// Copyright 2015 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "BlinkGCPluginConsumer.h" #include #include #include "CheckDispatchVisitor.h" #include "CheckFieldsVisitor.h" #include "CheckFinalizerVisitor.h" #include "CheckGCRootsVisitor.h" #include "CheckTraceVisitor.h" #include "CollectVisitor.h" #include "JsonWriter.h" #include "RecordInfo.h" #include "clang/AST/RecursiveASTVisitor.h" #include "clang/Sema/Sema.h" using namespace clang; namespace { // Use a local RAV implementation to simply collect all FunctionDecls marked for // late template parsing. This happens with the flag -fdelayed-template-parsing, // which is on by default in MSVC-compatible mode. std::set GetLateParsedFunctionDecls(TranslationUnitDecl* decl) { struct Visitor : public RecursiveASTVisitor { bool VisitFunctionDecl(FunctionDecl* function_decl) { if (function_decl->isLateTemplateParsed()) late_parsed_decls.insert(function_decl); return true; } std::set late_parsed_decls; } v; v.TraverseDecl(decl); return v.late_parsed_decls; } class EmptyStmtVisitor : public RecursiveASTVisitor { public: static bool isEmpty(Stmt* stmt) { EmptyStmtVisitor visitor; visitor.TraverseStmt(stmt); return visitor.empty_; } bool WalkUpFromCompoundStmt(CompoundStmt* stmt) { empty_ = stmt->body_empty(); return false; } bool VisitStmt(Stmt*) { empty_ = false; return false; } private: EmptyStmtVisitor() : empty_(true) {} bool empty_; }; } // namespace BlinkGCPluginConsumer::BlinkGCPluginConsumer( clang::CompilerInstance& instance, const BlinkGCPluginOptions& options) : instance_(instance), reporter_(instance), options_(options), cache_(instance), json_(0) { // Only check structures in the blink and WebKit namespaces. options_.checked_namespaces.insert("blink"); // Ignore GC implementation files. options_.ignored_directories.push_back("/heap/"); if (!options_.use_chromium_style_naming) Config::UseLegacyNames(); } void BlinkGCPluginConsumer::HandleTranslationUnit(ASTContext& context) { // Don't run the plugin if the compilation unit is already invalid. if (reporter_.hasErrorOccurred()) return; ParseFunctionTemplates(context.getTranslationUnitDecl()); CollectVisitor visitor; visitor.TraverseDecl(context.getTranslationUnitDecl()); if (options_.dump_graph) { std::error_code err; // TODO: Make createDefaultOutputFile or a shorter createOutputFile work. json_ = JsonWriter::from(instance_.createOutputFile( "", // OutputPath err, // Errors true, // Binary true, // RemoveFileOnSignal instance_.getFrontendOpts().OutputFile, // BaseInput "graph.json", // Extension false, // UseTemporary false, // CreateMissingDirectories 0, // ResultPathName 0)); // TempPathName if (!err && json_) { json_->OpenList(); } else { json_ = 0; llvm::errs() << "[blink-gc] " << "Failed to create an output file for the object graph.\n"; } } for (const auto& record : visitor.record_decls()) CheckRecord(cache_.Lookup(record)); for (const auto& method : visitor.trace_decls()) CheckTracingMethod(method); if (json_) { json_->CloseList(); delete json_; json_ = 0; } } void BlinkGCPluginConsumer::ParseFunctionTemplates(TranslationUnitDecl* decl) { if (!instance_.getLangOpts().DelayedTemplateParsing) return; // Nothing to do. std::set late_parsed_decls = GetLateParsedFunctionDecls(decl); clang::Sema& sema = instance_.getSema(); for (const FunctionDecl* fd : late_parsed_decls) { assert(fd->isLateTemplateParsed()); if (!Config::IsTraceMethod(fd)) continue; if (instance_.getSourceManager().isInSystemHeader( instance_.getSourceManager().getSpellingLoc(fd->getLocation()))) continue; // Force parsing and AST building of the yet-uninstantiated function // template trace method bodies. clang::LateParsedTemplate* lpt = sema.LateParsedTemplateMap[fd].get(); sema.LateTemplateParser(sema.OpaqueParser, *lpt); } } void BlinkGCPluginConsumer::CheckRecord(RecordInfo* info) { if (IsIgnored(info)) return; CXXRecordDecl* record = info->record(); // TODO: what should we do to check unions? if (record->isUnion()) return; // If this is the primary template declaration, check its specializations. if (record->isThisDeclarationADefinition() && record->getDescribedClassTemplate()) { ClassTemplateDecl* tmpl = record->getDescribedClassTemplate(); for (ClassTemplateDecl::spec_iterator it = tmpl->spec_begin(); it != tmpl->spec_end(); ++it) { CheckClass(cache_.Lookup(*it)); } return; } CheckClass(info); } void BlinkGCPluginConsumer::CheckClass(RecordInfo* info) { if (!info) return; if (CXXMethodDecl* trace = info->GetTraceMethod()) { if (trace->isPure()) reporter_.ClassDeclaresPureVirtualTrace(info, trace); } else if (info->RequiresTraceMethod()) { reporter_.ClassRequiresTraceMethod(info); } // Check polymorphic classes that are GC-derived or have a trace method. if (info->record()->hasDefinition() && info->record()->isPolymorphic()) { // TODO: Check classes that inherit a trace method. CXXMethodDecl* trace = info->GetTraceMethod(); if (trace || info->IsGCDerived()) CheckPolymorphicClass(info, trace); } { CheckFieldsVisitor visitor; if (visitor.ContainsInvalidFields(info)) reporter_.ClassContainsInvalidFields(info, visitor.invalid_fields()); } if (info->IsGCDerived()) { // It is illegal for a class to be both stack allocated and garbage // collected. if (info->IsStackAllocated()) { for (auto& base : info->GetBases()) { RecordInfo* base_info = base.second.info(); if (Config::IsGCBase(base_info->name()) || base_info->IsGCDerived()) { reporter_.StackAllocatedDerivesGarbageCollected(info, &base.second); } } } if (!info->IsGCMixin()) { CheckLeftMostDerived(info); CheckDispatch(info); if (CXXMethodDecl* newop = info->DeclaresNewOperator()) if (!Config::IsIgnoreAnnotated(newop)) reporter_.ClassOverridesNew(info, newop); } { CheckGCRootsVisitor visitor; if (visitor.ContainsGCRoots(info)) reporter_.ClassContainsGCRoots(info, visitor.gc_roots()); } if (info->NeedsFinalization()) CheckFinalization(info); if (options_.warn_unneeded_finalizer && info->IsGCFinalized()) CheckUnneededFinalization(info); } DumpClass(info); } CXXRecordDecl* BlinkGCPluginConsumer::GetDependentTemplatedDecl( const Type& type) { const TemplateSpecializationType* tmpl_type = type.getAs(); if (!tmpl_type) return 0; TemplateDecl* tmpl_decl = tmpl_type->getTemplateName().getAsTemplateDecl(); if (!tmpl_decl) return 0; return dyn_cast(tmpl_decl->getTemplatedDecl()); } // The GC infrastructure assumes that if the vtable of a polymorphic // base-class is not initialized for a given object (ie, it is partially // initialized) then the object does not need to be traced. Thus, we must // ensure that any polymorphic class with a trace method does not have any // tractable fields that are initialized before we are sure that the vtable // and the trace method are both defined. There are two cases that need to // hold to satisfy that assumption: // // 1. If trace is virtual, then it must be defined in the left-most base. // This ensures that if the vtable is initialized then it contains a pointer // to the trace method. // // 2. If trace is non-virtual, then the trace method is defined and we must // ensure that the left-most base defines a vtable. This ensures that the // first thing to be initialized when constructing the object is the vtable // itself. void BlinkGCPluginConsumer::CheckPolymorphicClass( RecordInfo* info, CXXMethodDecl* trace) { CXXRecordDecl* left_most = info->record(); CXXRecordDecl::base_class_iterator it = left_most->bases_begin(); CXXRecordDecl* left_most_base = 0; while (it != left_most->bases_end()) { left_most_base = it->getType()->getAsCXXRecordDecl(); if (!left_most_base && it->getType()->isDependentType()) left_most_base = RecordInfo::GetDependentTemplatedDecl(*it->getType()); // TODO: Find a way to correctly check actual instantiations // for dependent types. The escape below will be hit, eg, when // we have a primary template with no definition and // specializations for each case (such as SupplementBase) in // which case we don't succeed in checking the required // properties. if (!left_most_base || !left_most_base->hasDefinition()) return; StringRef name = left_most_base->getName(); // We know GCMixin base defines virtual trace. if (Config::IsGCMixinBase(name)) return; // Stop with the left-most prior to a safe polymorphic base (a safe base // is non-polymorphic and contains no fields). if (Config::IsSafePolymorphicBase(name)) break; left_most = left_most_base; it = left_most->bases_begin(); } if (RecordInfo* left_most_info = cache_.Lookup(left_most)) { // Check condition (1): if (trace && trace->isVirtual()) { if (CXXMethodDecl* trace = left_most_info->GetTraceMethod()) { if (trace->isVirtual()) return; } reporter_.BaseClassMustDeclareVirtualTrace(info, left_most); return; } // Check condition (2): if (DeclaresVirtualMethods(left_most)) return; if (left_most_base) { // Get the base next to the "safe polymorphic base" if (it != left_most->bases_end()) ++it; if (it != left_most->bases_end()) { if (CXXRecordDecl* next_base = it->getType()->getAsCXXRecordDecl()) { if (CXXRecordDecl* next_left_most = GetLeftMostBase(next_base)) { if (DeclaresVirtualMethods(next_left_most)) return; reporter_.LeftMostBaseMustBePolymorphic(info, next_left_most); return; } } } } reporter_.LeftMostBaseMustBePolymorphic(info, left_most); } } CXXRecordDecl* BlinkGCPluginConsumer::GetLeftMostBase( CXXRecordDecl* left_most) { CXXRecordDecl::base_class_iterator it = left_most->bases_begin(); while (it != left_most->bases_end()) { if (it->getType()->isDependentType()) left_most = RecordInfo::GetDependentTemplatedDecl(*it->getType()); else left_most = it->getType()->getAsCXXRecordDecl(); if (!left_most || !left_most->hasDefinition()) return 0; it = left_most->bases_begin(); } return left_most; } bool BlinkGCPluginConsumer::DeclaresVirtualMethods(CXXRecordDecl* decl) { CXXRecordDecl::method_iterator it = decl->method_begin(); for (; it != decl->method_end(); ++it) if (it->isVirtual() && !it->isPure()) return true; return false; } void BlinkGCPluginConsumer::CheckLeftMostDerived(RecordInfo* info) { CXXRecordDecl* left_most = GetLeftMostBase(info->record()); if (!left_most) return; if (!Config::IsGCBase(left_most->getName())) reporter_.ClassMustLeftMostlyDeriveGC(info); } void BlinkGCPluginConsumer::CheckDispatch(RecordInfo* info) { bool finalized = info->IsGCFinalized(); CXXMethodDecl* trace_dispatch = info->GetTraceDispatchMethod(); CXXMethodDecl* finalize_dispatch = info->GetFinalizeDispatchMethod(); if (!trace_dispatch && !finalize_dispatch) return; CXXRecordDecl* base = trace_dispatch ? trace_dispatch->getParent() : finalize_dispatch->getParent(); // Check that dispatch methods are defined at the base. if (base == info->record()) { if (!trace_dispatch) reporter_.MissingTraceDispatchMethod(info); if (finalized && !finalize_dispatch) reporter_.MissingFinalizeDispatchMethod(info); if (!finalized && finalize_dispatch) { reporter_.ClassRequiresFinalization(info); reporter_.NoteUserDeclaredFinalizer(finalize_dispatch); } } // Check that classes implementing manual dispatch do not have vtables. if (info->record()->isPolymorphic()) { reporter_.VirtualAndManualDispatch( info, trace_dispatch ? trace_dispatch : finalize_dispatch); } // If this is a non-abstract class check that it is dispatched to. // TODO: Create a global variant of this local check. We can only check if // the dispatch body is known in this compilation unit. if (info->IsConsideredAbstract()) return; const FunctionDecl* defn; if (trace_dispatch && trace_dispatch->isDefined(defn)) { CheckDispatchVisitor visitor(info); visitor.TraverseStmt(defn->getBody()); if (!visitor.dispatched_to_receiver()) reporter_.MissingTraceDispatch(defn, info); } if (finalized && finalize_dispatch && finalize_dispatch->isDefined(defn)) { CheckDispatchVisitor visitor(info); visitor.TraverseStmt(defn->getBody()); if (!visitor.dispatched_to_receiver()) reporter_.MissingFinalizeDispatch(defn, info); } } // TODO: Should we collect destructors similar to trace methods? void BlinkGCPluginConsumer::CheckFinalization(RecordInfo* info) { CXXDestructorDecl* dtor = info->record()->getDestructor(); // For finalized classes, check the finalization method if possible. if (info->IsGCFinalized()) { if (dtor && dtor->hasBody()) { CheckFinalizerVisitor visitor(&cache_, info->IsEagerlyFinalized()); visitor.TraverseCXXMethodDecl(dtor); if (!visitor.finalized_fields().empty()) { reporter_.FinalizerAccessesFinalizedFields( dtor, visitor.finalized_fields()); } } return; } // Don't require finalization of a mixin that has not yet been "mixed in". if (info->IsGCMixin()) return; // Report the finalization error, and proceed to print possible