(**************************************************************************) (* *) (* OCaml *) (* *) (* 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 Lesser General Public License version 2.1, with the *) (* special exception on linking described in the file LICENSE. *) (* *) (**************************************************************************) (* Link a set of .cmo files and produce a bytecode executable. *) open Misc open Config open Cmo_format module Compunit = Symtable.Compunit module Dep = struct type t = compunit * compunit let compare = compare end module DepSet = Set.Make (Dep) type error = | File_not_found of filepath | Not_an_object_file of filepath | Wrong_object_name of filepath | Symbol_error of filepath * Symtable.error | Inconsistent_import of modname * filepath * filepath | Custom_runtime | File_exists of filepath | Cannot_open_dll of filepath | Required_compunit_unavailable of (compunit * compunit) | Camlheader of string * filepath | Wrong_link_order of DepSet.t | Multiple_definition of compunit * filepath * filepath exception Error of error type link_action = Link_object of string * compilation_unit (* Name of .cmo file and descriptor of the unit *) | Link_archive of string * compilation_unit list (* Name of .cma file and descriptors of the units to be linked. *) (* Add C objects and options from a library descriptor *) (* Ignore them if -noautolink or -use-runtime or -use-prim was given *) let lib_ccobjs = ref [] let lib_ccopts = ref [] let lib_dllibs = ref [] let add_ccobjs origin l = if not !Clflags.no_auto_link then begin if String.length !Clflags.use_runtime = 0 && String.length !Clflags.use_prims = 0 then begin if l.lib_custom then Clflags.custom_runtime := true; lib_ccobjs := l.lib_ccobjs @ !lib_ccobjs; let replace_origin = Misc.replace_substring ~before:"$CAMLORIGIN" ~after:origin in lib_ccopts := List.map replace_origin l.lib_ccopts @ !lib_ccopts; end; lib_dllibs := l.lib_dllibs @ !lib_dllibs end (* A note on ccobj ordering: - Clflags.ccobjs is in reverse order w.r.t. what was given on the ocamlc command line; - l.lib_ccobjs is also in reverse order w.r.t. what was given on the ocamlc -a command line when the library was created; - Clflags.ccobjs is reversed just before calling the C compiler for the custom link; - .cma files on the command line of ocamlc are scanned right to left; - Before linking, we add lib_ccobjs after Clflags.ccobjs. Thus, for ocamlc a.cma b.cma obj1 obj2 where a.cma was built with ocamlc -i ... obja1 obja2 and b.cma was built with ocamlc -i ... objb1 objb2 lib_ccobjs starts as [], becomes objb2 objb1 when b.cma is scanned, then obja2 obja1 objb2 objb1 when a.cma is scanned. Clflags.ccobjs was initially obj2 obj1. and is set to obj2 obj1 obja2 obja1 objb2 objb1. Finally, the C compiler is given objb1 objb2 obja1 obja2 obj1 obj2, which is what we need. (If b depends on a, a.cma must appear before b.cma, but b's C libraries must appear before a's C libraries.) *) (* First pass: determine which units are needed *) let missing_compunits = ref Compunit.Map.empty let provided_compunits = ref Compunit.Set.empty let badly_ordered_dependencies : DepSet.t ref = ref DepSet.empty let record_badly_ordered_dependency dep = badly_ordered_dependencies := DepSet.add dep !badly_ordered_dependencies let is_required (rel, _pos) = match rel with | Reloc_setcompunit cu -> Compunit.Map.mem cu !missing_compunits | _ -> false let add_required compunit = let add cu = if Compunit.Set.mem cu !provided_compunits then record_badly_ordered_dependency (cu, compunit.cu_name); missing_compunits := Compunit.Map.add cu compunit.cu_name !missing_compunits in List.iter add (Symtable.required_compunits