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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- G N A T . S O C K E T S . T H I N . T A S K _ S A F E _ N E T D B -- -- -- -- B o d y -- -- -- -- Copyright (C) 2007-2009, AdaCore -- -- -- -- 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, 51 Franklin Street, Fifth Floor, -- -- Boston, MA 02110-1301, 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. -- -- -- ------------------------------------------------------------------------------ -- This version is used on VMS and LynxOS with GNAT.Task_Lock; with Interfaces.C; use Interfaces.C; package body GNAT.Sockets.Thin.Task_Safe_NetDB is -- The Safe_GetXXXbyYYY routines wrap the Nonreentrant_ versions using the -- task lock, and copy the relevant data structures (under the lock) into -- the result. The Nonreentrant_ versions are expected to be in the parent -- package GNAT.Sockets.Thin (on platforms that use this version of -- Task_Safe_NetDB). procedure Copy_Host_Entry (Source_Hostent : Hostent; Target_Hostent : out Hostent; Target_Buffer : System.Address; Target_Buffer_Length : C.int; Result : out C.int); -- Copy all the information from Source_Hostent into Target_Hostent, -- using Target_Buffer to store associated data. -- 0 is returned on success, -1 on failure (in case the provided buffer -- is too small for the associated data). procedure Copy_Service_Entry (Source_Servent : Servent_Access; Target_Servent : Servent_Access; Target_Buffer : System.Address; Target_Buffer_Length : C.int; Result : out C.int); -- Copy all the information from Source_Servent into Target_Servent, -- using Target_Buffer to store associated data. -- 0 is returned on success, -1 on failure (in case the provided buffer -- is too small for the associated data). procedure Store_Name (Name : char_array; Storage : in out char_array; Storage_Index : in out size_t; Stored_Name : out C.Strings.chars_ptr); -- Store the given Name at the first available location in Storage -- (indicated by Storage_Index, which is updated afterwards), and return -- the address of that location in Stored_Name. -- (Supporting routine for the two below). --------------------- -- Copy_Host_Entry -- --------------------- procedure Copy_Host_Entry (Source_Hostent : Hostent; Target_Hostent : out Hostent; Target_Buffer : System.Address; Target_Buffer_Length : C.int; Result : out C.int) is use type C.Strings.chars_ptr; Names_Length : size_t; Source_Aliases : Chars_Ptr_Array renames Chars_Ptr_Pointers.Value (Source_Hostent.H_Aliases, Terminator => C.Strings.Null_Ptr); -- Null-terminated list of aliases (last element of this array is -- Null_Ptr). Source_Addresses : In_Addr_Access_Array renames In_Addr_Access_Pointers.Value (Source_Hostent.H_Addr_List, Terminator => null); begin Result := -1; Names_Length := C.Strings.Strlen (Source_Hostent.H_Name) + 1; for J in Source_Aliases'Range loop if Source_Aliases (J) /= C.Strings.Null_Ptr then Names_Length := Names_Length + C.Strings.Strlen (Source_Aliases (J)) + 1; end if; end loop; declare type In_Addr_Array is array (Source_Addresses'Range) of aliased In_Addr; type Netdb_Host_Data is record Aliases_List : aliased Chars_Ptr_Array (Source_Aliases'Range); Names : aliased char_array (1 .. Names_Length); Addresses_List : aliased In_Addr_Access_Array (In_Addr_Array'Range); Addresses : In_Addr_Array; -- ??? This assumes support only for Inet family end record; Netdb_Data : Netdb_Host_Data; pragma Import (Ada, Netdb_Data); for Netdb_Data'Address use Target_Buffer; Names_Index : size_t := Netdb_Data.Names'First; -- Index of first available location