//===-- DILEval.cpp -------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "lldb/ValueObject/DILEval.h" #include "lldb/Symbol/VariableList.h" #include "lldb/Target/RegisterContext.h" #include "lldb/ValueObject/DILAST.h" #include "lldb/ValueObject/ValueObject.h" #include "lldb/ValueObject/ValueObjectRegister.h" #include "lldb/ValueObject/ValueObjectVariable.h" #include "llvm/Support/FormatAdapters.h" #include namespace lldb_private::dil { static lldb::ValueObjectSP LookupStaticIdentifier( VariableList &variable_list, std::shared_ptr exe_scope, llvm::StringRef name_ref, llvm::StringRef unqualified_name) { // First look for an exact match to the (possibly) qualified name. for (const lldb::VariableSP &var_sp : variable_list) { lldb::ValueObjectSP valobj_sp( ValueObjectVariable::Create(exe_scope.get(), var_sp)); if (valobj_sp && valobj_sp->GetVariable() && (valobj_sp->GetVariable()->NameMatches(ConstString(name_ref)))) return valobj_sp; } // If the qualified name is the same as the unqualfied name, there's nothing // more to be done. if (name_ref == unqualified_name) return nullptr; // We didn't match the qualified name; try to match the unqualified name. for (const lldb::VariableSP &var_sp : variable_list) { lldb::ValueObjectSP valobj_sp( ValueObjectVariable::Create(exe_scope.get(), var_sp)); if (valobj_sp && valobj_sp->GetVariable() && (valobj_sp->GetVariable()->NameMatches(ConstString(unqualified_name)))) return valobj_sp; } return nullptr; } static lldb::VariableSP DILFindVariable(ConstString name, lldb::VariableListSP variable_list) { lldb::VariableSP exact_match; std::vector possible_matches; for (lldb::VariableSP var_sp : *variable_list) { llvm::StringRef str_ref_name = var_sp->GetName().GetStringRef(); // Check for global vars, which might start with '::'. str_ref_name.consume_front("::"); if (str_ref_name == name.GetStringRef()) possible_matches.push_back(var_sp); else if (var_sp->NameMatches(name)) possible_matches.push_back(var_sp); } // Look for exact matches (favors local vars over global vars) auto exact_match_it = llvm::find_if(possible_matches, [&](lldb::VariableSP var_sp) { return var_sp->GetName() == name; }); if (exact_match_it != possible_matches.end()) return *exact_match_it; // Look for a global var exact match. for (auto var_sp : possible_matches) { llvm::StringRef str_ref_name = var_sp->GetName().GetStringRef(); str_ref_name.consume_front("::"); if (str_ref_name == name.GetStringRef()) return var_sp; } // If there's a single non-exact match, take it. if (possible_matches.size() == 1) return possible_matches[0]; return nullptr; } lldb::ValueObjectSP LookupGlobalIdentifier( llvm::StringRef name_ref, std::shared_ptr stack_frame, lldb::TargetSP target_sp, lldb::DynamicValueType use_dynamic, CompilerType *scope_ptr) { // First look for match in "local" global variables. lldb::VariableListSP variable_list(stack_frame->GetInScopeVariableList(true)); name_ref.consume_front("::"); lldb::ValueObjectSP value_sp; if (variable_list) { lldb::VariableSP var_sp = DILFindVariable(ConstString(name_ref), variable_list); if (var_sp) value_sp = stack_frame->GetValueObjectForFrameVariable(var_sp, use_dynamic); } if (value_sp) return value_sp; // Also check for static global vars. if (variable_list) { const char *type_name = ""; if (scope_ptr) type_name = scope_ptr->GetCanonicalType().GetTypeName().AsCString(); std::string name_with_type_prefix = llvm::formatv("{0}::{1}", type_name, name_ref).str(); value_sp = LookupStaticIdentifier(*variable_list, stack_frame, name_with_type_prefix, name_ref); if (!value_sp) value_sp = LookupStaticIdentifier(*variable_list, stack_frame, name_ref, name_ref); } if (value_sp) return value_sp; // Check for match in modules global variables. VariableList modules_var_list; target_sp->GetImages().FindGlobalVariables( ConstString(name_ref), std::numeric_limits::max(), modules_var_list); if (modules_var_list.Empty()) return nullptr; for (const lldb::VariableSP &var_sp : modules_var_list) { std::string qualified_name = llvm::formatv("::{0}", name_ref).str(); if (var_sp->NameMatches(ConstString(name_ref)) || var_sp->NameMatches(ConstString(qualified_name))) { value_sp = ValueObjectVariable::Create(stack_frame.get(), var_sp); break; } } if (value_sp) return value_sp; return nullptr; } lldb::ValueObjectSP LookupIdentifier(llvm::StringRef name_ref, std::shared_ptr stack_frame, lldb::DynamicValueType use_dynamic, CompilerType *scope_ptr) { // Support $rax as a special syntax for accessing registers. // Will return an invalid value in case the requested register doesn't exist. if (name_ref.consume_front("$")) { lldb::RegisterContextSP reg_ctx(stack_frame->GetRegisterContext()); if (!reg_ctx) return nullptr; if (const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoByName(name_ref)) return ValueObjectRegister::Create(stack_frame.get(), reg_ctx, reg_info); return nullptr; } lldb::VariableListSP variable_list( stack_frame->GetInScopeVariableList(false)); if (!name_ref.contains("::")) { if (!scope_ptr || !scope_ptr->IsValid()) { // Lookup in the current frame. // Try looking for a local variable in current scope. lldb::ValueObjectSP value_sp; if (variable_list) { lldb::VariableSP var_sp = DILFindVariable(ConstString(name_ref), variable_list); if (var_sp) value_sp = stack_frame->GetValueObjectForFrameVariable(var_sp, use_dynamic); } if (!value_sp) value_sp = stack_frame->FindVariable(ConstString(name_ref)); if (value_sp) return value_sp; // Try looking for an instance variable (class member). SymbolContext sc = stack_frame->GetSymbolContext( lldb::eSymbolContextFunction | lldb::eSymbolContextBlock); llvm::StringRef ivar_name = sc.GetInstanceVariableName(); value_sp = stack_frame->FindVariable(ConstString(ivar_name)); if (value_sp) value_sp = value_sp->GetChildMemberWithName(name_ref); if (value_sp) return value_sp; } } return nullptr; } Interpreter::Interpreter(lldb::TargetSP target, llvm::StringRef expr, std::shared_ptr frame_sp, lldb::DynamicValueType use_dynamic, bool use_synthetic, bool fragile_ivar, bool check_ptr_vs_member) : m_target(std::move(target)), m_expr(expr), m_exe_ctx_scope(frame_sp), m_use_dynamic(use_dynamic), m_use_synthetic(use_synthetic), m_fragile_ivar(fragile_ivar), m_check_ptr_vs_member(check_ptr_vs_member) { } llvm::Expected Interpreter::Evaluate(const ASTNode *node) { // Evaluate an AST. auto value_or_error = node->Accept(this); // Return the computed value-or-error. The caller is responsible for // checking if an error occured during the evaluation. return value_or_error; } llvm::Expected Interpreter::Visit(const IdentifierNode *node) { lldb::DynamicValueType use_dynamic = m_use_dynamic; lldb::ValueObjectSP identifier = LookupIdentifier(node->GetName(), m_exe_ctx_scope, use_dynamic); if (!identifier) identifier = LookupGlobalIdentifier(node->GetName(), m_exe_ctx_scope, m_target, use_dynamic); if (!identifier) { std::string errMsg = llvm::formatv("use of undeclared identifier '{0}'", node->GetName()); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetName().size()); } return identifier; } llvm::Expected Interpreter::Visit(const UnaryOpNode *node) { Status error; auto rhs_or_err = Evaluate(node->GetOperand()); if (!rhs_or_err) return rhs_or_err; lldb::ValueObjectSP rhs = *rhs_or_err; switch (node->GetKind()) { case UnaryOpKind::Deref: { lldb::ValueObjectSP dynamic_rhs = rhs->GetDynamicValue(m_use_dynamic); if (dynamic_rhs) rhs = dynamic_rhs; lldb::ValueObjectSP child_sp = rhs->Dereference(error); if (error.Fail()) return llvm::make_error(m_expr, error.AsCString(), node->GetLocation()); return child_sp; } case UnaryOpKind::AddrOf: { Status error; lldb::ValueObjectSP value = rhs->AddressOf(error); if (error.Fail()) return llvm::make_error(m_expr, error.AsCString(), node->GetLocation()); return value; } } // Unsupported/invalid operation. return llvm::make_error( m_expr, "invalid ast: unexpected binary operator", node->GetLocation()); } llvm::Expected Interpreter::Visit(const MemberOfNode *node) { auto base_or_err = Evaluate(node->GetBase()); if (!base_or_err) return base_or_err; lldb::ValueObjectSP base = *base_or_err; // Perform some basic type & correctness checking. if (node->GetIsArrow()) { if (!m_fragile_ivar) { // Make sure we aren't trying to deref an objective // C ivar if this is not allowed const uint32_t pointer_type_flags = base->GetCompilerType().GetTypeInfo(nullptr); if ((pointer_type_flags & lldb::eTypeIsObjC) && (pointer_type_flags & lldb::eTypeIsPointer)) { // This was an objective C object pointer and it was requested we // skip any fragile ivars so return nothing here return lldb::ValueObjectSP(); } } // If we have a non-pointer type with a synthetic value then lets check // if we have a synthetic dereference specified. if (!base->IsPointerType() && base->HasSyntheticValue()) { Status deref_error; if (lldb::ValueObjectSP synth_deref_sp = base->GetSyntheticValue()->Dereference(deref_error); synth_deref_sp && deref_error.Success()) { base = std::move(synth_deref_sp); } if (!base || deref_error.Fail()) { std::string errMsg = llvm::formatv( "Failed to dereference synthetic value: {0}", deref_error); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } // Some synthetic plug-ins fail to set the error in Dereference if (!base) { std::string errMsg = "Failed to dereference synthetic value"; return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } } } if (m_check_ptr_vs_member) { bool expr_is_ptr = node->GetIsArrow(); bool base_is_ptr = base->IsPointerType(); if (expr_is_ptr != base_is_ptr) { if (base_is_ptr) { std::string errMsg = llvm::formatv("member reference type {0} is a pointer; " "did you mean to use '->'?", base->GetCompilerType().TypeDescription()); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } else { std::string errMsg = llvm::formatv("member reference type {0} is not a pointer; " "did you mean to use '.'?", base->GetCompilerType().TypeDescription()); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } } } lldb::ValueObjectSP field_obj = base->GetChildMemberWithName(node->GetFieldName()); if (!field_obj) { if (m_use_synthetic) { field_obj = base->GetSyntheticValue(); if (field_obj) field_obj = field_obj->GetChildMemberWithName(node->GetFieldName()); } if (!m_use_synthetic || !field_obj) { std::string errMsg = llvm::formatv( "no member named '{0}' in {1}", node->GetFieldName(), base->GetCompilerType().GetFullyUnqualifiedType().TypeDescription()); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } } if (field_obj && field_obj->GetName() == node->GetFieldName()) { if (m_use_dynamic != lldb::eNoDynamicValues) { lldb::ValueObjectSP dynamic_val_sp = field_obj->GetDynamicValue(m_use_dynamic); if (dynamic_val_sp) field_obj = dynamic_val_sp; } return field_obj; } CompilerType base_type = base->GetCompilerType(); if (node->GetIsArrow() && base->IsPointerType()) base_type = base_type.GetPointeeType(); std::string errMsg = llvm::formatv("no member named '{0}' in {1}", node->GetFieldName(), base_type.GetFullyUnqualifiedType().TypeDescription()); return llvm::make_error( m_expr, errMsg, node->GetLocation(), node->GetFieldName().size()); } llvm::Expected Interpreter::Visit(const ArraySubscriptNode *node) { auto lhs_or_err = Evaluate(node->GetBase()); if (!lhs_or_err) return lhs_or_err; lldb::ValueObjectSP base = *lhs_or_err; // Check to see if 'base' has a synthetic value; if so, try using that. uint64_t child_idx = node->GetIndex(); if (lldb::ValueObjectSP synthetic = base->GetSyntheticValue()) { llvm::Expected num_children = synthetic->GetNumChildren(child_idx + 1); if (!num_children) return llvm::make_error( m_expr, toString(num_children.takeError()), node->GetLocation()); if (child_idx >= *num_children) { std::string message = llvm::formatv( "array index {0} is not valid for \"({1}) {2}\"", child_idx, base->GetTypeName().AsCString(""), base->GetName().AsCString()); return llvm::make_error(m_expr, message, node->GetLocation()); } if (lldb::ValueObjectSP child_valobj_sp = synthetic->GetChildAtIndex(child_idx)) return child_valobj_sp; } auto base_type = base->GetCompilerType().GetNonReferenceType(); if (!base_type.IsPointerType() && !base_type.IsArrayType()) return llvm::make_error( m_expr, "subscripted value is not an array or pointer", node->GetLocation()); if (base_type.IsPointerToVoid()) return llvm::make_error( m_expr, "subscript of pointer to incomplete type 'void'", node->GetLocation()); if (base_type.IsArrayType()) { if (lldb::ValueObjectSP child_valobj_sp = base->GetChildAtIndex(child_idx)) return child_valobj_sp; } int64_t signed_child_idx = node->GetIndex(); return base->GetSyntheticArrayMember(signed_child_idx, true); } } // namespace lldb_private::dil