------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- G N A T L I N K -- -- -- -- B o d y -- -- -- -- Copyright (C) 1996-2018, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- -- for more details. You should have received a copy of the GNU General -- -- Public License distributed with GNAT; see file COPYING3. If not, go to -- -- http://www.gnu.org/licenses for a complete copy of the license. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ -- Gnatlink usage: please consult the gnat documentation with ALI; use ALI; with Csets; with Gnatvsn; use Gnatvsn; with Indepsw; use Indepsw; with Namet; use Namet; with Opt; with Osint; use Osint; with Output; use Output; with Snames; with Switch; use Switch; with System; use System; with Table; with Targparm; with Types; with Ada.Command_Line; use Ada.Command_Line; with Ada.Exceptions; use Ada.Exceptions; with System.OS_Lib; use System.OS_Lib; with System.CRTL; with Interfaces.C_Streams; use Interfaces.C_Streams; with Interfaces.C.Strings; use Interfaces.C.Strings; procedure Gnatlink is pragma Ident (Gnatvsn.Gnat_Static_Version_String); Shared_Libgcc_String : constant String := "-shared-libgcc"; Shared_Libgcc : constant String_Access := new String'(Shared_Libgcc_String); -- Used to invoke gcc when the binder is invoked with -shared Static_Libgcc_String : constant String := "-static-libgcc"; Static_Libgcc : constant String_Access := new String'(Static_Libgcc_String); -- Used to invoke gcc when shared libs are not used package Gcc_Linker_Options is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Gcc_Linker_Options"); -- Comments needed ??? package Libpath is new Table.Table ( Table_Component_Type => Character, Table_Index_Type => Integer, Table_Low_Bound => 1, Table_Initial => 4096, Table_Increment => 100, Table_Name => "Gnatlink.Libpath"); -- Comments needed ??? package Linker_Options is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Linker_Options"); -- Comments needed ??? package Linker_Objects is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Linker_Objects"); -- This table collects the objects file to be passed to the linker. In the -- case where the linker command line is too long then programs objects -- are put on the Response_File_Objects table. Note that the binder object -- file and the user's objects remain in this table. This is very -- important because on the GNU linker command line the -L switch is not -- used to look for objects files but -L switch is used to look for -- objects listed in the response file. This is not a problem with the -- applications objects as they are specified with a full name. package Response_File_Objects is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Response_File_Objects"); -- This table collects the objects file that are to be put in the response -- file. Only application objects are collected there (see details in -- Linker_Objects table comments) package Binder_Options_From_ALI is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, -- equals low bound of Argument_List for Spawn Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Binder_Options_From_ALI"); -- This table collects the switches from the ALI file of the main -- subprogram. package Binder_Options is new Table.Table ( Table_Component_Type => String_Access, Table_Index_Type => Integer, Table_Low_Bound => 1, -- equals low bound of Argument_List for Spawn Table_Initial => 20, Table_Increment => 100, Table_Name => "Gnatlink.Binder_Options"); -- This table collects the arguments to be passed to compile the binder -- generated file. Gcc : String_Access := Program_Name ("gcc", "gnatlink"); Read_Mode : constant String := "r" & ASCII.NUL; Begin_Info : constant String := "-- BEGIN Object file/option list"; End_Info : constant String := "-- END Object file/option list "; Gcc_Path : String_Access; Linker_Path : String_Access; Output_File_Name : String_Access; Ali_File_Name : String_Access; Binder_Spec_Src_File : String_Access; Binder_Body_Src_File : String_Access; Binder_Ali_File : String_Access; Binder_Obj_File : String_Access; Base_Command_Name : String_Access; Target_Debuggable_Suffix : String_Access; Tname : Temp_File_Name; Tname_FD : File_Descriptor := Invalid_FD; -- Temporary file used by linker to pass list of object files on -- certain systems with limitations on size of arguments. Debug_Flag_Present : Boolean := False; Verbose_Mode : Boolean := False; Very_Verbose_Mode : Boolean := False; Standard_Gcc : Boolean := True; Compile_Bind_File : Boolean := True; -- Set to False if bind file is not to be compiled Create_Map_File : Boolean := False; -- Set to True by switch -M. The map file name is derived from -- the ALI file name (mainprog.ali => mainprog.map). Object_List_File_Supported : Boolean; for Object_List_File_Supported'Size use Character'Size; pragma Import (C, Object_List_File_Supported, "__gnat_objlist_file_supported"); -- Predicate indicating whether the linker has an option whereby the -- names of object files can be passed to the linker in a file. Object_File_Option_Ptr : Interfaces.C.Strings.chars_ptr; pragma Import (C, Object_File_Option_Ptr, "__gnat_object_file_option"); -- Pointer to a string representing the linker option which specifies -- the response file. Object_File_Option : constant String := Value (Object_File_Option_Ptr); -- The linker option which specifies the response file as a string Using_GNU_response_file : constant Boolean := Object_File_Option'Length > 0 and then Object_File_Option (Object_File_Option'Last) = '@'; -- Whether a GNU response file is used Object_List_File_Required : Boolean := False; -- Set to True to force generation of a response file Shared_Libgcc_Default : Character; for Shared_Libgcc_Default'Size use Character'Size; pragma Import (C, Shared_Libgcc_Default, "__gnat_shared_libgcc_default"); -- Indicates wether libgcc should be statically linked (use 'T') or -- dynamically linked (use 'H') by default. function Base_Name (File_Name : String) return String; -- Return just the file name part without the extension (if present) procedure Check_Existing_Executable (File_Name : String); -- Delete any existing executable to avoid accidentally updating the target -- of a symbolic link, but produce a Fatail_Error if File_Name matches any -- of