with Ada.Streams; use Ada.Streams;
with Ada.Exceptions; use Ada.Exceptions;
with Ada.Unchecked_Conversion;
with Interfaces.C.Strings;
with GNAT.OS_Lib; use GNAT.OS_Lib;
with GNAT.Sockets.Constants;
with GNAT.Sockets.Thin; use GNAT.Sockets.Thin;
with GNAT.Task_Lock;
with GNAT.Sockets.Linker_Options;
pragma Warnings (Off, GNAT.Sockets.Linker_Options);
with System; use System;
package body GNAT.Sockets is
use type C.int, System.Address;
Finalized : Boolean := False;
Initialized : Boolean := False;
ENOERROR : constant := 0;
Families : constant array (Family_Type) of C.int :=
(Family_Inet => Constants.AF_INET,
Family_Inet6 => Constants.AF_INET6);
Levels : constant array (Level_Type) of C.int :=
(Socket_Level => Constants.SOL_SOCKET,
IP_Protocol_For_IP_Level => Constants.IPPROTO_IP,
IP_Protocol_For_UDP_Level => Constants.IPPROTO_UDP,
IP_Protocol_For_TCP_Level => Constants.IPPROTO_TCP);
Modes : constant array (Mode_Type) of C.int :=
(Socket_Stream => Constants.SOCK_STREAM,
Socket_Datagram => Constants.SOCK_DGRAM);
Shutmodes : constant array (Shutmode_Type) of C.int :=
(Shut_Read => Constants.SHUT_RD,
Shut_Write => Constants.SHUT_WR,
Shut_Read_Write => Constants.SHUT_RDWR);
Requests : constant array (Request_Name) of C.int :=
(Non_Blocking_IO => Constants.FIONBIO,
N_Bytes_To_Read => Constants.FIONREAD);
Options : constant array (Option_Name) of C.int :=
(Keep_Alive => Constants.SO_KEEPALIVE,
Reuse_Address => Constants.SO_REUSEADDR,
Broadcast => Constants.SO_BROADCAST,
Send_Buffer => Constants.SO_SNDBUF,
Receive_Buffer => Constants.SO_RCVBUF,
Linger => Constants.SO_LINGER,
Error => Constants.SO_ERROR,
No_Delay => Constants.TCP_NODELAY,
Add_Membership => Constants.IP_ADD_MEMBERSHIP,
Drop_Membership => Constants.IP_DROP_MEMBERSHIP,
Multicast_TTL => Constants.IP_MULTICAST_TTL,
Multicast_Loop => Constants.IP_MULTICAST_LOOP);
Flags : constant array (0 .. 3) of C.int :=
(0 => Constants.MSG_OOB, 1 => Constants.MSG_PEEK, 2 => Constants.MSG_WAITALL, 3 => Constants.MSG_EOR);
Socket_Error_Id : constant Exception_Id := Socket_Error'Identity;
Host_Error_Id : constant Exception_Id := Host_Error'Identity;
Hex_To_Char : constant String (1 .. 16) := "0123456789ABCDEF";
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);
function Resolve_Error
(Error_Value : Integer;
From_Errno : Boolean := True) return Error_Type;
function To_Name (N : String) return Name_Type;
function To_String (HN : Name_Type) return String;
function To_Int (F : Request_Flag_Type) return C.int;
function Set_Forced_Flags (F : C.int) return C.int;
function Short_To_Network
(S : C.unsigned_short) return C.unsigned_short;
pragma Inline (Short_To_Network);
function Network_To_Short
(S : C.unsigned_short) return C.unsigned_short
renames Short_To_Network;
function Image
(Val : Inet_Addr_VN_Type;
Hex : Boolean := False) return String;
function Is_IP_Address (Name : String) return Boolean;
function To_In_Addr (Addr : Inet_Addr_Type) return Thin.In_Addr;
function To_Inet_Addr (Addr : In_Addr) return Inet_Addr_Type;
function To_Host_Entry (E : Hostent) return Host_Entry_Type;
function To_Service_Entry (E : Servent) return Service_Entry_Type;
function To_Timeval (Val : Selector_Duration) return Timeval;
