spec)
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self.assertTrue(break_2_in_main, VALID_BREAKPOINT)
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threads = lldbutil.continue_to_breakpoint (self.process, break_2_in_main)
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self.assertTrue (len(threads) == 1, "Successfully ran to call site of second caller_trivial_1 call.")
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self.thread = threads[0]
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step_sequence = [["// In caller_trivial_1.", "into"],
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["// In caller_trivial_2.", "into"],
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["// In inline_trivial_1.", "into"]]
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self.run_step_sequence(step_sequence)
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# Then call some trivial function, and make sure we end up back where we were in the inlined call stack:
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frame = self.thread.GetFrameAtIndex(0)
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before_line_entry = frame.GetLineEntry()
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value = frame.EvaluateExpression ("function_to_call()")
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after_line_entry = frame.GetLineEntry()
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self.assertTrue (before_line_entry.GetLine() == after_line_entry.GetLine(), "Line entry before and after function calls are the same.")
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# Now make sure stepping OVER in the middle of the stack works, and then check finish from the inlined frame:
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step_sequence = [["// At increment in inline_trivial_1.", "over"],
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["// At increment in caller_trivial_2.", "out"]]
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self.run_step_sequence(step_sequence)
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# Now run to the place in main just before the first call to caller_ref_1:
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break_3_in_main = target.BreakpointCreateBySourceRegex ('// At first call of caller_ref_1 in main.', self.main_source_spec)
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self.assertTrue(break_3_in_main, VALID_BREAKPOINT)
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threads = lldbutil.continue_to_breakpoint (self.process, break_3_in_main)
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self.assertTrue (len(threads) == 1, "Successfully ran to call site of first caller_ref_1 call.")
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self.thread = threads[0]
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step_sequence = [["// In caller_ref_1.", "into"],
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["// In caller_ref_2.", "into"],
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["// In inline_ref_1.", "into"],
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["// In inline_ref_2.", "into"],
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["// In called_by_inline_ref.", "into"],
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["// In inline_ref_2.", "out"],
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["// In inline_ref_1.", "out"],
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["// At increment in inline_ref_1.", "over"],
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["// In caller_ref_2.", "out"],
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["// At increment in caller_ref_2.", "over"]]
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self.run_step_sequence (step_sequence)
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def inline_stepping_step_over(self):
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"""Use Python APIs to test stepping over and hitting breakpoints."""
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exe = os.path.join(os.getcwd(), "a.out")
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target = self.dbg.CreateTarget(exe)
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self.assertTrue(target, VALID_TARGET)
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break_1_in_main = target.BreakpointCreateBySourceRegex ('// At second call of caller_ref_1 in main.', self.main_source_spec)
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self.assertTrue(break_1_in_main, VALID_BREAKPOINT)
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# Now launch the process, and do not stop at entry point.
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self.process = target.LaunchSimple (None, None, os.getcwd())
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self.assertTrue(self.process, PROCESS_IS_VALID)
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# The stop reason of the thread should be breakpoint.
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threads = lldbutil.get_threads_stopped_at_breakpoint (self.process, break_1_in_main)
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if len(threads) != 1:
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self.fail ("Failed to stop at first breakpoint in main.")
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self.thread = threads[0]
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step_sequence = [["// In caller_ref_1.", "into"],
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["// In caller_ref_2.", "into"],
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["// At increment in caller_ref_2.", "over"]]
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self.run_step_sequence (step_sequence)
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if __name__ == '__main__':
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import atexit
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lldb.SBDebugger.Initialize()
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atexit.register(lambda: lldb.SBDebugger.Terminate())
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unittest2.main()
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