the source file names. This avoids overwriting of extensionless -- source files by accident on systems where executables do not have -- extensions. procedure Delete (Name : String); -- Wrapper to unlink as status is ignored by this application procedure Error_Msg (Message : String); -- Output the error or warning Message procedure Exit_With_Error (Error : String); -- Output Error and exit program with a fatal condition procedure Process_Args; -- Go through all the arguments and build option tables procedure Process_Binder_File (Name : String); -- Reads the binder file and extracts linker arguments procedure Usage; -- Display usage procedure Write_Header; -- Show user the program name, version and copyright procedure Write_Usage; -- Show user the program options --------------- -- Base_Name -- --------------- function Base_Name (File_Name : String) return String is Findex1 : Natural; Findex2 : Natural; begin Findex1 := File_Name'First; -- The file might be specified by a full path name. However, -- we want the path to be stripped away. for J in reverse File_Name'Range loop if Is_Directory_Separator (File_Name (J)) then Findex1 := J + 1; exit; end if; end loop; Findex2 := File_Name'Last; while Findex2 > Findex1 and then File_Name (Findex2) /= '.' loop Findex2 := Findex2 - 1; end loop; if Findex2 = Findex1 then Findex2 := File_Name'Last + 1; end if; return File_Name (Findex1 .. Findex2 - 1); end Base_Name; ------------------------------- -- Check_Existing_Executable -- ------------------------------- procedure Check_Existing_Executable (File_Name : String) is Ename : String := File_Name; Efile : File_Name_Type; Sfile : File_Name_Type; begin Canonical_Case_File_Name (Ename); Name_Len := 0; Add_Str_To_Name_Buffer (Ename); Efile := Name_Find; for J in Units.Table'First .. Units.Last loop Sfile := Units.Table (J).Sfile; if Sfile = Efile then Exit_With_Error ("executable name """ & File_Name & """ matches " & "source file name """ & Get_Name_String (Sfile) & """"); end if; end loop; Delete (File_Name); end Check_Existing_Executable; ------------ -- Delete -- ------------ procedure Delete (Name : String) is Status : int; pragma Unreferenced (Status); begin Status := unlink (Name'Address); -- Is it really right to ignore an error here ??? end Delete; --------------- -- Error_Msg -- --------------- procedure Error_Msg (Message : String) is begin Write_Str (Base_Command_Name.all); Write_Str (": "); Write_Str (Message); Write_Eol; end Error_Msg; --------------------- -- Exit_With_Error -- --------------------- procedure Exit_With_Error (Error : String) is begin Error_Msg (Error); Exit_Program (E_Fatal); end Exit_With_Error; ------------------ -- Process_Args -- ------------------ procedure Process_Args is Next_Arg : Integer; Skip_Next : Boolean := False; -- Set to true if the next argument is to be added into the list of -- linker's argument without parsing it. procedure Check_Version_And_Help is new Check_Version_And_Help_G (Usage); -- Start of processing for Process_Args begin -- First, check for --version and --help Check_Version_And_Help ("GNATLINK", "1996"); -- Loop through arguments of gnatlink command Next_Arg := 1; loop exit when Next_Arg > Argument_Count; Process_One_Arg : declare Arg : constant String := Argument (Next_Arg); begin -- Case of argument which is a switch -- We definitely need section by section comments here ??? if Skip_Next then -- This argument must not be parsed, just add it to the -- list of linker's options. Skip_Next := False; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); elsif Arg'Length /= 0 and then Arg (1) = '-' then if Arg'Length > 4 and then Arg (2 .. 5) = "gnat" then Exit_With_Error ("invalid switch: """ & Arg & """ (gnat not needed here)"); end if; if Arg = "-Xlinker" then -- Next argument should be sent directly to the linker. -- We do not want to parse it here. Skip_Next := True; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); elsif Arg (2) = 'g' and then (Arg'Length < 5 or else Arg (2 .. 5) /= "gnat") then Debug_Flag_Present := True; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := Linker_Options.Table (Linker_Options.Last); elsif Arg'Length >= 3 and then Arg (2) = 'M' then declare Switches : String_List_Access; begin Convert (Map_File, Arg (3 .. Arg'Last), Switches); if Switches /= null then for J in Switches'Range loop Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := Switches (J); end loop; end if; end; elsif Arg'Length = 2 then case Arg (2) is when 'f' => if Object_List_File_Supported then Object_List_File_Required := True; else Exit_With_Error ("Object list file not supported on this target"); end if; when 'M' => Create_Map_File := True; when 'n' => Compile_Bind_File := False; when 'o' => Next_Arg := Next_Arg + 1; if Next_Arg > Argument_Count then Exit_With_Error ("Missing argument for -o"); end if; Output_File_Name := new String'(Executable_Name (Argument (Next_Arg), Only_If_No_Suffix => True)); when 'P' => Opt.CodePeer_Mode := True; when 'R' => Opt.Run_Path_Option := False; when 'v' => -- Support "double" verbose mode. Second -v -- gets sent to the linker and binder phases. if Verbose_Mode then Very_Verbose_Mode := True; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := Linker_Options.Table (Linker_Options.Last); else Verbose_Mode := True; end if; when others => Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); end case; elsif Arg (2) = 'B' then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := Linker_Options.Table (Linker_Options.Last); elsif Arg'Length >= 7 and then Arg (1 .. 7) = "--LINK=" then if Arg'Length = 7 then Exit_With_Error ("Missing argument for --LINK="); end if; declare L_Args : constant Argument_List_Access := Argument_String_To_List (Arg (8 .. Arg'Last)); begin -- The linker program is the first argument Linker_Path := System.OS_Lib.Locate_Exec_On_Path (L_Args.all (1).all); if Linker_Path = null then Exit_With_Error ("Could not locate linker: " & L_Args.all (1).all); end if; -- The other arguments are passed as-is to the linker and -- override those coming from --GCC= if any. if L_Args.all'Last >= 2 then Gcc_Linker_Options.Set_Last (0); end if; for J in 2 .. L_Args.all'Last loop Gcc_Linker_Options.Increment_Last; Gcc_Linker_Options.Table (Gcc_Linker_Options.Last) := new String'(L_Args.all (J).all); end loop; end; elsif Arg'Length >= 6 and then Arg (1 .. 