(* * Copyright (c) 2009-2013, Monoidics ltd. * Copyright (c) Facebook, Inc. and its affiliates. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. *) open! IStd module F = Format open PolyVariantEqual module Stats = struct type t = { failure_kind: SymOp.failure_kind option (** what type of failure stopped the analysis (if any) *) ; symops: int (** Number of SymOp's throughout the whole analysis of the function *) ; mutable nodes_visited: IntSet.t (** Nodes visited *) } let empty = {failure_kind= None; symops= 0; nodes_visited= IntSet.empty} let is_visited stats node_id = IntSet.mem node_id stats.nodes_visited let add_visited stats node_id = stats.nodes_visited <- IntSet.add node_id stats.nodes_visited let nb_visited {nodes_visited} = IntSet.cardinal nodes_visited let update ?(add_symops = 0) ?failure_kind stats = let symops = stats.symops + add_symops in let failure_kind = match failure_kind with None -> stats.failure_kind | some -> some in {stats with symops; failure_kind} let failure_kind {failure_kind} = failure_kind let symops {symops} = symops let pp_failure_kind_opt fmt failure_kind_opt = match failure_kind_opt with | Some failure_kind -> SymOp.pp_failure_kind fmt failure_kind | None -> F.pp_print_string fmt "NONE" let failure_kind_to_string {failure_kind} = F.asprintf "%a" pp_failure_kind_opt failure_kind let pp fmt {failure_kind; symops} = F.fprintf fmt "FAILURE:%a SYMOPS:%d@\n" pp_failure_kind_opt failure_kind symops end module Status = struct type t = | Pending (** the summary has been created by the procedure has not been analyzed yet *) | Analyzed (** the analysis of the procedure is finished *) let to_string = function Pending -> "Pending" | Analyzed -> "Analyzed" let pp fmt status = F.pp_print_string fmt (to_string status) let is_analyzed = function Analyzed -> true | _ -> false end include struct (* ignore dead modules added by @@deriving fields *) [@@@warning "-60"] type t = { payloads: Payloads.t ; sessions: int ref ; stats: Stats.t ; status: Status.t ; proc_desc: Procdesc.t ; err_log: Errlog.t } [@@deriving fields] end let poly_fields = PolyFields.(make Fields.map_poly ~subfields:[S (Fields.payloads, Payloads.poly_fields)]) let get_status summary = summary.status let get_proc_desc summary = summary.proc_desc let get_attributes summary = Procdesc.get_attributes summary.proc_desc let get_proc_name summary = (get_attributes summary).ProcAttributes.proc_name let get_ret_type summary = (get_attributes summary).ProcAttributes.ret_type let get_formals summary = (get_attributes summary).ProcAttributes.formals let get_err_log summary = summary.err_log let get_loc summary = (get_attributes summary).ProcAttributes.loc type cache = t Typ.Procname.Hash.t let cache : cache = Typ.Procname.Hash.create 128 let clear_cache () = Typ.Procname.Hash.clear cache let pp_errlog fmt err_log = F.fprintf fmt "ERRORS: @[%a@]@\n%!" Errlog.pp_errors err_log ; F.fprintf fmt "WARNINGS: @[%a@]" Errlog.pp_warnings err_log let pp_signature fmt summary = let pp_formal fmt (p, typ) = F.fprintf fmt "%a %a" (Typ.pp_full Pp.text) typ Mangled.pp p in F.fprintf fmt "%a %a(%a)" (Typ.pp_full Pp.text) (get_ret_type summary) Typ.Procname.pp (get_proc_name summary) (Pp.seq ~sep:", " pp_formal) (get_formals summary) let get_signature summary = F.asprintf "%a" pp_signature summary let pp_no_stats_specs fmt summary = F.fprintf fmt "%a@\n" pp_signature summary ; F.fprintf fmt "%a@\n" Status.pp summary.status let pp_text fmt summary = pp_no_stats_specs fmt summary ; F.fprintf fmt "%a@\n%a%a" pp_errlog (get_err_log summary) Stats.pp summary.stats (Payloads.pp Pp.text) summary.payloads let pp_html source fmt summary = F.pp_force_newline fmt () ; Io_infer.Html.with_color Black pp_no_stats_specs fmt summary ; F.fprintf fmt "
%a
