(* * 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. *) (** Eradicate NPEs. *) module L = Logging module F = Format open Utils open Dataflow (* ERADICATE CHECKER. TODOS:*) (* 1) add support for constructors for anonymous inner classes (currently not checked) *) (* print initial and final typestates *) let verbose = Config.from_env_variable "ERADICATE_TYPINGS" (* print step-by-step tracing information *) let trace = Config.from_env_variable "ERADICATE_TRACE" let check_field_initialization = true (* check that nonnullable fields are initialized in constructors *) type parameters = TypeState.parameters (** Type for a module that provides a main callback function *) module type CallBackT = sig val callback : TypeCheck.checks -> Procname.t list -> TypeCheck.get_proc_desc -> Idenv.t -> Sil.tenv -> Procname.t -> Cfg.Procdesc.t -> unit end (* CallBackT *) (** Extension to the type checker. *) module type ExtensionT = sig type extension val ext : extension TypeState.ext val update_payload : extension TypeState.t option -> Specs.payload -> Specs.payload end (** Create a module with the toplevel callback. *) module MkCallback (Extension : ExtensionT) : CallBackT = struct (** Update the summary with stats from the checker. *) let update_summary proc_name proc_desc final_typestate_opt = match Specs.get_summary proc_name with | Some old_summ -> let nodes = IList.map (fun n -> Cfg.Node.get_id n) (Cfg.Procdesc.get_nodes proc_desc) in let method_annotation = (Specs.pdesc_resolve_attributes proc_desc).ProcAttributes.method_annotation in let new_summ = { old_summ with Specs.nodes = nodes; Specs.payload = Extension.update_payload final_typestate_opt old_summ.Specs.payload; Specs.attributes = { old_summ.Specs.attributes with ProcAttributes.loc = Cfg.Procdesc.get_loc proc_desc; method_annotation; }; } in Specs.add_summary proc_name new_summ | None -> () let callback1 find_canonical_duplicate calls_this checks get_proc_desc idenv tenv curr_pname curr_pdesc annotated_signature linereader proc_loc : bool * Extension.extension TypeState.t option = let mk_pvar s = Sil.mk_pvar s curr_pname in let add_formal typestate (s, ia, typ) = let pvar = mk_pvar s in let ta = let origin = TypeOrigin.Formal s in TypeAnnotation.from_item_annotation ia origin in TypeState.add_pvar pvar (typ, ta, []) typestate in let get_initial_typestate () = let typestate_empty = TypeState.empty Extension.ext in IList.fold_left add_formal typestate_empty annotated_signature.Annotations.params in (** Check the nullable flag computed for the return value and report inconsistencies. *) let check_return find_canonical_duplicate exit_node final_typestate ret_ia ret_type loc : unit = let ret_pvar = Cfg.Procdesc.get_ret_var curr_pdesc in let ret_range = TypeState.lookup_pvar ret_pvar final_typestate in let typ_found_opt = match ret_range with | Some (typ_found, _, _) -> Some typ_found | None -> None in let ret_implicitly_nullable = string_equal (PatternMatch.get_type_name ret_type) "java.lang.Void" in State.set_node exit_node; if checks.TypeCheck.check_ret_type <> [] then IList.iter (fun f -> f curr_pname curr_pdesc ret_type typ_found_opt loc) checks.TypeCheck.check_ret_type; if checks.TypeCheck.eradicate then EradicateChecks.check_return_annotation find_canonical_duplicate curr_pname curr_pdesc exit_node ret_range ret_ia ret_implicitly_nullable loc in let do_before_dataflow initial_typestate = if verbose then L.stdout "Initial Typestate@\n%a@." (TypeState.pp Extension.ext) initial_typestate in let do_after_dataflow find_canonical_duplicate final_typestate = let exit_node = Cfg.Procdesc.get_exit_node curr_pdesc in let ia, ret_type = annotated_signature.Annotations.ret in check_return find_canonical_duplicate exit_node final_typestate ia ret_type proc_loc in let module DFTypeCheck = MakeDF(struct type t = Extension.extension TypeState.t let initial = TypeState.empty Extension.ext let equal = TypeState.equal let join = TypeState.join Extension.ext let do_node node typestate = State.set_node node; let typestates_succ, typestates_exn = TypeCheck.typecheck_node Extension.ext calls_this checks idenv get_proc_desc curr_pname curr_pdesc find_canonical_duplicate annotated_signature typestate node linereader in if trace then IList.iter (fun typestate_succ -> L.stdout "Typestate After Node %a@\n%a@." Cfg.Node.pp node (TypeState.pp Extension.ext) typestate_succ) typestates_succ; typestates_succ, typestates_exn let proc_throws pn = DontKnow