(* * Copyright (c) 2013 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. *) (** Methods for creating a procdesc from a method or function declaration *) (** and for resolving a method call and finding the right callee *) open Utils open CFrontend_utils module L = Logging exception Invalid_declaration (** When the methoc call is MCStatic, means that it is a class method. *) (** When it is MCVirtual, it means that it is an instance method and that *) (** the method to be called will be determined at runtime. If it is MCNoVirtual *) (** it means that it is an instance method but that the method to be called will *) (** be determined at compile time *) type method_call_type = | MCVirtual | MCNoVirtual | MCStatic type function_method_decl_info = | Func_decl_info of Clang_ast_t.function_decl_info * Clang_ast_t.type_ptr * CFrontend_config.lang | Cpp_Meth_decl_info of Clang_ast_t.function_decl_info * Clang_ast_t.cxx_method_decl_info * string * Clang_ast_t.type_ptr | ObjC_Meth_decl_info of Clang_ast_t.obj_c_method_decl_info * string | Block_decl_info of Clang_ast_t.block_decl_info * Clang_ast_t.type_ptr * CContext.t let is_instance_method function_method_decl_info = match function_method_decl_info with | Func_decl_info _ | Block_decl_info _ -> false | Cpp_Meth_decl_info (_, method_decl_info, _, _) -> not method_decl_info.Clang_ast_t.xmdi_is_static | ObjC_Meth_decl_info (method_decl_info, _) -> method_decl_info.Clang_ast_t.omdi_is_instance_method let get_class_param function_method_decl_info = if (is_instance_method function_method_decl_info) then match function_method_decl_info with | Cpp_Meth_decl_info (_, _, class_name, _) -> let class_type = Ast_expressions.create_class_type class_name in [(CFrontend_config.this, class_type)] | ObjC_Meth_decl_info (_, class_name) -> let class_type = Ast_expressions.create_class_type class_name in [(CFrontend_config.self, class_type)] | _ -> [] else [] let get_param_decls function_method_decl_info = match function_method_decl_info with | Func_decl_info (function_decl_info, _, _) | Cpp_Meth_decl_info (function_decl_info, _, _, _) -> function_decl_info.Clang_ast_t.fdi_parameters | ObjC_Meth_decl_info (method_decl_info, _) -> method_decl_info.Clang_ast_t.omdi_parameters | Block_decl_info (block_decl_info, _, _) -> block_decl_info.Clang_ast_t.bdi_parameters let get_language function_method_decl_info = match function_method_decl_info with | Func_decl_info (_, _, language) -> language | Cpp_Meth_decl_info _ -> CFrontend_config.CPP | ObjC_Meth_decl_info _ -> CFrontend_config.OBJC | Block_decl_info _ -> CFrontend_config.OBJC let get_parameters function_method_decl_info = let par_to_ms_par par = match par with | Clang_ast_t.ParmVarDecl (decl_info, name_info, type_ptr, var_decl_info) -> let name = name_info.Clang_ast_t.ni_name in (name, type_ptr) | _ -> assert false in let pars = IList.map par_to_ms_par (get_param_decls function_method_decl_info) in get_class_param function_method_decl_info @ pars let get_return_type function_method_decl_info = match function_method_decl_info with | Func_decl_info (_, typ, _) | Cpp_Meth_decl_info (_, _, _, typ) | Block_decl_info (_, typ, _) -> CTypes.return_type_of_function_type typ | ObjC_Meth_decl_info (method_decl_info, _) -> method_decl_info.Clang_ast_t.omdi_result_type let build_method_signature decl_info procname function_method_decl_info is_anonym_block is_generated = let source_range = decl_info.Clang_ast_t.di_source_range in let tp = get_return_type function_method_decl_info in let is_instance_method = is_instance_method function_method_decl_info in let parameters = get_parameters function_method_decl_info in let attributes = decl_info.Clang_ast_t.di_attributes in let lang = get_language function_method_decl_info in CMethod_signature.make_ms procname parameters tp attributes source_range is_instance_method is_generated lang let get_assume_not_null_calls ms param_decls = let attributes = CMethod_signature.ms_get_attributes ms in let do_one_param decl = match decl with | Clang_ast_t.ParmVarDecl (decl_info, name, tp, var_decl_info) when CFrontend_utils.Ast_utils.is_type_nonnull tp attributes -> let assume_call = Ast_expressions.create_assume_not_null_call decl_info name tp in [(`ClangStmt assume_call)] | _ -> [] in IList.flatten (IList.map do_one_param param_decls) let get_init_list_instrs method_decl_info = let create_custom_instr construct_instr = `CXXConstructorInit construct_instr in IList.map create_custom_instr method_decl_info.Clang_ast_t.xmdi_cxx_ctor_initializers let method_signature_of_decl meth_decl block_data_opt = let open Clang_ast_t in match meth_decl, block_data_opt with | FunctionDecl (decl_info, name_info, tp, fdi), _ -> let name = Ast_utils.get_qualified_name name_info in let language = !CFrontend_config.language in let func_decl = Func_decl_info (fdi, tp, language) in let function_info = Some (decl_info, fdi) in let procname = General_utils.mk_procname_from_function name function_info tp language in let ms = build_method_signature decl_info procname func_decl false false in let extra_instrs = get_assume_not_null_calls ms fdi.Clang_ast_t.fdi_parameters in ms, fdi.Clang_ast_t.fdi_body, extra_instrs | CXXMethodDecl (decl_info, name_info, tp, fdi, mdi), _ | CXXConstructorDecl (decl_info, name_info, tp, fdi, mdi), _ -> let method_name = name_info.Clang_ast_t.ni_name in let class_name = Ast_utils.get_class_name_from_member name_info in let procname = General_utils.mk_procname_from_cpp_method class_name method_name tp in let method_decl = Cpp_Meth_decl_info (fdi, mdi, class_name, tp) in let ms = build_method_signature decl_info procname method_decl false false in let non_null_instrs = get_assume_not_null_calls ms fdi.Clang_ast_t.fdi_parameters in let init_list_instrs = get_init_list_instrs mdi in (* it will be empty for methods *) ms, fdi.Clang_ast_t.fdi_body, (init_list_instrs @ non_null_instrs) | ObjCMethodDecl (decl_info, name_info, mdi), _ -> let method_name = name_info.ni_name in let class_name = Ast_utils.get_class_name_from_member name_info in let is_instance = mdi.omdi_is_instance_method in let method_kind = Procname.objc_method_kind_of_bool is_instance in let procname = General_utils.mk_procname_from_objc_method class_name method_name method_kind in let method_decl = ObjC_Meth_decl_info (mdi, class_name) in let is_generated = Ast_utils.is_generated name_info in let ms = build_method_signature decl_info procname method_decl false is_generated in let extra_instrs = get_assume_not_null_calls ms mdi.omdi_parameters in ms, mdi.omdi_body, extra_instrs | BlockDecl (decl_info, bdi), Some (outer_context, tp, procname, _) -> let func_decl = Block_decl_info (bdi, tp, outer_context) in let ms = build_method_signature decl_info procname func_decl true false in let extra_instrs = get_assume_not_null_calls ms bdi.bdi_parameters in ms, bdi.bdi_body, extra_instrs | _ -> raise Invalid_declaration let method_signature_of_pointer pointer = try match Ast_utils.get_decl pointer with | Some meth_decl -> let ms, _, _ = method_signature_of_decl meth_decl None in Some ms | None -> None with Invalid_declaration -> None let get_superclass_curr_class context = let retrive_super cname super_opt = let iname = Sil.TN_csu (Sil.Class, Mangled.from_string cname) in Printing.log_out "Checking for superclass = '%s'\n\n%!" (Sil.typename_to_string iname); match Sil.tenv_lookup (CContext.get_tenv context) iname with | Some Sil.Tstruct(_, _, _, _, (_, super_name):: _, _, _) -> Mangled.to_string super_name | _ -> Printing.log_err "NOT FOUND superclass = '%s'\n\n%!" (Sil.typename_to_string iname); (match super_opt with | Some super -> super | _ -> assert false) in match CContext.get_curr_class context with | CContext.ContextCls (cname, super_opt, _) -> retrive_super cname super_opt | CContext.ContextCategory (_, cls) -> retrive_super cls None | CContext.ContextNoCls | CContext.ContextProtocol _ -> assert false let get_class_selector_instance context obj_c_message_expr_info act_params = let selector = obj_c_message_expr_info.Clang_ast_t.omei_selector in let pointer = obj_c_message_expr_info.Clang_ast_t.omei_decl_pointer in match obj_c_message_expr_info.Clang_ast_t.omei_receiver_kind with | `Class tp -> let sil_type = CTypes_decl.type_ptr_to_sil_type context.CContext.tenv tp in ((CTypes.classname_of_type sil_type), selector, pointer, MCStatic) | `Instance -> (match act_params with | (instance_obj, Sil.Tptr(t, _)):: _ | (instance_obj, t):: _ -> (CTypes.classname_of_type t, selector, pointer, MCVirtual) | _ -> assert false) | `SuperInstance -> let superclass = get_superclass_curr_class context in (superclass, selector, pointer, MCNoVirtual) | `SuperClass -> let superclass = get_superclass_curr_class context in (superclass, selector, pointer, MCStatic) let get_formal_parameters tenv ms = let rec defined_parameters pl = match pl with | [] -> [] | (name, raw_type):: pl' -> let should_add_pointer name ms = let is_objc_self = name = CFrontend_config.self && CMethod_signature.ms_get_lang ms = CFrontend_config.OBJC in let is_cxx_this = name = CFrontend_config.this && CMethod_signature.ms_get_lang ms = CFrontend_config.CPP in (is_objc_self && CMethod_signature.ms_is_instance ms) || is_cxx_this in let tp = if should_add_pointer name ms then (Ast_expressions.create_pointer_type raw_type) else raw_type