6) = "--GCC=" then if Arg'Length = 6 then Exit_With_Error ("Missing argument for --GCC="); end if; declare Program_Args : constant Argument_List_Access := Argument_String_To_List (Arg (7 .. Arg'Last)); begin if Program_Args.all (1).all /= Gcc.all then Gcc := new String'(Program_Args.all (1).all); Standard_Gcc := False; end if; -- Set appropriate flags for switches passed for J in 2 .. Program_Args.all'Last loop declare Arg : constant String := Program_Args.all (J).all; AF : constant Integer := Arg'First; begin if Arg'Length /= 0 and then Arg (AF) = '-' then if Arg (AF + 1) = 'g' and then (Arg'Length = 2 or else Arg (AF + 2) in '0' .. '3' or else Arg (AF + 2 .. Arg'Last) = "coff") then Debug_Flag_Present := True; end if; end if; -- Add directory to source search dirs so that -- Get_Target_Parameters can find system.ads if Arg (AF .. AF + 1) = "-I" and then Arg'Length > 2 then Add_Src_Search_Dir (Arg (AF + 2 .. Arg'Last)); end if; -- Pass to gcc for compiling binder generated file -- No use passing libraries, it will just generate -- a warning if not (Arg (AF .. AF + 1) = "-l" or else Arg (AF .. AF + 1) = "-L") then Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := new String'(Arg); end if; -- Pass to gcc for linking program Gcc_Linker_Options.Increment_Last; Gcc_Linker_Options.Table (Gcc_Linker_Options.Last) := new String'(Arg); end; end loop; end; -- Send all multi-character switches not recognized as -- a special case by gnatlink to the linker/loader stage. else Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); end if; -- Here if argument is a file name rather than a switch else -- If explicit ali file, capture it if Arg'Length > 4 and then Arg (Arg'Last - 3 .. Arg'Last) = ".ali" then if Ali_File_Name = null then Ali_File_Name := new String'(Arg); else Exit_With_Error ("cannot handle more than one ALI file"); end if; -- If target object file, record object file elsif Arg'Length > Get_Target_Object_Suffix.all'Length and then Arg (Arg'Last - Get_Target_Object_Suffix.all'Length + 1 .. Arg'Last) = Get_Target_Object_Suffix.all then Linker_Objects.Increment_Last; Linker_Objects.Table (Linker_Objects.Last) := new String'(Arg); -- If host object file, record object file elsif Arg'Length > Get_Object_Suffix.all'Length and then Arg (Arg'Last - Get_Object_Suffix.all'Length + 1 .. Arg'Last) = Get_Object_Suffix.all then Linker_Objects.Increment_Last; Linker_Objects.Table (Linker_Objects.Last) := new String'(Arg); -- If corresponding ali file exists, capture it elsif Ali_File_Name = null and then Is_Regular_File (Arg & ".ali") then Ali_File_Name := new String'(Arg & ".ali"); -- Otherwise assume this is a linker options entry, but -- see below for interesting adjustment to this assumption. else Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Arg); end if; end if; end Process_One_Arg; Next_Arg := Next_Arg + 1; end loop; -- Compile the bind file with warnings suppressed, because -- otherwise the with of the main program may cause junk warnings. Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := new String'("-gnatws"); -- If we did not get an ali file at all, and we had at least one -- linker option, then assume that was the intended ali file after -- all, so that we get a nicer message later on. if Ali_File_Name = null and then Linker_Options.Last >= Linker_Options.First then Ali_File_Name := new String'(Linker_Options.Table (Linker_Options.First).all & ".ali"); end if; end Process_Args; ------------------------- -- Process_Binder_File -- ------------------------- procedure Process_Binder_File (Name : String) is Fd : FILEs; -- Binder file's descriptor Link_Bytes : Integer := 0; -- Projected number of bytes for the linker command line Link_Max : Integer; pragma Import (C, Link_Max, "__gnat_link_max"); -- Maximum number of bytes on the command line supported by the OS -- linker. Passed this limit the response file mechanism must be used -- if supported. Next_Line : String (1 .. 1000); -- Current line value Nlast : Integer; Nfirst : Integer; -- Current line slice (the slice does not contain line terminator) Last : Integer; -- Current line last character for shared libraries (without version) Objs_Begin : Integer := 0; -- First object file index in Linker_Objects table Objs_End : Integer := 0; -- Last object file index in Linker_Objects table Status : int; pragma Warnings (Off, Status); -- Used for various Interfaces.C_Streams calls Closing_Status : Boolean; pragma Warnings (Off, Closing_Status); -- For call to Close GNAT_Static : Boolean := False; -- Save state of -static option GNAT_Shared : Boolean := False; -- Save state of -shared option Xlinker_Was_Previous : Boolean := False; -- Indicate that "-Xlinker" was the option preceding the current option. -- If True, then the current option is never suppressed. -- Rollback data -- These data items are used to store current binder file context. The -- context is composed of the file descriptor position and the current -- line together with the slice indexes (first and last position) for -- this line. The rollback data are used by the Store_File_Context and -- Rollback_File_Context routines below. The file context mechanism -- interact only with the Get_Next_Line call. For example: -- Store_File_Context; -- Get_Next_Line; -- Rollback_File_Context; -- Get_Next_Line; -- Both Get_Next_Line calls above will read the exact same data from -- the file. In other words, Next_Line, Nfirst and Nlast variables -- will be set with the exact same values. RB_File_Pos : long; -- File position RB_Next_Line : String (1 .. 