procedure Raise_Socket_Error (Error : Integer);
procedure Raise_Host_Error (Error : Integer);
procedure Narrow (Item : in out Socket_Set_Type);
type Datagram_Socket_Stream_Type is new Root_Stream_Type with record
Socket : Socket_Type;
To : Sock_Addr_Type;
From : Sock_Addr_Type;
end record;
type Datagram_Socket_Stream_Access is
access all Datagram_Socket_Stream_Type;
procedure Read
(Stream : in out Datagram_Socket_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset);
procedure Write
(Stream : in out Datagram_Socket_Stream_Type;
Item : Ada.Streams.Stream_Element_Array);
type Stream_Socket_Stream_Type is new Root_Stream_Type with record
Socket : Socket_Type;
end record;
type Stream_Socket_Stream_Access is
access all Stream_Socket_Stream_Type;
procedure Read
(Stream : in out Stream_Socket_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset);
procedure Write
(Stream : in out Stream_Socket_Stream_Type;
Item : Ada.Streams.Stream_Element_Array);
function "+" (L, R : Request_Flag_Type) return Request_Flag_Type is
begin
return L or R;
end "+";
procedure Abort_Selector (Selector : Selector_Type) is
Buf : aliased Character := ASCII.NUL;
Discard : C.int;
pragma Unreferenced (Discard);
begin
Discard := C_Write (C.int (Selector.W_Sig_Socket), Buf'Address, 1);
end Abort_Selector;
procedure Accept_Socket
(Server : Socket_Type;
Socket : out Socket_Type;
Address : out Sock_Addr_Type)
is
Res : C.int;
Sin : aliased Sockaddr_In;
Len : aliased C.int := Sin'Size / 8;
begin
Res := C_Accept (C.int (Server), Sin'Address, Len'Access);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Socket := Socket_Type (Res);
Address.Addr := To_Inet_Addr (Sin.Sin_Addr);
Address.Port := Port_Type (Network_To_Short (Sin.Sin_Port));
end Accept_Socket;
function Addresses
(E : Host_Entry_Type;
N : Positive := 1) return Inet_Addr_Type
is
begin
return E.Addresses (N);
end Addresses;
function Addresses_Length (E : Host_Entry_Type) return Natural is
begin
return E.Addresses_Length;
end Addresses_Length;
function Aliases
(E : Host_Entry_Type;
N : Positive := 1) return String
is
begin
return To_String (E.Aliases (N));
end Aliases;
function Aliases
(S : Service_Entry_Type;
N : Positive := 1) return String
is
begin
return To_String (S.Aliases (N));
end Aliases;
function Aliases_Length (E : Host_Entry_Type) return Natural is
begin
return E.Aliases_Length;
end Aliases_Length;
function Aliases_Length (S : Service_Entry_Type) return Natural is
begin
return S.Aliases_Length;
end Aliases_Length;
procedure Bind_Socket
(Socket : Socket_Type;
Address : Sock_Addr_Type)
is
Res : C.int;
Sin : aliased Sockaddr_In;
Len : constant C.int := Sin'Size / 8;
begin
if Address.Family = Family_Inet6 then
raise Socket_Error;
end if;
Set_Length (Sin'Unchecked_Access, Len);
Set_Family (Sin'Unchecked_Access, Families (Address.Family));
Set_Port
(Sin'Unchecked_Access,
Short_To_Network (C.unsigned_short (Address.Port)));
Res := C_Bind (C.int (Socket), Sin'Address, Len);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Bind_Socket;
procedure Check_Selector
(Selector : in out Selector_Type;
R_Socket_Set : in out Socket_Set_Type;
W_Socket_Set : in out Socket_Set_Type;
Status : out Selector_Status;
