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------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- G N A T . S O C K E T S . T H I N _ C O M M O N --
-- --
-- S p e c --
-- --
-- Copyright (C) 2008-2012, 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 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. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This is the target-independent part of the thin sockets mapping.
-- This package should not be directly with'ed by an applications program.
with Ada.Unchecked_Conversion;
with Interfaces.C;
with Interfaces.C.Pointers;
package GNAT.Sockets.Thin_Common is
package C renames Interfaces.C;
use type C.int;
-- This is so we can declare the Failure constant below
Success : constant C.int := 0;
Failure : constant C.int := -1;
type time_t is
range -2 ** (8 * SOSC.SIZEOF_tv_sec - 1)
.. 2 ** (8 * SOSC.SIZEOF_tv_sec - 1) - 1;
for time_t'Size use 8 * SOSC.SIZEOF_tv_sec;
pragma Convention (C, time_t);
type suseconds_t is
range -2 ** (8 * SOSC.SIZEOF_tv_usec - 1)
.. 2 ** (8 * SOSC.SIZEOF_tv_usec - 1) - 1;
for suseconds_t'Size use 8 * SOSC.SIZEOF_tv_usec;
pragma Convention (C, suseconds_t);
type Timeval is record
Tv_Sec : time_t;
Tv_Usec : suseconds_t;
end record;
pragma Convention (C, Timeval);
type Timeval_Access is access all Timeval;
pragma Convention (C, Timeval_Access);
Immediat : constant Timeval := (0, 0);
-------------------------------------------
-- Mapping tables to low level constants --
-------------------------------------------
Families : constant array (Family_Type) of C.int :=
(Family_Inet => SOSC.AF_INET,
Family_Inet6 => SOSC.AF_INET6);
Lengths : constant array (Family_Type) of C.unsigned_char :=
(Family_Inet => SOSC.SIZEOF_sockaddr_in,
Family_Inet6 => SOSC.SIZEOF_sockaddr_in6);
----------------------------
-- Generic socket address --
----------------------------
-- Common header
-- All socket address types (struct sockaddr, struct sockaddr_storage,
-- and protocol specific address types) start with the same 2-byte header,
-- which is either a length and a family (one byte each) or just a two-byte
-- family. The following unchecked union describes the two possible layouts
-- and is meant to be constrained with SOSC.Have_Sockaddr_Len.
type Sockaddr_Length_And_Family
(Has_Sockaddr_Len : Boolean := False)
is record
case Has_Sockaddr_Len is
when True =>
Length : C.unsigned_char;
Char_Family : C.unsigned_char;
when False =>
Short_Family : C.unsigned_short;
end case;
end record;
pragma Unchecked_Union (Sockaddr_Length_And_Family);
pragma Convention (C, Sockaddr_Length_And_Family);
procedure Set_Family
(Length_And_Family : out Sockaddr_Length_And_Family;
Family : Family_Type);
-- Set the family component to the appropriate value for Family, and also
-- set Length accordingly if applicable on this platform.
type Sockaddr is record
Sa_Family : Sockaddr_Length_And_Family;
-- Address family (and address length on some platforms)
Sa_Data : C.char_array (1 .. 14) := (others => C.nul);
-- Family-specific data
-- Note that some platforms require that all unused (reserved) bytes
-- in addresses be initialized to 0 (e.g. VxWorks).
end record;
pragma Convention (C, Sockaddr);
-- Generic socket address
type Sockaddr_Access is access all Sockaddr;
pragma Convention (C, Sockaddr_Access);
-- Access to socket address
----------------------------
-- AF_INET socket address --
----------------------------
type In_Addr is record
S_B1, S_B2, S_B3, S_B4 : C.unsigned_char;
end record;
for In_Addr'Alignment use C.int'Alignment;
pragma Convention (C, In_Addr);
-- IPv4 address, represented as a network-order C.int. Note that the
-- underlying operating system may assume that values of this type have
-- C.int alignment, so we need to provide a suitable alignment clause here.