1000); -- Current line content RB_Nlast : Integer; -- Slice last index RB_Nfirst : Integer; -- Slice first index Run_Path_Option_Ptr : Interfaces.C.Strings.chars_ptr; pragma Import (C, Run_Path_Option_Ptr, "__gnat_run_path_option"); -- Pointer to string representing the native linker option which -- specifies the path where the dynamic loader should find shared -- libraries. Equal to null string if this system doesn't support it. Libgcc_Subdir_Ptr : Interfaces.C.Strings.chars_ptr; pragma Import (C, Libgcc_Subdir_Ptr, "__gnat_default_libgcc_subdir"); -- Pointer to string indicating the installation subdirectory where -- a default shared libgcc might be found. Object_Library_Ext_Ptr : Interfaces.C.Strings.chars_ptr; pragma Import (C, Object_Library_Ext_Ptr, "__gnat_object_library_extension"); -- Pointer to string specifying the default extension for -- object libraries, e.g. Unix uses ".a". Separate_Run_Path_Options : Boolean; for Separate_Run_Path_Options'Size use Character'Size; pragma Import (C, Separate_Run_Path_Options, "__gnat_separate_run_path_options"); -- Whether separate rpath options should be emitted for each directory procedure Get_Next_Line; -- Read the next line from the binder file without the line -- terminator. function Index (S, Pattern : String) return Natural; -- Return the last occurrence of Pattern in S, or 0 if none procedure Store_File_Context; -- Store current file context, Fd position and current line data. -- The file context is stored into the rollback data above (RB_*). -- Store_File_Context can be called at any time, only the last call -- will be used (i.e. this routine overwrites the file context). procedure Rollback_File_Context; -- Restore file context from rollback data. This routine must be called -- after Store_File_Context. The binder file context will be restored -- with the data stored by the last Store_File_Context call. procedure Write_RF (S : String); -- Write a string to the response file and check if it was successful. -- Fail the program if it was not successful (disk full). ------------------- -- Get_Next_Line -- ------------------- procedure Get_Next_Line is Fchars : chars; begin Fchars := fgets (Next_Line'Address, Next_Line'Length, Fd); if Fchars = System.Null_Address then Exit_With_Error ("Error reading binder output"); end if; Nfirst := Next_Line'First; Nlast := Nfirst; while Nlast <= Next_Line'Last and then Next_Line (Nlast) /= ASCII.LF and then Next_Line (Nlast) /= ASCII.CR loop Nlast := Nlast + 1; end loop; Nlast := Nlast - 1; end Get_Next_Line; ----------- -- Index -- ----------- function Index (S, Pattern : String) return Natural is Len : constant Natural := Pattern'Length; begin for J in reverse S'First .. S'Last - Len + 1 loop if Pattern = S (J .. J + Len - 1) then return J; end if; end loop; return 0; end Index; --------------------------- -- Rollback_File_Context -- --------------------------- procedure Rollback_File_Context is begin Next_Line := RB_Next_Line; Nfirst := RB_Nfirst; Nlast := RB_Nlast; Status := fseek (Fd, RB_File_Pos, Interfaces.C_Streams.SEEK_SET); if Status = -1 then Exit_With_Error ("Error setting file position"); end if; end Rollback_File_Context; ------------------------ -- Store_File_Context -- ------------------------ procedure Store_File_Context is use type System.CRTL.long; begin RB_Next_Line := Next_Line; RB_Nfirst := Nfirst; RB_Nlast := Nlast; RB_File_Pos := ftell (Fd); if RB_File_Pos = -1 then Exit_With_Error ("Error getting file position"); end if; end Store_File_Context; -------------- -- Write_RF -- -------------- procedure Write_RF (S : String) is Success : Boolean := True; Back_Slash : constant Character := '\'; begin -- If a GNU response file is used, space and backslash need to be -- escaped because they are interpreted as a string separator and -- an escape character respectively by the underlying mechanism. -- On the other hand, quote and double-quote are not escaped since -- they are interpreted as string delimiters on both sides. if Using_GNU_response_file then for J in S'Range loop if S (J) = ' ' or else S (J) = '\' then if Write (Tname_FD, Back_Slash'Address, 1) /= 1 then Success := False; end if; end if; if Write (Tname_FD, S (J)'Address, 1) /= 1 then Success := False; end if; end loop; else if Write (Tname_FD, S'Address, S'Length) /= S'Length then Success := False; end if; end if; if Write (Tname_FD, ASCII.LF'Address, 1) /= 1 then Success := False; end if; if not Success then Exit_With_Error ("Error generating response file: disk full"); end if; end Write_RF; -- Start of processing for Process_Binder_File begin Fd := fopen (Name'Address, Read_Mode'Address); if Fd = NULL_Stream then Exit_With_Error ("Failed to open binder output"); end if; -- Skip up to the Begin Info line loop Get_Next_Line; exit when Next_Line (Nfirst .. Nlast) = Begin_Info; end loop; loop Get_Next_Line; -- Go to end when end line is reached (this will happen in -- High_Integrity_Mode where no -L switches are generated) exit when Next_Line (Nfirst .. Nlast) = End_Info; Next_Line (Nfirst .. Nlast - 8) := Next_Line (Nfirst + 8 .. Nlast); Nlast := Nlast - 8; -- Go to next section when switches are reached exit when Next_Line (1) = '-'; -- Otherwise we have another object file to collect Linker_Objects.Increment_Last; -- Mark the positions of first and last object files in case they -- need to be placed with a named file on systems having linker -- line limitations. if Objs_Begin = 0 then Objs_Begin := Linker_Objects.Last; end if; Linker_Objects.Table (Linker_Objects.Last) := new String'(Next_Line (Nfirst .. Nlast)); -- Nlast - Nfirst + 1, for the size, plus one for the space between -- each arguments. Link_Bytes := Link_Bytes + Nlast - Nfirst + 2; end loop; Objs_End := Linker_Objects.Last; -- Continue to compute the Link_Bytes, the linker options are part of -- command line length. Store_File_Context; while Next_Line (Nfirst .. Nlast) /= End_Info loop Link_Bytes := Link_Bytes + Nlast - Nfirst + 2; Get_Next_Line; end loop; Rollback_File_Context; -- On systems that have limitations on handling very long linker lines -- we make use of the system linker option which takes a list of object -- file names from a file instead of the command line itself. What we do -- is to replace the list of object files by the special linker option -- which then reads the object file list from a file instead. The option -- to read from a file instead of the command line is only triggered if -- a conservative threshold is passed. if Object_List_File_Required or else (Object_List_File_Supported and then Link_Bytes > Link_Max) then -- Create a temporary file containing the Ada user object files -- needed by the link. This list is taken from the bind file and is -- output one object per line for maximal compatibility with linkers -- supporting this option. Create_Temp_File (Tname_FD, Tname); -- ??? File descriptor should be checked to not