(* * Copyright (c) 2009 - 2013 Monoidics ltd. * 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. *) open! IStd (** log messages at different levels of verbosity *) module F = Format module CLOpt = CommandLineOption include Die (* log files *) (* make a copy of [f] *) let copy_formatter f = let out_string, flush = F.pp_get_formatter_output_functions f () in let out_funs = F.pp_get_formatter_out_functions f () in let new_f = F.make_formatter out_string flush in F.pp_set_formatter_out_functions new_f out_funs ; new_f (* Return a formatter that multiplexes to [fmt1] and [fmt2]. *) let dup_formatter fmt1 fmt2 = let out_funs1 = F.pp_get_formatter_out_functions fmt1 () in let out_funs2 = F.pp_get_formatter_out_functions fmt2 () in let f = copy_formatter fmt1 in F.pp_set_formatter_out_functions f { F.out_string= (fun s p n -> out_funs1.out_string s p n ; out_funs2.out_string s p n) ; out_flush= (fun () -> out_funs1.out_flush () ; out_funs2.out_flush ()) ; out_newline= (fun () -> out_funs1.out_newline () ; out_funs2.out_newline ()) ; out_spaces= (fun n -> out_funs1.out_spaces n ; out_funs2.out_spaces n) } ; f (* can be set up to emit to a file later on, but can also be left as-is and logging will only happen on the console *) let log_file = ref (F.err_formatter, `Console) type formatters = { file: F.formatter (** send to log file *) ; console_file: F.formatter (** send both to console and log file *) } let logging_formatters = ref [] (* shared ref is less punishing to sloppy accounting of newlines *) let is_newline = ref true let prev_category = ref "" let mk_file_formatter category0 = (* make a copy of file_fmt *) let f = copy_formatter (fst !log_file) in let out_functions_orig = F.pp_get_formatter_out_functions f () in let prefix = Printf.sprintf "[%d][%s] " (Pid.to_int (Unix.getpid ())) category0 in let print_prefix_if_newline () = let category_has_changed = (* take category + PID into account *) not (phys_equal !prev_category prefix) in if !is_newline || category_has_changed then ( if not !is_newline && category_has_changed then (* category change but previous line has not ended: print newline *) out_functions_orig.out_newline () ; is_newline := false ; prev_category := prefix ; out_functions_orig.out_string prefix 0 (String.length prefix) ) in let out_string s p n = print_prefix_if_newline () ; out_functions_orig.out_string s p n in let out_newline () = print_prefix_if_newline () ; out_functions_orig.out_newline () ; is_newline := true in let out_spaces n = print_prefix_if_newline () ; out_functions_orig.out_spaces n in F.pp_set_formatter_out_functions f {F.out_string; out_flush= out_functions_orig.out_flush; out_newline; out_spaces} ; f let register_formatter = let all_prefixes = ref [] in fun ?(use_stdout= false) prefix -> all_prefixes := prefix :: !all_prefixes ; (* lazy so that we get a chance to register all prefixes before computing their max length for alignment purposes *) lazy (let max_prefix = List.map ~f:String.length !all_prefixes |> List.fold_left ~f:max ~init:0 in let fill = let n = max_prefix - String.length prefix in String.make n ' ' in let justified_prefix = fill ^ prefix in let mk_formatters () = let file = mk_file_formatter justified_prefix in let console_file = let console = if use_stdout then F.std_formatter else F.err_formatter in dup_formatter console file in {file; console_file} in let formatters = mk_formatters () in let formatters_ref = ref formatters in logging_formatters := ((formatters_ref, mk_formatters), formatters) :: !logging_formatters ; formatters_ref) let flush_formatters {file; console_file} = F.pp_print_flush file () ; F.pp_print_flush console_file () let reset_formatters () = let refresh_formatter ((formatters_ref, mk_formatters), formatters) = (* flush to be nice *) flush_formatters formatters ; (* recreate formatters, in particular update PID info *) formatters_ref := mk_formatters () in let previous_formatters = !logging_formatters in (* delete previous formatters *) logging_formatters := [] ; (* create new formatters *) List.iter ~f:refresh_formatter previous_formatters ; if not !is_newline then F.pp_print_newline (fst !log_file) () ; is_newline := true let close_logs () = let close_fmt (_, formatters) = flush_formatters formatters in List.iter ~f:close_fmt !logging_formatters ; let fmt, chan = !log_file in F.pp_print_flush fmt () ; match chan with `Console -> () | `Channel c -> Out_channel.close c let () = Epilogues.register ~f:close_logs "flushing logs and closing log file" let log ~to_console ?