"""Test that lldb has a default mask for addressable bits on Darwin arm64 ABI""" import os import re import subprocess import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class TestCorefileDefaultPtrauth(TestBase): @skipIf(debug_info=no_match(["dsym"]), bugnumber="This test is looking explicitly for a dSYM") @skipIf(archs=no_match(['arm64','arm64e'])) @skipUnlessDarwin @skipIfRemote def test_lc_note(self): self.build() self.test_exe = self.getBuildArtifact("a.out") self.create_corefile = self.getBuildArtifact("create-corefile") self.corefile = self.getBuildArtifact("core") ### Create our corefile retcode = call(self.create_corefile + " " + self.test_exe + " " + self.corefile, shell=True) ## This corefile has no metadata telling us how many bits are ## used for ptrauth signed function pointers. We will need lldb ## to fall back on its old default value for Darwin arm64 ABIs ## to correctly strip the bits. # Create a Target with our main executable binary to get it # seeded in lldb's global module cache. Then delete the Target. # This way when the corefile searches for a binary with its UUID, # it'll be found by that search. initial_target = self.dbg.CreateTarget(self.test_exe) self.dbg.DeleteTarget(initial_target) self.target = self.dbg.CreateTarget('') err = lldb.SBError() self.process = self.target.LoadCore(self.corefile) self.assertEqual(self.process.IsValid(), True) # target variable should show us both the actual function # pointer with ptrauth bits and the symbol it resolves to, # with the ptrauth bits stripped, e.g. # (int (*)(...)) fmain = 0xe46bff0100003f90 (actual=0x0000000100003f90 a.out`main at main.c:3) self.expect("target variable fmain", substrs=['fmain = 0x', '(actual=0x', 'main at main.c'])