be Invalid_FD. -- ??? Status of Write and Close operations should be checked, and -- failure should occur if a status is wrong. for J in Objs_Begin .. Objs_End loop Write_RF (Linker_Objects.Table (J).all); Response_File_Objects.Increment_Last; Response_File_Objects.Table (Response_File_Objects.Last) := Linker_Objects.Table (J); end loop; Close (Tname_FD, Closing_Status); -- Add the special objects list file option together with the name -- of the temporary file (removing the null character) to the objects -- file table. Linker_Objects.Table (Objs_Begin) := new String'(Object_File_Option & Tname (Tname'First .. Tname'Last - 1)); -- The slots containing these object file names are then removed -- from the objects table so they do not appear in the link. They are -- removed by moving up the linker options and non-Ada object files -- appearing after the Ada object list in the table. declare N : Integer; begin N := Objs_End - Objs_Begin + 1; for J in Objs_End + 1 .. Linker_Objects.Last loop Linker_Objects.Table (J - N + 1) := Linker_Objects.Table (J); end loop; Linker_Objects.Set_Last (Linker_Objects.Last - N + 1); end; end if; -- Process switches and options if Next_Line (Nfirst .. Nlast) /= End_Info then Xlinker_Was_Previous := False; loop if Xlinker_Was_Previous or else Next_Line (Nfirst .. Nlast) = "-Xlinker" then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Next_Line (Nfirst .. Nlast)); elsif Next_Line (Nfirst .. Nlast) = "-static" then GNAT_Static := True; elsif Next_Line (Nfirst .. Nlast) = "-shared" then GNAT_Shared := True; -- Add binder options only if not already set on the command line. -- This rule is a way to control the linker options order. else if Nlast > Nfirst + 2 and then Next_Line (Nfirst .. Nfirst + 1) = "-L" then -- Construct a library search path for use later to locate -- static gnatlib libraries. if Libpath.Last > 1 then Libpath.Increment_Last; Libpath.Table (Libpath.Last) := Path_Separator; end if; for I in Nfirst + 2 .. Nlast loop Libpath.Increment_Last; Libpath.Table (Libpath.Last) := Next_Line (I); end loop; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Next_Line (Nfirst .. Nlast)); elsif Next_Line (Nfirst .. Nlast) = "-lgnarl" or else Next_Line (Nfirst .. Nlast) = "-lgnat" or else Next_Line (1 .. Natural'Min (Nlast, 8 + Library_Version'Length)) = Shared_Lib ("gnarl") or else Next_Line (1 .. Natural'Min (Nlast, 7 + Library_Version'Length)) = Shared_Lib ("gnat") then -- If it is a shared library, remove the library version. -- We will be looking for the static version of the library -- as it is in the same directory as the shared version. if Nlast >= Library_Version'Length and then Next_Line (Nlast - Library_Version'Length + 1 .. Nlast) = Library_Version then -- Set Last to point to last character before the -- library version. Last := Nlast - Library_Version'Length - 1; else Last := Nlast; end if; -- Given a Gnat standard library, search the library path to -- find the library location. -- Shouldn't we abstract a proc here, we are getting awfully -- heavily nested ??? declare File_Path : String_Access; Object_Lib_Extension : constant String := Value (Object_Library_Ext_Ptr); File_Name : constant String := "lib" & Next_Line (Nfirst + 2 .. Last) & Object_Lib_Extension; Run_Path_Opt : constant String := Value (Run_Path_Option_Ptr); GCC_Index : Natural; Run_Path_Opt_Index : Natural := 0; begin File_Path := Locate_Regular_File (File_Name, String (Libpath.Table (1 .. Libpath.Last))); if File_Path /= null then if GNAT_Static then -- If static gnatlib found, explicitly specify to -- overcome possible linker default usage of shared -- version. Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(File_Path.all); elsif GNAT_Shared then if Opt.Run_Path_Option then -- If shared gnatlib desired, add appropriate -- system specific switch so that it can be -- located at runtime. if Run_Path_Opt'Length /= 0 then -- Output the system specific linker command -- that allows the image activator to find -- the shared library at runtime. Also add -- path to find libgcc_s.so, if relevant. declare Path : String (1 .. File_Path'Length + 15); Path_Last : constant Natural := File_Path'Length; begin Path (1 .. File_Path'Length) := File_Path.all; -- To find the location of the shared version -- of libgcc, we look for "gcc-lib" in the -- path of the library. However, this -- subdirectory is no longer present in -- recent versions of GCC. So, we look for -- the last subdirectory "lib" in the path. GCC_Index := Index (Path (1 .. Path_Last), "gcc-lib"); if GCC_Index /= 0 then -- The shared version of libgcc is -- located in the parent directory. GCC_Index := GCC_Index - 1; else GCC_Index := Index (Path (1 .. Path_Last), "/lib/"); if GCC_Index = 0 then GCC_Index := Index (Path (1 .. Path_Last), Directory_Separator & "lib" & Directory_Separator); end if; -- If we have found a "lib" subdir in -- the path to libgnat, the possible -- shared libgcc of interest by default -- is in libgcc_subdir at the same -- level. if GCC_Index /= 0 then declare Subdir : constant String := Value (Libgcc_Subdir_Ptr); begin Path (GCC_Index + 1 .. GCC_Index + Subdir'Length) := Subdir; GCC_Index := GCC_Index + Subdir'Length; end; end if; end if; -- Look for an eventual run_path_option in -- the linker switches. if Separate_Run_Path_Options then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String' (Run_Path_Opt & File_Path (1 .. File_Path'Length - File_Name'Length)); if GCC_Index /= 0 then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String' (Run_Path_Opt & Path (1 .. GCC_Index)); end if; else for J in reverse 1 .. Linker_Options.Last loop if Linker_Options.Table (J) /= null and then Linker_Options.Table (J)'Length > Run_Path_Opt'Length and then Linker_Options.Table (J) (1 .. Run_Path_Opt'Length) = Run_Path_Opt then -- We have found an already -- specified run_path_option: -- we will add to this -- switch, because only one -- run_path_option should be -- specified. Run_Path_Opt_Index := J; exit; end if; end loop; -- If there is no run_path_option, we -- need to add one. if Run_Path_Opt_Index = 0 then Linker_Options.Increment_Last; end if; if GCC_Index = 0 then if Run_Path_Opt_Index = 0 then Linker_Options.Table (Linker_Options.Last) := new String' (Run_Path_Opt & File_Path (1 .. File_Path'Length - File_Name'Length)); else Linker_Options.Table (Run_Path_Opt_Index) := new String' (Linker_Options.Table (Run_Path_Opt_Index).all & Path_Separator & File_Path (1 .. File_Path'Length - File_Name'Length)); end if; else if Run_Path_Opt_Index = 0 then Linker_Options.Table (Linker_Options.Last) := new String' (Run_Path_Opt & File_Path (1 .. File_Path'Length - File_Name'Length) & Path_Separator & Path (1 .. GCC_Index)); else Linker_Options.Table (Run_Path_Opt_Index) := new String' (Linker_Options.Table (Run_Path_Opt_Index).all & Path_Separator & File_Path (1 .. File_Path'Length - File_Name'Length) & Path_Separator & Path (1 .. GCC_Index)); end if; end if; end if; end; end if; end if; -- Then we add the appropriate -l switch Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Next_Line (Nfirst .. Nlast)); end if; else -- If gnatlib library not found, then add it anyway in -- case some other mechanism may find it. Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Next_Line (Nfirst .. Nlast)); end if; end; else Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Next_Line (Nfirst .. Nlast)); end if; end if; Xlinker_Was_Previous := Next_Line (Nfirst .. Nlast) = "-Xlinker"; Get_Next_Line; exit when Next_Line (Nfirst .. Nlast) = End_Info; Next_Line (Nfirst .. Nlast - 8) := Next_Line (Nfirst + 8 .. Nlast); Nlast := Nlast - 8; end loop; end if; -- If -shared was specified, invoke gcc with -shared-libgcc if GNAT_Shared then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := Shared_Libgcc; end if; Status := fclose (Fd); end Process_Binder_File; ----------- -- Usage -- ----------- procedure Usage is begin Write_Str ("Usage: "); Write_Str (Base_Command_Name.all); Write_Str (" switches mainprog.ali [non-Ada-objects] [linker-options]"); Write_Eol; Write_Eol; Write_Line (" mainprog.ali the ALI file of the main program"); Write_Eol; Write_Eol; Display_Usage_Version_And_Help; Write_Line (" -f Force object file list to be generated"); Write_Line (" -g Compile binder source file with debug information"); Write_Line (" -n Do not compile the binder source file"); Write_Line (" -P Process files for use by CodePeer"); Write_Line (" -R Do not use a run_path_option"); Write_Line (" -v Verbose mode"); Write_Line (" -v -v Very verbose mode"); Write_Eol; Write_Line (" -o nam Use 'nam' as the name of the executable"); Write_Line (" -Bdir Load compiler executables from dir"); if Is_Supported (Map_File) then Write_Line (" -Mmap Create map file map"); Write_Line (" -M Create map file mainprog.map"); end if; Write_Line (" --GCC=comp Use 'comp' as the compiler rather than 'gcc'"); Write_Line (" --LINK=lnk Use 'lnk' as the linker rather than 'gcc'"); Write_Eol; Write_Line (" [non-Ada-objects] list of non Ada object files"); Write_Line (" [linker-options] other options for the linker"); end Usage; ------------------ -- Write_Header -- ------------------ procedure Write_Header is begin if Verbose_Mode then Write_Eol; Display_Version ("GNATLINK", "1995"); end if; end Write_Header; ----------------- -- Write_Usage -- ----------------- procedure Write_Usage is begin Write_Header; Usage; end Write_Usage; -- Start of processing for Gnatlink begin -- Add the directory where gnatlink is invoked in front of the path, if -- gnatlink is invoked with directory information. declare Command : constant String := Command_Name; begin for Index in reverse Command'Range loop if Command (Index) = Directory_Separator then declare Absolute_Dir : constant String := Normalize_Pathname (Command (Command'First .. Index)); PATH : constant String := Absolute_Dir & Path_Separator & Getenv ("PATH").all; begin Setenv ("PATH", PATH); end; exit; end if; end loop; end; Base_Command_Name := new String'(Base_Name (Command_Name)); Process_Args; if Argument_Count = 0 or else (Verbose_Mode and then Argument_Count = 1) then Write_Usage; Exit_Program (E_Fatal); end if; -- Initialize packages to be used Csets.Initialize; Snames.Initialize; -- We always compile with -c Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-c"); if Ali_File_Name = null then Exit_With_Error ("no ali file given for link"); end if; if not Is_Regular_File (Ali_File_Name.all) then Exit_With_Error (Ali_File_Name.all & " not found"); end if; -- Read the ALI file of the main subprogram if the binder generated file -- needs to be compiled and no --GCC= switch has been specified. Fetch the -- back end switches from this ALI file and use these switches to compile -- the binder generated file if Compile_Bind_File and then Standard_Gcc then Initialize_ALI; Name_Len := Ali_File_Name'Length; Name_Buffer (1 .. Name_Len) := Ali_File_Name.all; declare use Types; F : constant File_Name_Type := Name_Find; T : Text_Buffer_Ptr; A : ALI_Id; begin -- Load the ALI file T := Read_Library_Info (F, True); -- Read it. Note that we ignore errors, since we only want very -- limited information from the ali file, and likely a slightly -- wrong version will be just fine, though in normal operation -- we don't expect this to happen. A := Scan_ALI (F, T, Ignore_ED => False, Err => False, Ignore_Errors => True); if A /= No_ALI_Id then for Index in Units.Table (ALIs.Table (A).First_Unit).First_Arg .. Units.Table (ALIs.Table (A).First_Unit).Last_Arg loop -- Do not compile with the front end switches. However, --RTS -- is to be dealt with specially because it needs to be passed -- to compile the file generated by the binder. declare Arg : String_Ptr renames Args.Table (Index); begin if not Is_Front_End_Switch (Arg.all) then Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := String_Access (Arg); -- GNAT doesn't support GCC's multilib mechanism when it -- is configured with --disable-libada. This means that, -- when a multilib switch is used to request a particular -- compilation mode, the corresponding --RTS switch must -- also be specified. It is convenient to eliminate the -- redundancy by keying the compilation mode on a single -- switch, namely --RTS, and have the compiler reinstate -- the multilib switch (see gcc-interface/lang-specs.h). -- This switch must be passed to the driver at link time. if Arg'Length = 5 and then Arg (Arg'First + 1 .. Arg'First + 4) = "mrtp" then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := String_Access (Arg); end