@\n" Stats.pp summary.stats ; Errlog.pp_html source [] fmt (get_err_log summary) ; Io_infer.Html.pp_hline fmt () ; F.fprintf fmt "@\n" ; Payloads.pp (Pp.html Black) fmt summary.payloads ; F.fprintf fmt "@\n" (** Add the summary to the table for the given function *) let add (proc_name : Typ.Procname.t) (summary : t) : unit = Typ.Procname.Hash.replace cache proc_name summary let specs_filename pname = let pname_file = Typ.Procname.to_filename pname in pname_file ^ Config.specs_files_suffix (** path to the .specs file for the given procedure in the current results directory *) let res_dir_specs_filename pname = DB.Results_dir.path_to_filename DB.Results_dir.Abs_root [Config.specs_dir_name; specs_filename pname] (** paths to the .specs file for the given procedure in the current spec libraries *) let specs_library_filename specs_dir pname = DB.filename_from_string (Filename.concat specs_dir (specs_filename pname)) (** paths to the .specs file for the given procedure in the models folder *) let specs_models_filename pname = DB.filename_from_string (Filename.concat Config.models_dir (specs_filename pname)) let has_model pname = Sys.file_exists (DB.filename_to_string (specs_models_filename pname)) = `Yes let summary_serializer : t Serialization.serializer = Serialization.create_serializer Serialization.Key.summary (** Load procedure summary from the given file *) let load_from_file specs_file = Serialization.read_from_file summary_serializer specs_file (** Load procedure summary for the given procedure name and update spec table *) let load_summary_to_spec_table = let rec or_load_summary_libs specs_dirs proc_name summ_opt = match (summ_opt, specs_dirs) with | Some _, _ | _, [] -> summ_opt | None, specs_dir :: specs_dirs -> load_from_file (specs_library_filename specs_dir proc_name) |> or_load_summary_libs specs_dirs proc_name in let load_summary_ziplibs zip_specs_filename = let zip_specs_path = Filename.concat Config.specs_dir_name zip_specs_filename in ZipLib.load summary_serializer zip_specs_path in let or_from f_load f_filenames proc_name summ_opt = match summ_opt with Some _ -> summ_opt | None -> f_load (f_filenames proc_name) in fun proc_name -> let summ_opt = load_from_file (res_dir_specs_filename proc_name) |> or_from load_from_file specs_models_filename proc_name |> or_from load_summary_ziplibs specs_filename proc_name |> or_load_summary_libs Config.specs_library proc_name in Option.iter ~f:(add proc_name) summ_opt ; summ_opt let get proc_name = try Some (Typ.Procname.Hash.find cache proc_name) with Caml.Not_found -> load_summary_to_spec_table proc_name (** Check if the procedure is from a library: It's not defined, and there is no spec file for it. *) let proc_is_library proc_attributes = if not proc_attributes.ProcAttributes.is_defined then match get proc_attributes.ProcAttributes.proc_name with None -> true | Some _ -> false else false (** Try to find the attributes for a defined proc. First look at specs (to get attributes computed by analysis) then look at the attributes table. If no attributes can be found, return None. *) let proc_resolve_attributes proc_name = match get proc_name with | Some summary -> Some (get_attributes summary) | None -> Attributes.load proc_name (** Save summary for the procedure into the spec database *) let store (summ : t) = let final_summary = {summ with status= Status.Analyzed} in let proc_name = get_proc_name final_summary in (* Make sure the summary in memory is identical to the saved one *) add proc_name final_summary ; Serialization.write_to_file summary_serializer (res_dir_specs_filename proc_name) ~data:final_summary let init_summary proc_desc = let summary = { sessions= ref 0 ; payloads= Payloads.empty ; stats= Stats.empty ; status= Status.Pending ; proc_desc ; err_log= Errlog.empty () } in Typ.Procname.Hash.replace cache (Procdesc.get_proc_name proc_desc) summary ; summary let dummy = let dummy_attributes = ProcAttributes.default (SourceFile.invalid __FILE__) Typ.Procname.empty_block in let dummy_proc_desc = Procdesc.from_proc_attributes dummy_attributes in init_summary dummy_proc_desc (** Reset a summary rebuilding the dependents and preserving the proc attributes if present. *) let reset proc_desc = init_summary proc_desc let reset_all ~filter () = let reset proc_name = let filename = res_dir_specs_filename proc_name in Serialization.read_from_file summary_serializer filename |> Option.iter ~f:(fun summary -> let blank_summary = reset summary.proc_desc in Serialization.write_to_file summary_serializer filename ~data:blank_summary ) in Procedures.get_all ~filter () |> List.iter ~f:reset module SummaryValue = struct type nonrec t = t option let label = "summary" end module SummaryServer = Memcached.Make (SummaryValue)