//===-- ValueObjectDynamicValue.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/Core/ValueObjectDynamicValue.h" #include "lldb/Core/ArchSpec.h" // for ArchSpec #include "lldb/Core/Scalar.h" // for Scalar, operator!= #include "lldb/Core/Value.h" #include "lldb/Core/ValueObject.h" #include "lldb/Symbol/CompilerType.h" #include "lldb/Symbol/Type.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/LanguageRuntime.h" #include "lldb/Target/Process.h" #include "lldb/Target/Target.h" #include "lldb/Utility/DataExtractor.h" // for DataExtractor #include "lldb/Utility/Error.h" // for Error #include "lldb/Utility/Log.h" #include "lldb/Utility/Logging.h" // for GetLogIfAllCategoriesSet #include "lldb/lldb-types.h" // for addr_t, offset_t #include // for strcmp, size_t namespace lldb_private { class Declaration; } using namespace lldb_private; ValueObjectDynamicValue::ValueObjectDynamicValue( ValueObject &parent, lldb::DynamicValueType use_dynamic) : ValueObject(parent), m_address(), m_dynamic_type_info(), m_use_dynamic(use_dynamic) { SetName(parent.GetName()); } ValueObjectDynamicValue::~ValueObjectDynamicValue() { m_owning_valobj_sp.reset(); } CompilerType ValueObjectDynamicValue::GetCompilerTypeImpl() { const bool success = UpdateValueIfNeeded(false); if (success) { if (m_dynamic_type_info.HasType()) return m_value.GetCompilerType(); else return m_parent->GetCompilerType(); } return m_parent->GetCompilerType(); } ConstString ValueObjectDynamicValue::GetTypeName() { const bool success = UpdateValueIfNeeded(false); if (success) { if (m_dynamic_type_info.HasName()) return m_dynamic_type_info.GetName(); } return m_parent->GetTypeName(); } TypeImpl ValueObjectDynamicValue::GetTypeImpl() { const bool success = UpdateValueIfNeeded(false); if (success && m_type_impl.IsValid()) { return m_type_impl; } return m_parent->GetTypeImpl(); } ConstString ValueObjectDynamicValue::GetQualifiedTypeName() { const bool success = UpdateValueIfNeeded(false); if (success) { if (m_dynamic_type_info.HasName()) return m_dynamic_type_info.GetName(); } return m_parent->GetQualifiedTypeName(); } ConstString ValueObjectDynamicValue::GetDisplayTypeName() { const bool success = UpdateValueIfNeeded(false); if (success) { if (m_dynamic_type_info.HasType()) return GetCompilerType().GetDisplayTypeName(); if (m_dynamic_type_info.HasName()) return m_dynamic_type_info.GetName(); } return m_parent->GetDisplayTypeName(); } size_t ValueObjectDynamicValue::CalculateNumChildren(uint32_t max) { const bool success = UpdateValueIfNeeded(false); if (success && m_dynamic_type_info.HasType()) { auto children_count = GetCompilerType().GetNumChildren(true); return children_count <= max ? children_count : max; } else return m_parent->GetNumChildren(max); } uint64_t ValueObjectDynamicValue::GetByteSize() { const bool success = UpdateValueIfNeeded(false); if (success && m_dynamic_type_info.HasType()) { ExecutionContext exe_ctx(GetExecutionContextRef()); return m_value.GetValueByteSize(nullptr, &exe_ctx); } else return m_parent->GetByteSize(); } lldb::ValueType ValueObjectDynamicValue::GetValueType() const { return m_parent->GetValueType(); } bool ValueObjectDynamicValue::UpdateValue() { SetValueIsValid(false); m_error.Clear(); if (!m_parent->UpdateValueIfNeeded(false)) { // The dynamic value failed to get an error, pass the error along if (m_error.Success() && m_parent->GetError().Fail()) m_error = m_parent->GetError(); return false; } // Setting our type_sp to NULL will route everything back through our // parent which is equivalent to not using dynamic values. if (m_use_dynamic == lldb::eNoDynamicValues) { m_dynamic_type_info.Clear(); return true; } ExecutionContext exe_ctx(GetExecutionContextRef()); Target *target = exe_ctx.GetTargetPtr(); if (target) { m_data.SetByteOrder(target->GetArchitecture().GetByteOrder()); m_data.SetAddressByteSize(target->GetArchitecture().GetAddressByteSize()); } // First make sure our Type and/or Address haven't changed: Process *process = exe_ctx.GetProcessPtr(); if (!process) return false; TypeAndOrName class_type_or_name; Address dynamic_address; bool found_dynamic_type = false; Value::ValueType value_type; LanguageRuntime *runtime = nullptr; lldb::LanguageType known_type = m_parent->GetObjectRuntimeLanguage(); if (known_type != lldb::eLanguageTypeUnknown && known_type != lldb::eLanguageTypeC) { runtime = process->GetLanguageRuntime(known_type); if (runtime) found_dynamic_type = runtime->GetDynamicTypeAndAddress( *m_parent, m_use_dynamic, class_type_or_name, dynamic_address, value_type); } else { runtime = process->GetLanguageRuntime(lldb::eLanguageTypeC_plus_plus); if (runtime) found_dynamic_type = runtime->GetDynamicTypeAndAddress( *m_parent, m_use_dynamic, class_type_or_name, dynamic_address, value_type); if (!found_dynamic_type) { runtime = process->GetLanguageRuntime(lldb::eLanguageTypeObjC); if (runtime) found_dynamic_type = runtime->GetDynamicTypeAndAddress( *m_parent, m_use_dynamic, class_type_or_name, dynamic_address, value_type); } } // Getting the dynamic value may have run the program a bit, and so marked us // as needing updating, but we really // don't... m_update_point.SetUpdated(); if (runtime && found_dynamic_type) { if (class_type_or_name.HasType()) { m_type_impl = TypeImpl(m_parent->GetCompilerType(), runtime->FixUpDynamicType(class_type_or_name, *m_parent) .GetCompilerType()); } else { m_type_impl.Clear(); } } else { m_type_impl.Clear(); } // If we don't have a dynamic type, then make ourselves just a echo of our // parent. // Or we could return false, and make ourselves an echo of our parent? if (!found_dynamic_type) { if (m_dynamic_type_info) SetValueDidChange(true); ClearDynamicTypeInformation(); m_dynamic_type_info.Clear(); m_value = m_parent->GetValue(); m_error = m_value.GetValueAsData(&exe_ctx, m_data, 0, GetModule().get()); return m_error.Success(); } Value old_value(m_value); Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_TYPES)); bool has_changed_type = false; if (!m_dynamic_type_info) { m_dynamic_type_info = class_type_or_name; has_changed_type = true; } else if (class_type_or_name != m_dynamic_type_info) { // We are another type, we need to tear down our children... m_dynamic_type_info = class_type_or_name; SetValueDidChange(true); has_changed_type = true; } if (has_changed_type) ClearDynamicTypeInformation(); if (!m_address.IsValid() || m_address != dynamic_address) { if (m_address.IsValid()) SetValueDidChange(true); // We've moved, so we should be fine... m_address = dynamic_address; lldb::TargetSP target_sp(GetTargetSP()); lldb::addr_t load_address = m_address.GetLoadAddress(target_sp.get()); m_value.GetScalar() = load_address; } if (runtime) m_dynamic_type_info = runtime->FixUpDynamicType(m_dynamic_type_info, *m_parent); // m_value.SetContext (Value::eContextTypeClangType, corrected_type); m_value.SetCompilerType(m_dynamic_type_info.GetCompilerType()); m_value.SetValueType(value_type); if (has_changed_type && log) log->Printf("[%s %p] has a new dynamic type %s", GetName().GetCString(), static_cast(this), GetTypeName().GetCString()); if (m_address.IsValid() && m_dynamic_type_info) { // The variable value is in the Scalar value inside the m_value. // We can point our m_data right to it. m_error = m_value.GetValueAsData(&exe_ctx, m_data, 0, GetModule().get()); if (m_error.Success()) { if (!CanProvideValue()) { // this value object represents an aggregate type whose // children have values, but this object does not. So we // say we are changed if our location has