if; elsif Arg'Length > 5 and then Arg (Arg'First + 2 .. Arg'First + 5) = "RTS=" then Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := String_Access (Arg); -- Set the RTS_*_Path_Name variables, so that -- the correct directories will be set when -- Osint.Add_Default_Search_Dirs will be called later. Opt.RTS_Src_Path_Name := Get_RTS_Search_Dir (Arg (Arg'First + 6 .. Arg'Last), Include); Opt.RTS_Lib_Path_Name := Get_RTS_Search_Dir (Arg (Arg'First + 6 .. Arg'Last), Objects); end if; end; end loop; end if; end; end if; -- Get target parameters Osint.Add_Default_Search_Dirs; Targparm.Get_Target_Parameters; -- Compile the bind file with the following switches: -- -gnatA stops reading gnat.adc, since we don't know what -- pragmas would work, and we do not need it anyway. -- -gnatWb allows brackets coding for wide characters -- -gnatiw allows wide characters in identifiers. This is needed -- because bindgen uses brackets encoding for all upper -- half and wide characters in identifier names. -- In addition, in CodePeer mode compile with -x adascil -gnatcC Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-gnatA"); Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-gnatWb"); Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-gnatiw"); if Opt.CodePeer_Mode then Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-x"); Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("adascil"); Binder_Options_From_ALI.Increment_Last; Binder_Options_From_ALI.Table (Binder_Options_From_ALI.Last) := new String'("-gnatcC"); end if; -- Locate all the necessary programs and verify required files are present Gcc_Path := System.OS_Lib.Locate_Exec_On_Path (Gcc.all); if Gcc_Path = null then Exit_With_Error ("Couldn't locate " & Gcc.all); end if; if Linker_Path = null then Linker_Path := Gcc_Path; end if; Write_Header; Target_Debuggable_Suffix := Get_Target_Debuggable_Suffix; -- If no output name specified, then use the base name of .ali file name if Output_File_Name = null then Output_File_Name := new String'(Base_Name (Ali_File_Name.all) & Target_Debuggable_Suffix.all); end if; Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'("-o"); Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := new String'(Output_File_Name.all); Check_Existing_Executable (Output_File_Name.all); -- Warn if main program is called "test", as that may be a built-in command -- on Unix. On non-Unix systems executables have a suffix, so the warning -- will not appear. However, do not warn in the case of a cross compiler. -- Assume this is a cross tool if the executable name is not gnatlink. -- Note that the executable name is also gnatlink on windows, but in that -- case the output file name will be test.exe rather than test. if Base_Command_Name.all = "gnatlink" and then Output_File_Name.all = "test" then Error_Msg ("warning: executable name """ & Output_File_Name.all & """ may conflict with shell command"); end if; -- Special warnings for worrisome file names on windows -- Recent versions of Windows by default cause privilege escalation if an -- executable file name contains substrings "install", "setup", "update" -- or "patch". A console application will typically fail to load as a -- result, so we should warn the user. Bad_File_Names_On_Windows : declare FN : String := Output_File_Name.all; procedure Check_File_Name (S : String); -- Warn if file name has the substring S procedure Check_File_Name (S : String) is begin for J in 1 .. FN'Length - (S'Length - 1) loop if FN (J .. J + (S'Length - 1)) = S then Error_Msg ("warning: executable file name """ & Output_File_Name.all & """ contains substring """ & S & '"'); Error_Msg ("admin privileges may be required to run this file"); end if; end loop; end Check_File_Name; -- Start of processing for Bad_File_Names_On_Windows begin for J in FN'Range loop FN (J) := Csets.Fold_Lower (FN (J)); end loop; -- For now we detect Windows by its executable suffix of .exe if Target_Debuggable_Suffix.all = ".exe" then Check_File_Name ("install"); Check_File_Name ("setup"); Check_File_Name ("update"); Check_File_Name ("patch"); end if; end Bad_File_Names_On_Windows; -- If -M switch was specified, add the switches to create the map file if Create_Map_File then declare Map_Name : constant String := Base_Name (Ali_File_Name.all) & ".map"; Switches : String_List_Access; begin Convert (Map_File, Map_Name, Switches); if Switches /= null then for J in Switches'Range loop Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := Switches (J); end loop; end if; end; end if; -- Perform consistency checks -- Transform the .ali file name into the binder output file name Make_Binder_File_Names : declare Fname : constant String := Base_Name (Ali_File_Name.all); Fname_Len : Integer := Fname'Length; function Get_Maximum_File_Name_Length return Integer; pragma Import (C, Get_Maximum_File_Name_Length, "__gnat_get_maximum_file_name_length"); Maximum_File_Name_Length : constant Integer := Get_Maximum_File_Name_Length; Bind_File_Prefix : Types.String_Ptr; -- Contains prefix used for bind files begin -- Set prefix Bind_File_Prefix := new String'("b~"); -- If the length of the binder file becomes too long due to -- the addition of the "b?" prefix, then truncate it. if Maximum_File_Name_Length > 0 then while Fname_Len > Maximum_File_Name_Length - Bind_File_Prefix.all'Length loop Fname_Len := Fname_Len - 1; end loop; end if; declare Fnam : constant String := Bind_File_Prefix.all & Fname (Fname'First .. Fname'First + Fname_Len - 1); begin Binder_Spec_Src_File := new String'(Fnam & ".ads"); Binder_Body_Src_File := new String'(Fnam & ".adb"); Binder_Ali_File := new String'(Fnam & ".ali"); Binder_Obj_File := new String'(Fnam & Get_Target_Object_Suffix.all); end; if Fname_Len /= Fname'Length then Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := new String'("-o"); Binder_Options.Increment_Last; Binder_Options.Table (Binder_Options.Last) := Binder_Obj_File; end if; end Make_Binder_File_Names; Process_Binder_File (Binder_Body_Src_File.all & ASCII.NUL); -- Compile the binder file. This is fast, so we always do it, unless -- specifically told not to by the -n switch if Compile_Bind_File then Bind_Step : declare Success : Boolean; Args : Argument_List (1 .. Binder_Options_From_ALI.Last + Binder_Options.Last + 