end) in let initial_typestate = get_initial_typestate () in do_before_dataflow initial_typestate; let transitions = DFTypeCheck.run curr_pdesc initial_typestate in match transitions (Cfg.Procdesc.get_exit_node curr_pdesc) with | DFTypeCheck.Transition (final_typestate, _, _) -> do_after_dataflow find_canonical_duplicate final_typestate; !calls_this, Some final_typestate | DFTypeCheck.Dead_state -> !calls_this, None let callback2 calls_this checks all_procs get_proc_desc idenv tenv curr_pname curr_pdesc annotated_signature linereader proc_loc : unit = let find_duplicate_nodes = State.mk_find_duplicate_nodes curr_pdesc in let find_canonical_duplicate node = let duplicate_nodes = find_duplicate_nodes node in try Cfg.NodeSet.min_elt duplicate_nodes with | Not_found -> node in let typecheck_proc do_checks pname pdesc proc_details_opt = let ann_sig, loc, idenv_pn = match proc_details_opt with | Some (ann_sig, loc, idenv_pn) -> (ann_sig, loc, idenv_pn) | None -> let ann_sig = Models.get_modelled_annotated_signature (Cfg.Procdesc.get_attributes pdesc) in let loc = Cfg.Procdesc.get_loc pdesc in let idenv_pn = Idenv.create_from_idenv idenv pdesc in (ann_sig, loc, idenv_pn) in let checks', calls_this' = if do_checks then checks, calls_this else { TypeCheck.eradicate = false; check_extension = false; check_ret_type = []; }, ref false in callback1 find_canonical_duplicate calls_this' checks' get_proc_desc idenv_pn tenv pname pdesc ann_sig linereader loc in let module Initializers = struct type init = Procname.t * Cfg.Procdesc.t let final_typestates initializers_current_class = (** Get the private methods, from the same class, directly called by the initializers. *) let get_private_called (initializers : init list) : init list = let res = ref [] in let do_proc (init_pn, init_pd) = let filter callee_pn callee_attributes = let is_private = callee_attributes.ProcAttributes.access = Sil.Private in let same_class = let get_class_opt pn = if Procname.is_java pn then Some (Procname.java_get_class pn) else None in get_class_opt init_pn = get_class_opt callee_pn in is_private && same_class in let private_called = PatternMatch.proc_calls Specs.proc_resolve_attributes init_pn init_pd filter in let do_called (callee_pn, callee_attributes) = match get_proc_desc callee_pn with | Some callee_pd -> res := (callee_pn, callee_pd) :: !res | None -> () in IList.iter do_called private_called in IList.iter do_proc initializers; !res in (** Get the initializers recursively called by computing a fixpoint. Start from the initializers of the current class and the current procedure. *) let initializers_recursive : init list = let initializers_base_case = initializers_current_class in let res = ref [] in let seen = ref Procname.Set.empty in let mark_seen (initializers : init list) : unit = IList.iter (fun (pn, _) -> seen := Procname.Set.add pn !seen) initializers; res := !res @ initializers in let rec fixpoint initializers_old = let initializers_new = get_private_called initializers_old in let initializers_new' = IList.filter (fun (pn, _) -> not (Procname.Set.mem pn !seen)) initializers_new in mark_seen initializers_new'; if initializers_new' <> [] then fixpoint initializers_new' in mark_seen initializers_base_case; fixpoint initializers_base_case; !res in (** Get the final typestates of all the initializers. *) let final_typestates = ref [] in let get_final_typestate (pname, pdesc) = match typecheck_proc false pname pdesc None with | _, Some final_typestate -> final_typestates := (pname, final_typestate) :: !final_typestates | _, None -> () in IList.iter get_final_typestate initializers_recursive; IList.rev !final_typestates let pname_and_pdescs_with f = let res = ref [] in let filter pname = match Specs.proc_resolve_attributes pname with | Some proc_attributes -> f (pname, proc_attributes) | None -> false in let do_proc pname = if filter pname then match get_proc_desc pname with | Some pdesc -> res := (pname, pdesc) :: !res | None -> () in IList.iter do_proc all_procs; IList.rev !res (** Typestates after the current procedure and all initializer procedures. *) let final_initializer_typestates_lazy = lazy begin let is_initializer pname proc_attributes = PatternMatch.method_is_initializer tenv proc_attributes || let ia, _ = (Models.get_modelled_annotated_signature proc_attributes).Annotations.ret in Annotations.ia_is_initializer ia in let initializers_current_class = pname_and_pdescs_with (function (pname, proc_attributes) -> is_initializer pname proc_attributes && Procname.java_get_class pname = Procname.java_get_class curr_pname) in final_typestates ((curr_pname, curr_pdesc) :: initializers_current_class) end (** Typestates after all constructors. *) let final_constructor_typestates_lazy = lazy begin let constructors_current_class = pname_and_pdescs_with (fun (pname, proc_attributes) -> Procname.is_constructor pname && Procname.java_get_class pname = Procname.java_get_class curr_pname) in final_typestates constructors_current_class end end (* Initializers *) in let do_final_typestate typestate_opt calls_this = let do_typestate typestate = let start_node = Cfg.Procdesc.get_start_node curr_pdesc in if not calls_this && (* if 'this(...)' is called, no need to check initialization *) check_field_initialization && checks.TypeCheck.eradicate then begin EradicateChecks.check_constructor_initialization find_canonical_duplicate curr_pname curr_pdesc start_node Initializers.final_initializer_typestates_lazy Initializers.final_constructor_typestates_lazy proc_loc end; if verbose then L.stdout "Final Typestate@\n%a@." (TypeState.pp Extension.ext) typestate in match typestate_opt with | None -> () | Some typestate -> do_typestate typestate in TypeErr.reset (); let calls_this, final_typestate_opt = typecheck_proc true curr_pname curr_pdesc (Some (annotated_signature, proc_loc, idenv)) in do_final_typestate final_typestate_opt calls_this; if checks.TypeCheck.eradicate then EradicateChecks.check_overridden_annotations find_canonical_duplicate get_proc_desc tenv curr_pname curr_pdesc annotated_signature; TypeErr.report_forall_checks_and_reset Checkers.ST.report_error curr_pname; update_summary curr_pname curr_pdesc final_typestate_opt (** Entry point for the eradicate-based checker infrastructure. *) let callback checks all_procs get_proc_desc idenv tenv proc_name proc_desc = let calls_this = ref false in let filter_special_cases () = if Procname.java_is_access_method proc_name || (Specs.pdesc_resolve_attributes proc_desc).ProcAttributes.is_bridge_method then None else begin let annotated_signature = Models.get_modelled_annotated_signature (Specs.pdesc_resolve_attributes proc_desc) in Some annotated_signature end in match filter_special_cases () with | None -> () | Some annotated_signature -> let loc = Cfg.Procdesc.get_loc proc_desc in let linereader = Printer.LineReader.create () in if verbose then L.stdout "%a@." (Annotations.pp_annotated_signature proc_name) annotated_signature; callback2 calls_this checks all_procs get_proc_desc idenv tenv proc_name proc_desc annotated_signature linereader loc end (* MkCallback *) (** Given an extension to the typestate with a check, call the check on each instruction. *) module Build (Extension : ExtensionT) : CallBackT = struct module Callback = MkCallback(Extension) let callback = Callback.callback end (* Build *) module EmptyExtension : ExtensionT = struct type extension = unit let ext = let empty = () in let check_instr get_proc_desc proc_name proc_desc node ext instr param = ext in let join () () = () in let pp fmt () = () in { TypeState.empty = empty; check_instr = check_instr; join = join; pp = pp; } let update_payload typestate_opt payload = { payload with Specs.typestate = typestate_opt; } end module Main = Build(EmptyExtension) (** Eradicate checker for Java @Nullable annotations. *) let callback_eradicate all_procs get_proc_desc idenv tenv proc_name proc_desc = let checks = { TypeCheck.eradicate = true; check_extension = false; check_ret_type = []; } in let callbacks = let analyze_ondemand pname = match get_proc_desc pname with | None -> () | Some pdesc -> let idenv_pname = Idenv.create_from_idenv idenv pdesc in Main.callback checks all_procs get_proc_desc idenv_pname tenv pname pdesc in { Ondemand.analyze_ondemand; get_proc_desc; } in if not !Config.ondemand_enabled || Ondemand.procedure_should_be_analyzed proc_desc proc_name then begin Ondemand.set_callbacks callbacks; Main.callback checks all_procs get_proc_desc idenv tenv proc_name proc_desc; Ondemand.unset_callbacks () end (** Call the given check_return_type at the end of every procedure. *) let callback_check_return_type check_return_type all_procs get_proc_desc idenv tenv proc_name proc_desc = let checks = { TypeCheck.eradicate = false; check_extension = false; check_ret_type = [check_return_type]; } in Main.callback checks all_procs get_proc_desc idenv tenv proc_name proc_desc