(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) (* Link a set of .cmx/.o files and produce an executable *) open Sys open Misc open Config open Compilenv type error = File_not_found of string | Not_an_object_file of string | Missing_implementations of string list | Inconsistent_interface of string * string * string | Inconsistent_implementation of string * string * string | Assembler_error of string | Linking_error exception Error of error (* Consistency check between interfaces and implementations *) let crc_interfaces = (Hashtbl.create 17 : (string, string * Digest.t) Hashtbl.t) let crc_implementations = (Hashtbl.create 17 : (string, string * Digest.t) Hashtbl.t) let check_consistency file_name unit crc = List.iter (fun (name, crc) -> if name = unit.ui_name then begin Hashtbl.add crc_interfaces name (file_name, crc) end else begin try let (auth_name, auth_crc) = Hashtbl.find crc_interfaces name in if crc <> auth_crc then raise(Error(Inconsistent_interface(name, file_name, auth_name))) with Not_found -> (* Can only happen for unit for which only a .cmi file was used, but no .cmo is provided *) Hashtbl.add crc_interfaces name (file_name, crc) end) unit.ui_imports_cmi; List.iter (fun (name, crc) -> if crc <> cmx_not_found_crc then begin try let (auth_name, auth_crc) = Hashtbl.find crc_implementations name in if crc <> auth_crc then raise(Error(Inconsistent_implementation(name, file_name, auth_name))) with Not_found -> Hashtbl.add crc_implementations name (file_name, crc) end) unit.ui_imports_cmx; Hashtbl.add crc_implementations unit.ui_name (file_name, crc) (* First pass: determine which units are needed *) module StringSet = Set.Make(struct type t = string let compare = compare end) let missing_globals = ref StringSet.empty let is_required name = StringSet.mem name !missing_globals let add_required (name, crc) = missing_globals := StringSet.add name !missing_globals let remove_required name = missing_globals := StringSet.remove name !missing_globals let scan_file obj_name tolink = let file_name = try find_in_path !load_path obj_name with Not_found -> raise(Error(File_not_found obj_name)) in if Filename.check_suffix file_name ".cmx" then begin (* This is a .cmx file. It must be linked in any case. Read the infos to see which modules it requires. *) let (info, crc) = Compilenv.read_unit_info file_name in check_consistency file_name info crc; remove_required info.ui_name; List.iter add_required info.ui_imports_cmx; info :: tolink end else if Filename.check_suffix file_name ".cmxa" then begin (* This is an archive file. Each unit contained in it will be linked in only if needed. *) let ic = open_in_bin file_name in let buffer = String.create (String.length cmxa_magic_number) in really_input ic buffer 0 (String.length cmxa_magic_number); if buffer <> cmxa_magic_number then raise(Error(Not_an_object_file file_name)); let info_crc_list = (input_value ic : (unit_infos * Digest.t) list) in close_in ic; List.fold_right (fun (info, crc) reqd -> if info.ui_force_link or !Clflags.link_everything or is_required info.ui_name then begin check_consistency file_name info crc; remove_required info.ui_name; List.iter add_required info.ui_imports_cmx; info :: reqd end else reqd) info_crc_list tolink end else raise(Error(Not_an_object_file file_name)) (* Second pass: generate the startup file and link it with everything else *) module IntSet = Set.Make( struct type t = int let compare = compare end) let make_startup_file filename info_list = let oc = open_out filename in Emitaux.output_channel := oc; Location.input_name := "startup"; (* set the name of the "current" input *) Compilenv.reset "startup"; (* set the name of the "current" compunit *) Emit.begin_assembly(); let name_list = List.map (fun ui -> ui.ui_name) info_list in Asmgen.compile_phrase(Cmmgen.entry_point name_list); let apply_functions = ref (IntSet.add 2 (IntSet.add 3 IntSet.empty)) in (* The callback functions always reference caml_apply[23] *) let curry_functions = ref IntSet.empty in List.iter (fun info -> List.iter (fun n -> apply_functions := IntSet.add n !apply_functions) info.ui_apply_fun; List.iter (fun n -> curry_functions := IntSet.add n !curry_functions) info.ui_curry_fun) info_list; IntSet.iter (fun n -> Asmgen.compile_phrase(Cmmgen.apply_function n)) !apply_functions; IntSet.iter (fun n -> List.iter Asmgen.compile_phrase (Cmmgen.curry_function n)) !curry_functions; Array.iter (fun name -> Asmgen.compile_phrase(Cmmgen.predef_exception name)) Runtimedef.builtin_exceptions; Asmgen.compile_phrase(Cmmgen.global_table name_list); Asmgen.compile_phrase(Cmmgen.data_segment_table name_list); Asmgen.compile_phrase (Cmmgen.frame_table("startup" :: "system" :: name_list)); Emit.end_assembly(); close_out oc let call_linker file_list startup_file = let libname = "libasmrun" ^ ext_lib in let runtime_lib = try find_in_path !load_path libname with Not_found -> raise(Error(File_not_found libname)) in let cmd = match Config.system with "win32" -> if not !Clflags.output_c_object then Printf.sprintf "%s /Fe%s -I%s %s %s %s %s %s %s" Config.native_c_compiler !Clflags.exec_name Config.standard_library (String.concat " " (List.rev !Clflags.ccopts)) startup_file (String.concat " " (List.rev file_list)) (String.concat " " (List.rev !Clflags.ccobjs)) runtime_lib Config.c_libraries else Printf.sprintf "%s /out:%s %s %s" Config.native_partial_linker !Clflags.object_name startup_file (String.concat " " (List.rev file_list)) | _ -> if not !Clflags.output_c_object then Printf.sprintf "%s -o %s -I%s %s %s %s -L%s %s %s %s" Config.native_c_compiler !Clflags.exec_name Config.standard_library (String.concat " " (List.rev !Clflags.ccopts)) startup_file (String.concat " " (List.rev file_list)) Config.standard_library (String.concat " " (List.rev !Clflags.ccobjs)) runtime_lib Config.c_libraries else Printf.sprintf "%s -o %s %s %s" Config.native_partial_linker !Clflags.object_name startup_file (String.concat " " (List.rev file_list)) in if Ccomp.command cmd <> 0 then raise(Error Linking_error) let object_file_name name = let file_name = try find_in_path !load_path name with Not_found -> fatal_error "Asmlink.object_file_name: not found" in if Filename.check_suffix file_name ".cmx" then Filename.chop_suffix file_name ".cmx" ^ ext_obj else if Filename.check_suffix file_name ".cmxa" then Filename.chop_suffix file_name ".cmxa" ^ ext_lib else fatal_error "Asmlink.object_file_name: bad ext" (* Main entry point *) let link objfiles = let objfiles = "stdlib.cmxa" :: (objfiles @ ["std_exit.cmx"]) in let units_tolink = List.fold_right scan_file objfiles [] in Array.iter remove_required Runtimedef.builtin_exceptions; if not (StringSet.is_empty !missing_globals) then raise(Error(Missing_implementations(StringSet.elements !missing_globals))); let startup = Filename.temp_file "camlstartup" ext_asm in make_startup_file startup units_tolink; let startup_obj = Filename.temp_file "camlstartup" ext_obj in if Proc.assemble_file startup startup_obj <> 0 then raise(Error(Assembler_error startup)); try call_linker (List.map object_file_name objfiles) startup_obj; if not !Clflags.keep_startup_file then remove_file startup; remove_file startup_obj with x -> remove_file startup_obj; raise x (* Error report *) open Format let report_error = function File_not_found name -> print_string "Cannot find file "; print_string name | Not_an_object_file name -> print_string "The file "; print_string name; print_string " is not a compilation unit description" | Missing_implementations l -> open_box 0; print_string "No implementation(s) provided for the following module(s):"; List.iter (fun s -> print_space(); print_string s) l; close_box() | Inconsistent_interface(intf, file1, file2) -> open_hvbox 0; print_string "Files "; print_string file1; print_string " and "; print_string file2; print_space(); print_string "make inconsistent assumptions over interface "; print_string intf; close_box() | Inconsistent_implementation(intf, file1, file2) -> open_hvbox 0; print_string "Files "; print_string file1; print_string " and "; print_string file2; print_space(); print_string "make inconsistent assumptions over implementation "; print_string intf; close_box() | Assembler_error file -> print_string "Error while assembling "; print_string file | Linking_error -> print_string "Error during linking"