""" Test the 'memory region' command. """ import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class MemoryCommandRegion(TestBase): NO_DEBUG_INFO_TESTCASE = True def setUp(self): TestBase.setUp(self) # Find the line number to break for main.c. self.line = line_number( 'main.cpp', '// Run here before printing memory regions') def test_help(self): """ Test that help shows you must have one of address or --all, not both.""" self.expect("help memory region", substrs=["memory region ", "memory region -a"]) def setup_program(self): self.build() # Set breakpoint in main and run self.runCmd("file " + self.getBuildArtifact("a.out"), CURRENT_EXECUTABLE_SET) lldbutil.run_break_set_by_file_and_line( self, "main.cpp", self.line, num_expected_locations=-1, loc_exact=True) self.runCmd("run", RUN_SUCCEEDED) def test_command(self): self.setup_program() interp = self.dbg.GetCommandInterpreter() result = lldb.SBCommandReturnObject() # Test that the first 'memory region' command prints the usage. interp.HandleCommand("memory region", result) self.assertFalse(result.Succeeded()) self.assertEqual(result.GetError(), "error: 'memory region' takes one argument or \"--all\" option:\n" "Usage: memory region (or --all)\n") # We allow --all or an address argument, not both interp.HandleCommand("memory region --all 0", result) self.assertFalse(result.Succeeded()) self.assertRegexpMatches(result.GetError(), "The \"--all\" option cannot be used when an address argument is given") # Test that when the address fails to parse, we show an error and do not continue interp.HandleCommand("memory region not_an_address", result) self.assertFalse(result.Succeeded()) self.assertEqual(result.GetError(), "error: invalid address argument \"not_an_address\": address expression \"not_an_address\" evaluation failed\n") # Accumulate the results to compare with the --all output all_regions = "" # Now let's print the memory region starting at 0 which should always work. interp.HandleCommand("memory region 0x0", result) self.assertTrue(result.Succeeded()) self.assertRegexpMatches(result.GetOutput(), "\\[0x0+-") all_regions += result.GetOutput() # Keep printing memory regions until we printed all of them. while True: interp.HandleCommand("memory region", result) if not result.Succeeded(): break all_regions += result.GetOutput() # Now that we reached the end, 'memory region' should again print the usage. interp.HandleCommand("memory region", result) self.assertFalse(result.Succeeded()) self.assertRegexpMatches(result.GetError(), "Usage: memory region \(or \-\-all\)") # --all should match what repeating the command gives you interp.HandleCommand("memory region --all", result) self.assertTrue(result.Succeeded()) self.assertEqual(result.GetOutput(), all_regions) def test_no_overlapping_regions(self): # In the past on Windows we were recording AllocationBase as the base address # of the current region, not BaseAddress. So if a range of pages was split # into regions you would see several regions with the same base address. # This checks that this no longer happens (and it shouldn't happen on any # other OS either). self.setup_program() regions = self.process().GetMemoryRegions() num_regions = regions.GetSize() if num_regions: region = lldb.SBMemoryRegionInfo() regions.GetMemoryRegionAtIndex(0, region) previous_base = region.GetRegionBase() previous_end = region.GetRegionEnd() for idx in range(1, regions.GetSize()): regions.GetMemoryRegionAtIndex(idx, region) # Check that it does not overlap the previous region. # This could happen if we got the base addresses or size wrong. # Also catches the base addresses being the same. region_base = region.GetRegionBase() region_end = region.GetRegionEnd() self.assertFalse( (region_base < previous_end) and (previous_base < region_end), "Unexpected overlapping memory region found.") previous_base = region_base previous_end = region_end