function To_In_Addr is new Ada.Unchecked_Conversion (C.int, In_Addr);
function To_Int is new Ada.Unchecked_Conversion (In_Addr, C.int);
type In_Addr_Access is access all In_Addr;
pragma Convention (C, In_Addr_Access);
-- Access to internet address
Inaddr_Any : aliased constant In_Addr := (others => 0);
-- Any internet address (all the interfaces)
type In_Addr_Access_Array is array (C.size_t range <>)
of aliased In_Addr_Access;
pragma Convention (C, In_Addr_Access_Array);
package In_Addr_Access_Pointers is new C.Pointers
(C.size_t, In_Addr_Access, In_Addr_Access_Array, null);
-- Array of internet addresses
type Sockaddr_In is record
Sin_Family : Sockaddr_Length_And_Family;
-- Address family (and address length on some platforms)
Sin_Port : C.unsigned_short;
-- Port in network byte order
Sin_Addr : In_Addr;
-- IPv4 address
Sin_Zero : C.char_array (1 .. 8) := (others => C.nul);
-- Padding
--
-- Note that some platforms require that all unused (reserved) bytes
-- in addresses be initialized to 0 (e.g. VxWorks).
end record;
pragma Convention (C, Sockaddr_In);
-- Internet socket address
type Sockaddr_In_Access is access all Sockaddr_In;
pragma Convention (C, Sockaddr_In_Access);
-- Access to internet socket address
procedure Set_Port
(Sin : Sockaddr_In_Access;
Port : C.unsigned_short);
pragma Inline (Set_Port);
-- Set Sin.Sin_Port to Port
procedure Set_Address
(Sin : Sockaddr_In_Access;
Address : In_Addr);
pragma Inline (Set_Address);
-- Set Sin.Sin_Addr to Address
------------------
-- Host entries --
------------------
type Hostent is new
System.Storage_Elements.Storage_Array (1 .. SOSC.SIZEOF_struct_hostent);
for Hostent'Alignment use 8;
-- Host entry. This is an opaque type used only via the following
-- accessor functions, because 'struct hostent' has different layouts on
-- different platforms.
type Hostent_Access is access all Hostent;
pragma Convention (C, Hostent_Access);
-- Access to host entry
-- Note: the hostent and servent accessors that return char*
-- values are compiled with GCC, and on VMS they always return
-- 64-bit pointers, so we can't use C.Strings.chars_ptr, which
-- on VMS is 32 bits.
function Hostent_H_Name
(E : Hostent_Access) return System.Address;
function Hostent_H_Alias
(E : Hostent_Access; I : C.int) return System.Address;
function Hostent_H_Addrtype
(E : Hostent_Access) return C.int;
function Hostent_H_Length
(E : Hostent_Access) return C.int;
function Hostent_H_Addr
(E : Hostent_Access; Index : C.int) return System.Address;
---------------------
-- Service entries --
---------------------
type Servent is new
System.Storage_Elements.Storage_Array (1 .. SOSC.SIZEOF_struct_servent);
for Servent'Alignment use 8;
-- Service entry. This is an opaque type used only via the following
-- accessor functions, because 'struct servent' has different layouts on
-- different platforms.
type Servent_Access is access all Servent;
pragma Convention (C, Servent_Access);
-- Access to service entry
function Servent_S_Name
(E : Servent_Access) return System.Address;
function Servent_S_Alias
(E : Servent_Access; Index : C.int) return System.Address;
function Servent_S_Port
(E : Servent_Access) return C.unsigned_short;
function Servent_S_Proto
(E : Servent_Access) return System.Address;
------------------
-- NetDB access --
------------------
-- There are three possible situations for the following NetDB access
-- functions:
-- - inherently thread safe (case of data returned in a thread specific
-- buffer);
-- - thread safe using user-provided buffer;
-- - thread unsafe.
--
-- In the first and third cases, the Buf and Buflen are ignored. In the
-- second case, the caller must provide a buffer large enough to
-- accommodate the returned data. In the third case, the caller must ensure
-- that these functions are called within a critical section.