compunit.cu_reloc); List.iter add compunit.cu_required_compunits let remove_required (rel, _pos) = match rel with Reloc_setcompunit cu -> missing_compunits := Compunit.Map.remove cu !missing_compunits; provided_compunits := Compunit.Set.add cu !provided_compunits; | _ -> () let scan_file obj_name tolink = let file_name = try Load_path.find obj_name with Not_found -> raise(Error(File_not_found obj_name)) in let ic = open_in_bin file_name in try let buffer = really_input_string ic (String.length cmo_magic_number) in if buffer = cmo_magic_number then begin (* This is a .cmo file. It must be linked in any case. Read the relocation information to see which modules it requires. *) let compunit_pos = input_binary_int ic in (* Go to descriptor *) seek_in ic compunit_pos; let compunit = (input_value ic : compilation_unit) in close_in ic; add_required compunit; List.iter remove_required compunit.cu_reloc; Link_object(file_name, compunit) :: tolink end else if buffer = cma_magic_number then begin (* This is an archive file. Each unit contained in it will be linked in only if needed. *) let pos_toc = input_binary_int ic in (* Go to table of contents *) seek_in ic pos_toc; let toc = (input_value ic : library) in close_in ic; add_ccobjs (Filename.dirname file_name) toc; let required = List.fold_right (fun compunit reqd -> if compunit.cu_force_link || !Clflags.link_everything || List.exists is_required compunit.cu_reloc then begin add_required compunit; List.iter remove_required compunit.cu_reloc; compunit :: reqd end else reqd) toc.lib_units [] in Link_archive(file_name, required) :: tolink end else raise(Error(Not_an_object_file file_name)) with End_of_file -> close_in ic; raise(Error(Not_an_object_file file_name)) | x -> close_in ic; raise x (* Second pass: link in the required units *) (* Consistency check between interfaces *) module Consistbl = Consistbl.Make (Misc.Stdlib.String) let crc_interfaces = Consistbl.create () let interfaces = ref ([] : string list) let implementations_defined = ref ([] : (compunit * string) list) let check_consistency file_name cu = begin try let source = List.assoc cu.cu_name !implementations_defined in raise (Error (Multiple_definition(cu.cu_name, file_name, source))); with Not_found -> () end; begin try List.iter (fun (name, crco) -> interfaces := name :: !interfaces; match crco with None -> () | Some crc -> Consistbl.check crc_interfaces name crc file_name) cu.cu_imports with Consistbl.Inconsistency { unit_name = name; inconsistent_source = user; original_source = auth; } -> raise(Error(Inconsistent_import(name, user, auth))) end; implementations_defined := (cu.cu_name, file_name) :: !implementations_defined let extract_crc_interfaces () = Consistbl.extract !interfaces crc_interfaces let clear_crc_interfaces () = Consistbl.clear crc_interfaces; interfaces := [] (* Record compilation events *) let debug_info = ref ([] : (int * Instruct.debug_event list * string list) list) (* Link in a compilation unit *) let link_compunit output_fun currpos_fun inchan file_name compunit = check_consistency file_name compunit; seek_in inchan compunit.cu_pos; let code_block = Bigarray.Array1.create Bigarray.Char Bigarray.c_layout compunit.cu_codesize in match In_channel.really_input_bigarray inchan code_block 0 compunit.cu_codesize with | None -> raise End_of_file | Some () -> (); Symtable.patch_object code_block compunit.cu_reloc; if !Clflags.debug && compunit.cu_debug > 0 then begin seek_in inchan compunit.cu_debug; let debug_event_list : Instruct.debug_event list = Compression.input_value inchan in let debug_dirs : string list = Compression.input_value inchan in let file_path = Filename.dirname (Location.absolute_path file_name) in let debug_dirs = if List.mem file_path debug_dirs then debug_dirs else file_path :: debug_dirs in debug_info := (currpos_fun(), debug_event_list, debug_dirs) :: !debug_info end; output_fun code_block; if !Clflags.link_everything then List.iter Symtable.require_primitive compunit.cu_primitives (* Link in a .cmo file *) let link_object output_fun currpos_fun file_name compunit = let inchan = open_in_bin file_name in try link_compunit output_fun currpos_fun inchan file_name compunit; close_in inchan with Symtable.Error msg -> close_in inchan; raise(Error(Symbol_error(file_name, msg))) | x -> close_in inchan; raise x (* Link in a .cma file *) let link_archive output_fun currpos_fun file_name units_required = let inchan = open_in_bin file_name in try List.iter (fun cu -> let n = Compunit.name cu.cu_name in let name = file_name ^ "(" ^ n ^ ")" in try link_compunit output_fun currpos_fun inchan name cu with Symtable.Error msg -> raise(Error(Symbol_error(name, msg)))) units_required; close_in inchan with x -> close_in inchan; raise x (* Link in a .cmo or .cma file *) let link_file output_fun currpos_fun = function Link_object(file_name, unit) -> link_object output_fun currpos_fun file_name unit | Link_archive(file_name, units) -> link_archive output_fun currpos_fun file_name units (* Output the debugging information *) (* Format is: number of event lists offset of first event list first event list ... offset of last event list last event list *) let output_debug_info oc = output_binary_int oc (List.length !debug_info); List.iter (fun (ofs, evl, debug_dirs) -> output_binary_int oc ofs; output_value oc evl; output_value oc debug_dirs) !debug_info; debug_info := [] (* Transform a file name into an absolute file name *) let make_absolute file = if not (Filename.is_relative file) then file else Location.rewrite_absolute_path (Filename.concat (Sys.getcwd()) file) type launch_method = | Shebang_bin_sh of string | Shebang_runtime | Executable type runtime_launch_info = { buffer : string; bindir : string; launcher : launch_method; executable_offset : int } (* See https://www.in-ulm.de/~mascheck/various/shebang/#origin for a deep dive into shebangs. - Whitespace (space or horizontal tab) delimits the interpreter from an optional argument - The path clearly must not contain a linefeed - A maximum length of 125 (128 less the #! and the newline) is picked as a portable maximum (it's actually Linux's prior to kernel v5.1), rather than actually probing the maximum length in configure *) let invalid_for_shebang_line path = let invalid_char = function ' ' | '\t' | '\n' -> true | _ -> false in String.length path > 125 || String.exists invalid_char path (* The runtime-launch-info file consists of two "lines" followed by binary data. The file is _always_ LF-formatted, even on Windows. The sequence of bytes up to the first '\n' is interpreted: - "sh" - use a shebang-style launcher. If sh is needed, determine its location from [command -p -v sh] - "exe" - use the executable launcher contained in this runtime-launch-info file. - "/" ^ path - use a shebang-style launcher. If sh is needed, path is the absolute location of sh. path must be valid for a shebang line. The second "line" is interpreted as the next "\000\n"-terminated sequence and is the directory containing the default runtimes (ocamlrun, ocamlrund, etc.). The null terminator is used since '\n' is valid in a nefarious installation prefix but Posix forbids filenames including the nul character. The remainder of the file is then the executable launcher for bytecode programs (see stdlib/header{,nt}.c). *) let read_runtime_launch_info file = let buffer = try In_channel.with_open_bin file In_channel.input_all with Sys_error msg -> raise (Error (Camlheader (msg, file))) in try let bindir_start = String.index buffer '\n' + 1 in let bindir_end = String.index_from buffer bindir_start '\000' in let bindir = String.sub buffer bindir_start (bindir_end - bindir_start) in let executable_offset = bindir_end + 2 in let launcher = let kind = String.sub buffer 0 (bindir_start - 1) in if kind = "exe" then Executable else if kind <> "" && (kind.