Timeout : Selector_Duration := Forever)
is
E_Socket_Set : Socket_Set_Type; begin
Check_Selector
(Selector, R_Socket_Set, W_Socket_Set, E_Socket_Set, Status, Timeout);
end Check_Selector;
procedure Check_Selector
(Selector : in out Selector_Type;
R_Socket_Set : in out Socket_Set_Type;
W_Socket_Set : in out Socket_Set_Type;
E_Socket_Set : in out Socket_Set_Type;
Status : out Selector_Status;
Timeout : Selector_Duration := Forever)
is
Res : C.int;
Last : C.int;
RSet : Socket_Set_Type;
WSet : Socket_Set_Type;
ESet : Socket_Set_Type;
TVal : aliased Timeval;
TPtr : Timeval_Access;
begin
Status := Completed;
if Timeout = Forever then
TPtr := null;
else
TVal := To_Timeval (Timeout);
TPtr := TVal'Unchecked_Access;
end if;
RSet := (Set => New_Socket_Set (R_Socket_Set.Set),
Last => R_Socket_Set.Last);
Set (RSet, Selector.R_Sig_Socket);
WSet := (Set => New_Socket_Set (W_Socket_Set.Set),
Last => W_Socket_Set.Last);
ESet := (Set => New_Socket_Set (E_Socket_Set.Set),
Last => E_Socket_Set.Last);
Last := C.int'Max (C.int'Max (C.int (RSet.Last),
C.int (WSet.Last)),
C.int (ESet.Last));
Res :=
C_Select
(Last + 1,
RSet.Set,
WSet.Set,
ESet.Set,
TPtr);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
if Is_Set (RSet, Selector.R_Sig_Socket) then
Clear (RSet, Selector.R_Sig_Socket);
declare
Buf : Character;
begin
Res := C_Read (C.int (Selector.R_Sig_Socket), Buf'Address, 1);
end;
Status := Aborted;
elsif Res = 0 then
Status := Expired;
end if;
Narrow (RSet);
Narrow (WSet);
Narrow (ESet);
if Is_Empty (RSet) then
Empty (RSet);
end if;
if Is_Empty (WSet) then
Empty (WSet);
end if;
if Is_Empty (ESet) then
Empty (ESet);
end if;
Empty (R_Socket_Set);
R_Socket_Set := RSet;
Empty (W_Socket_Set);
W_Socket_Set := WSet;
Empty (E_Socket_Set);
E_Socket_Set := ESet;
end Check_Selector;
procedure Clear
(Item : in out Socket_Set_Type;
Socket : Socket_Type)
is
Last : aliased C.int := C.int (Item.Last);
begin
if Item.Last /= No_Socket then
Remove_Socket_From_Set (Item.Set, C.int (Socket));
Last_Socket_In_Set (Item.Set, Last'Unchecked_Access);
Item.Last := Socket_Type (Last);
end if;
end Clear;
procedure Close_Selector (Selector : in out Selector_Type) is
begin
begin
Close_Socket (Selector.R_Sig_Socket);
exception
when Socket_Error =>
null;
end;
begin
Close_Socket (Selector.W_Sig_Socket);
exception
when Socket_Error =>
null;
end;
end Close_Selector;
procedure Close_Socket (Socket : Socket_Type) is
Res : C.int;
begin
Res := C_Close (C.int (Socket));
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Close_Socket;
procedure Connect_Socket
(Socket : Socket_Type;
Server : in out Sock_Addr_Type)
is
Res : C.int;
Sin : aliased Sockaddr_In;
Len : constant C.int := Sin'Size / 8;
begin
if Server.Family = Family_Inet6 then
raise Socket_Error;
end if;
Set_Length (Sin'Unchecked_Access, Len);
Set_Family (Sin'Unchecked_Access, Families (Server.Family));
Set_Address (Sin'Unchecked_Access, To_In_Addr (Server.Addr));
Set_Port
(Sin'Unchecked_Access,
Short_To_Network (C.unsigned_short (Server.Port)));
Res := C_Connect (C.int (Socket), Sin'Address, Len);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Connect_Socket;
procedure Control_Socket
(Socket : Socket_Type;