1); begin for J in 1 .. Binder_Options_From_ALI.Last loop Args (J) := Binder_Options_From_ALI.Table (J); end loop; for J in 1 .. Binder_Options.Last loop Args (Binder_Options_From_ALI.Last + J) := Binder_Options.Table (J); end loop; -- Use the full path of the binder generated source, so that it is -- guaranteed that the debugger will find this source, even with -- STABS. Args (Args'Last) := new String'(Normalize_Pathname (Binder_Body_Src_File.all)); if Verbose_Mode then Write_Str (Base_Name (Gcc_Path.all)); for J in Args'Range loop Write_Str (" "); Write_Str (Args (J).all); end loop; Write_Eol; end if; System.OS_Lib.Spawn (Gcc_Path.all, Args, Success); if not Success then Exit_Program (E_Fatal); end if; end Bind_Step; end if; -- In CodePeer mode, there's nothing left to do after the binder file has -- been compiled. if Opt.CodePeer_Mode then if Tname_FD /= Invalid_FD then Delete (Tname); end if; return; end if; -- Now, actually link the program Link_Step : declare Num_Args : Natural := (Linker_Options.Last - Linker_Options.First + 1) + (Gcc_Linker_Options.Last - Gcc_Linker_Options.First + 1) + (Linker_Objects.Last - Linker_Objects.First + 1); Stack_Op : Boolean := False; begin -- Remove duplicate stack size setting from the Linker_Options table. -- The stack setting option "-Xlinker --stack=R,C" can be found -- in one line when set by a pragma Linker_Options or in two lines -- ("-Xlinker" then "--stack=R,C") when set on the command line. We -- also check for the "-Wl,--stack=R" style option. -- We must remove the second stack setting option instance because -- the one on the command line will always be the first one. And any -- subsequent stack setting option will overwrite the previous one. -- This is done especially for GNAT/NT where we set the stack size -- for tasking programs by a pragma in the NT specific tasking -- package System.Task_Primitives.Operations. -- Note: This is not a FOR loop that runs from Linker_Options.First -- to Linker_Options.Last, since operations within the loop can -- modify the length of the table. Clean_Link_Option_Set : declare J : Natural; Shared_Libgcc_Seen : Boolean := False; begin J := Linker_Options.First; while J <= Linker_Options.Last loop if Linker_Options.Table (J).all = "-Xlinker" and then J < Linker_Options.Last and then Linker_Options.Table (J + 1)'Length > 8 and then Linker_Options.Table (J + 1) (1 .. 8) = "--stack=" then if Stack_Op then Linker_Options.Table (J .. Linker_Options.Last - 2) := Linker_Options.Table (J + 2 .. Linker_Options.Last); Linker_Options.Decrement_Last; Linker_Options.Decrement_Last; Num_Args := Num_Args - 2; else Stack_Op := True; end if; end if; -- Remove duplicate -shared-libgcc switch if Linker_Options.Table (J).all = Shared_Libgcc_String then if Shared_Libgcc_Seen then Linker_Options.Table (J .. Linker_Options.Last - 1) := Linker_Options.Table (J + 1 .. Linker_Options.Last); Linker_Options.Decrement_Last; Num_Args := Num_Args - 1; else Shared_Libgcc_Seen := True; end if; end if; -- Here we just check for a canonical form that matches the -- pragma Linker_Options set in the NT runtime. if (Linker_Options.Table (J)'Length > 17 and then Linker_Options.Table (J) (1 .. 17) = "-Xlinker --stack=") or else (Linker_Options.Table (J)'Length > 12 and then Linker_Options.Table (J) (1 .. 12) = "-Wl,--stack=") then if Stack_Op then Linker_Options.Table (J .. Linker_Options.Last - 1) := Linker_Options.Table (J + 1 .. Linker_Options.Last); Linker_Options.Decrement_Last; Num_Args := Num_Args - 1; else Stack_Op := True; end if; end if; J := J + 1; end loop; if Linker_Path = Gcc_Path then -- For systems where the default is to link statically with -- libgcc, if gcc is not called with -shared-libgcc, call it -- with -static-libgcc, as there are some platforms where one -- of these two switches is compulsory to link. if Shared_Libgcc_Default = 'T' and then not Shared_Libgcc_Seen then Linker_Options.Increment_Last; Linker_Options.Table (Linker_Options.Last) := Static_Libgcc; Num_Args := Num_Args + 1; end if; end if; end Clean_Link_Option_Set; -- Prepare arguments for call to linker Call_Linker : declare Success : Boolean; Args : Argument_List (1 .. Num_Args + 1); Index : Integer := Args'First; begin Args (Index) := Binder_Obj_File; -- Add the object files and any -largs libraries for J in Linker_Objects.First .. Linker_Objects.Last loop Index := Index + 1; Args (Index) := Linker_Objects.Table (J); end loop; -- Add the linker options from the binder file for J in Linker_Options.First .. Linker_Options.Last loop Index := Index + 1; Args (Index) := Linker_Options.Table (J); end loop; -- Finally add the libraries from the --GCC= switch for J in Gcc_Linker_Options.First .. Gcc_Linker_Options.Last loop Index := Index + 1; Args (Index) := Gcc_Linker_Options.Table (J); end loop; if Verbose_Mode then Write_Str (Linker_Path.all); for J in Args'Range loop Write_Str (" "); Write_Str (Args (J).all); end loop; Write_Eol; -- If we are on very verbose mode (-v -v) and a response file -- is used we display its content. if Very_Verbose_Mode and then Tname_FD /= Invalid_FD then Write_Eol; Write_Str ("Response file (" & Tname (Tname'First .. Tname'Last - 1) & ") content : "); Write_Eol; for J in Response_File_Objects.First .. Response_File_Objects.Last loop Write_Str (Response_File_Objects.Table (J).all); Write_Eol; end loop; Write_Eol; end if; end if; System.OS_Lib.Spawn (Linker_Path.all, Args, Success); -- Delete the temporary file used in conjunction with linking if one -- was created. See Process_Bind_File for details. if Tname_FD /= Invalid_FD then Delete (Tname); end if; if not Success then Error_Msg ("error when calling " & Linker_Path.all); Exit_Program (E_Fatal); end if; end Call_Linker; end Link_Step; -- Only keep the binder output file and it's associated object -- file if compiling with the -g option. These files are only -- useful if debugging. if not Debug_Flag_Present then Delete (Binder_Ali_File.all & ASCII.NUL); Delete (Binder_Spec_Src_File.all & ASCII.NUL); Delete (Binder_Body_Src_File.all & ASCII.NUL); Delete (Binder_Obj_File.all & ASCII.NUL); end if; Exit_Program (E_Success); exception when X : others => Write_Line (Exception_Information (X)); Exit_With_Error ("INTERNAL ERROR. Please report"); end Gnatlink;