open Aeneas.LlbcOfJson open Aeneas.Logging module T = Aeneas.Types module A = Aeneas.LlbcAst module I = Aeneas.Interpreter module EL = Easy_logging.Logging module TA = Aeneas.TypesAnalysis module Micro = Aeneas.PureMicroPasses module Print = Aeneas.Print module PrePasses = Aeneas.PrePasses module Translate = Aeneas.Translate open Aeneas.Config (** The local logger *) let log = main_log let _ = (* Set up the logging - for now we use default values - TODO: use the * command-line arguments *) (* By setting a level for the main_logger_handler, we filter everything *) Easy_logging.Handlers.set_level main_logger_handler EL.Debug; main_log#set_level EL.Info; llbc_of_json_logger#set_level EL.Info; pre_passes_log#set_level EL.Info; interpreter_log#set_level EL.Info; statements_log#set_level EL.Info; loops_match_ctxs_log#set_level EL.Info; loops_join_ctxs_log#set_level EL.Info; loops_fixed_point_log#set_level EL.Info; loops_log#set_level EL.Info; paths_log#set_level EL.Info; expressions_log#set_level EL.Info; expansion_log#set_level EL.Info; projectors_log#set_level EL.Info; borrows_log#set_level EL.Info; invariants_log#set_level EL.Info; pure_utils_log#set_level EL.Info; symbolic_to_pure_log#set_level EL.Info; pure_micro_passes_log#set_level EL.Info; pure_to_extract_log#set_level EL.Info; translate_log#set_level EL.Info; scc_log#set_level EL.Info; reorder_decls_log#set_level EL.Info (* This is necessary to have a backtrace when raising exceptions - for some * reason, the -g option doesn't work. * TODO: run with OCAMLRUNPARAM=b=1? *) let () = Printexc.record_backtrace true let usage = Printf.sprintf {|Aeneas: verification of Rust programs by translation to pure lambda calculus Usage: %s [OPTIONS] FILE |} Sys.argv.(0) let () = (* Measure start time *) let start_time = Unix.gettimeofday () in (* Read the command line arguments *) let dest_dir = ref "" in let spec = [ ( "-backend", Arg.Symbol (backend_names, set_backend), " Specify the backend to which to extract" ); ("-dest", Arg.Set_string dest_dir, " Specify the output directory"); ( "-no-filter-useless-calls", Arg.Clear filter_useless_monadic_calls, " Do not filter the useless function calls, when possible" ); ( "-no-filter-useless-funs", Arg.Clear filter_useless_functions, " Do not filter the useless forward/backward functions" ); ( "-test-units", Arg.Set test_unit_functions, " Test the unit functions with the concrete interpreter" ); ( "-test-trans-units", Arg.Set test_trans_unit_functions, " Test the translated unit functions with the target theorem\n\ \ prover's normalizer" ); ( "-decreases-clauses", Arg.Set extract_decreases_clauses, " Use decreases clauses for the recursive definitions" ); ( "-no-state", Arg.Clear use_state, " Do not use state-error monads, simply use error monads" ); ( "-use-fuel", Arg.Set use_fuel, " Use a fuel parameter to control divergence" ); ( "-backward-no-state-update", Arg.Set backward_no_state_update, " Forbid backward functions from updating the state" ); ( "-template-clauses", Arg.Set extract_template_decreases_clauses, " Generate templates for the required decreases clauses, in a\n\ \ dedicated file. Reauires -decreases-clauses" ); ( "-no-split-files", Arg.Clear split_files, " Don't split the definitions between different files for types,\n\ \ functions, etc." ); ( "-no-check-inv", Arg.Clear check_invariants, " Deactivate the invariant sanity checks performed at every step of\n\ \ evaluation. Dramatically saves speed." ); ] in (* Sanity check: -template-clauses ==> not -no-decrease-clauses *) assert (!extract_decreases_clauses || not !extract_template_decreases_clauses); (* Sanity check: -backward-no-state-update ==> not -no-state *) assert ((not !backward_no_state_update) || !use_state); (* Sanity check: the use of decrease clauses is not compatible with the use of fuel *) assert ( (not !use_fuel) || (not !extract_decreases_clauses) && not !extract_template_decreases_clauses); let spec = Arg.align spec in let filenames = ref [] in let add_filename f = filenames := f :: !filenames in Arg.parse spec add_filename usage; let fail () = print_string usage; exit 1 in (* Check that the user specified a backend *) let _ = match !opt_backend with | Some b -> backend := b | None -> print_string "Backend not specified (use the `-backend` argument)\n"; fail () in (* Set some options depending on the backend *) let _ = match !backend with | FStar -> (* F* supports monadic notations, but the encoding loses information *) unfold_monadic_let_bindings := true | Coq -> (* Some patterns are not supported *) decompose_monadic_let_bindings := true; decompose_nested_let_patterns := true in (* Retrieve and check the filename *) let filename = match !filenames with | [ f ] -> (* TODO: update the extension *) if not (Filename.check_suffix f ".llbc") then ( print_string ("Unrecognized file extension: " ^ f ^ "\n"); fail ()) else if not (Sys.file_exists f) then ( print_string ("File not found: " ^ f ^ "\n"); fail ()) else f | _ -> (* For now, we only process one file at a time *) print_string usage; exit 1 in (* Check the destination directory *) let dest_dir = if !dest_dir = "" then Filename.dirname filename else !dest_dir in (* Load the module *) let json = Yojson.Basic.from_file filename in match crate_of_json json with | Error s -> log#error "error: %s\n" s; exit 1 | Ok m -> (* Logging *) log#linfo (lazy ("Imported: " ^ filename)); log#ldebug (lazy ("\n" ^ Print.Crate.crate_to_string m ^ "\n")); (* Apply the pre-passes *) let m = PrePasses.apply_passes m in (* Some options for the execution *) (* Test the unit functions with the concrete interpreter *) if !test_unit_functions then I.Test.test_unit_functions m; (* Evaluate the symbolic interpreter on the functions, ignoring the * functions which contain loops - TODO: remove *) let synthesize = true in I.Test.test_functions_symbolic synthesize m; (* Translate the functions *) Translate.translate_module filename dest_dir m; (* Print total elapsed time *) log#linfo (lazy (Printf.sprintf "Total execution time: %f seconds" (Unix.gettimeofday () -. start_time)))