changed. SetValueDidChange(m_value.GetValueType() != old_value.GetValueType() || m_value.GetScalar() != old_value.GetScalar()); } SetValueIsValid(true); return true; } } // We get here if we've failed above... SetValueIsValid(false); return false; } bool ValueObjectDynamicValue::IsInScope() { return m_parent->IsInScope(); } bool ValueObjectDynamicValue::SetValueFromCString(const char *value_str, Error &error) { if (!UpdateValueIfNeeded(false)) { error.SetErrorString("unable to read value"); return false; } uint64_t my_value = GetValueAsUnsigned(UINT64_MAX); uint64_t parent_value = m_parent->GetValueAsUnsigned(UINT64_MAX); if (my_value == UINT64_MAX || parent_value == UINT64_MAX) { error.SetErrorString("unable to read value"); return false; } // if we are at an offset from our parent, in order to set ourselves correctly // we would need // to change the new value so that it refers to the correct dynamic type. we // choose not to deal // with that - if anything more than a value overwrite is required, you should // be using the // expression parser instead of the value editing facility if (my_value != parent_value) { // but NULL'ing out a value should always be allowed if (strcmp(value_str, "0")) { error.SetErrorString( "unable to modify dynamic value, use 'expression' command"); return false; } } bool ret_val = m_parent->SetValueFromCString(value_str, error); SetNeedsUpdate(); return ret_val; } bool ValueObjectDynamicValue::SetData(DataExtractor &data, Error &error) { if (!UpdateValueIfNeeded(false)) { error.SetErrorString("unable to read value"); return false; } uint64_t my_value = GetValueAsUnsigned(UINT64_MAX); uint64_t parent_value = m_parent->GetValueAsUnsigned(UINT64_MAX); if (my_value == UINT64_MAX || parent_value == UINT64_MAX) { error.SetErrorString("unable to read value"); return false; } // if we are at an offset from our parent, in order to set ourselves correctly // we would need // to change the new value so that it refers to the correct dynamic type. we // choose not to deal // with that - if anything more than a value overwrite is required, you should // be using the // expression parser instead of the value editing facility if (my_value != parent_value) { // but NULL'ing out a value should always be allowed lldb::offset_t offset = 0; if (data.GetPointer(&offset) != 0) { error.SetErrorString( "unable to modify dynamic value, use 'expression' command"); return false; } } bool ret_val = m_parent->SetData(data, error); SetNeedsUpdate(); return ret_val; } void ValueObjectDynamicValue::SetPreferredDisplayLanguage( lldb::LanguageType lang) { this->ValueObject::SetPreferredDisplayLanguage(lang); if (m_parent) m_parent->SetPreferredDisplayLanguage(lang); } lldb::LanguageType ValueObjectDynamicValue::GetPreferredDisplayLanguage() { if (m_preferred_display_language == lldb::eLanguageTypeUnknown) { if (m_parent) return m_parent->GetPreferredDisplayLanguage(); return lldb::eLanguageTypeUnknown; } else return m_preferred_display_language; } bool ValueObjectDynamicValue::IsSyntheticChildrenGenerated() { if (m_parent) return m_parent->IsSyntheticChildrenGenerated(); return false; } void ValueObjectDynamicValue::SetSyntheticChildrenGenerated(bool b) { if (m_parent) m_parent->SetSyntheticChildrenGenerated(b); this->ValueObject::SetSyntheticChildrenGenerated(b); } bool ValueObjectDynamicValue::GetDeclaration(Declaration &decl) { if (m_parent) return m_parent->GetDeclaration(decl); return ValueObject::GetDeclaration(decl); } uint64_t ValueObjectDynamicValue::GetLanguageFlags() { if (m_parent) return m_parent->GetLanguageFlags(); return this->ValueObject::GetLanguageFlags(); } void ValueObjectDynamicValue::SetLanguageFlags(uint64_t flags) { if (m_parent) m_parent->SetLanguageFlags(flags); else this->ValueObject::SetLanguageFlags(flags); }