function C_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;
function C_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;
function C_Getservbyname
(Name : C.char_array;
Proto : C.char_array;
Ret : not null access Servent;
Buf : System.Address;
Buflen : C.int) return C.int;
function C_Getservbyport
(Port : C.int;
Proto : C.char_array;
Ret : not null access Servent;
Buf : System.Address;
Buflen : C.int) return C.int;
------------------------------------
-- Scatter/gather vector handling --
------------------------------------
type Msghdr is record
Msg_Name : System.Address;
Msg_Namelen : C.unsigned;
Msg_Iov : System.Address;
Msg_Iovlen : SOSC.Msg_Iovlen_T;
Msg_Control : System.Address;
Msg_Controllen : C.size_t;
Msg_Flags : C.int;
end record;
pragma Convention (C, Msghdr);
----------------------------
-- Socket sets management --
----------------------------
procedure Get_Socket_From_Set
(Set : access Fd_Set;
Last : access C.int;
Socket : access C.int);
-- Get last socket in Socket and remove it from the socket set. The
-- parameter Last is a maximum value of the largest socket. This hint is
-- used to avoid scanning very large socket sets. After a call to
-- Get_Socket_From_Set, Last is set back to the real largest socket in the
-- socket set.
procedure Insert_Socket_In_Set
(Set : access Fd_Set;
Socket : C.int);
-- Insert socket in the socket set
function Is_Socket_In_Set
(Set : access constant Fd_Set;
Socket : C.int) return C.int;
-- Check whether Socket is in the socket set, return a non-zero
-- value if it is, zero if it is not.
procedure Last_Socket_In_Set
(Set : access Fd_Set;
Last : access C.int);
-- Find the largest socket in the socket set. This is needed for select().
-- When Last_Socket_In_Set is called, parameter Last is a maximum value of
-- the largest socket. This hint is used to avoid scanning very large
-- socket sets. After the call, Last is set back to the real largest socket
-- in the socket set.
procedure Remove_Socket_From_Set (Set : access Fd_Set; Socket : C.int);
-- Remove socket from the socket set
procedure Reset_Socket_Set (Set : access Fd_Set);
-- Make Set empty
------------------------------------------
-- Pairs of signalling file descriptors --
------------------------------------------
type Two_Ints is array (0 .. 1) of C.int;
pragma Convention (C, Two_Ints);
-- Container for two int values
subtype Fd_Pair is Two_Ints;
-- Two_Ints as used for Create_Signalling_Fds: a pair of connected file
-- descriptors, one of which (the "read end" of the connection) being used
-- for reading, the other one (the "write end") being used for writing.
Read_End : constant := 0;
Write_End : constant := 1;
-- Indexes into an Fd_Pair value providing access to each of the connected
-- file descriptors.
function Inet_Pton
(Af : C.int;
Cp : System.Address;
Inp : System.Address) return C.int;
function C_Ioctl
(Fd : C.int;
Req : SOSC.IOCTL_Req_T;
Arg : access C.int) return C.int;
private
pragma Import (C, Get_Socket_From_Set, "__gnat_get_socket_from_set");
pragma Import (C, Is_Socket_In_Set, "__gnat_is_socket_in_set");
pragma Import (C, Last_Socket_In_Set, "__gnat_last_socket_in_set");
pragma Import (C, Insert_Socket_In_Set, "__gnat_insert_socket_in_set");
pragma Import (C, Remove_Socket_From_Set, "__gnat_remove_socket_from_set");
pragma Import (C, Reset_Socket_Set, "__gnat_reset_socket_set");
pragma Import (C, C_Ioctl, "__gnat_socket_ioctl");
pragma Import (C, Inet_Pton, SOSC.Inet_Pton_Linkname);
pragma Import (C, C_Gethostbyname, "__gnat_gethostbyname");
pragma Import (C, C_Gethostbyaddr, "__gnat_gethostbyaddr");
pragma Import (C, C_Getservbyname, "__gnat_getservbyname");
pragma Import (C, C_Getservbyport, "__gnat_getservbyport");
pragma Import (C, Servent_S_Name, "__gnat_servent_s_name");
pragma Import (C, Servent_S_Alias, "__gnat_servent_s_alias");
pragma Import (C, Servent_S_Port, "__gnat_servent_s_port");
pragma Import (C, Servent_S_Proto, "__gnat_servent_s_proto");
pragma Import (C, Hostent_H_Name, "__gnat_hostent_h_name");
pragma Import (C, Hostent_H_Alias, "__gnat_hostent_h_alias");
pragma Import (C, Hostent_H_Addrtype, "__gnat_hostent_h_addrtype");
pragma Import (C, Hostent_H_Length, "__gnat_hostent_h_length");
pragma Import (C, Hostent_H_Addr, "__gnat_hostent_h_addr");
end GNAT.Sockets.Thin_Common;
|