| """ |
| Test the lldb disassemble command on lib stdc++. |
| """ |
| |
| from __future__ import print_function |
| |
| |
| import unittest2 |
| import os |
| import lldb |
| from lldbsuite.test.lldbtest import * |
| import lldbsuite.test.lldbutil as lldbutil |
| from lldbsuite.test.decorators import * |
| |
| class StdCXXDisassembleTestCase(TestBase): |
| |
| mydir = TestBase.compute_mydir(__file__) |
| |
| @skipIfWindows |
| def test_stdcxx_disasm(self): |
| """Do 'disassemble' on each and every 'Code' symbol entry from the std c++ lib.""" |
| self.build() |
| (target, process, thread, bkpt) = lldbutil.run_to_source_breakpoint(self, "// Set break point at this line", lldb.SBFileSpec("main.cpp")) |
| |
| # Disassemble the functions on the call stack. |
| self.runCmd("thread backtrace") |
| thread = lldbutil.get_stopped_thread( |
| process, lldb.eStopReasonBreakpoint) |
| self.assertIsNotNone(thread) |
| depth = thread.GetNumFrames() |
| for i in range(depth - 1): |
| frame = thread.GetFrameAtIndex(i) |
| function = frame.GetFunction() |
| if function.GetName(): |
| self.runCmd("disassemble -n '%s'" % function.GetName()) |
| |
| lib_stdcxx = "FAILHORRIBLYHERE" |
| # Iterate through the available modules, looking for stdc++ library... |
| for i in range(target.GetNumModules()): |
| module = target.GetModuleAtIndex(i) |
| fs = module.GetFileSpec() |
| if (fs.GetFilename().startswith("libstdc++") |
| or fs.GetFilename().startswith("libc++")): |
| lib_stdcxx = str(fs) |
| break |
| |
| # At this point, lib_stdcxx is the full path to the stdc++ library and |
| # module is the corresponding SBModule. |
| |
| self.expect(lib_stdcxx, "Libraray StdC++ is located", exe=False, |
| substrs=["lib"]) |
| |
| self.runCmd("image dump symtab '%s'" % lib_stdcxx) |
| raw_output = self.res.GetOutput() |
| # Now, look for every 'Code' symbol and feed its load address into the |
| # command: 'disassemble -s load_address -e end_address', where the |
| # end_address is taken from the next consecutive 'Code' symbol entry's |
| # load address. |
| # |
| # The load address column comes after the file address column, with both |
| # looks like '0xhhhhhhhh', i.e., 8 hexadecimal digits. |
| codeRE = re.compile(r""" |
| \ Code\ {9} # ' Code' followed by 9 SPCs, |
| 0x[0-9a-f]{16} # the file address column, and |
| \ # a SPC, and |
| (0x[0-9a-f]{16}) # the load address column, and |
| .* # the rest. |
| """, re.VERBOSE) |
| # Maintain a start address variable; if we arrive at a consecutive Code |
| # entry, then the load address of the that entry is fed as the end |
| # address to the 'disassemble -s SA -e LA' command. |
| SA = None |
| for line in raw_output.split(os.linesep): |
| match = codeRE.search(line) |
| if match: |
| LA = match.group(1) |
| if self.TraceOn(): |
| print("line:", line) |
| print("load address:", LA) |
| print("SA:", SA) |
| if SA and LA: |
| if int(LA, 16) > int(SA, 16): |
| self.runCmd("disassemble -s %s -e %s" % (SA, LA)) |
| SA = LA |
| else: |
| # This entry is not a Code entry. Reset SA = None. |
| SA = None |