------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- G N A T . O S _ L I B -- -- -- -- B o d y -- -- -- -- Copyright (C) 1995-2005 Ada Core Technologies, 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 2, 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 COPYING. If not, write -- -- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, -- -- MA 02111-1307, USA. -- -- -- -- As a special exception, if other files instantiate generics from this -- -- unit, or you link this unit with other files to produce an executable, -- -- this unit does not by itself cause the resulting executable to be -- -- covered by the GNU General Public License. This exception does not -- -- however invalidate any other reasons why the executable file might be -- -- covered by the GNU Public License. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with System.Case_Util; with System.CRTL; with System.Soft_Links; with Unchecked_Conversion; with System; use System; package body GNAT.OS_Lib is OpenVMS : Boolean; -- Note: OpenVMS should be a constant, but it cannot be, because it -- prevents bootstrapping on some platforms. On_Windows : constant Boolean := Directory_Separator = '\'; pragma Import (Ada, OpenVMS, "system__openvms"); -- Needed to avoid doing useless checks when non on a VMS platform (see -- Normalize_Pathname). package SSL renames System.Soft_Links; -- The following are used by Create_Temp_File Current_Temp_File_Name : String := "GNAT-TEMP-000000.TMP"; -- Name of the temp file last created Temp_File_Name_Last_Digit : constant Positive := Current_Temp_File_Name'Last - 4; -- Position of the last digit in Current_Temp_File_Name Max_Attempts : constant := 100; -- The maximum number of attempts to create a new temp file ----------------------- -- Local Subprograms -- ----------------------- function Args_Length (Args : Argument_List) return Natural; -- Returns total number of characters needed to create a string -- of all Args terminated by ASCII.NUL characters function C_String_Length (S : Address) return Integer; -- Returns the length of a C string. Does check for null address -- (returns 0). procedure Spawn_Internal (Program_Name : String; Args : Argument_List; Result : out Integer; Pid : out Process_Id; Blocking : Boolean); -- Internal routine to implement the two Spawn (blocking/non blocking) -- routines. If Blocking is set to True then the spawn is blocking -- otherwise it is non blocking. In this latter case the Pid contains -- the process id number. The first three parameters are as in Spawn. -- Note that Spawn_Internal normalizes the argument list before calling -- the low level system spawn routines (see Normalize_Arguments). Note -- that Normalize_Arguments is designed to do nothing if it is called -- more than once, so calling Normalize_Arguments before calling one -- of the spawn routines is fine. function To_Path_String_Access (Path_Addr : Address; Path_Len : Integer) return String_Access; -- Converts a C String to an Ada String. We could do this making use of -- Interfaces.C.Strings but we prefer not to import that entire package --------- -- "<" -- --------- function "<" (X, Y : OS_Time) return Boolean is begin return Long_Integer (X) < Long_Integer (Y); end "<"; ---------- -- "<=" -- ---------- function "<=" (X, Y : OS_Time) return Boolean is begin return Long_Integer (X) <= Long_Integer (Y); end "<="; --------- -- ">" -- --------- function ">" (X, Y : OS_Time) return Boolean is begin return Long_Integer (X) > Long_Integer (Y); end ">"; ---------- -- ">=" -- ---------- function ">=" (X, Y : OS_Time) return Boolean is begin return Long_Integer (X) >= Long_Integer (Y); end ">="; ----------------- -- Args_Length -- ----------------- function Args_Length (Args : Argument_List) return Natural is Len : Natural := 0; begin for J in Args'Range loop Len := Len + Args (J)'Length + 1; -- One extra for ASCII.NUL end loop; return Len; end Args_Length; ----------------------------- -- Argument_String_To_List -- ----------------------------- function Argument_String_To_List (Arg_String : String) return Argument_List_Access is Max_Args : constant Integer := Arg_String'Length; New_Argv : Argument_List (1 .. Max_Args); New_Argc : Natural := 0; Idx : Integer; begin Idx := Arg_String'First; loop exit when Idx > Arg_String'Last; declare Quoted : Boolean := False; Backqd : Boolean := False; Old_Idx : Integer; begin Old_Idx := Idx; loop -- An unquoted space is the end of an argument if not (Backqd or Quoted) and then Arg_String (Idx) = ' ' then exit; -- Start of a quoted string elsif not (Backqd or Quoted) and then Arg_String (Idx) = '"' then Quoted := True; -- End of a quoted string and end of an argument elsif (Quoted and not Backqd) and then Arg_String (Idx) = '"' then Idx := Idx + 1; exit; -- Following character is backquoted elsif Arg_String (Idx) = '\' then Backqd := True; -- Turn off backquoting after advancing one character elsif Backqd then Backqd := False; end if; Idx := Idx + 1; exit when Idx > Arg_String'Last; end loop; -- Found an argument New_Argc := New_Argc + 1; New_Argv (New_Argc) := new String'(Arg_String (Old_Idx .. Idx - 1)); -- Skip extraneous spaces while Idx <= Arg_String'Last and then Arg_String (Idx) = ' ' loop Idx := Idx + 1; end loop; end; end loop; return new Argument_List'(New_Argv (1 .. New_Argc)); end Argument_String_To_List; --------------------- -- C_String_Length -- --------------------- function C_String_Length (S : Address) return Integer is function Strlen (S : Address) return Integer; pragma Import (C, Strlen, "strlen"); begin if S = Null_Address then return 0; else return Strlen (S); end if; end C_String_Length; ----------- -- Close -- ----------- procedure Close (FD : File_Descriptor) is procedure C_Close (FD : File_Descriptor); pragma Import (C, C_Close, "close"); begin C_Close (FD); end Close; procedure Close (FD : File_Descriptor; Status : out Boolean) is function C_Close (FD : File_Descriptor) return Integer; pragma Import (C, C_Close, "close"); begin Status := (C_Close (FD) = 0); end Close; --------------- -- Copy_File -- --------------- procedure Copy_File (Name : String; Pathname : String; Success : out Boolean; Mode : Copy_Mode := Copy; Preserve : Attribute := Time_Stamps) is From : File_Descriptor; To : File_Descriptor; Copy_Error : exception; -- Internal exception raised to signal error in copy function Build_Path (Dir : String; File : String) return String; -- Returns pathname Dir catenated with File adding the directory -- separator only if needed. procedure Copy (From, To : File_Descriptor); -- Read data from From and