[0] = '/' || kind = "sh") then Shebang_bin_sh kind else raise Not_found in if String.length buffer < executable_offset || buffer.[executable_offset - 1] <> '\n' then raise Not_found else {bindir; launcher; buffer; executable_offset} with Not_found -> raise (Error (Camlheader ("corrupt header", file))) let find_bin_sh () = let output_file = Filename.temp_file "caml_bin_sh" "" in let result = try let cmd = Filename.quote_command ~stdout:output_file "command" ["-p"; "-v"; "sh"] in if !Clflags.verbose then Printf.eprintf "+ %s\n" cmd; if Sys.command cmd = 0 then In_channel.with_open_text output_file input_line else "" with Sys_error _ | End_of_file -> "" in remove_file output_file; result (* Writes the executable header to outchan and writes the RNTM section, if needed. Returns a toc_writer (i.e. Bytesections.init_record is always called) *) let write_header outchan = let use_runtime, runtime = if String.length !Clflags.use_runtime > 0 then (true, make_absolute !Clflags.use_runtime) else (false, "ocamlrun" ^ !Clflags.runtime_variant) in (* Write the header *) let runtime_info = let header = "runtime-launch-info" in try read_runtime_launch_info (Load_path.find header) with Not_found -> raise (Error (File_not_found header)) in let runtime = (* Historically, the native Windows ports are assumed to be finding ocamlrun using a PATH search. *) if use_runtime || Sys.win32 then runtime else Filename.concat runtime_info.bindir runtime in (* Determine which method will be used for launching the executable: Executable: concatenate the bytecode image to the executable stub Shebang_runtime: #! line with the required runtime Shebang_bin_sh: #! for a shell script calling exec *) let launcher = if runtime_info.launcher = Executable then Executable else if invalid_for_shebang_line runtime then match runtime_info.launcher with | Shebang_bin_sh sh -> let sh = if sh = "sh" then find_bin_sh () else sh in if sh = "" || invalid_for_shebang_line sh then Executable else Shebang_bin_sh sh | _ -> Executable else Shebang_runtime in match launcher with | Shebang_runtime -> (* Use the runtime directly *) Printf.fprintf outchan "#!%s\n" runtime; Bytesections.init_record outchan | Shebang_bin_sh bin_sh -> (* exec the runtime using sh *) Printf.fprintf outchan "\ #!%s\n\ exec %s \"$0\" \"$@\"\n" bin_sh (Filename.quote runtime); Bytesections.init_record outchan | Executable -> (* Use the executable stub launcher *) let pos = runtime_info.executable_offset in let len = String.length runtime_info.buffer - pos in Out_channel.output_substring outchan runtime_info.buffer pos len; (* The runtime name needs recording in RNTM *) let toc_writer = Bytesections.init_record outchan in Printf.fprintf outchan "%s\000" runtime; Bytesections.record toc_writer RNTM; toc_writer (* Create a bytecode executable file *) let link_bytecode ?final_name tolink exec_name standalone = let final_name = Option.value final_name ~default:exec_name in (* Avoid the case where the specified exec output file is the same as one of the objects to be linked *) List.iter (function | Link_object(file_name, _) when file_name = exec_name -> raise (Error (Wrong_object_name exec_name)); | _ -> ()) tolink; (* Remove the output