Request : in out Request_Type)
is
Arg : aliased C.int;
Res : C.int;
begin
case Request.Name is
when Non_Blocking_IO =>
Arg := C.int (Boolean'Pos (Request.Enabled));
when N_Bytes_To_Read =>
null;
end case;
Res := C_Ioctl
(C.int (Socket),
Requests (Request.Name),
Arg'Unchecked_Access);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
case Request.Name is
when Non_Blocking_IO =>
null;
when N_Bytes_To_Read =>
Request.Size := Natural (Arg);
end case;
end Control_Socket;
procedure Copy
(Source : Socket_Set_Type;
Target : in out Socket_Set_Type)
is
begin
Empty (Target);
if Source.Last /= No_Socket then
Target.Set := New_Socket_Set (Source.Set);
Target.Last := Source.Last;
end if;
end Copy;
procedure Create_Selector (Selector : out Selector_Type) is
S0 : C.int;
S1 : C.int;
S2 : C.int;
Res : C.int;
Sin : aliased Sockaddr_In;
Len : aliased C.int := Sin'Size / 8;
Err : Integer;
begin
S0 := C_Socket (Constants.AF_INET, Constants.SOCK_STREAM, 0);
if S0 = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Res := C_Bind (S0, Sin'Address, Len);
if Res = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Raise_Socket_Error (Err);
end if;
Res := C_Getsockname (S0, Sin'Address, Len'Access);
if Res = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Raise_Socket_Error (Err);
end if;
Res := C_Listen (S0, 2);
if Res = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Raise_Socket_Error (Err);
end if;
S1 := C_Socket (Constants.AF_INET, Constants.SOCK_STREAM, 0);
if S1 = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Raise_Socket_Error (Err);
end if;
Sin.Sin_Addr.S_B1 := 127;
Sin.Sin_Addr.S_B2 := 0;
Sin.Sin_Addr.S_B3 := 0;
Sin.Sin_Addr.S_B4 := 1;
Res := C_Connect (S1, Sin'Address, Len);
if Res = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Res := C_Close (S1);
Raise_Socket_Error (Err);
end if;
S2 := C_Accept (S0, Sin'Address, Len'Access);
if S2 = Failure then
Err := Socket_Errno;
Res := C_Close (S0);
Res := C_Close (S1);
Raise_Socket_Error (Err);
end if;
Res := C_Close (S0);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Selector.R_Sig_Socket := Socket_Type (S1);
Selector.W_Sig_Socket := Socket_Type (S2);
end Create_Selector;
procedure Create_Socket
(Socket : out Socket_Type;
Family : Family_Type := Family_Inet;
Mode : Mode_Type := Socket_Stream)
is
Res : C.int;
begin
Res := C_Socket (Families (Family), Modes (Mode), 0);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Socket := Socket_Type (Res);
end Create_Socket;
procedure Empty (Item : in out Socket_Set_Type) is
begin
if Item.Set /= No_Socket_Set then
Free_Socket_Set (Item.Set);
Item.Set := No_Socket_Set;
end if;
Item.Last := No_Socket;
end Empty;
procedure Finalize is
begin
if not Finalized
and then Initialized
then
Finalized := True;
Thin.Finalize;
end if;
end Finalize;
procedure Get
(Item : in out Socket_Set_Type;
Socket : out Socket_Type)
is
S : aliased C.int;
L : aliased C.int := C.int (Item.Last);
begin
if Item.Last /= No_Socket then
Get_Socket_From_Set
(Item.Set, L'Unchecked_Access, S'Unchecked_Access);
Item.Last := Socket_Type (L);
Socket := Socket_Type (S);
else
Socket := No_Socket;
end if;
end Get;
function Get_Address (Stream : Stream_Access) return Sock_Addr_Type is