causes for // the finalization requirement. reporter_.ClassRequiresFinalization(info); if (dtor && dtor->isUserProvided()) reporter_.NoteUserDeclaredDestructor(dtor); for (auto& base : info->GetBases()) if (base.second.info()->NeedsFinalization()) reporter_.NoteBaseRequiresFinalization(&base.second); for (auto& field : info->GetFields()) if (field.second.edge()->NeedsFinalization()) reporter_.NoteFieldRequiresFinalization(&field.second); } void BlinkGCPluginConsumer::CheckUnneededFinalization(RecordInfo* info) { if (!HasNonEmptyFinalizer(info)) reporter_.ClassDoesNotRequireFinalization(info); } bool BlinkGCPluginConsumer::HasNonEmptyFinalizer(RecordInfo* info) { CXXDestructorDecl* dtor = info->record()->getDestructor(); // If the destructor is virtual (or one of the bases are by way of the // recursive call below), consider this class as having a non-empty // finalizer. Not doing so runs counter to standard C++ reflexes like // // class A : public GarbageCollectedMixin { // public: // virtual ~A() { }; // virtual void f() = 0; // }; // class B : public GarbageCollectedFinalized, public A { // USING_GARBAGE_COLLECTED_MIXIN(B); // public: // ~B() override { } // void f() override { } // }; // // and it is considered a step too far to report a warning for such // explicit usage of empty destructors. if (dtor && dtor->isVirtual()) return true; if (dtor && dtor->isUserProvided()) { if (!dtor->hasBody() || !EmptyStmtVisitor::isEmpty(dtor->getBody())) return true; } if (info->GetFinalizeDispatchMethod()) return true; for (auto& base : info->GetBases()) if (HasNonEmptyFinalizer(base.second.info())) return true; for (auto& field : info->GetFields()) if (field.second.edge()->NeedsFinalization()) return true; return false; } void BlinkGCPluginConsumer::CheckTracingMethod(CXXMethodDecl* method) { RecordInfo* parent = cache_.Lookup(method->getParent()); if (IsIgnored(parent)) return; // Check templated tracing methods by checking the template instantiations. // Specialized templates are handled as ordinary classes. if (ClassTemplateDecl* tmpl = parent->record()->getDescribedClassTemplate()) { for (ClassTemplateDecl::spec_iterator it = tmpl->spec_begin(); it != tmpl->spec_end(); ++it) { // Check trace using each template instantiation as the holder. if (Config::IsTemplateInstantiation(*it)) CheckTraceOrDispatchMethod(cache_.Lookup(*it), method); } return; } CheckTraceOrDispatchMethod(parent, method); } void BlinkGCPluginConsumer::CheckTraceOrDispatchMethod( RecordInfo* parent, CXXMethodDecl* method) { Config::TraceMethodType trace_type = Config::GetTraceMethodType(method); if (trace_type == Config::TRACE_AFTER_DISPATCH_METHOD || trace_type == Config::TRACE_AFTER_DISPATCH_IMPL_METHOD || !parent->GetTraceDispatchMethod()) { CheckTraceMethod(parent, method, trace_type); } // Dispatch methods are checked when we identify subclasses. } void BlinkGCPluginConsumer::CheckTraceMethod( RecordInfo* parent, CXXMethodDecl* trace, Config::TraceMethodType trace_type) { // A trace method must not override any non-virtual trace methods. if (trace_type == Config::TRACE_METHOD) { for (auto& base : parent->GetBases()) if (CXXMethodDecl* other = base.second.info()->InheritsNonVirtualTrace()) reporter_.OverriddenNonVirtualTrace(parent, trace, other); } CheckTraceVisitor visitor(trace, parent, &cache_); visitor.TraverseCXXMethodDecl(trace); // Skip reporting if this trace method is a just delegate to // traceImpl (or traceAfterDispatchImpl) method. We will report on // CheckTraceMethod on traceImpl method. if (visitor.delegates_to_traceimpl()) return; for (auto& base : parent->GetBases()) if (!base.second.IsProperlyTraced()) reporter_.BaseRequiresTracing(parent, trace, base.first); for (auto& field : parent->GetFields()) { if (!field.second.IsProperlyTraced() || field.second.IsInproperlyTraced()) { // Report one or more tracing-related field errors. reporter_.FieldsImproperlyTraced(parent, trace); break; } } } void BlinkGCPluginConsumer::DumpClass(RecordInfo* info) { if (!json_) return; json_->OpenObject(); json_->Write("name", info->record()->getQualifiedNameAsString()); json_->Write("loc", GetLocString(info->record()->getLocStart())); json_->CloseObject(); class