(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the GNU Library General Public License, with *) (* the special exception on linking described in file ../../LICENSE. *) (* *) (***********************************************************************) (* $Id$ *) (* Dynamic loading of .cmo files *) (* This is a copy of ../otherlibs/dynlink/dynlink.ml that does not use Dynlinkaux (the module that packs some of the compiler modules). *) open Cmo_format type linking_error = Undefined_global of string | Unavailable_primitive of string | Uninitialized_global of string type error = Not_a_bytecode_file of string | Inconsistent_import of string | Unavailable_unit of string | Unsafe_file | Linking_error of string * linking_error | Corrupted_interface of string | File_not_found of string | Cannot_open_dll of string exception Error of error (* Management of interface CRCs *) let crc_interfaces = ref (Consistbl.create ()) let allow_extension = ref true (* Check that the object file being loaded has been compiled against the same interfaces as the program itself. In addition, check that only authorized compilation units are referenced. *) let check_consistency file_name cu = try List.iter (fun (name, crc) -> if name = cu.cu_name then Consistbl.set !crc_interfaces name crc file_name else if !allow_extension then Consistbl.check !crc_interfaces name crc file_name else Consistbl.check_noadd !crc_interfaces name crc file_name) cu.cu_imports with Consistbl.Inconsistency(name, user, auth) -> raise(Error(Inconsistent_import name)) | Consistbl.Not_available(name) -> raise(Error(Unavailable_unit name)) (* Empty the crc_interfaces table *) let clear_available_units () = Consistbl.clear !crc_interfaces; allow_extension := false (* Allow only access to the units with the given names *) let allow_only names = Consistbl.filter (fun name -> List.mem name names) !crc_interfaces; allow_extension := false (* Prohibit access to the units with the given names *) let prohibit names = Consistbl.filter (fun name -> not (List.mem name names)) !crc_interfaces; allow_extension := false (* Initialize the crc_interfaces table with a list of units with fixed CRCs *) let add_available_units units = List.iter (fun (unit, crc) -> Consistbl.set !crc_interfaces unit crc "") units (* Default interface CRCs: those found in the current executable *) let default_crcs = ref [] let default_available_units () = clear_available_units(); add_available_units !default_crcs; allow_extension := true (* Initialize the linker tables and everything *) let init () = default_crcs := Symtable.init_toplevel(); default_available_units () (* Read the CRC of an interface from its .cmi file *) let digest_interface unit loadpath = let filename = let shortname = unit ^ ".cmi" in try Misc.find_in_path_uncap loadpath shortname with Not_found -> raise (Error(File_not_found shortname)) in let ic = open_in_bin filename in try let buffer = String.create (String.length Config.cmi_magic_number) in really_input ic buffer 0 (String.length Config.cmi_magic_number); if buffer <> Config.cmi_magic_number then begin close_in ic; raise(Error(Corrupted_interface filename)) end; ignore (input_value ic); let crc = match input_value ic with (_, crc) :: _ -> crc | _ -> raise(Error(Corrupted_interface filename)) in close_in ic; crc with End_of_file | Failure _ -> close_in ic; raise(Error(Corrupted_interface filename)) (* Initialize the crc_interfaces table with a list of units. Their CRCs are read from their interfaces. *) let add_interfaces units loadpath = add_available_units (List.map (fun unit -> (unit, digest_interface unit loadpath)) units) (* Check whether the object file being loaded was compiled in unsafe mode *) let unsafe_allowed = ref false let allow_unsafe_modules b = unsafe_allowed := b let check_unsafe_module cu = if (not !unsafe_allowed) && cu.cu_primitives <> [] then raise(Error(Unsafe_file)) (* Load in-core and execute a bytecode object file *) let load_compunit ic file_name compunit = check_consistency file_name compunit; check_unsafe_module compunit; seek_in ic compunit.cu_pos; let code_size = compunit.cu_codesize + 8 in let code = Meta.static_alloc code_size in unsafe_really_input ic code 0 compunit.cu_codesize; String.unsafe_set code compunit.cu_codesize (Char.chr Opcodes.opRETURN); String.unsafe_set code (compunit.cu_codesize + 1) '\000'; String.unsafe_set code (compunit.cu_codesize + 2) '\000'; String.unsafe_set code (compunit.cu_codesize + 3) '\000'; String.unsafe_set code (compunit.cu_codesize + 4) '\001'; String.unsafe_set code (compunit.cu_codesize + 5) '\000'; String.unsafe_set code (compunit.cu_codesize + 6) '\000'; String.unsafe_set code (compunit.cu_codesize + 7) '\000'; let initial_symtable = Symtable.current_state() in begin try Symtable.patch_object code compunit.cu_reloc; Symtable.check_global_initialized compunit.cu_reloc; Symtable.update_global_table() with Symtable.Error error -> let new_error = match error with Symtable.Undefined_global s -> Undefined_global s | Symtable.Unavailable_primitive s -> Unavailable_primitive s | Symtable.Uninitialized_global s -> Uninitialized_global s | _ -> assert false in raise(Error(Linking_error (file_name, new_error))) end; begin try ignore((Meta.reify_bytecode code code_size) ()) with exn -> Symtable.restore_state initial_symtable; raise exn end let loadfile file_name = let ic = open_in_bin file_name in try let buffer = String.create (String.length Config.cmo_magic_number) in really_input ic buffer 0 (String.length Config.cmo_magic_number); if buffer = Config.cmo_magic_number then begin let compunit_pos = input_binary_int ic in (* Go to descriptor *) seek_in ic compunit_pos; load_compunit ic file_name (input_value ic : compilation_unit) end else if buffer = Config.cma_magic_number then begin let toc_pos = input_binary_int ic in (* Go to table of contents *) seek_in ic toc_pos; let lib = (input_value ic : library) in begin try Dll.open_dlls Dll.For_execution (List.map Dll.extract_dll_name lib.lib_dllibs) with Failure reason -> raise(Error(Cannot_open_dll reason)) end; List.iter (load_compunit ic file_name) lib.lib_units end else raise(Error(Not_a_bytecode_file file_name)); close_in ic with exc -> close_in ic; raise exc let loadfile_private file_name = let initial_symtable = Symtable.current_state() and initial_crc = !crc_interfaces in try loadfile file_name; Symtable.hide_additions initial_symtable; crc_interfaces := initial_crc with exn -> Symtable.hide_additions initial_symtable; crc_interfaces := initial_crc; raise exn (* Error report *) let error_message = function Not_a_bytecode_file name -> name ^ " is not a bytecode object file" | Inconsistent_import name -> "interface mismatch on " ^ name | Unavailable_unit name -> "no implementation available for " ^ name | Unsafe_file -> "this object file uses unsafe features" | Linking_error (name, Undefined_global s) -> "error while linking " ^ name ^ ".\n" ^ "Reference to undefined global `" ^ s ^ "'" | Linking_error (name, Unavailable_primitive s) -> "error while linking " ^ name ^ ".\n" ^ "The external function `" ^ s ^ "' is not available" | Linking_error (name, Uninitialized_global s) -> "error while linking " ^ name ^ ".\n" ^ "The module `" ^ s ^ "' is not yet initialized" | Corrupted_interface name -> "corrupted interface file " ^ name | File_not_found name -> "cannot find file " ^ name ^ " in search path" | Cannot_open_dll reason -> "error loading shared library: " ^ reason