begin
if Stream = null then
raise Socket_Error;
elsif Stream.all in Datagram_Socket_Stream_Type then
return Datagram_Socket_Stream_Type (Stream.all).From;
else
return Get_Peer_Name (Stream_Socket_Stream_Type (Stream.all).Socket);
end if;
end Get_Address;
function Get_Host_By_Address
(Address : Inet_Addr_Type;
Family : Family_Type := Family_Inet) return Host_Entry_Type
is
pragma Unreferenced (Family);
HA : aliased In_Addr := To_In_Addr (Address);
Res : Hostent_Access;
Err : Integer;
begin
Task_Lock.Lock;
Res := C_Gethostbyaddr (HA'Address, HA'Size / 8, Constants.AF_INET);
if Res = null then
Err := Socket_Errno;
Task_Lock.Unlock;
Raise_Host_Error (Err);
end if;
declare
HE : constant Host_Entry_Type := To_Host_Entry (Res.all);
begin
Task_Lock.Unlock;
return HE;
end;
end Get_Host_By_Address;
function Get_Host_By_Name (Name : String) return Host_Entry_Type is
HN : constant C.char_array := C.To_C (Name);
Res : Hostent_Access;
Err : Integer;
begin
if Is_IP_Address (Name) then
return Get_Host_By_Address (Inet_Addr (Name));
end if;
Task_Lock.Lock;
Res := C_Gethostbyname (HN);
if Res = null then
Err := Socket_Errno;
Task_Lock.Unlock;
Raise_Host_Error (Err);
end if;
declare
HE : constant Host_Entry_Type := To_Host_Entry (Res.all);
begin
Task_Lock.Unlock;
return HE;
end;
end Get_Host_By_Name;
function Get_Peer_Name (Socket : Socket_Type) return Sock_Addr_Type is
Sin : aliased Sockaddr_In;
Len : aliased C.int := Sin'Size / 8;
Res : Sock_Addr_Type (Family_Inet);
begin
if C_Getpeername (C.int (Socket), Sin'Address, Len'Access) = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Res.Addr := To_Inet_Addr (Sin.Sin_Addr);
Res.Port := Port_Type (Network_To_Short (Sin.Sin_Port));
return Res;
end Get_Peer_Name;
function Get_Service_By_Name
(Name : String;
Protocol : String) return Service_Entry_Type
is
SN : constant C.char_array := C.To_C (Name);
SP : constant C.char_array := C.To_C (Protocol);
Res : Servent_Access;
begin
Task_Lock.Lock;
Res := C_Getservbyname (SN, SP);
if Res = null then
Task_Lock.Unlock;
Ada.Exceptions.Raise_Exception
(Service_Error'Identity, "Service not found");
end if;
declare
SE : constant Service_Entry_Type := To_Service_Entry (Res.all);
begin
Task_Lock.Unlock;
return SE;
end;
end Get_Service_By_Name;
function Get_Service_By_Port
(Port : Port_Type;
Protocol : String) return Service_Entry_Type
is
SP : constant C.char_array := C.To_C (Protocol);
Res : Servent_Access;
begin
Task_Lock.Lock;
Res := C_Getservbyport
(C.int (Short_To_Network (C.unsigned_short (Port))), SP);
if Res = null then
Task_Lock.Unlock;
Ada.Exceptions.Raise_Exception
(Service_Error'Identity, "Service not found");
end if;
declare
SE : constant Service_Entry_Type := To_Service_Entry (Res.all);
begin
Task_Lock.Unlock;
return SE;
end;
end Get_Service_By_Port;
function Get_Socket_Name
(Socket : Socket_Type) return Sock_Addr_Type
is
Sin : aliased Sockaddr_In;
Len : aliased C.int := Sin'Size / 8;
Res : C.int;
Addr : Sock_Addr_Type := No_Sock_Addr;
begin
Res := C_Getsockname (C.int (Socket), Sin'Address, Len'Access);
if Res /= Failure then
Addr.Addr := To_Inet_Addr (Sin.Sin_Addr);
Addr.Port := Port_Type (Network_To_Short (Sin.Sin_Port));
end if;
return Addr;
