//===-- UnwindPlan.cpp ----------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/Symbol/UnwindPlan.h" #include "lldb/Core/ConstString.h" #include "lldb/Core/Log.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/Thread.h" using namespace lldb; using namespace lldb_private; bool UnwindPlan::Row::RegisterLocation::operator == (const UnwindPlan::Row::RegisterLocation& rhs) const { if (m_type == rhs.m_type) { switch (m_type) { case unspecified: case undefined: case same: return true; case atCFAPlusOffset: case isCFAPlusOffset: return m_location.offset == rhs.m_location.offset; case inOtherRegister: return m_location.reg_num == rhs.m_location.reg_num; case atDWARFExpression: case isDWARFExpression: if (m_location.expr.length == rhs.m_location.expr.length) return !memcmp (m_location.expr.opcodes, rhs.m_location.expr.opcodes, m_location.expr.length); break; } } return false; } // This function doesn't copy the dwarf expression bytes; they must remain in allocated // memory for the lifespan of this UnwindPlan object. void UnwindPlan::Row::RegisterLocation::SetAtDWARFExpression (const uint8_t *opcodes, uint32_t len) { m_type = atDWARFExpression; m_location.expr.opcodes = opcodes; m_location.expr.length = len; } // This function doesn't copy the dwarf expression bytes; they must remain in allocated // memory for the lifespan of this UnwindPlan object. void UnwindPlan::Row::RegisterLocation::SetIsDWARFExpression (const uint8_t *opcodes, uint32_t len) { m_type = isDWARFExpression; m_location.expr.opcodes = opcodes; m_location.expr.length = len; } void UnwindPlan::Row::RegisterLocation::Dump (Stream &s, const UnwindPlan* unwind_plan, const UnwindPlan::Row* row, Thread* thread, bool verbose) const { switch (m_type) { case unspecified: if (verbose) s.PutCString ("="); else s.PutCString ("=!"); break; case undefined: if (verbose) s.PutCString ("="); else s.PutCString ("=?"); break; case same: s.PutCString ("= "); break; case atCFAPlusOffset: case isCFAPlusOffset: { s.PutChar('='); if (m_type == atCFAPlusOffset) s.PutChar('['); s.Printf ("CFA%+d", m_location.offset); if (m_type == atCFAPlusOffset) s.PutChar(']'); } break; case inOtherRegister: { const RegisterInfo *other_reg_info = nullptr; if (unwind_plan) other_reg_info = unwind_plan->GetRegisterInfo (thread, m_location.reg_num); if (other_reg_info) s.Printf ("=%s", other_reg_info->name); else s.Printf ("=reg(%u)", m_location.reg_num); } break; case atDWARFExpression: case isDWARFExpression: { s.PutChar('='); if (m_type == atDWARFExpression) s.PutCString("[dwarf-expr]"); else s.PutCString("dwarf-expr"); } break; } } static void DumpRegisterName (Stream &s, const UnwindPlan* unwind_plan, Thread *thread, uint32_t reg_num) { const RegisterInfo *reg_info = unwind_plan->GetRegisterInfo (thread, reg_num); if (reg_info) s.PutCString (reg_info->name); else s.Printf ("reg(%u)", reg_num); } bool UnwindPlan::Row::CFAValue::operator == (const UnwindPlan::Row::CFAValue& rhs) const { if (m_type == rhs.m_type) { switch (m_type) { case unspecified: return true; case isRegisterPlusOffset: return m_value.reg.offset == rhs.m_value.reg.offset; case isRegisterDereferenced: return m_value.reg.reg_num == rhs.m_value.reg.reg_num; case isDWARFExpression: if (m_value.expr.length == rhs.m_value.expr.length) return !memcmp (m_value.expr.opcodes, rhs.m_value.expr.opcodes, m_value.expr.length); break; } } return false; } void UnwindPlan::Row::CFAValue::Dump(Stream &s, const UnwindPlan* unwind_plan, Thread* thread) const { switch(m_type) { case isRegisterPlusOffset: DumpRegisterName(s, unwind_plan, thread, m_value.reg.reg_num); s.Printf ("%+3d", m_value.reg.offset); break; case isRegisterDereferenced: s.PutChar ('['); DumpRegisterName(s, unwind_plan, thread, m_value.reg.reg_num); s.PutChar (']'); break; case isDWARFExpression: s.PutCString ("dwarf-expr"); break; default: s.PutCString ("unspecified"); break; } } void UnwindPlan::Row::Clear () { m_cfa_value.SetUnspecified(); m_offset = 0; m_register_locations.clear(); } void UnwindPlan::Row::Dump (Stream& s, const UnwindPlan* unwind_plan, Thread* thread, addr_t base_addr) const { if (base_addr != LLDB_INVALID_ADDRESS) s.Printf ("0x%16.16" PRIx64 ": CFA=", base_addr + GetOffset()); else s.Printf ("%4" PRId64 ": CFA=", GetOffset()); m_cfa_value.Dump(s, unwind_plan, thread); s.Printf(" => "); for (collection::const_iterator idx = m_register_locations.begin (); idx != m_register_locations.end (); ++idx) { DumpRegisterName(s, unwind_plan, thread, idx->first); const bool verbose = false; idx->second.Dump(s, unwind_plan, this, thread, verbose); s.PutChar (' '); } s.EOL(); } UnwindPlan::Row::Row() : m_offset (0), m_cfa_value (), m_register_locations () { } bool UnwindPlan::Row::GetRegisterInfo (uint32_t reg_num, UnwindPlan::Row::RegisterLocation& register_location) const { collection::const_iterator pos = m_register_locations.find(reg_num); if (pos != m_register_locations.end()) { register_location = pos->second; return true; } return false; } void UnwindPlan::Row::RemoveRegisterInfo (uint32_t reg_num) { collection::const_iterator pos = m_register_locations.find(reg_num); if (pos != m_register_locations.end()) { m_register_locations.erase(pos); } } void UnwindPlan::Row::SetRegisterInfo (uint32_t reg_num, const UnwindPlan::Row::RegisterLocation register_location) { m_register_locations[reg_num] = register_location; } bool UnwindPlan::Row::SetRegisterLocationToAtCFAPlusOffset (uint32_t reg_num, int32_t offset, bool can_replace) { if (!can_replace && m_register_locations.find(reg_num) != m_register_locations.end()) return false; RegisterLocation reg_loc; reg_loc.SetAtCFAPlusOffset(offset); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::SetRegisterLocationToIsCFAPlusOffset (uint32_t reg_num, int32_t offset, bool can_replace) { if (!can_replace && m_register_locations.find(reg_num) != m_register_locations.end()) return false; RegisterLocation reg_loc; reg_loc.SetIsCFAPlusOffset(offset); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::SetRegisterLocationToUndefined (uint32_t reg_num, bool can_replace, bool can_replace_only_if_unspecified) { collection::iterator pos = m_register_locations.find(reg_num); collection::iterator end = m_register_locations.end(); if (pos != end) { if (!can_replace) return false; if (can_replace_only_if_unspecified && !pos->second.IsUnspecified()) return false; } RegisterLocation reg_loc; reg_loc.SetUndefined(); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::SetRegisterLocationToUnspecified (uint32_t reg_num, bool can_replace) { if (!can_replace && m_register_locations.find(reg_num) != m_register_locations.end()) return false; RegisterLocation reg_loc; reg_loc.SetUnspecified(); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::SetRegisterLocationToRegister (uint32_t reg_num, uint32_t other_reg_num, bool can_replace) { if (!can_replace && m_register_locations.find(reg_num) != m_register_locations.end()) return false; RegisterLocation reg_loc; reg_loc.SetInRegister(other_reg_num); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::SetRegisterLocationToSame (uint32_t reg_num, bool must_replace) { if (must_replace && m_register_locations.find(reg_num) == m_register_locations.end()) return false; RegisterLocation reg_loc; reg_loc.SetSame(); m_register_locations[reg_num] = reg_loc; return true; } bool UnwindPlan::Row::operator == (const UnwindPlan::Row& rhs) const { return m_offset == rhs.m_offset && m_cfa_value == rhs.m_cfa_value && m_register_locations == rhs.m_register_locations; } void UnwindPlan::AppendRow (const UnwindPlan::RowSP &row_sp) { if (m_row_list.empty() || m_row_list.back()->GetOffset() != row_sp->GetOffset()) m_row_list.push_back(row_sp); else m_row_list.back() = row_sp; } void UnwindPlan::InsertRow (const UnwindPlan::RowSP &row_sp) { collection::iterator it = m_row_list.begin(); while (it != m_row_list.end()) { RowSP row = *it; if (row->GetOffset() >= row_sp->GetOffset()) break; it++; } if (it == m_row_list.end() || (*it)->GetOffset() != row_sp->GetOffset()) m_row_list.insert(it, row_sp); } UnwindPlan::RowSP UnwindPlan::GetRowForFunctionOffset (int offset) const { RowSP row; if (!m_row_list.empty()) { if (offset == -1) row = m_row_list.back(); else { collection::const_iterator pos, end = m_row_list.end(); for (pos = m_row_list.begin(); pos != end; ++pos) { if ((*pos)->GetOffset() <= static_cast(offset)) row = *pos; else break; } } } return row; } bool UnwindPlan::IsValidRowIndex (uint32_t idx) const { return idx < m_row_list.size(); } const UnwindPlan::RowSP UnwindPlan::GetRowAtIndex (uint32_t idx) const { // You must call IsValidRowIndex(idx) first before calling this!!! assert (idx < m_row_list.size()); return m_row_list[idx]; } const UnwindPlan::RowSP UnwindPlan::GetLastRow () const { // You must call GetRowCount() first to make sure there is at least one row assert (!m_row_list.empty()); return m_row_list.back(); } int UnwindPlan::GetRowCount () const { return m_row_list.size (); } void UnwindPlan::SetPlanValidAddressRange (const AddressRange& range) { if (range.GetBaseAddress().IsValid() && range.GetByteSize() != 0) m_plan_valid_address_range = range; } bool UnwindPlan::PlanValidAtAddress (Address addr) { // If this UnwindPlan has no rows, it is an invalid UnwindPlan. if (GetRowCount() == 0) { Log *log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_UNWIND)); if (log) { StreamString s; if (addr.Dump (&s, nullptr, Address::DumpStyleSectionNameOffset)) { log->Printf ("UnwindPlan is invalid -- no unwind rows for UnwindPlan '%s' at address %s", m_source_name.GetCString(), s.GetData()); } else { log->Printf ("UnwindPlan is invalid -- no unwind rows for UnwindPlan '%s'", m_source_name.GetCString()); } } return false; } // If the 0th Row of unwind instructions is missing, or if it doesn't provide // a register to use to find the Canonical Frame Address, this is not a valid UnwindPlan. if (GetRowAtIndex(0).get() == nullptr || GetRowAtIndex(0)->GetCFAValue().GetValueType() == Row::CFAValue::unspecified) { Log *log(GetLogIfAllCategoriesSet (LIBLLDB_LOG_UNWIND)); if (log) { StreamString s; if (addr.Dump (&s, nullptr, Address::DumpStyleSectionNameOffset)) { log->Printf ("UnwindPlan is invalid -- no CFA register defined in row 0 for UnwindPlan '%s' at address %s", m_source_name.GetCString(), s.GetData()); } else { log->Printf ("UnwindPlan is invalid -- no CFA register defined in row 0 for UnwindPlan '%s'", m_source_name.GetCString()); } } return false; } if (!m_plan_valid_address_range.GetBaseAddress().IsValid() || m_plan_valid_address_range.GetByteSize() == 0) return true; if (!addr.IsValid()) return true; if (m_plan_valid_address_range.ContainsFileAddress (addr)) return true; return false; } void UnwindPlan::Dump (Stream& s, Thread *thread, lldb::addr_t base_addr) const { if (!m_source_name.IsEmpty()) { s.Printf ("This UnwindPlan originally sourced from %s\n", m_source_name.GetCString()); } if (m_lsda_address.IsValid() && m_personality_func_addr.IsValid()) { TargetSP target_sp(thread->CalculateTarget()); addr_t lsda_load_addr = m_lsda_address.GetLoadAddress (target_sp.get()); addr_t personality_func_load_addr = m_personality_func_addr.GetLoadAddress (target_sp.get()); if (lsda_load_addr != LLDB_INVALID_ADDRESS && personality_func_load_addr != LLDB_INVALID_ADDRESS) { s.Printf("LSDA address 0x%" PRIx64 ", personality routine is at address 0x%" PRIx64 "\n", lsda_load_addr, personality_func_load_addr); } } s.Printf ("This UnwindPlan is sourced from the compiler: "); switch (m_plan_is_sourced_from_compiler) { case eLazyBoolYes: s.Printf ("yes.\n"); break; case eLazyBoolNo: s.Printf ("no.\n"); break; case eLazyBoolCalculate: s.Printf ("not specified.\n"); break; } s.Printf ("This UnwindPlan is valid at all instruction locations: "); switch (m_plan_is_valid_at_all_instruction_locations) { case eLazyBoolYes: s.Printf ("yes.\n"); break; case eLazyBoolNo: s.Printf ("no.\n"); break; case eLazyBoolCalculate: s.Printf ("not specified.\n"); break; } if (m_plan_valid_address_range.GetBaseAddress().IsValid() && m_plan_valid_address_range.GetByteSize() > 0) { s.PutCString ("Address range of this UnwindPlan: "); TargetSP target_sp(thread->CalculateTarget()); m_plan_valid_address_range.Dump (&s, target_sp.get(), Address::DumpStyleSectionNameOffset); s.EOL(); } collection::const_iterator pos, begin = m_row_list.begin(), end = m_row_list.end(); for (pos = begin; pos != end; ++pos) { s.Printf ("row[%u]: ", (uint32_t)std::distance (begin, pos)); (*pos)->Dump(s, this, thread, base_addr); } } void UnwindPlan::SetSourceName (const char *source) { m_source_name = ConstString (source); } ConstString UnwindPlan::GetSourceName () const { return m_source_name; } const RegisterInfo * UnwindPlan::GetRegisterInfo (Thread* thread, uint32_t unwind_reg) const { if (thread) { RegisterContext *reg_ctx = thread->GetRegisterContext().get(); if (reg_ctx) { uint32_t reg; if (m_register_kind == eRegisterKindLLDB) reg = unwind_reg; else reg = reg_ctx->ConvertRegisterKindToRegisterNumber (m_register_kind, unwind_reg); if (reg != LLDB_INVALID_REGNUM) return reg_ctx->GetRegisterInfoAtIndex (reg); } } return nullptr; }