place them into To. In both cases the -- operations uses the current file position. Raises Constraint_Error -- if a problem occurs during the copy. procedure Copy_To (To_Name : String); -- Does a straight copy from source to designated destination file ---------------- -- Build_Path -- ---------------- function Build_Path (Dir : String; File : String) return String is Res : String (1 .. Dir'Length + File'Length + 1); Base_File_Ptr : Integer; -- The base file name is File (Base_File_Ptr + 1 .. File'Last) function Is_Dirsep (C : Character) return Boolean; pragma Inline (Is_Dirsep); -- Returns True if C is a directory separator. On Windows we -- handle both styles of directory separator. --------------- -- Is_Dirsep -- --------------- function Is_Dirsep (C : Character) return Boolean is begin return C = Directory_Separator or else C = '/'; end Is_Dirsep; begin -- Find base file name Base_File_Ptr := File'Last; while Base_File_Ptr >= File'First loop exit when Is_Dirsep (File (Base_File_Ptr)); Base_File_Ptr := Base_File_Ptr - 1; end loop; declare Base_File : String renames File (Base_File_Ptr + 1 .. File'Last); begin Res (1 .. Dir'Length) := Dir; if Is_Dirsep (Dir (Dir'Last)) then Res (Dir'Length + 1 .. Dir'Length + Base_File'Length) := Base_File; return Res (1 .. Dir'Length + Base_File'Length); else Res (Dir'Length + 1) := Directory_Separator; Res (Dir'Length + 2 .. Dir'Length + 1 + Base_File'Length) := Base_File; return Res (1 .. Dir'Length + 1 + Base_File'Length); end if; end; end Build_Path; ---------- -- Copy -- ---------- procedure Copy (From, To : File_Descriptor) is Buf_Size : constant := 200_000; Buffer : array (1 .. Buf_Size) of Character; R : Integer; W : Integer; Status_From : Boolean; Status_To : Boolean; -- Statuses for the calls to Close begin if From = Invalid_FD or else To = Invalid_FD then raise Copy_Error; end if; loop R := Read (From, Buffer (1)'Address, Buf_Size); -- For VMS, the buffer may not be full. So, we need to try again -- until there is nothing to read. exit when R = 0; W := Write (To, Buffer (1)'Address, R); if W < R then -- Problem writing data, could be a disk full. Close files -- without worrying about status, since we are raising a -- Copy_Error exception in any case. Close (From, Status_From); Close (To, Status_To); raise Copy_Error; end if; end loop; Close (From, Status_From); Close (To, Status_To); if not (Status_From and Status_To) then raise Copy_Error; end if; end Copy; ------------- -- Copy_To -- ------------- procedure Copy_To (To_Name : String) is function Copy_Attributes (From, To : System.Address; Mode : Integer) return Integer; pragma Import (C, Copy_Attributes, "__gnat_copy_attribs"); -- Mode = 0 - copy only time stamps. -- Mode = 1 - copy time stamps and read/write/execute attributes C_From : String (1 .. Name'Length + 1); C_To : String (1 .. To_Name'Length + 1); begin From := Open_Read (Name, Binary); To := Create_File (To_Name, Binary); Copy (From, To); -- Copy attributes C_From (1 .. Name'Length) := Name; C_From (C_From'Last) := ASCII.Nul; C_To (1 .. To_Name'Length) := To_Name; C_To (C_To'Last) := ASCII.Nul; case Preserve is when Time_Stamps => if Copy_Attributes (C_From'Address, C_To'Address, 0) = -1 then raise Copy_Error; end if; when Full => if Copy_Attributes (C_From'Address, C_To'Address, 1) = -1 then raise Copy_Error; end if; when None => null; end case; end Copy_To; -- Start of processing for Copy_File begin Success := True; -- The source file must exist if not Is_Regular_File (Name) then raise Copy_Error; end if; -- The source file exists case Mode is -- Copy case, target file must not exist when Copy => -- If the target file exists, we have an error if Is_Regular_File (Pathname) then raise Copy_Error; -- Case of target is a directory elsif Is_Directory (Pathname) then declare Dest : constant String := Build_Path (Pathname, Name); begin -- If the target file exists, we have an error -- otherwise do the copy. if Is_Regular_File (Dest) then raise Copy_Error; else Copy_To (Dest); end if; end; -- Case of normal copy to file (destination does not exist) else Copy_To (Pathname); end if; -- Overwrite case, destination file may or may not exist when Overwrite => if Is_Directory (Pathname) then Copy_To (Build_Path (Pathname, Name)); else Copy_To (Pathname); end if; -- Appending case, destination file may or may not exist when Append => -- Appending to existing file if Is_Regular_File (Pathname) then -- Append mode and destination file exists, append data -- at the end of Pathname. From := Open_Read (Name, Binary); To := Open_Read_Write (Pathname, Binary); Lseek (To, 0, Seek_End); Copy (From, To); -- Appending to directory, not allowed elsif Is_Directory (Pathname) then raise Copy_Error; -- Appending when target file does not exist else Copy_To (Pathname); end if; end case; -- All error cases are caught here exception when Copy_Error => Success := False; end Copy_File; procedure Copy_File (Name : C_File_Name; Pathname : C_File_Name; Success : out Boolean; Mode : Copy_Mode := Copy; Preserve : Attribute := Time_Stamps) is Ada_Name : String_Access := To_Path_String_Access (Name, C_String_Length (Name)); Ada_Pathname : String_Access := To_Path_String_Access (Pathname, C_String_Length (Pathname)); begin Copy_File (Ada_Name.all, Ada_Pathname.all, Success, Mode, Preserve); Free (Ada_Name); Free (Ada_Pathname); end Copy_File; ---------------------- -- Copy_Time_Stamps -- ---------------------- procedure Copy_Time_Stamps (Source, Dest : String; Success : out Boolean) is function Copy_Attributes (From, To : System.Address; Mode : Integer) return Integer; pragma Import (C, Copy_Attributes, "__gnat_copy_attribs"); -- Mode = 0 - copy only time stamps. -- Mode = 1 - copy time stamps and read/write/execute attributes begin if Is_Regular_File (Source) and then Is_Writable_File (Dest) then declare C_Source : String (1 .. Source'Length + 1); C_Dest : String (1 .. Dest'Length + 1); begin C_Source (1 .. C_Source'Length) := Source; C_Source (C_Source'Last) := ASCII.Nul; C_Dest (1 .. C_Dest'Length) := Dest; C_Dest (C_Dest'Last) := ASCII.Nul; if Copy_Attributes (C_Source'Address, C_Dest'Address, 0) = -1 then Success := False; else Success := True; end if; end; else Success := False; end if; end Copy_Time_Stamps; procedure Copy_Time_Stamps (Source, Dest : C_File_Name; Success : out Boolean) is Ada_Source : String_Access := To_Path_String_Access (Source, C_String_Length (Source)); Ada_Dest : String_Access := To_Path_String_Access (Dest, C_String_Length (Dest)); begin Copy_Time_Stamps (Ada_Source.all, Ada_Dest.all, Success); Free (Ada_Source); Free (Ada_Dest); end Copy_Time_Stamps; ----------------- -- Create_File -- ----------------- function Create_File (Name : C_File_Name; Fmode : Mode) return File_Descriptor is function C_Create_File (Name : C_File_Name; Fmode : Mode) return File_Descriptor; pragma Import (C, C_Create_File, "__gnat_open_create"); begin return C_Create_File (Name, Fmode); end Create_File; function Create_File (Name : String; Fmode : Mode) return File_Descriptor is C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return Create_File (C_Name (C_Name'First)'Address, Fmode); end Create_File; --------------------- -- Create_New_File -- --------------------- function Create_New_File (Name : C_File_Name; Fmode : Mode) return File_Descriptor is function C_Create_New_File (Name : C_File_Name; Fmode : Mode) return File_Descriptor; pragma Import (C, C_Create_New_File, "__gnat_open_new"); begin return C_Create_New_File (Name, Fmode); end Create_New_File; function Create_New_File (Name : String; Fmode : Mode) return File_Descriptor is C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return Create_New_File (C_Name (C_Name'First)'Address, Fmode); end Create_New_File; ----------------------------- -- Create_Output_Text_File -- ----------------------------- function Create_Output_Text_File (Name : String) return File_Descriptor is function C_Create_File (Name : C_File_Name) return File_Descriptor; pragma Import (C, C_Create_File, "__gnat_create_output_file"); C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return C_Create_File (C_Name (C_Name'First)'Address); end Create_Output_Text_File; ---------------------- -- Create_Temp_File -- ---------------------- procedure Create_Temp_File (FD : out File_Descriptor; Name : out Temp_File_Name) is function Open_New_Temp (Name : System.Address; Fmode : Mode) return File_Descriptor; pragma Import (C, Open_New_Temp, "__gnat_open_new_temp"); begin FD := Open_New_Temp (Name'Address, Binary); end Create_Temp_File; procedure Create_Temp_File (FD : out File_Descriptor; Name : out String_Access) is Pos : Positive; Attempts : Natural := 0; Current : String (Current_Temp_File_Name'Range); begin -- Loop until a new temp file can be created File_Loop : loop Locked : begin -- We need to protect global variable Current_Temp_File_Name -- against concurrent access by different tasks. SSL.Lock_Task.all; -- Start at the last digit Pos := Temp_File_Name_Last_Digit; Digit_Loop : loop -- Increment the digit by one case Current_Temp_File_Name (Pos) is when '0' .. '8' => Current_Temp_File_Name (Pos) := Character'Succ (Current_Temp_File_Name (Pos)); exit Digit_Loop; when '9' => -- For 9, set the digit to 0 and go to the previous digit Current_Temp_File_Name (Pos) := '0'; Pos := Pos - 1; when others => -- If it is not a digit, then there are no available -- temp file names. Return Invalid_FD. There is almost -- no that this code will be ever be executed, since -- it would mean that there are one million temp files -- in the same directory! SSL.Unlock_Task.all; FD := Invalid_FD; Name := null; exit File_Loop; end case; end loop Digit_Loop; Current := Current_Temp_File_Name; -- We can now release the lock, because we are no longer -- accessing Current_Temp_File_Name. SSL.Unlock_Task.all; exception when others => SSL.Unlock_Task.all; raise; end Locked; -- Attempt to create the file FD := Create_New_File (Current, Binary); if FD /= Invalid_FD then Name := new String'(Current); exit File_Loop; end if; if not Is_Regular_File (Current) then -- If the file does not already exist and we are unable to create -- it, we give up after Max_Attempts. Otherwise, we try again with -- the next available file name. Attempts := Attempts + 1; if Attempts >= Max_Attempts then FD := Invalid_FD; Name := null; exit File_Loop; end if; end if; end loop File_Loop; end Create_Temp_File; ----------------- -- Delete_File -- ----------------- procedure Delete_File (Name : Address; Success : out Boolean) is R : Integer; function unlink (A : Address) return Integer; pragma Import (C, unlink, "unlink"); begin R := unlink (Name); Success := (R = 0); end Delete_File; procedure Delete_File (Name : String; Success : out Boolean) is C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; Delete_File (C_Name'Address, Success); end Delete_File; --------------------- -- File_Time_Stamp -- --------------------- function File_Time_Stamp (FD : File_Descriptor) return OS_Time is function File_Time (FD : File_Descriptor) return OS_Time; pragma Import (C, File_Time, "__gnat_file_time_fd"); begin return File_Time (FD); end File_Time_Stamp; function File_Time_Stamp (Name : C_File_Name) return OS_Time is function File_Time (Name : Address) return OS_Time; pragma Import (C, File_Time, "__gnat_file_time_name"); begin return File_Time (Name); end File_Time_Stamp; function File_Time_Stamp (Name : String) return OS_Time is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return File_Time_Stamp (F_Name'Address); end File_Time_Stamp; --------------------------- -- Get_Debuggable_Suffix -- --------------------------- function Get_Debuggable_Suffix return String_Access is procedure Get_Suffix_Ptr (Length, Ptr : Address); pragma Import (C, Get_Suffix_Ptr, "__gnat_get_debuggable_suffix_ptr"); procedure Strncpy (Astring_Addr, Cstring : Address; N : Integer); pragma Import (C, Strncpy, "strncpy"); Suffix_Ptr : Address; Suffix_Length : Integer; Result : String_Access; begin Get_Suffix_Ptr (Suffix_Length'Address, Suffix_Ptr'Address); Result := new String (1 .. Suffix_Length); if Suffix_Length > 0 then Strncpy (Result.all'Address, Suffix_Ptr, Suffix_Length); end if; return Result; end Get_Debuggable_Suffix; --------------------------- -- Get_Executable_Suffix -- --------------------------- function Get_Executable_Suffix return String_Access is procedure Get_Suffix_Ptr (Length, Ptr : Address); pragma Import (C, Get_Suffix_Ptr, "__gnat_get_executable_suffix_ptr"); procedure Strncpy (Astring_Addr, Cstring : Address; N : Integer); pragma Import (C, Strncpy, "strncpy"); Suffix_Ptr : Address; Suffix_Length : Integer; Result : String_Access; begin Get_Suffix_Ptr (Suffix_Length'Address, Suffix_Ptr'Address); Result := new String (1 .. Suffix_Length); if Suffix_Length > 0 then Strncpy (Result.all'Address, Suffix_Ptr, Suffix_Length); end if; return Result; end Get_Executable_Suffix; ----------------------- -- Get_Object_Suffix -- ----------------------- function Get_Object_Suffix return String_Access is procedure Get_Suffix_Ptr (Length, Ptr : Address); pragma Import (C, Get_Suffix_Ptr, "__gnat_get_object_suffix_ptr"); procedure Strncpy (Astring_Addr, Cstring : Address; N : Integer); pragma Import (C, Strncpy, "strncpy"); Suffix_Ptr : Address; Suffix_Length : Integer; Result : String_Access; begin Get_Suffix_Ptr (Suffix_Length'Address, Suffix_Ptr'Address); Result := new String (1 .. Suffix_Length); if Suffix_Length > 0 then Strncpy (Result.all'Address, Suffix_Ptr, Suffix_Length); end if; return Result; end Get_Object_Suffix; ------------ -- Getenv -- ------------ function Getenv (Name : String) return String_Access is procedure Get_Env_Value_Ptr (Name, Length, Ptr : Address); pragma Import (C, Get_Env_Value_Ptr, "__gnat_get_env_value_ptr"); procedure Strncpy (Astring_Addr, Cstring : Address; N : Integer); pragma Import (C, Strncpy, "strncpy"); Env_Value_Ptr : aliased Address; Env_Value_Length : aliased Integer; F_Name : aliased String (1 .. Name'Length + 1); Result : String_Access; begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; Get_Env_Value_Ptr (F_Name'Address, Env_Value_Length'Address, Env_Value_Ptr'Address); Result := new String (1 .. Env_Value_Length); if Env_Value_Length > 0 then Strncpy (Result.all'Address, Env_Value_Ptr, Env_Value_Length); end if; return Result; end Getenv; ------------ -- GM_Day -- ------------ function GM_Day (Date : OS_Time) return Day_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return D; end GM_Day; ------------- -- GM_Hour -- ------------- function GM_Hour (Date : OS_Time) return Hour_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return H; end GM_Hour; --------------- -- GM_Minute -- --------------- function GM_Minute (Date : OS_Time) return Minute_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return Mn; end GM_Minute; -------------- -- GM_Month -- -------------- function GM_Month (Date : OS_Time) return Month_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return Mo; end GM_Month; --------------- -- GM_Second -- --------------- function GM_Second (Date : OS_Time) return Second_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return S; end GM_Second; -------------- -- GM_Split -- -------------- procedure GM_Split (Date : OS_Time; Year : out Year_Type; Month : out Month_Type; Day : out Day_Type; Hour : out Hour_Type; Minute : out Minute_Type; Second : out Second_Type) is procedure To_GM_Time (P_Time_T, P_Year, P_Month, P_Day, P_Hours, P_Mins, P_Secs : Address); pragma Import (C, To_GM_Time, "__gnat_to_gm_time"); T : OS_Time := Date; Y : Integer; Mo : Integer; D : Integer; H : Integer; Mn : Integer; S : Integer; begin -- Use the global lock because To_GM_Time is not thread safe Locked_Processing : begin SSL.Lock_Task.all; To_GM_Time (T'Address, Y'Address, Mo'Address, D'Address, H'Address, Mn'Address, S'Address); SSL.Unlock_Task.all; exception when others => SSL.Unlock_Task.all; raise; end Locked_Processing; Year := Y + 1900; Month := Mo + 1; Day := D; Hour := H; Minute := Mn; Second := S; end GM_Split; ------------- -- GM_Year -- ------------- function GM_Year (Date : OS_Time) return Year_Type is Y : Year_Type; Mo : Month_Type; D : Day_Type; H : Hour_Type; Mn : Minute_Type; S : Second_Type; begin GM_Split (Date, Y, Mo, D, H, Mn, S); return Y; end GM_Year; ---------------------- -- Is_Absolute_Path -- ---------------------- function Is_Absolute_Path (Name : String) return Boolean is function Is_Absolute_Path (Name : Address; Length : Integer) return Integer; pragma Import (C, Is_Absolute_Path, "__gnat_is_absolute_path"); begin return Is_Absolute_Path (Name'Address, Name'Length) /= 0; end Is_Absolute_Path; ------------------ -- Is_Directory -- ------------------ function Is_Directory (Name : C_File_Name) return Boolean is function Is_Directory (Name : Address) return Integer; pragma Import (C, Is_Directory, "__gnat_is_directory"); begin return Is_Directory (Name) /= 0; end Is_Directory; function Is_Directory (Name : String) return Boolean is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return Is_Directory (F_Name'Address); end Is_Directory; --------------------- -- Is_Regular_File -- --------------------- function Is_Regular_File (Name : C_File_Name) return Boolean is function Is_Regular_File (Name : Address) return Integer; pragma Import (C, Is_Regular_File, "__gnat_is_regular_file"); begin return Is_Regular_File (Name) /= 0; end Is_Regular_File; function Is_Regular_File (Name : String) return Boolean is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return Is_Regular_File (F_Name'Address); end Is_Regular_File; ---------------------- -- Is_Readable_File -- ---------------------- function Is_Readable_File (Name : C_File_Name) return Boolean is function Is_Readable_File (Name : Address) return Integer; pragma Import (C, Is_Readable_File, "__gnat_is_readable_file"); begin return Is_Readable_File (Name) /= 0; end Is_Readable_File; function Is_Readable_File (Name : String) return Boolean is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return Is_Readable_File (F_Name'Address); end Is_Readable_File; ---------------------- -- Is_Writable_File -- ---------------------- function Is_Writable_File (Name : C_File_Name) return Boolean is function Is_Writable_File (Name : Address) return Integer; pragma Import (C, Is_Writable_File, "__gnat_is_writable_file"); begin return Is_Writable_File (Name) /= 0; end Is_Writable_File; function Is_Writable_File (Name : String) return Boolean is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return Is_Writable_File (F_Name'Address); end Is_Writable_File; ---------------------- -- Is_Symbolic_Link -- ---------------------- function Is_Symbolic_Link (Name : C_File_Name) return Boolean is function Is_Symbolic_Link (Name : Address) return Integer; pragma Import (C, Is_Symbolic_Link, "__gnat_is_symbolic_link"); begin return Is_Symbolic_Link (Name) /= 0; end Is_Symbolic_Link; function Is_Symbolic_Link (Name : String) return Boolean is F_Name : String (1 .. Name'Length + 1); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; return Is_Symbolic_Link (F_Name'Address); end Is_Symbolic_Link; ------------------------- -- Locate_Exec_On_Path -- ------------------------- function Locate_Exec_On_Path (Exec_Name : String) return String_Access is function Locate_Exec_On_Path (C_Exec_Name : Address) return Address; pragma Import (C, Locate_Exec_On_Path, "__gnat_locate_exec_on_path"); procedure Free (Ptr : System.Address); pragma Import (C, Free, "free"); C_Exec_Name : String (1 .. Exec_Name'Length + 1); Path_Addr : Address; Path_Len : Integer; Result : String_Access; begin C_Exec_Name (1 .. Exec_Name'Length) := Exec_Name; C_Exec_Name (C_Exec_Name'Last) := ASCII.NUL; Path_Addr := Locate_Exec_On_Path (C_Exec_Name'Address); Path_Len := C_String_Length (Path_Addr); if Path_Len = 0 then return null; else Result := To_Path_String_Access (Path_Addr, Path_Len); Free (Path_Addr); return Result; end if; end Locate_Exec_On_Path; ------------------------- -- Locate_Regular_File -- ------------------------- function Locate_Regular_File (File_Name : C_File_Name; Path : C_File_Name) return String_Access is function Locate_Regular_File (C_File_Name, Path_Val : Address) return Address; pragma Import (C, Locate_Regular_File, "__gnat_locate_regular_file"); procedure Free (Ptr : System.Address); pragma Import (C, Free, "free"); Path_Addr : Address; Path_Len : Integer; Result : String_Access; begin Path_Addr := Locate_Regular_File (File_Name, Path); Path_Len := C_String_Length (Path_Addr); if Path_Len = 0 then return null; else Result := To_Path_String_Access (Path_Addr, Path_Len); Free (Path_Addr); return Result; end if; end Locate_Regular_File; function Locate_Regular_File (File_Name : String; Path : String) return String_Access is C_File_Name : String (1 .. File_Name'Length + 1); C_Path : String (1 .. Path'Length + 1); begin C_File_Name (1 .. File_Name'Length) := File_Name; C_File_Name (C_File_Name'Last) := ASCII.NUL; C_Path (1 .. Path'Length) := Path; C_Path (C_Path'Last) := ASCII.NUL; return Locate_Regular_File (C_File_Name'Address, C_Path'Address); end Locate_Regular_File; ------------------------ -- Non_Blocking_Spawn -- ------------------------ function Non_Blocking_Spawn (Program_Name : String; Args : Argument_List) return Process_Id is Junk : Integer; Pid : Process_Id; begin Spawn_Internal (Program_Name, Args, Junk, Pid, Blocking => False); return Pid; end Non_Blocking_Spawn; ------------------------- -- Normalize_Arguments -- ------------------------- procedure Normalize_Arguments (Args : in out Argument_List) is procedure Quote_Argument (Arg : in out String_Access); -- Add quote around argument if it contains spaces C_Argument_Needs_Quote : Integer; pragma Import (C, C_Argument_Needs_Quote, "__gnat_argument_needs_quote"); Argument_Needs_Quote : constant Boolean := C_Argument_Needs_Quote /= 0; -------------------- -- Quote_Argument -- -------------------- procedure Quote_Argument (Arg : in out String_Access) is Res : String (1 .. Arg'Length * 2); J : Positive := 1; Quote_Needed : Boolean := False; begin if Arg (Arg'First) /= '"' or else Arg (Arg'Last) /= '"' then -- Starting quote Res (J) := '"'; for K in Arg'Range loop J := J + 1; if Arg (K) = '"' then Res (J) := '\'; J := J + 1; Res (J) := '"'; Quote_Needed := True; elsif Arg (K) = ' ' then Res (J) := Arg (K); Quote_Needed := True; else Res (J) := Arg (K); end if; end loop; if Quote_Needed then -- If null terminated string, put the quote before if Res (J) = ASCII.Nul then Res (J) := '"'; J := J + 1; Res (J) := ASCII.Nul; -- If argument is terminated by '\', then double it. Otherwise -- the ending quote will be taken as-is. This is quite strange -- spawn behavior from Windows, but this is what we see! else if Res (J) = '\' then J := J + 1; Res (J) := '\'; end if; -- Ending quote J := J + 1; Res (J) := '"'; end if; declare Old : String_Access := Arg; begin Arg := new String'(Res (1 .. J)); Free (Old); end; end if; end if; end Quote_Argument; begin if Argument_Needs_Quote then for K in Args'Range loop if Args (K) /= null and then Args (K)'Length /= 0 then Quote_Argument (Args (K)); end if; end loop; end if; end Normalize_Arguments; ------------------------ -- Normalize_Pathname -- ------------------------ function Normalize_Pathname (Name : String; Directory : String := ""; Resolve_Links : Boolean := True; Case_Sensitive : Boolean := True) return String is Max_Path : Integer; pragma Import (C, Max_Path, "__gnat_max_path_len"); -- Maximum length of a path name procedure Get_Current_Dir (Dir : System.Address; Length : System.Address); pragma Import (C, Get_Current_Dir, "__gnat_get_current_dir"); function Change_Dir (Dir_Name : String) return Integer; pragma Import (C, Change_Dir, "chdir"); Path_Buffer : String (1 .. Max_Path + Max_Path + 2); End_Path : Natural := 0; Link_Buffer : String (1 .. Max_Path + 2); Status : Integer; Last : Positive; Start : Natural; Finish : Positive; Max_Iterations : constant := 500; function Get_File_Names_Case_Sensitive return Integer; pragma Import (C, Get_File_Names_Case_Sensitive, "__gnat_get_file_names_case_sensitive"); Fold_To_Lower_Case : constant Boolean := not Case_Sensitive and then Get_File_Names_Case_Sensitive = 0; function Readlink (Path : System.Address; Buf : System.Address; Bufsiz : Integer) return Integer; pragma Import (C, Readlink, "__gnat_readlink"); function To_Canonical_File_Spec (Host_File : System.Address) return System.Address; pragma Import (C, To_Canonical_File_Spec, "__gnat_to_canonical_file_spec"); The_Name : String (1 .. Name'Length + 1); Canonical_File_Addr : System.Address; Canonical_File_Len : Integer; Need_To_Check_Drive_Letter : Boolean := False; -- Set to true if Name is an absolute path that starts with "//" function Strlen (S : System.Address) return Integer; pragma Import (C, Strlen, "strlen"); function Get_Directory (Dir : String) return String; -- If Dir is not empty, return it, adding a directory separator -- if not already present, otherwise return current working directory -- with terminating directory separator. function Final_Value (S : String) return String; -- Make final adjustment to the returned string. -- To compensate for non standard path name in Interix, -- if S is "/x" or starts with "/x", where x is a capital -- letter 'A' to 'Z', add an additional '/' at the beginning -- so that the returned value starts with "//x". ------------------- -- Get_Directory -- ------------------- function Get_Directory (Dir : String) return String is begin -- Directory given, add directory separator if needed if Dir'Length > 0 then if Dir (Dir'Length) = Directory_Separator then return Directory; else declare Result : String (1 .. Dir'Length + 1); begin Result (1 .. Dir'Length) := Dir; Result (Result'Length) := Directory_Separator; return Result; end; end if; -- Directory name not given, get current directory else declare Buffer : String (1 .. Max_Path + 2); Path_Len : Natural := Max_Path; begin Get_Current_Dir (Buffer'Address, Path_Len'Address); if Buffer (Path_Len) /= Directory_Separator then Path_Len := Path_Len + 1; Buffer (Path_Len) := Directory_Separator; end if; -- By default, the drive letter on Windows is in upper case if On_Windows and then Path_Len >= 2 and then Buffer (2) = ':' then System.Case_Util.To_Upper (Buffer (1 .. 