// Copyright 2020 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "sandboxed_api/tools/clang_generator/emitter.h" #include "absl/random/random.h" #include "absl/status/statusor.h" #include "absl/strings/ascii.h" #include "absl/strings/escaping.h" #include "absl/strings/match.h" #include "absl/strings/str_cat.h" #include "absl/strings/str_format.h" #include "absl/strings/str_join.h" #include "absl/strings/str_replace.h" #include "absl/strings/string_view.h" #include "absl/strings/strip.h" #include "clang/AST/DeclCXX.h" #include "clang/AST/Type.h" #include "clang/Format/Format.h" #include "sandboxed_api/tools/clang_generator/diagnostics.h" #include "sandboxed_api/tools/clang_generator/generator.h" #include "sandboxed_api/util/status_macros.h" namespace sapi { // Common file prolog with auto-generation notice. // Note: The includes will be adjusted by Copybara when converting to/from // internal code. This is intentional. // Text template arguments: // 1. Header guard constexpr absl::string_view kHeaderProlog = R"(// AUTO-GENERATED by the Sandboxed API generator. // Edits will be discarded when regenerating this file. #ifndef %1$s #define %1$s #include #include #include "absl/base/macros.h" #include "absl/status/status.h" #include "absl/status/statusor.h" #include "sandboxed_api/sandbox.h" #include "sandboxed_api/vars.h" #include "sandboxed_api/util/status_macros.h" )"; constexpr absl::string_view kHeaderEpilog = R"( #endif // %1$s)"; // Text template arguments: // 1. Include for embedded sandboxee objects constexpr absl::string_view kEmbedInclude = R"(#include "%1$s_embed.h" )"; // Text template arguments: // 1. Namespace name constexpr absl::string_view kNamespaceBeginTemplate = R"( namespace %1$s { )"; constexpr absl::string_view kNamespaceEndTemplate = R"( } // namespace %1$s )"; // Text template arguments: // 1. Class name // 2. Embedded object identifier constexpr absl::string_view kEmbedClassTemplate = R"( // Sandbox with embedded sandboxee and default policy class %1$s : public ::sapi::Sandbox { public: %1$s() : ::sapi::Sandbox(%2$s_embed_create()) {} }; )"; // Text template arguments: // 1. Class name constexpr absl::string_view kClassHeaderTemplate = R"( // Sandboxed API class %1$s { public: explicit %1$s(::sapi::Sandbox* sandbox) : sandbox_(sandbox) {} ABSL_DEPRECATED("Call sandbox() instead") ::sapi::Sandbox* GetSandbox() const { return sandbox(); } ::sapi::Sandbox* sandbox() const { return sandbox_; } )"; constexpr absl::string_view kClassFooterTemplate = R"( private: ::sapi::Sandbox* sandbox_; }; )"; namespace internal { absl::StatusOr ReformatGoogleStyle(const std::string& filename, const std::string& code) { // Configure code style based on Google style, but enforce pointer alignment clang::format::FormatStyle style = clang::format::getGoogleStyle(clang::format::FormatStyle::LK_Cpp); style.DerivePointerAlignment = false; style.PointerAlignment = clang::format::FormatStyle::PAS_Left; clang::tooling::Replacements replacements = clang::format::reformat( style, code, llvm::makeArrayRef(clang::tooling::Range(0, code.size())), filename); llvm::Expected formatted_header = clang::tooling::applyAllReplacements(code, replacements); if (!formatted_header) { return absl::InternalError(llvm::toString(formatted_header.takeError())); } return *formatted_header; } } // namespace internal std::string GetIncludeGuard(absl::string_view filename) { if (filename.empty()) { static auto* bit_gen = new absl::BitGen(); return absl::StrCat( // Copybara will transform the string. This is intentional. "SANDBOXED_API_GENERATED_HEADER_", absl::AsciiStrToUpper(absl::StrCat( absl::Hex(absl::Uniform(*bit_gen), absl::kZeroPad16))), "_"); } constexpr