(to_file= true) (lazy formatters) = match (to_console, to_file) with | false, false -> F.ifprintf F.std_formatter | true, _ when not Config.print_logs -> F.fprintf !formatters.console_file | _ -> (* to_console might be true, but in that case so is Config.print_logs so do not print to stderr because it will get logs from the log file already *) F.fprintf !formatters.file let debug_file_fmts = register_formatter "debug" let environment_info_file_fmts = register_formatter "environment" let external_warning_file_fmts = register_formatter "extern warn" let external_error_file_fmts = register_formatter "extern err" let internal_error_file_fmts = register_formatter "intern err" let phase_file_fmts = register_formatter "phase" let progress_file_fmts = register_formatter "progress" let result_file_fmts = register_formatter ~use_stdout:true "result" let user_warning_file_fmts = register_formatter "user warn" let user_error_file_fmts = register_formatter "user err" let phase fmt = log ~to_console:false phase_file_fmts fmt let progress fmt = log ~to_console:(not Config.quiet) progress_file_fmts fmt let progress_bar text = log ~to_console:(Config.show_progress_bar && not Config.quiet) ~to_file:true progress_file_fmts "%s@?" text let progressbar_file () = progress_bar Config.log_analysis_file let progressbar_procedure () = progress_bar Config.log_analysis_procedure let progressbar_timeout_event failure_kind = if Config.debug_mode then match failure_kind with | SymOp.FKtimeout -> progress_bar Config.log_analysis_wallclock_timeout | SymOp.FKsymops_timeout _ -> progress_bar Config.log_analysis_symops_timeout | SymOp.FKrecursion_timeout _ -> progress_bar Config.log_analysis_recursion_timeout | SymOp.FKcrash msg -> progress_bar (Printf.sprintf "%s(%s)" Config.log_analysis_crash msg) let user_warning fmt = log ~to_console:(not Config.quiet) user_warning_file_fmts fmt let user_error fmt = log ~to_console:true user_error_file_fmts fmt type debug_level = Quiet | Medium | Verbose [@@deriving compare] let debug_level_of_int n = if n <= 0 then Quiet else if Int.equal n 1 then Medium else (* >= 2 *) Verbose let analysis_debug_level = debug_level_of_int Config.debug_level_analysis let bufferoverrun_debug_level = debug_level_of_int Config.bo_debug let capture_debug_level = debug_level_of_int Config.debug_level_capture let linters_debug_level = debug_level_of_int Config.debug_level_linters let mergecapture_debug_level = Quiet type debug_kind = Analysis | BufferOverrun | Capture | Linters | MergeCapture let debug kind level fmt = let base_level = match kind with | Analysis -> analysis_debug_level | BufferOverrun -> bufferoverrun_debug_level | Capture -> capture_debug_level | Linters -> linters_debug_level | MergeCapture -> mergecapture_debug_level in let to_file = compare_debug_level level base_level <= 0 in log ~to_console:false ~to_file debug_file_fmts fmt let result fmt = log ~to_console:true result_file_fmts fmt let environment_info fmt = log ~to_console:false environment_info_file_fmts fmt let external_warning fmt = log ~to_console:(not Config.quiet) external_warning_file_fmts fmt let external_error fmt = log ~to_console:true external_error_file_fmts fmt let internal_error fmt = log ~to_console:true internal_error_file_fmts fmt (** Type of location in ml source: __POS__ *) type ml_loc = string * int * int * int (** Convert a ml location to a string *) let ml_loc_to_string (file, lnum, cnum, enum) = Printf.sprintf "%s:%d:%d-%d:" file lnum cnum enum (** Pretty print a location of ml source *) let pp_ml_loc fmt ml_loc = F.fprintf fmt "%s" (ml_loc_to_string ml_loc) let pp_ml_loc_opt fmt ml_loc_opt = if Config.developer_mode then match ml_loc_opt with None -> () | Some ml_loc -> F.fprintf fmt "(%a)" pp_ml_loc