file if it exists to avoid permission problems (PR#8354), but don't risk removing a special file (PR#11302). *) Misc.remove_file exec_name; let outperm = if !Clflags.with_runtime then 0o777 else 0o666 in let outchan = open_out_gen [Open_wronly; Open_trunc; Open_creat; Open_binary] outperm exec_name in Misc.try_finally ~always:(fun () -> close_out outchan) ~exceptionally:(fun () -> remove_file exec_name) (fun () -> let toc_writer = (* Write the header and set the path to the bytecode interpreter *) if standalone && !Clflags.with_runtime then write_header outchan else Bytesections.init_record outchan in (* The bytecode *) let start_code = pos_out outchan in Symtable.init(); clear_crc_interfaces (); let sharedobjs = List.map Dll.extract_dll_name !Clflags.dllibs in let check_dlls = standalone && Config.target = Config.host in if check_dlls then begin (* Initialize the DLL machinery *) Dll.init_compile !Clflags.no_std_include; Dll.add_path (Load_path.get_path_list ()); try Dll.open_dlls Dll.For_checking sharedobjs with Failure reason -> raise(Error(Cannot_open_dll reason)) end; let output_fun buf = Out_channel.output_bigarray outchan buf 0 (Bigarray.Array1.dim buf) and currpos_fun () = pos_out outchan - start_code in List.iter (link_file output_fun currpos_fun) tolink; if check_dlls then Dll.close_all_dlls(); (* The final STOP instruction *) output_byte outchan Opcodes.opSTOP; output_byte outchan 0; output_byte outchan 0; output_byte outchan 0; Bytesections.record toc_writer CODE; (* DLL stuff *) if standalone then begin (* The extra search path for DLLs *) output_string outchan (concat_null_terminated !Clflags.dllpaths); Bytesections.record toc_writer DLPT; (* The names of the DLLs *) output_string outchan (concat_null_terminated sharedobjs); Bytesections.record toc_writer DLLS end; (* The names of all primitives *) Symtable.output_primitive_names outchan; Bytesections.record toc_writer PRIM; (* The table of global data *) Emitcode.marshal_to_channel_with_possibly_32bit_compat ~filename:final_name ~kind:"bytecode executable" outchan (Symtable.initial_global_table()); Bytesections.record toc_writer DATA; (* The map of global identifiers *) Symtable.output_global_map outchan; Bytesections.record toc_writer SYMB; (* CRCs for modules *) output_value outchan (extract_crc_interfaces()); Bytesections.record toc_writer CRCS; (* Debug info *) if !Clflags.debug then begin output_debug_info outchan; Bytesections.record toc_writer DBUG end; (* The table of contents and the trailer *) Bytesections.write_toc_and_trailer toc_writer; ) (* Output a string as a C array of unsigned ints *) let output_code_string_counter = ref 0 let output_code_string outchan code = let pos = ref 0 in let len = Bigarray.Array1.dim code in while !pos < len do let c1 = Char.code(Bigarray.Array1.get code !pos) in let c2 = Char.code(Bigarray.Array1.get code (!pos + 1)) in let c3 = Char.code(Bigarray.Array1.get code (!pos + 2)) in let c4 = Char.code(Bigarray.Array1.get code (!pos + 3)) in pos := !pos + 4; Printf.fprintf outchan "0x%02x%02x%02x%02x, " c4 c3 c2 c1; incr output_code_string_counter; if !output_code_string_counter >= 6 then begin output_char outchan '\n'; output_code_string_counter := 0 end done (* Output a string as a C string *) let output_data_string outchan data = let counter = ref 0 in for i = 0 to String.length data - 1 do Printf.fprintf outchan "%d, " (Char.code(data.