absl::string_view kUnderscorePrefix = "SAPI_"; std::string guard; guard.reserve(filename.size() + kUnderscorePrefix.size() + 1); for (auto c : filename) { if (absl::ascii_isalpha(c)) { guard += absl::ascii_toupper(c); continue; } if (guard.empty()) { guard = kUnderscorePrefix; } if (absl::ascii_isdigit(c)) { guard += c; } else if (guard.back() != '_') { guard += '_'; } } if (!absl::EndsWith(guard, "_")) { guard += '_'; } return guard; } // Returns the namespace components of a declaration's qualified name. std::vector GetNamespacePath(const clang::TypeDecl* decl) { std::vector comps; for (const auto* ctx = decl->getDeclContext(); ctx; ctx = ctx->getParent()) { if (const auto* nd = llvm::dyn_cast(ctx)) { comps.push_back(nd->getNameAsString()); } } std::reverse(comps.begin(), comps.end()); return comps; } // Serializes the given Clang AST declaration back into compilable source code. std::string PrintAstDecl(const clang::Decl* decl) { // TODO(cblichmann): Make types nicer // - Rewrite typedef to using // - Rewrite function pointers using std::add_pointer_t<>; if (const auto* record = llvm::dyn_cast(decl)) { // For C++ classes/structs, only emit a forward declaration. return absl::StrCat(record->isClass() ? "class " : "struct ", std::string(record->getName())); } std::string pretty; llvm::raw_string_ostream os(pretty); decl->print(os); return os.str(); } std::string GetParamName(const clang::ParmVarDecl* decl, int index) { if (std::string name = decl->getName().str(); !name.empty()) { return absl::StrCat(name, "_"); // Suffix to avoid collisions } return absl::StrCat("unnamed", index, "_"); } std::string PrintFunctionPrototype(const clang::FunctionDecl* decl) { // TODO(cblichmann): Fix function pointers and anonymous namespace formatting std::string out = absl::StrCat(decl->getDeclaredReturnType().getAsString(), " ", std::string(decl->getQualifiedNameAsString()), "("); std::string print_separator; for (int i = 0; i < decl->getNumParams(); ++i) { const clang::ParmVarDecl* param = decl->getParamDecl(i); absl::StrAppend(&out, print_separator); print_separator = ", "; absl::StrAppend(&out, param->getType().getAsString()); if (std::string name = param->getName().str(); !name.empty()) { absl::StrAppend(&out, " ", name); } } absl::StrAppend(&out, ")"); return out; } absl::StatusOr EmitFunction(const clang::FunctionDecl* decl) { std::string out; absl::StrAppend(&out, "\n// ", PrintFunctionPrototype(decl), "\n"); const std::string function_name = decl->getNameAsString(); const clang::QualType return_type = decl->getDeclaredReturnType(); const bool returns_void = return_type->isVoidType(); const clang::ASTContext& context = decl->getASTContext(); // "Status FunctionName(" absl::StrAppend(&out, MapQualTypeReturn(context, return_type), " ", function_name, "("); struct ParameterInfo { clang::QualType qual; std::string name; }; std::vector params; std::string print_separator; for (int i = 0; i < decl->getNumParams(); ++i) { const clang::ParmVarDecl* param = decl->getParamDecl(i); ParameterInfo& param_info = params.emplace_back(); param_info.qual = param->getType(); param_info.name = GetParamName(param, i); absl::StrAppend(&out, print_separator); print_separator = ", "; absl::StrAppend(&out, MapQualTypeParameter(context, param_info.qual), " ", param_info.name); } absl::StrAppend(&out, ") {\n"); absl::StrAppend(&out, MapQualType(context, return_type), " v_ret_;\n"); for (const auto& [qual, name] : params) { if (!IsPointerOrReference(qual)) { absl::StrAppend(&out, MapQualType(context, qual), " v_", name, "(", name, ");\n"); } } absl::StrAppend(&out, "\nSAPI_RETURN_IF_ERROR(sandbox_->Call(\"", function_name, "\", &v_ret_"); for (const