1)); end if; return Buffer (1 .. Path_Len); end; end if; end Get_Directory; Reference_Dir : constant String := Get_Directory (Directory); -- Current directory name specified ----------------- -- Final_Value -- ----------------- function Final_Value (S : String) return String is S1 : String := S; -- We may need to fold S to lower case, so we need a variable Last : Natural; begin -- Interix has the non standard notion of disk drive -- indicated by two '/' followed by a capital letter -- 'A' .. 'Z'. One of the two '/' may have been removed -- by Normalize_Pathname. It has to be added again. -- For other OSes, this should not make no difference. if Need_To_Check_Drive_Letter and then S'Length >= 2 and then S (S'First) = '/' and then S (S'First + 1) in 'A' .. 'Z' and then (S'Length = 2 or else S (S'First + 2) = '/') then declare Result : String (1 .. S'Length + 1); begin Result (1) := '/'; Result (2 .. Result'Last) := S; Last := Result'Last; if Fold_To_Lower_Case then System.Case_Util.To_Lower (Result); end if; -- Remove trailing directory separator, if any if Last > 1 and then (Result (Last) = '/' or else Result (Last) = Directory_Separator) then Last := Last - 1; end if; return Result (1 .. Last); end; else if Fold_To_Lower_Case then System.Case_Util.To_Lower (S1); end if; -- Remove trailing directory separator, if any Last := S1'Last; if Last > 1 and then (S1 (Last) = '/' or else S1 (Last) = Directory_Separator) then -- Special case for Windows: C:\ if Last = 3 and then S1 (1) /= Directory_Separator and then S1 (2) = ':' then null; else Last := Last - 1; end if; end if; return S1 (1 .. Last); end if; end Final_Value; -- Start of processing for Normalize_Pathname begin -- Special case, if name is null, then return null if Name'Length = 0 then return ""; end if; -- First, convert VMS file spec to Unix file spec. -- If Name is not in VMS syntax, then this is equivalent -- to put Name at the begining of Path_Buffer. VMS_Conversion : begin The_Name (1 .. Name'Length) := Name; The_Name (The_Name'Last) := ASCII.NUL; Canonical_File_Addr := To_Canonical_File_Spec (The_Name'Address); Canonical_File_Len := Strlen (Canonical_File_Addr); -- If VMS syntax conversion has failed, return an empty string -- to indicate the failure. if Canonical_File_Len = 0 then return ""; end if; declare subtype Path_String is String (1 .. Canonical_File_Len); type Path_String_Access is access Path_String; function Address_To_Access is new Unchecked_Conversion (Source => Address, Target => Path_String_Access); Path_Access : constant Path_String_Access := Address_To_Access (Canonical_File_Addr); begin Path_Buffer (1 .. Canonical_File_Len) := Path_Access.all; End_Path := Canonical_File_Len; Last := 1; end; end VMS_Conversion; -- Replace all '/' by Directory Separators (this is for Windows) if Directory_Separator /= '/' then for Index in 1 .. End_Path loop if Path_Buffer (Index) = '/' then Path_Buffer (Index) := Directory_Separator; end if; end loop; end if; -- Resolve directory names for VMS and Windows -- On VMS, if we have a Unix path such as /temp/..., and TEMP is a -- logical name, we need to resolve this logical name. -- On Windows, if we have an absolute path starting with a directory -- separator, we need to have the drive letter appended in front. -- For both platforms, Get_Current_Dir will return a suitable -- directory name (logical names resolved on VMS, path starting with -- a drive letter on Windows). So we find the directory, change to it, -- call Get_Current_Dir and change the directory to the returned value. -- Then, of course, we return to the previous directory. if (OpenVMS or On_Windows) and then Path_Buffer (1) = Directory_Separator then declare Cur_Dir : String := Get_Directory (""); -- Save the current directory, so that we can change dir back to -- it. It is not a constant, because the last character (a -- directory separator) is changed to ASCII.NUL to call the C -- function chdir. Path : String := Path_Buffer (1 .. End_Path + 1); -- Copy of the current path. One character is added that may be -- set to ASCII.NUL to call chdir. Pos : Positive := End_Path; -- Position of the last directory separator Status : Integer; -- Value returned by chdir begin -- Look for the last directory separator while Path (Pos) /= Directory_Separator loop Pos := Pos - 1; end loop; -- Get the previous character that is not a directory separator while Pos > 1 and then Path (Pos) = Directory_Separator loop Pos := Pos - 1; end loop; -- If we are at the start of the path, take the full path. -- It may be a file in the root directory, but it may also be -- a subdirectory of the root directory. if Pos = 1 then Pos := End_Path; end if; -- Add the ASCII.NUL to be able to call the C function chdir Path (Pos + 1) := ASCII.NUL; Status := Change_Dir (Path (1 .. Pos + 1)); -- If Status is not zero, then we do nothing: this is a file -- path or it is not a valid directory path. if Status = 0 then declare New_Dir : constant String := Get_Directory (""); -- The directory path New_Path : String (1 .. New_Dir'Length + End_Path - Pos); -- The new complete path, that is built below begin New_Path (1 .. New_Dir'Length) := New_Dir; New_Path (New_Dir'Length + 1 .. New_Path'Last) := Path_Buffer (Pos + 1 .. End_Path); End_Path := New_Path'Length; Path_Buffer (1 .. End_Path) := New_Path; end; -- Back to where we were before Cur_Dir (Cur_Dir'Last) := ASCII.NUL; Status := Change_Dir (Cur_Dir); end if; end; end if; -- Start the conversions -- If this is not finished after Max_Iterations, give up and -- return an empty string. for J in 1 .. Max_Iterations loop -- If we don't have an absolute pathname, prepend -- the directory Reference_Dir. if Last = 1 and then not Is_Absolute_Path (Path_Buffer (1 .. End_Path)) then Path_Buffer (Reference_Dir'Last + 1 .. Reference_Dir'Length + End_Path) := Path_Buffer (1 .. End_Path); End_Path := Reference_Dir'Length + End_Path; Path_Buffer (1 .. Reference_Dir'Length) := Reference_Dir; Last := Reference_Dir'Length; end if; -- If name starts with "//", we may have a drive letter on Interix if Last = 1 and then End_Path >= 3 then Need_To_Check_Drive_Letter := (Path_Buffer (1 .. 2)) = "//"; end if; Start := Last + 1; Finish := Last; -- Ensure that Windows network drives are kept, e.g: \\server\drive-c if Start = 2 and then Directory_Separator = '\' and then Path_Buffer (1 .. 