[i])); incr counter; if !counter >= 12 then begin output_string outchan "\n"; counter := 0 end done (* Output a debug stub *) let output_cds_file outfile = Misc.remove_file outfile; let outchan = open_out_gen [Open_wronly; Open_trunc; Open_creat; Open_binary] 0o777 outfile in Misc.try_finally ~always:(fun () -> close_out outchan) ~exceptionally:(fun () -> remove_file outfile) (fun () -> let toc_writer = Bytesections.init_record outchan in (* The map of global identifiers *) Symtable.output_global_map outchan; Bytesections.record toc_writer SYMB; (* Debug info *) output_debug_info outchan; Bytesections.record toc_writer DBUG; (* The table of contents and the trailer *) Bytesections.write_toc_and_trailer toc_writer; ) (* Output a bytecode executable as a C file *) (* Primitives declared in the included headers but re-declared in the primitives table need to be guarded and not declared twice. *) let guarded_primitives = [ "caml_get_public_method", "caml__get_public_method"; "caml_set_oo_id", "caml__set_oo_id"; ] let link_bytecode_as_c tolink outfile with_main = let outchan = open_out outfile in Misc.try_finally ~always:(fun () -> close_out outchan) ~exceptionally:(fun () -> remove_file outfile) (fun () -> (* The bytecode *) output_string outchan "\ #define CAML_INTERNALS\n\ #define CAMLDLLIMPORT\ \n\ \n#ifdef __cplusplus\ \nextern \"C\" {\ \n#endif"; List.iter (fun (f, f') -> Printf.fprintf outchan "\n#define %s %s" f f') guarded_primitives; output_string outchan "\ \n#include \ \n#include \ \n#include \ \n#include \n"; List.iter (fun (f, _) -> Printf.fprintf outchan "\n#undef %s" f) guarded_primitives; output_string outchan "\nstatic int caml_code[] = {\n"; Symtable.init(); clear_crc_interfaces (); let currpos = ref 0 in let output_fun code = output_code_string outchan code; currpos := !currpos + (Bigarray.Array1.dim code) and currpos_fun () = !currpos in List.iter (link_file output_fun currpos_fun) tolink; (* The final STOP instruction *) Printf.fprintf outchan "\n0x%x};\n\n" Opcodes.opSTOP; (* The table of global data *) output_string outchan "static char caml_data[] = {\n"; output_data_string outchan (Marshal.to_string (Symtable.initial_global_table()) []); output_string outchan "\n};\n\n"; (* The sections *) let sections : (string * Obj.t) array = [| Bytesections.Name.to_string SYMB, Symtable.data_global_map(); Bytesections.Name.to_string CRCS, Obj.repr(extract_crc_interfaces()) |] in output_string outchan "static char caml_sections[] = {\n"; output_data_string outchan (Marshal.to_string sections []); output_string outchan "\n};\n\n"; (* The table of primitives *) Symtable.output_primitive_table outchan; (* The entry point *) if with_main then begin output_string outchan "\ \nint main_os(int argc, char_os **argv)\ \n{\ \n caml_byte_program_mode = COMPLETE_EXE;\ \n caml_startup_code(caml_code, sizeof(caml_code),\ \n caml_data, sizeof(caml_data),\ \n caml_sections, sizeof(caml_sections),\ \n /* pooling */ 0,\ \n argv);\ \n caml_do_exit(0);\ \n return 0; /* not reached */\ \n}\n" end else begin output_string outchan "\ \nvoid caml_startup(char_os ** argv)\ \n{\ \n caml_startup_code(caml_code, sizeof(caml_code),\ \n caml_data, sizeof(caml_data),\ \n caml_sections, sizeof(caml_sections),\ \n /* pooling */ 0,\ \n argv);\ \n}\ \n\ \nvalue caml_startup_exn(char_os ** argv)\ \n{\ \n return caml_startup_code_exn(caml_code, sizeof(caml_code),\ \n caml_data, sizeof(caml_data),\ \n caml_sections, sizeof(caml_sections),\ \n /* pooling */ 0,\ \n argv);\ \n}\ \n\ \nvoid caml_startup_pooled(char_os ** argv)\ \n{\ \n caml_startup_code(caml_code, sizeof(caml_code),\ \n caml_data, sizeof(caml_data),\ \n caml_sections, sizeof(caml_sections),\ \n /* pooling */ 1,\ \n argv);\ \n}\ \n\ \nvalue caml_startup_pooled_exn(char_os ** argv)\ \n{\ \n return caml_startup_code_exn(caml_code, sizeof(caml_code),\ \n caml_data, sizeof(caml_data),\ \n caml_sections, sizeof(caml_sections),\ \n /* pooling */ 1,\ \n argv);\ \n}\n" end; output_string outchan "\ \n#ifdef __cplusplus\ \n}\ \n#endif\n"; ); if not with_main && !Clflags.debug then output_cds_file ((Filename.chop_extension outfile) ^ ".cds") (* Build a custom runtime *) let build_custom_runtime prim_name exec_name = let runtime_lib = if not !Clflags.with_runtime then "" else "-lcamlrun" ^ !Clflags.runtime_variant in let debug_prefix_map = if Config.c_has_debug_prefix_map && not !Clflags.keep_camlprimc_file then let flag = [Printf.sprintf "-fdebug-prefix-map=%s=camlprim.c" prim_name] in if Ccomp.linker_is_flexlink then "-link" :: flag else flag else [] in let exitcode = (Clflags.std_include_flag "-I" ^ " " ^ Config.bytecomp_c_libraries) in Ccomp.call_linker Ccomp.Exe exec_name (debug_prefix_map @ [prim_name] @ List.rev !Clflags.ccobjs @ [runtime_lib]) exitcode = 0 let append_bytecode bytecode_name exec_name = let oc = open_out_gen [Open_wronly; Open_append; Open_binary] 0 exec_name in let ic = open_in_bin bytecode_name in copy_file ic oc; close_in ic; close_out oc (* Fix the name of the output file, if the C compiler changes it behind our back. *) let fix_exec_name name = match Sys.os_type with "Win32" | "Cygwin" -> if String.contains name '.' then name else name ^ ".exe" | _ -> name (* Main entry point (build a custom runtime if needed) *) let link objfiles output_name = let objfiles = match !Clflags.nopervasives, !Clflags.output_c_object, !Clflags.output_complete_executable with | true, _, _ -> objfiles | false, true, false -> "stdlib.cma" :: objfiles | _ -> "stdlib.cma" :: objfiles @ ["std_exit.cmo"] in let tolink = List.fold_right scan_file objfiles [] in begin match Compunit.Map.bindings !missing_compunits with | [] -> () | missing_dependency :: _ -> if DepSet.is_empty !badly_ordered_dependencies then raise (Error (Required_compunit_unavailable missing_dependency)) else raise (Error (Wrong_link_order !badly_ordered_dependencies)) end; Clflags.ccobjs := !Clflags.ccobjs @ !lib_ccobjs; (* put user's libs last *) Clflags.all_ccopts := !lib_ccopts @ !Clflags.all_ccopts; (* put user's opts first *) Clflags.dllibs := !lib_dllibs @ !Clflags.dllibs; (* put user's DLLs first *) if not !Clflags.custom_runtime then link_bytecode tolink output_name true else if not !Clflags.output_c_object then begin let bytecode_name = Filename.temp_file "camlcode" "" in let prim_name = if !Clflags.keep_camlprimc_file then output_name ^ ".camlprim.c" else Filename.temp_file "camlprim" ".c" in Misc.try_finally ~always:(fun () -> remove_file bytecode_name; if not !Clflags.keep_camlprimc_file then remove_file prim_name) (fun () -> link_bytecode ~final_name:output_name tolink bytecode_name false; let poc = open_out prim_name in (* note: builds will not be reproducible if the C code contains macros such as __FILE__. *) output_string poc "\ #ifdef __cplusplus\n\ extern \"C\" {\n\ #endif\n\ #ifdef _WIN64\n\ #ifdef __MINGW32__\n\ typedef long long value;\n\ #else\n\ typedef __int64 value;\n\ #endif\n\ #else\n\ typedef long value;\n\ #endif\n"; Symtable.output_primitive_table poc; output_string poc "\ #ifdef __cplusplus\n\ }\n\ #endif\n"; close_out poc; let exec_name = fix_exec_name output_name in if not (build_custom_runtime prim_name exec_name) then raise(Error Custom_runtime); if not !Clflags.make_runtime then append_bytecode bytecode_name exec_name ) end else begin let basename = Filename.remove_extension output_name in let c_file, stable_name = if !Clflags.output_complete_object && not (Filename.check_suffix output_name ".c") then Filename.temp_file "camlobj" ".c", Some "camlobj.c" else begin let f = basename ^ ".c" in if Sys.file_exists f then raise(Error(File_exists f)); f, None end in let obj_file = if !Clflags.output_complete_object then (Filename.chop_extension c_file) ^ Config.ext_obj else basename ^ Config.ext_obj in let temps = ref [] in Misc.try_finally ~always:(fun () -> List.iter remove_file !temps) (fun () -> link_bytecode_as_c tolink c_file !Clflags.output_complete_executable; if !Clflags.output_complete_executable then begin temps := c_file :: !temps; if not (build_custom_runtime c_file output_name) then raise(Error Custom_runtime) end else if not (Filename.check_suffix output_name ".c") then begin temps := c_file :: !temps; if Ccomp.compile_file ~output:obj_file ?stable_name c_file <> 0 then raise(Error Custom_runtime); if not (Filename.check_suffix output_name Config.ext_obj) || !Clflags.output_complete_object then begin temps := obj_file :: !temps; let mode, c_libs = if Filename.check_suffix output_name Config.ext_obj then Ccomp.Partial, "" else Ccomp.MainDll, Config.bytecomp_c_libraries in if not ( let runtime_lib = if not !Clflags.with_runtime then "" else "-lcamlrun" ^ !Clflags.runtime_variant in Ccomp.call_linker mode output_name ([obj_file] @ List.rev !Clflags.ccobjs @ [runtime_lib]) c_libs = 0 ) then raise (Error Custom_runtime); end end; ) end (* Error report *) open Format module Style = Misc.Style let report_error ppf = function | File_not_found name -> fprintf ppf "Cannot find file %a" (Style.as_inline_code Location.print_filename) name | Not_an_object_file name -> fprintf ppf "The file %a is not a bytecode object file" (Style.as_inline_code Location.print_filename) name | Wrong_object_name name -> fprintf ppf "The output file %a has the wrong name. The extension implies\ \ an object file but the link step was requested" Style.inline_code name | Symbol_error(name, err) -> fprintf ppf "Error while linking %a:@ %a" (Style.as_inline_code Location.print_filename) name Symtable.report_error err | Inconsistent_import(intf, file1, file2) -> fprintf ppf "@[Files %a@ and %a@ \ make inconsistent assumptions over interface %a@]" (Style.as_inline_code Location.print_filename) file1 (Style.as_inline_code Location.print_filename) file2 Style.inline_code intf | Custom_runtime -> fprintf ppf "Error while building custom runtime system" | File_exists file -> fprintf ppf "Cannot overwrite existing file %a" (Style.as_inline_code Location.print_filename) file | Cannot_open_dll file -> fprintf ppf "Error on dynamically loaded library: %a" Location.print_filename file | Required_compunit_unavailable (Compunit unavailable, Compunit required_by) -> fprintf ppf "Module %a is unavailable (required by %a)" Style.inline_code unavailable Style.inline_code required_by | Camlheader (msg, header) -> fprintf ppf "System error while copying file %a: %a" Style.inline_code header Style.inline_code msg | Wrong_link_order depset -> let l = DepSet.elements depset in let depends_on ppf (dep, depending) = fprintf ppf "%a depends on %a" Style.inline_code (Compunit.name depending) Style.inline_code (Compunit.name dep) in fprintf ppf "@[Wrong link order: %a@]" (pp_print_list ~pp_sep:(fun ppf () -> fprintf ppf ",@ ") depends_on) l | Multiple_definition(compunit, file1, file2) -> fprintf ppf "@[Files %a@ and %a@ both define a module named %a@]" (Style.as_inline_code Location.print_filename) file1 (Style.as_inline_code Location.print_filename) file2 Style.inline_code (Compunit.name compunit) let () = Location.register_error_of_exn (function | Error err -> Some (Location.error_of_printer_file report_error err) | _ -> None ) let reset () = lib_ccobjs := []; lib_ccopts := []; lib_dllibs := []; missing_compunits := Compunit.Map.empty; Consistbl.clear crc_interfaces; implementations_defined := []; debug_info := []; output_code_string_counter := 0