199 lines
6.2 KiB
OCaml
199 lines
6.2 KiB
OCaml
(**************************************************************************)
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(* *)
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(* OCaml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 2001 Institut National de Recherche en Informatique et *)
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(* en Automatique. *)
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(* *)
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(* All rights reserved. This file is distributed under the terms of *)
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(* the GNU Lesser General Public License version 2.1, with the *)
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(* special exception on linking described in the file LICENSE. *)
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(* *)
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(**************************************************************************)
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(* Handling of dynamically-linked libraries *)
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type dll_handle
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type dll_address
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type dll_mode = For_checking | For_execution
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external dll_open: dll_mode -> string -> dll_handle = "caml_dynlink_open_lib"
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external dll_close: dll_handle -> unit = "caml_dynlink_close_lib"
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external dll_sym: dll_handle -> string -> dll_address
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= "caml_dynlink_lookup_symbol"
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(* returned dll_address may be Val_unit *)
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external add_primitive: dll_address -> int = "caml_dynlink_add_primitive"
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external get_current_dlls: unit -> dll_handle array
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= "caml_dynlink_get_current_libs"
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(* Current search path for DLLs *)
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let search_path = ref ([] : string list)
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type opened_dll =
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| Checking of Binutils.t
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| Execution of dll_handle
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let dll_close = function
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| Checking _ -> ()
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| Execution dll -> dll_close dll
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(* DLLs currently opened *)
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let opened_dlls = ref ([] : opened_dll list)
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(* File names for those DLLs *)
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let names_of_opened_dlls = ref ([] : string list)
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(* Add the given directories to the search path for DLLs. *)
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let add_path dirs =
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search_path := dirs @ !search_path
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let remove_path dirs =
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search_path := List.filter (fun d -> not (List.mem d dirs)) !search_path
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(* Extract the name of a DLLs from its external name (xxx.so or -lxxx) *)
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let extract_dll_name file =
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if Filename.check_suffix file Config.ext_dll then
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Filename.chop_suffix file Config.ext_dll
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else if String.length file >= 2 && String.sub file 0 2 = "-l" then
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"dll" ^ String.sub file 2 (String.length file - 2)
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else
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file (* will cause error later *)
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(* Open a list of DLLs, adding them to opened_dlls.
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Raise [Failure msg] in case of error. *)
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let open_dll mode name =
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let name = name ^ Config.ext_dll in
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let fullname =
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try
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let fullname = Misc.find_in_path !search_path name in
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if Filename.is_implicit fullname then
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Filename.concat Filename.current_dir_name fullname
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else fullname
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with Not_found -> name in
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if not (List.mem fullname !names_of_opened_dlls) then begin
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let dll =
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match mode with
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| For_checking ->
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begin match Binutils.read fullname with
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| Ok t -> Checking t
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| Error err ->
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failwith (fullname ^ ": " ^ Binutils.error_to_string err)
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end
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| For_execution ->
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begin match dll_open mode fullname with
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| dll ->
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Execution dll
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| exception Failure msg ->
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failwith (fullname ^ ": " ^ msg)
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end
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in
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names_of_opened_dlls := fullname :: !names_of_opened_dlls;
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opened_dlls := dll :: !opened_dlls
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end
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let open_dlls mode names =
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List.iter (open_dll mode) names
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(* Close all DLLs *)
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let close_all_dlls () =
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List.iter dll_close !opened_dlls;
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opened_dlls := [];
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names_of_opened_dlls := []
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(* Find a primitive in the currently opened DLLs. *)
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type primitive_address =
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| Prim_loaded of dll_address
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| Prim_exists
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let find_primitive prim_name =
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let rec find seen = function
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[] ->
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None
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| Execution dll as curr :: rem ->
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let addr = dll_sym dll prim_name in
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if addr == Obj.magic () then find (curr :: seen) rem else begin
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if seen <> [] then opened_dlls := curr :: List.rev_append seen rem;
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Some (Prim_loaded addr)
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end
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| Checking t as curr :: rem ->
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if Binutils.defines_symbol t prim_name then
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Some Prim_exists
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else
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find (curr :: seen) rem
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in
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find [] !opened_dlls
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(* If linking in core (dynlink or toplevel), synchronize the VM
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table of primitive with the linker's table of primitive
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by storing the given primitive function at the given position
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in the VM table of primitives. *)
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let linking_in_core = ref false
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let synchronize_primitive num symb =
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if !linking_in_core then begin
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let actual_num = add_primitive symb in
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assert (actual_num = num)
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end
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(* Read the [ld.conf] file and return the corresponding list of directories *)
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let ld_conf_contents () =
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let path = ref [] in
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begin try
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let ic = open_in (Filename.concat Config.standard_library "ld.conf") in
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begin try
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while true do
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path := input_line ic :: !path
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done
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with End_of_file -> ()
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end;
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close_in ic
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with Sys_error _ -> ()
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end;
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List.rev !path
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(* Split the CAML_LD_LIBRARY_PATH environment variable and return
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the corresponding list of directories. *)
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let ld_library_path_contents () =
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match Sys.getenv "CAML_LD_LIBRARY_PATH" with
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| exception Not_found ->
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[]
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| s ->
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Misc.split_path_contents s
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let split_dll_path path =
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Misc.split_path_contents ~sep:'\000' path
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(* Initialization for separate compilation *)
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let init_compile nostdlib =
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search_path :=
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ld_library_path_contents() @
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(if nostdlib then [] else ld_conf_contents())
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(* Initialization for linking in core (dynlink or toplevel) *)
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let init_toplevel dllpath =
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search_path :=
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ld_library_path_contents() @
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split_dll_path dllpath @
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ld_conf_contents();
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opened_dlls :=
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List.map (fun dll -> Execution dll)
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(Array.to_list (get_current_dlls()));
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names_of_opened_dlls := [];
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linking_in_core := true
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let reset () =
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search_path := [];
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opened_dlls :=[];
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names_of_opened_dlls := [];
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linking_in_core := false
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