in Netdb_Data.Names begin if Netdb_Data'Size / 8 > Target_Buffer_Length then return; end if; -- Copy host name Store_Name (C.Strings.Value (Source_Hostent.H_Name), Netdb_Data.Names, Names_Index, Target_Hostent.H_Name); -- Copy aliases (null-terminated string pointer array) Target_Hostent.H_Aliases := Netdb_Data.Aliases_List (Netdb_Data.Aliases_List'First)'Unchecked_Access; for J in Netdb_Data.Aliases_List'Range loop if J = Netdb_Data.Aliases_List'Last then Netdb_Data.Aliases_List (J) := C.Strings.Null_Ptr; else Store_Name (C.Strings.Value (Source_Aliases (J)), Netdb_Data.Names, Names_Index, Netdb_Data.Aliases_List (J)); end if; end loop; -- Copy address type and length Target_Hostent.H_Addrtype := Source_Hostent.H_Addrtype; Target_Hostent.H_Length := Source_Hostent.H_Length; -- Copy addresses Target_Hostent.H_Addr_List := Netdb_Data.Addresses_List (Netdb_Data.Addresses_List'First)'Unchecked_Access; for J in Netdb_Data.Addresses'Range loop if J = Netdb_Data.Addresses'Last then Netdb_Data.Addresses_List (J) := null; else Netdb_Data.Addresses_List (J) := Netdb_Data.Addresses (J)'Unchecked_Access; Netdb_Data.Addresses (J) := Source_Addresses (J).all; end if; end loop; end; Result := 0; end Copy_Host_Entry; ------------------------ -- Copy_Service_Entry -- ------------------------ procedure Copy_Service_Entry (Source_Servent : Servent_Access; Target_Servent : Servent_Access; Target_Buffer : System.Address; Target_Buffer_Length : C.int; Result : out C.int) is use type C.Strings.chars_ptr; Names_Length : size_t; Source_Aliases : Chars_Ptr_Array renames Chars_Ptr_Pointers.Value (Servent_S_Aliases (Source_Servent), Terminator => C.Strings.Null_Ptr); -- Null-terminated list of aliases (last element of this array is -- Null_Ptr). begin Result := -1; Names_Length := C.Strings.Strlen (Servent_S_Name (Source_Servent)) + 1 + C.Strings.Strlen (Servent_S_Proto (Source_Servent)) + 1; for J in Source_Aliases'Range loop if Source_Aliases (J) /= C.Strings.Null_Ptr then Names_Length := Names_Length + C.Strings.Strlen (Source_Aliases (J)) + 1; end if; end loop; declare type Netdb_Service_Data is record Aliases_List : aliased Chars_Ptr_Array (Source_Aliases'Range); Names : aliased char_array (1 .. Names_Length); end record; Netdb_Data : Netdb_Service_Data; pragma Import (Ada, Netdb_Data); for Netdb_Data'Address use Target_Buffer; Names_Index : size_t := Netdb_Data.Names'First; -- Index of first available location in Netdb_Data.Names Stored_Name : C.Strings.chars_ptr; begin if Netdb_Data'Size / 8 > Target_Buffer_Length then return; end if; -- Copy service name Store_Name (C.Strings.Value (Servent_S_Name (Source_Servent)), Netdb_Data.Names, Names_Index, Stored_Name); Servent_Set_S_Name (Target_Servent, Stored_Name); -- Copy aliases (null-terminated string pointer array) Servent_Set_S_Aliases (Target_Servent, Netdb_Data.Aliases_List (Netdb_Data.Aliases_List'First)'Unchecked_Access); -- Copy port number Servent_Set_S_Port (Target_Servent, Servent_S_Port (Source_Servent)); -- Copy protocol name Store_Name (C.Strings.Value (Servent_S_Proto (Source_Servent)), Netdb_Data.Names, Names_Index, Stored_Name); Servent_Set_S_Proto (Target_Servent, Stored_Name); for J in Netdb_Data.Aliases_List'Range loop if J = Netdb_Data.Aliases_List'Last then Netdb_Data.Aliases_List (J) := C.Strings.Null_Ptr; else Store_Name (C.Strings.Value (Source_Aliases (J)), Netdb_Data.Names, Names_Index, Netdb_Data.Aliases_List (J)); end if; end loop; end; Result := 0; end Copy_Service_Entry; ------------------------ -- Safe_Gethostbyaddr -- ------------------------ function Safe_Gethostbyaddr (Addr : System.Address; Addr_Len : C.int; Addr_Type : C.int; Ret : not null access Hostent; Buf : System.Address; Buflen : C.int; H_Errnop : not null access C.int) return C.int is HE : Hostent_Access; Result : C.int; begin Result := -1; GNAT.Task_Lock.Lock; HE := Nonreentrant_Gethostbyaddr (Addr, Addr_Len, Addr_Type); if HE = null then H_Errnop.all := C.int (Host_Errno); goto Unlock_Return; end if; -- Now copy the data to the user-provided buffer Copy_Host_Entry (Source_Hostent => HE.all, Target_Hostent => Ret.all, Target_Buffer => Buf, Target_Buffer_Length => Buflen, Result => Result); <<Unlock_Return>> GNAT.Task_Lock.Unlock; return Result; end Safe_Gethostbyaddr; ------------------------ -- Safe_Gethostbyname -- ------------------------ function Safe_Gethostbyname (Name : C.char_array; Ret : not null access Hostent; Buf : System.Address; Buflen : C.int; H_Errnop : not null access C.int) return C.int is HE : Hostent_Access; Result : C.int; begin Result := -1; GNAT.Task_Lock.Lock; HE := Nonreentrant_Gethostbyname (Name); if HE = null then H_Errnop.all := C.int (Host_Errno); goto Unlock_Return; end if; -- Now copy the data to the user-provided buffer Copy_Host_Entry (Source_Hostent => HE.all, Target_Hostent => Ret.all, Target_Buffer => Buf, Target_Buffer_Length => Buflen, Result => Result); <<Unlock_Return>> GNAT.Task_Lock.Unlock; return Result; end Safe_Gethostbyname; ------------------------ -- Safe_Getservbyname -- ------------------------ function Safe_Getservbyname (Name : C.char_array; Proto : C.char_array; Ret : not null access Servent; Buf : System.Address; Buflen : C.int) return C.int is SE : Servent_Access; Result : C.int; begin Result := -1; GNAT.Task_Lock.Lock; SE := Nonreentrant_Getservbyname (Name, Proto); if SE = null then goto Unlock_Return; end if; -- Now copy the data to the user-provided buffer. We convert Ret to -- type Servent_Access using the .all'Unchecked_Access trick to avoid -- an accessibility check. Ret could be pointing to a nested variable, -- and we don't want to raise an exception in that case. Copy_Service_Entry (Source_Servent => SE, Target_Servent => Ret.all'Unchecked_Access, Target_Buffer => Buf, Target_Buffer_Length => Buflen, Result => Result); <<Unlock_Return>> GNAT.Task_Lock.Unlock; return Result; end Safe_Getservbyname; ------------------------ -- Safe_Getservbyport -- ------------------------ function Safe_Getservbyport (Port : C.int; Proto : C.char_array; Ret : not null access Servent; Buf : System.Address; Buflen : C.int) return C.int is SE : Servent_Access; Result : C.int; begin Result := -1; GNAT.Task_Lock.Lock; SE := Nonreentrant_Getservbyport (Port, Proto); if SE = null then goto Unlock_Return; end if; -- Now copy the data to the user-provided buffer. See Safe_Getservbyname -- for comment regarding .all'Unchecked_Access. Copy_Service_Entry (Source_Servent => SE, Target_Servent => Ret.all'Unchecked_Access, Target_Buffer => Buf, Target_Buffer_Length => Buflen, Result => Result); <<Unlock_Return>> GNAT.Task_Lock.Unlock; return Result; end Safe_Getservbyport; ---------------- -- Store_Name -- ---------------- procedure Store_Name (Name : char_array; Storage : in out char_array; Storage_Index : in out size_t; Stored_Name : out C.Strings.chars_ptr) is First : constant C.size_t := Storage_Index; Last : constant C.size_t := Storage_Index + Name'Length - 1; begin Storage (First .. Last) := Name; Stored_Name := C.Strings.To_Chars_Ptr (Storage (First .. Last)'Unrestricted_Access); Storage_Index := Last + 1; end Store_Name; end GNAT.Sockets.Thin.Task_Safe_NetDB;
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