auto& [qual, name] : params) { absl::StrAppend(&out, ", ", IsPointerOrReference(qual) ? "" : "&v_", name); } absl::StrAppend(&out, "));\nreturn ", (returns_void ? "absl::OkStatus()" : "v_ret_.GetValue()"), ";\n}\n"); return out; } absl::StatusOr EmitHeader( const std::vector& functions, const Emitter::RenderedTypesMap& rendered_types, const GeneratorOptions& options) { std::string out; const std::string include_guard = GetIncludeGuard(options.out_file); absl::StrAppendFormat(&out, kHeaderProlog, include_guard); // When embedding the sandboxee, add embed header include if (!options.embed_name.empty()) { // Not using JoinPath() because even on Windows include paths use plain // slashes. std::string include_file(absl::StripSuffix( absl::StrReplaceAll(options.embed_dir, {{"\\", "/"}}), "/")); if (!include_file.empty()) { absl::StrAppend(&include_file, "/"); } absl::StrAppend(&include_file, options.embed_name); absl::StrAppendFormat(&out, kEmbedInclude, include_file); } // If specified, wrap the generated API in a namespace if (options.has_namespace()) { absl::StrAppendFormat(&out, kNamespaceBeginTemplate, options.namespace_name); } // Emit type dependencies if (!rendered_types.empty()) { absl::StrAppend(&out, "// Types this API depends on\n"); for (const auto& [ns_name, types] : rendered_types) { if (!ns_name.empty()) { absl::StrAppend(&out, "namespace ", ns_name, " {\n"); } for (const auto& type : types) { absl::StrAppend(&out, type, ";\n"); } if (!ns_name.empty()) { absl::StrAppend(&out, "} // namespace ", ns_name, "\n\n"); } } } // Optionally emit a default sandbox that instantiates an embedded sandboxee if (!options.embed_name.empty()) { // TODO(cblichmann): Make the "Sandbox" suffix configurable. absl::StrAppendFormat( &out, kEmbedClassTemplate, absl::StrCat(options.name, "Sandbox"), absl::StrReplaceAll(options.embed_name, {{"-", "_"}})); } // Emit the actual Sandboxed API // TODO(cblichmann): Make the "Api" suffix configurable or at least optional. absl::StrAppendFormat(&out, kClassHeaderTemplate, absl::StrCat(options.name, "Api")); absl::StrAppend(&out, absl::StrJoin(functions, "\n")); absl::StrAppend(&out, kClassFooterTemplate); // Close out the header: close namespace (if needed) and end include guard if (options.has_namespace()) { absl::StrAppendFormat(&out, kNamespaceEndTemplate, options.namespace_name); } absl::StrAppendFormat(&out, kHeaderEpilog, include_guard); return out; } void Emitter::CollectType(clang::QualType qual) { clang::TypeDecl* decl = nullptr; if (const auto* typedef_type = qual->getAs()) { decl = typedef_type->getDecl(); } else if (const auto* enum_type = qual->getAs()) { decl = enum_type->getDecl(); } else { decl = qual->getAsRecordDecl(); } if (!decl) { return; } const std::vector ns_path = GetNamespacePath(decl); std::string ns_name; if (!ns_path.empty()) { if (const auto& ns_root = ns_path.front(); ns_root == "std" || ns_root == "sapi" || ns_root == "__gnu_cxx") { // Filter out any and all declarations from the C++ standard library, // from SAPI itself and from other well-known namespaces. This avoids // re-declaring things like standard integer types, for example. return; } ns_name = absl::StrCat(ns_path[0].empty() ? "" : " ", absl::StrJoin(ns_path, "::")); } rendered_types_[ns_name].push_back(PrintAstDecl(decl)); } void Emitter::CollectFunction(clang::FunctionDecl* decl) { functions_.push_back(*EmitFunction(decl)); // Cannot currently fail } absl::StatusOr Emitter::EmitHeader( const GeneratorOptions& options) { SAPI_ASSIGN_OR_RETURN(const std::string header, ::sapi::EmitHeader(functions_, rendered_types_, options)); return internal::ReformatGoogleStyle(options.out_file, header); } } // namespace sapi