ml_loc let log_of_kind error fmt = match error with | UserError -> log ~to_console:false user_error_file_fmts fmt | ExternalError -> log ~to_console:false external_error_file_fmts fmt | InternalError -> log ~to_console:false internal_error_file_fmts fmt let die error msg = F.kasprintf (fun msg -> log_of_kind error "%s@\n" msg ; raise_error error ~msg) msg (* create new channel from the log file, and dumps the contents of the temporary log buffer there *) let setup_log_file () = match !log_file with | _, `Channel _ -> (* already set up *) () | _, `Console -> let fmt, chan, preexisting_logfile = let results_dir = (* if invoked in a sub-dir (e.g., in Buck integrations), log inside the original log file *) Sys.getenv Config.infer_top_results_dir_env_var |> Option.value ~default:Config.results_dir in (* assumes the results dir exists already *) let logfile_path = results_dir ^/ Config.log_file in let preexisting_logfile = PVariant.( = ) (Sys.file_exists logfile_path) `Yes in let chan = Pervasives.open_out_gen [Open_append; Open_creat] 0o666 logfile_path in let file_fmt = let f = F.formatter_of_out_channel chan in if Config.print_logs then dup_formatter f F.err_formatter else f in (file_fmt, chan, preexisting_logfile) in log_file := (fmt, `Channel chan) ; if preexisting_logfile then is_newline := false ; reset_formatters () ; if CLOpt.is_originator && preexisting_logfile then phase "============================================================@\n= New infer execution begins@\n============================================================" (** type of printable elements *) type print_type = | PTatom | PTattribute | PTdecrease_indent | PTexp | PTexp_list | PThpred | PTincrease_indent | PTinstr | PTinstr_list | PTjprop_list | PTjprop_short | PTloc | PTnode_instrs | PToff | PToff_list | PTpath | PTprop | PTproplist | PTprop_list_with_typ | PTprop_with_typ | PTpvar | PTspec | PTstr | PTstr_color | PTstrln | PTstrln_color | PTpathset | PTpi | PTsexp | PTsexp_list | PTsigma | PTtexp_full | PTsub | PTtyp_full | PTtyp_list | PTwarning | PTerror | PTinfo (** delayable print action *) type print_action = print_type * Obj.t (** data to be printed *) let delayed_actions = ref [] (** hook for the current printer of delayed print actions *) let printer_hook = ref (fun _ -> Die.(die InternalError) "uninitialized printer hook") (** extend the current print log *) let add_print_action pact = if Config.write_html then delayed_actions := pact :: !delayed_actions else if not Config.only_cheap_debug then !printer_hook (fst !log_file) pact (** reset the delayed print actions *) let reset_delayed_prints () = delayed_actions := [] (** return the delayed print actions *) let get_delayed_prints () = !delayed_actions (** set the delayed print actions *) let set_delayed_prints new_delayed_actions = delayed_actions := new_delayed_actions (** dump a string *) let d_str (s: string) = add_print_action (PTstr, Obj.repr s) (** dump a string with the given color *) let d_str_color (c: Pp.color) (s: string) = add_print_action (PTstr_color, Obj.repr (s, c)) (** dump an error string *) let d_error (s: string) = add_print_action (PTerror, Obj.repr s) (** dump a warning string *) let d_warning (s: string) = add_print_action (PTwarning, Obj.repr s) (** dump an info string *) let d_info (s: string) = add_print_action (PTinfo, Obj.repr s) (** dump a string plus newline *) let d_strln (s: string) = add_print_action (PTstrln, Obj.repr s) (** dump a string plus newline with the given color *) let d_strln_color (c: Pp.color) (s: string) = add_print_action (PTstrln_color, Obj.repr (s, c)) (** dump a newline *) let d_ln () = add_print_action (PTstrln, Obj.repr "") (** dump an indentation *) let d_indent indent = let s = ref "" in for _ = 1 to indent do s := " " ^ !s done ; if indent <> 0 then add_print_action (PTstr, Obj.repr !s) (** dump command to increase the indentation level *) let d_increase_indent (indent: int) = add_print_action (PTincrease_indent, Obj.repr indent) (** dump command to decrease the indentation level *) let d_decrease_indent (indent: int) = add_print_action (PTdecrease_indent, Obj.repr indent)