2) = "\\" then Start := 3; end if; -- If we have traversed the full pathname, return it if Start > End_Path then return Final_Value (Path_Buffer (1 .. End_Path)); end if; -- Remove duplicate directory separators while Path_Buffer (Start) = Directory_Separator loop if Start = End_Path then return Final_Value (Path_Buffer (1 .. End_Path - 1)); else Path_Buffer (Start .. End_Path - 1) := Path_Buffer (Start + 1 .. End_Path); End_Path := End_Path - 1; end if; end loop; -- Find the end of the current field: last character -- or the one preceding the next directory separator. while Finish < End_Path and then Path_Buffer (Finish + 1) /= Directory_Separator loop Finish := Finish + 1; end loop; -- Remove "." field if Start = Finish and then Path_Buffer (Start) = '.' then if Start = End_Path then if Last = 1 then return (1 => Directory_Separator); else if Fold_To_Lower_Case then System.Case_Util.To_Lower (Path_Buffer (1 .. Last - 1)); end if; return Path_Buffer (1 .. Last - 1); end if; else Path_Buffer (Last + 1 .. End_Path - 2) := Path_Buffer (Last + 3 .. End_Path); End_Path := End_Path - 2; end if; -- Remove ".." fields elsif Finish = Start + 1 and then Path_Buffer (Start .. Finish) = ".." then Start := Last; loop Start := Start - 1; exit when Start < 1 or else Path_Buffer (Start) = Directory_Separator; end loop; if Start <= 1 then if Finish = End_Path then return (1 => Directory_Separator); else Path_Buffer (1 .. End_Path - Finish) := Path_Buffer (Finish + 1 .. End_Path); End_Path := End_Path - Finish; Last := 1; end if; else if Finish = End_Path then return Final_Value (Path_Buffer (1 .. Start - 1)); else Path_Buffer (Start + 1 .. Start + End_Path - Finish - 1) := Path_Buffer (Finish + 2 .. End_Path); End_Path := Start + End_Path - Finish - 1; Last := Start; end if; end if; -- Check if current field is a symbolic link elsif Resolve_Links then declare Saved : constant Character := Path_Buffer (Finish + 1); begin Path_Buffer (Finish + 1) := ASCII.NUL; Status := Readlink (Path_Buffer'Address, Link_Buffer'Address, Link_Buffer'Length); Path_Buffer (Finish + 1) := Saved; end; -- Not a symbolic link, move to the next field, if any if Status <= 0 then Last := Finish + 1; -- Replace symbolic link with its value else if Is_Absolute_Path (Link_Buffer (1 .. Status)) then Path_Buffer (Status + 1 .. End_Path - (Finish - Status)) := Path_Buffer (Finish + 1 .. End_Path); End_Path := End_Path - (Finish - Status); Path_Buffer (1 .. Status) := Link_Buffer (1 .. Status); Last := 1; else Path_Buffer (Last + Status + 1 .. End_Path - Finish + Last + Status) := Path_Buffer (Finish + 1 .. End_Path); End_Path := End_Path - Finish + Last + Status; Path_Buffer (Last + 1 .. Last + Status) := Link_Buffer (1 .. Status); end if; end if; else Last := Finish + 1; end if; end loop; -- Too many iterations: give up -- This can happen when there is a circularity in the symbolic links: -- A is a symbolic link for B, which itself is a symbolic link, and -- the target of B or of another symbolic link target of B is A. -- In this case, we return an empty string to indicate failure to -- resolve. return ""; end Normalize_Pathname; --------------- -- Open_Read -- --------------- function Open_Read (Name : C_File_Name; Fmode : Mode) return File_Descriptor is function C_Open_Read (Name : C_File_Name; Fmode : Mode) return File_Descriptor; pragma Import (C, C_Open_Read, "__gnat_open_read"); begin return C_Open_Read (Name, Fmode); end Open_Read; function Open_Read (Name : String; Fmode : Mode) return File_Descriptor is C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return Open_Read (C_Name (C_Name'First)'Address, Fmode); end Open_Read; --------------------- -- Open_Read_Write -- --------------------- function Open_Read_Write (Name : C_File_Name; Fmode : Mode) return File_Descriptor is function C_Open_Read_Write (Name : C_File_Name; Fmode : Mode) return File_Descriptor; pragma Import (C, C_Open_Read_Write, "__gnat_open_rw"); begin return C_Open_Read_Write (Name, Fmode); end Open_Read_Write; function Open_Read_Write (Name : String; Fmode : Mode) return File_Descriptor is C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return Open_Read_Write (C_Name (C_Name'First)'Address, Fmode); end Open_Read_Write; ---------- -- Read -- ---------- function Read (FD : File_Descriptor; A : System.Address; N : Integer) return Integer is begin return Integer (System.CRTL.read (System.CRTL.int (FD), System.CRTL.chars (A), System.CRTL.int (N))); end Read; ----------------- -- Rename_File -- ----------------- procedure Rename_File (Old_Name : C_File_Name; New_Name : C_File_Name; Success : out Boolean) is function rename (From, To : Address) return Integer; pragma Import (C, rename, "rename"); R : Integer; begin R := rename (Old_Name, New_Name); Success := (R = 0); end Rename_File; procedure Rename_File (Old_Name : String; New_Name : String; Success : out Boolean) is C_Old_Name : String (1 .. Old_Name'Length + 1); C_New_Name : String (1 .. New_Name'Length + 1); begin C_Old_Name (1 .. Old_Name'Length) := Old_Name; C_Old_Name (C_Old_Name'Last) := ASCII.NUL; C_New_Name (1 .. New_Name'Length) := New_Name; C_New_Name (C_New_Name'Last) := ASCII.NUL; Rename_File (C_Old_Name'Address, C_New_Name'Address, Success); end Rename_File; ----------------------- -- Set_Close_On_Exec -- ----------------------- procedure Set_Close_On_Exec (FD : File_Descriptor; Close_On_Exec : Boolean; Status : out Boolean) is function C_Set_Close_On_Exec (FD : File_Descriptor; Close_On_Exec : System.CRTL.int) return System.CRTL.int; pragma Import (C, C_Set_Close_On_Exec, "__gnat_set_close_on_exec"); begin Status := C_Set_Close_On_Exec (FD, Boolean'Pos (Close_On_Exec)) = 0; end Set_Close_On_Exec; -------------------- -- Set_Executable -- -------------------- procedure Set_Executable (Name : String) is procedure C_Set_Executable (Name : C_File_Name); pragma Import (C, C_Set_Executable, "__gnat_set_executable"); C_Name : aliased String (Name'First .. Name'Last + 1); begin C_Name (Name'Range) := Name; C_Name (C_Name'Last) := ASCII.NUL; C_Set_Executable (C_Name (C_Name'First)'Address); end Set_Executable; -------------------- -- Set_Read_Only -- -------------------- procedure Set_Read_Only (Name : String) is procedure C_Set_Read_Only (Name : C_File_Name); pragma Import (C, C_Set_Read_Only, "__gnat_set_readonly"); C_Name : aliased String (Name'First .. Name'Last + 1); begin C_Name (Name'Range) := Name; C_Name (C_Name'Last) := ASCII.NUL; C_Set_Read_Only (C_Name (C_Name'First)'Address); end Set_Read_Only; -------------------- -- Set_Writable -- -------------------- procedure Set_Writable (Name : String) is procedure C_Set_Writable (Name : C_File_Name); pragma Import (C, C_Set_Writable, "__gnat_set_writable"); C_Name : aliased String (Name'First .. Name'Last + 1); begin C_Name (Name'Range) := Name; C_Name (C_Name'Last) := ASCII.NUL; C_Set_Writable (C_Name (C_Name'First)'Address); end Set_Writable; ------------ -- Setenv -- ------------ procedure Setenv (Name : String; Value : String) is F_Name : String (1 .. Name'Length + 1); F_Value : String (1 .. Value'Length + 1); procedure Set_Env_Value (Name, Value : System.Address); pragma Import (C, Set_Env_Value, "__gnat_set_env_value"); begin F_Name (1 .. Name'Length) := Name; F_Name (F_Name'Last) := ASCII.NUL; F_Value (1 .. Value'Length) := Value; F_Value (F_Value'Last) := ASCII.NUL; Set_Env_Value (F_Name'Address, F_Value'Address); end Setenv; ----------- -- Spawn -- ----------- function Spawn (Program_Name : String; Args : Argument_List) return Integer is Junk : Process_Id; Result : Integer; begin Spawn_Internal (Program_Name, Args, Result, Junk, Blocking => True); return Result; end Spawn; procedure Spawn (Program_Name : String; Args : Argument_List; Success : out Boolean) is begin Success := (Spawn (Program_Name, Args) = 0); end Spawn; procedure Spawn (Program_Name : String; Args : Argument_List; Output_File_Descriptor : File_Descriptor; Return_Code : out Integer; Err_To_Out : Boolean := True) is function Dup (Fd : File_Descriptor) return File_Descriptor; pragma Import (C, Dup, "__gnat_dup"); procedure Dup2 (Old_Fd, New_Fd : File_Descriptor); pragma Import (C, Dup2, "__gnat_dup2"); Saved_Output : File_Descriptor; Saved_Error : File_Descriptor := Invalid_FD; -- We need to initialize Saved_Error to Invalid_FD to avoid -- a compiler warning that this variable may be used before -- it is initialized (which can not happen, but the compiler -- is not smart enough to figure this out). begin -- Set standard output and error to the temporary file Saved_Output := Dup (Standout); Dup2 (Output_File_Descriptor, Standout); if Err_To_Out then Saved_Error := Dup (Standerr); Dup2 (Output_File_Descriptor, Standerr); end if; -- Spawn the program Return_Code := Spawn (Program_Name, Args); -- Restore the standard output and error Dup2 (Saved_Output, Standout); if Err_To_Out then Dup2 (Saved_Error, Standerr); end if; -- And close the saved standard output and error file descriptors Close (Saved_Output); if Err_To_Out then Close (Saved_Error); end if; end Spawn; procedure Spawn (Program_Name : String; Args : Argument_List; Output_File : String; Success : out Boolean; Return_Code : out Integer; Err_To_Out : Boolean := True) is FD : File_Descriptor; begin Success := True; Return_Code := 0; FD := Create_Output_Text_File (Output_File); if FD = Invalid_FD then Success := False; return; end if; Spawn (Program_Name, Args, FD, Return_Code, Err_To_Out); Close (FD, Success); end Spawn; -------------------- -- Spawn_Internal -- -------------------- procedure Spawn_Internal (Program_Name : String; Args : Argument_List; Result : out Integer; Pid : out Process_Id; Blocking : Boolean) is procedure Spawn (Args : Argument_List); -- Call Spawn with given argument list N_Args : Argument_List (Args'Range); -- Normalized arguments ----------- -- Spawn -- ----------- procedure Spawn (Args : Argument_List) is type Chars is array (Positive range <>) of aliased Character; type Char_Ptr is access constant Character; Command_Len : constant Positive := Program_Name'Length + 1 + Args_Length (Args); Command_Last : Natural := 0; Command : aliased Chars (1 .. Command_Len); -- Command contains all characters of the Program_Name and Args, -- all terminated by ASCII.NUL characters Arg_List_Len : constant Positive := Args'Length + 2; Arg_List_Last : Natural := 0; Arg_List : aliased array (1 .. Arg_List_Len) of Char_Ptr; -- List with pointers to NUL-terminated strings of the -- Program_Name and the Args and terminated with a null pointer. -- We rely on the default initialization for the last null pointer. procedure Add_To_Command (S : String); -- Add S and a NUL character to Command, updating Last function Portable_Spawn (Args : Address) return Integer; pragma Import (C, Portable_Spawn, "__gnat_portable_spawn"); function Portable_No_Block_Spawn (Args : Address) return Process_Id; pragma Import (C, Portable_No_Block_Spawn, "__gnat_portable_no_block_spawn"); -------------------- -- Add_To_Command -- -------------------- procedure Add_To_Command (S : String) is First : constant Natural := Command_Last + 1; begin Command_Last := Command_Last + S'Length; -- Move characters one at a time, because Command has -- aliased components. for J in S'Range loop Command (First + J - S'First) := S (J); end loop; Command_Last := Command_Last + 1; Command (Command_Last) := ASCII.NUL; Arg_List_Last := Arg_List_Last + 1; Arg_List (Arg_List_Last) := Command (First)'Access; end Add_To_Command; -- Start of processing for Spawn begin Add_To_Command (Program_Name); for J in Args'Range loop Add_To_Command (Args (J).all); end loop; if Blocking then Pid := Invalid_Pid; Result := Portable_Spawn (Arg_List'Address); else Pid := Portable_No_Block_Spawn (Arg_List'Address); Result := Boolean'Pos (Pid /= Invalid_Pid); end if; end Spawn; -- Start of processing for Spawn_Internal begin -- Copy arguments into a local structure for K in N_Args'Range loop N_Args (K) := new String'(Args (K).all); end loop; -- Normalize those arguments Normalize_Arguments (N_Args); -- Call spawn using the normalized arguments Spawn (N_Args); -- Free arguments list for K in N_Args'Range loop Free (N_Args (K)); end loop; end Spawn_Internal; --------------------------- -- To_Path_String_Access -- --------------------------- function To_Path_String_Access (Path_Addr : Address; Path_Len : Integer) return String_Access is subtype Path_String is String (1 .. Path_Len); type Path_String_Access is access Path_String; function Address_To_Access is new Unchecked_Conversion (Source => Address, Target => Path_String_Access); Path_Access : constant Path_String_Access := Address_To_Access (Path_Addr); Return_Val : String_Access; begin Return_Val := new String (1 .. Path_Len); for J in 1 .. Path_Len loop Return_Val (J) := Path_Access (J); end loop; return Return_Val; end To_Path_String_Access; ------------------ -- Wait_Process -- ------------------ procedure Wait_Process (Pid : out Process_Id; Success : out Boolean) is Status : Integer; function Portable_Wait (S : Address) return Process_Id; pragma Import (C, Portable_Wait, "__gnat_portable_wait"); begin Pid := Portable_Wait (Status'Address); Success := (Status = 0); end Wait_Process; ----------- -- Write -- ----------- function Write (FD : File_Descriptor; A : System.Address; N : Integer) return Integer is begin return Integer (System.CRTL.write (System.CRTL.int (FD), System.CRTL.chars (A), System.CRTL.int (N))); end Write; end GNAT.OS_Lib;