DumpEdgeVisitor : public RecursiveEdgeVisitor { public: DumpEdgeVisitor(JsonWriter* json) : json_(json) {} void DumpEdge(RecordInfo* src, RecordInfo* dst, const std::string& lbl, const Edge::LivenessKind& kind, const std::string& loc) { json_->OpenObject(); json_->Write("src", src->record()->getQualifiedNameAsString()); json_->Write("dst", dst->record()->getQualifiedNameAsString()); json_->Write("lbl", lbl); json_->Write("kind", kind); json_->Write("loc", loc); json_->Write("ptr", !Parent() ? "val" : Parent()->IsRawPtr() ? (static_cast(Parent())->HasReferenceType() ? "reference" : "raw") : Parent()->IsRefPtr() ? "ref" : Parent()->IsOwnPtr() ? "own" : Parent()->IsUniquePtr() ? "unique" : (Parent()->IsMember() || Parent()->IsWeakMember()) ? "mem" : "val"); json_->CloseObject(); } void DumpField(RecordInfo* src, FieldPoint* point, const std::string& loc) { src_ = src; point_ = point; loc_ = loc; point_->edge()->Accept(this); } void AtValue(Value* e) override { // The liveness kind of a path from the point to this value // is given by the innermost place that is non-strong. Edge::LivenessKind kind = Edge::kStrong; if (Config::IsIgnoreCycleAnnotated(point_->field())) { kind = Edge::kWeak; } else { for (Context::iterator it = context().begin(); it != context().end(); ++it) { Edge::LivenessKind pointer_kind = (*it)->Kind(); if (pointer_kind != Edge::kStrong) { kind = pointer_kind; break; } } } DumpEdge( src_, e->value(), point_->field()->getNameAsString(), kind, loc_); } private: JsonWriter* json_; RecordInfo* src_; FieldPoint* point_; std::string loc_; }; DumpEdgeVisitor visitor(json_); for (auto& base : info->GetBases()) visitor.DumpEdge(info, base.second.info(), "", Edge::kStrong, GetLocString(base.second.spec().getLocStart())); for (auto& field : info->GetFields()) visitor.DumpField(info, &field.second, GetLocString(field.second.field()->getLocStart())); } std::string BlinkGCPluginConsumer::GetLocString(SourceLocation loc) { const SourceManager& source_manager = instance_.getSourceManager(); PresumedLoc ploc = source_manager.getPresumedLoc(loc); if (ploc.isInvalid()) return ""; std::string loc_str; llvm::raw_string_ostream os(loc_str); os << ploc.getFilename() << ":" << ploc.getLine() << ":" << ploc.getColumn(); return os.str(); } bool BlinkGCPluginConsumer::IsIgnored(RecordInfo* record) { return (!record || !InCheckedNamespace(record) || IsIgnoredClass(record) || InIgnoredDirectory(record)); } bool BlinkGCPluginConsumer::IsIgnoredClass(RecordInfo* info) { // Ignore any class prefixed by SameSizeAs. These are used in // Blink to verify class sizes and don't need checking. const std::string SameSizeAs = "SameSizeAs"; if (info->name().compare(0, SameSizeAs.size(), SameSizeAs) == 0) return true; return (options_.ignored_classes.find(info->name()) != options_.ignored_classes.end()); } bool BlinkGCPluginConsumer::InIgnoredDirectory(RecordInfo* info) { std::string filename; if (!GetFilename(info->record()->getLocStart(), &filename)) return false; // TODO: should we ignore non-existing file locations? #if defined(LLVM_ON_WIN32) std::replace(filename.begin(), filename.end(), '\\', '/'); #endif for (const auto& dir : options_.ignored_directories) if (filename.find(dir) != std::string::npos) return true; return false; } bool BlinkGCPluginConsumer::InCheckedNamespace(RecordInfo* info) { if (!info) return false; for (DeclContext* context = info->record()->getDeclContext(); !context->isTranslationUnit(); context = context->getParent()) { if (NamespaceDecl* decl = dyn_cast(context)) { if (decl->isAnonymousNamespace()) return true; if (options_.checked_namespaces.find(decl->getNameAsString()) != options_.checked_namespaces.end()) { return true; } } } return false; } bool BlinkGCPluginConsumer::GetFilename(SourceLocation loc, std::string* filename) { const SourceManager& source_manager = instance_.getSourceManager(); SourceLocation spelling_location = source_manager.getSpellingLoc(loc); PresumedLoc ploc = source_manager.getPresumedLoc(spelling_location); if (ploc.isInvalid()) { // If we're in an invalid location, we're looking at things that aren't // actually stated in the source. return false; } *filename = ploc.getFilename(); return true; }