in let typ = CTypes_decl.type_ptr_to_sil_type tenv tp in (name, typ):: defined_parameters pl' in defined_parameters (CMethod_signature.ms_get_args ms) let get_return_type tenv ms = let return_type = CMethod_signature.ms_get_ret_type ms in CTypes_decl.type_ptr_to_sil_type tenv return_type let sil_func_attributes_of_attributes attrs = let rec do_translation acc al = match al with | [] -> IList.rev acc | Clang_ast_t.SentinelAttr attribute_info:: tl -> let (sentinel, null_pos) = match attribute_info.Clang_ast_t.ai_parameters with | a:: b::[] -> (int_of_string a, int_of_string b) | _ -> assert false in do_translation (Sil.FA_sentinel(sentinel, null_pos):: acc) tl | _:: tl -> do_translation acc tl in do_translation [] attrs let should_create_procdesc cfg procname defined generated = match Cfg.Procdesc.find_from_name cfg procname with | Some prevoius_procdesc -> let is_defined_previous = Cfg.Procdesc.is_defined prevoius_procdesc in let is_generated_previous = (Cfg.Procdesc.get_attributes prevoius_procdesc).ProcAttributes.is_generated in if defined && ((not is_defined_previous) || (generated && is_generated_previous)) then (Cfg.Procdesc.remove cfg (Cfg.Procdesc.get_proc_name prevoius_procdesc) true; true) else false | None -> true (** Creates a procedure description. *) let create_local_procdesc cfg tenv ms fbody captured is_objc_inst_method = let defined = not ((IList.length fbody) == 0) in let proc_name = CMethod_signature.ms_get_name ms in let pname = Procname.to_string proc_name in let attributes = sil_func_attributes_of_attributes (CMethod_signature.ms_get_attributes ms) in let is_generated = CMethod_signature.ms_is_generated ms in let create_new_procdesc () = let formals = get_formal_parameters tenv ms in let captured_str = IList.map ( fun (var, t) -> (Mangled.to_string (Sil.pvar_get_name var), t) ) captured in (* Captured variables for blocks are treated as parameters *) let formals = captured_str @formals in let source_range = CMethod_signature.ms_get_loc ms in Printing.log_out "\nCreating a new procdesc for function: '%s'\n@." pname; let loc_start = CLocation.get_sil_location_from_range source_range true in let loc_exit = CLocation.get_sil_location_from_range source_range false in let ret_type = get_return_type tenv ms in let captured' = IList.map (fun (var, t) -> (Sil.pvar_get_name var, t)) captured in let procdesc = let proc_attributes = { (ProcAttributes.default proc_name Config.C_CPP) with ProcAttributes.captured = captured'; formals; func_attributes = attributes; is_defined = defined; is_generated; is_objc_instance_method = is_objc_inst_method; loc = loc_start; ret_type; } in Cfg.Procdesc.create { Cfg.Procdesc.cfg; proc_attributes; } in if defined then (if !Config.arc_mode then Cfg.Procdesc.set_flag procdesc Mleak_buckets.objc_arc_flag "true"; let start_kind = Cfg.Node.Start_node procdesc in let start_node = Cfg.Node.create cfg loc_start start_kind [] procdesc [] in let exit_kind = Cfg.Node.Exit_node procdesc in let exit_node = Cfg.Node.create cfg loc_exit exit_kind [] procdesc [] in Cfg.Procdesc.set_start_node procdesc start_node; Cfg.Procdesc.set_exit_node procdesc exit_node) in let generated = CMethod_signature.ms_is_generated ms in if should_create_procdesc cfg proc_name defined generated then (create_new_procdesc (); true) else false (** Create a procdesc for objc methods whose signature cannot be found. *) let create_external_procdesc cfg proc_name is_objc_inst_method type_opt = match Cfg.Procdesc.find_from_name cfg proc_name with | Some _ -> () | None -> let ret_type, formals = (match type_opt with | Some (ret_type, arg_types) -> ret_type, IList.map (fun typ -> ("x", typ)) arg_types | None -> Sil.Tvoid, []) in let loc = Location.dummy in let _ = let proc_attributes = { (ProcAttributes.default proc_name Config.C_CPP) with ProcAttributes.formals; is_objc_instance_method = is_objc_inst_method; loc; ret_type; } in Cfg.Procdesc.create { Cfg.Procdesc.cfg = cfg; proc_attributes = proc_attributes; } in () let create_procdesc_with_pointer context pointer class_name_opt name tp = let open CContext in match method_signature_of_pointer pointer with | Some callee_ms -> ignore (create_local_procdesc context.cfg context.tenv callee_ms [] [] false); CMethod_signature.ms_get_name callee_ms | None -> let callee_name = match class_name_opt with | Some class_name -> General_utils.mk_procname_from_cpp_method class_name name tp | None -> General_utils.mk_procname_from_function name None tp !CFrontend_config.language in create_external_procdesc context.cfg callee_name false None; callee_name let instance_to_method_call_type instance = if instance then MCVirtual else MCStatic