// If we don't have a Module for some reason, we're not going to find
// symbol/function information - just stick in some reasonable defaults and
- // hope we can unwind past this frame.
+ // hope we can unwind past this frame. If we're above a trap handler,
+ // we may be at a bogus address because we jumped through a bogus function
+ // pointer and trapped, so don't force the arch default unwind plan in that
+ // case.
ModuleSP pc_module_sp(m_current_pc.GetModule());
- if (!m_current_pc.IsValid() || !pc_module_sp) {
+ if ((!m_current_pc.IsValid() || !pc_module_sp) &&
+ above_trap_handler == false) {
UnwindLogMsg("using architectural default unwind method");
// Test the pc value to see if we know it's in an unmapped/non-executable
// If we're fetching the saved pc and this UnwindPlan defines a
// ReturnAddress register (e.g. lr on arm), look for the return address
// register number in the UnwindPlan's row.
+ // If this is a trap handler frame, we have access to the complete
+ // register context when the interrupt/async signal was received, so
+ // we need to fetch the actual saved $pc value.
if (pc_regnum.IsValid() && pc_regnum == regnum &&
m_full_unwind_plan_sp->GetReturnAddressRegister() !=
- LLDB_INVALID_REGNUM) {
+ LLDB_INVALID_REGNUM &&
+ m_frame_type != eTrapHandlerFrame) {
return_address_reg.init(
m_thread, m_full_unwind_plan_sp->GetRegisterKind(),