1from lldbsuite.test import decorators 2 3import lldb 4from lldbsuite.test.decorators import * 5from lldbsuite.test.lldbtest import * 6from lldbsuite.test import lldbutil 7from lldbsuite.test import lldbtest 8 9 10class PlatformProcessCrashInfoTestCase(TestBase): 11 12 @expectedFailureAll(oslist=["windows", "linux", "freebsd", "netbsd"]) 13 def test_thread_local(self): 14 # Set a breakpoint on the first instruction of the main function, 15 # before the TLS initialization has run. 16 self.build() 17 exe = self.getBuildArtifact("a.out") 18 19 (target, process, _, _) = \ 20 lldbutil.run_to_source_breakpoint(self, "Set breakpoint here", 21 lldb.SBFileSpec("main.cpp")) 22 self.expect_expr("tl_local_int + 1", 23 result_type="int", result_value="323") 24 self.expect_expr("*tl_local_ptr + 2", 25 result_type="int", result_value="324") 26 self.expect_expr("tl_global_int", 27 result_type="int", result_value="123") 28 self.expect_expr("*tl_global_ptr", 29 result_type="int", result_value="45") 30 31 # Create the filespec by which to locate our a.out module. Use the 32 # absolute path to get the module for the current variant. 33 filespec = lldb.SBFileSpec(exe, False) 34 35 # Now see if we emit the correct error when the TLS is not yet 36 # initialized. Let's set a breakpoint on the first instruction 37 # of main. 38 main_module = target.FindModule(filespec) 39 self.assertTrue(main_module, VALID_MODULE) 40 main_address = main_module.FindSymbol("main").GetStartAddress() 41 main_bkpt = target.BreakpointCreateBySBAddress(main_address) 42 43 process.Kill() 44 lldbutil.run_to_breakpoint_do_run(self, target, main_bkpt) 45 46 self.expect("expr tl_local_int", error=True, 47 substrs=["couldn't get the value of variable tl_local_int", 48 "No TLS data currently exists for this thread"]) 49 self.expect("expr *tl_local_ptr", error=True, 50 substrs=["couldn't get the value of variable tl_local_ptr", 51 "No TLS data currently exists for this thread"]) 52 53