end Get_Socket_Name;
function Get_Socket_Option
(Socket : Socket_Type;
Level : Level_Type := Socket_Level;
Name : Option_Name) return Option_Type
is
use type C.unsigned_char;
V8 : aliased Two_Int;
V4 : aliased C.int;
V1 : aliased C.unsigned_char;
Len : aliased C.int;
Add : System.Address;
Res : C.int;
Opt : Option_Type (Name);
begin
case Name is
when Multicast_Loop |
Multicast_TTL =>
Len := V1'Size / 8;
Add := V1'Address;
when Keep_Alive |
Reuse_Address |
Broadcast |
No_Delay |
Send_Buffer |
Receive_Buffer |
Error =>
Len := V4'Size / 8;
Add := V4'Address;
when Linger |
Add_Membership |
Drop_Membership =>
Len := V8'Size / 8;
Add := V8'Address;
end case;
Res :=
C_Getsockopt
(C.int (Socket),
Levels (Level),
Options (Name),
Add, Len'Unchecked_Access);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
case Name is
when Keep_Alive |
Reuse_Address |
Broadcast |
No_Delay =>
Opt.Enabled := (V4 /= 0);
when Linger =>
Opt.Enabled := (V8 (V8'First) /= 0);
Opt.Seconds := Natural (V8 (V8'Last));
when Send_Buffer |
Receive_Buffer =>
Opt.Size := Natural (V4);
when Error =>
Opt.Error := Resolve_Error (Integer (V4));
when Add_Membership |
Drop_Membership =>
Opt.Multicast_Address := To_Inet_Addr (To_In_Addr (V8 (V8'First)));
Opt.Local_Interface := To_Inet_Addr (To_In_Addr (V8 (V8'Last)));
when Multicast_TTL =>
Opt.Time_To_Live := Integer (V1);
when Multicast_Loop =>
Opt.Enabled := (V1 /= 0);
end case;
return Opt;
end Get_Socket_Option;
function Host_Name return String is
Name : aliased C.char_array (1 .. 64);
Res : C.int;
begin
Res := C_Gethostname (Name'Address, Name'Length);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
return C.To_Ada (Name);
end Host_Name;
function Image
(Val : Inet_Addr_VN_Type;
Hex : Boolean := False) return String
is
Buffer : String (1 .. 4 * Val'Length);
Length : Natural := 1;
Separator : Character;
procedure Img10 (V : Inet_Addr_Comp_Type);
procedure Img16 (V : Inet_Addr_Comp_Type);
procedure Img10 (V : Inet_Addr_Comp_Type) is
Img : constant String := V'Img;
Len : constant Natural := Img'Length - 1;
begin
Buffer (Length .. Length + Len - 1) := Img (2 .. Img'Last);
Length := Length + Len;
end Img10;
procedure Img16 (V : Inet_Addr_Comp_Type) is
begin
Buffer (Length) := Hex_To_Char (Natural (V / 16) + 1);
Buffer (Length + 1) := Hex_To_Char (Natural (V mod 16) + 1);
Length := Length + 2;
end Img16;
begin
if Hex then
Separator := ':';
else
Separator := '.';
end if;
for J in Val'Range loop
if Hex then
Img16 (Val (J));
else
Img10 (Val (J));
end if;
if J /= Val'Last then
Buffer (Length) := Separator;
Length := Length + 1;
end if;
end loop;
return Buffer (1 .. Length - 1);
end Image;
function Image (Value : Inet_Addr_Type) return String is
begin
if Value.Family = Family_Inet then
return Image (Inet_Addr_VN_Type (Value.Sin_V4), Hex => False);
else
return Image (Inet_Addr_VN_Type (Value.Sin_V6), Hex => True);
end if;
end Image;
function Image (Value : Sock_Addr_Type) return String is
Port : constant String := Value.Port'Img;
begin
return Image (Value.Addr) & ':' & Port (2 .. Port'Last);
end Image;
function Image (Socket : Socket_Type) return String is
begin
return Socket'Img;
end Image;
function Inet_Addr (Image : String) return Inet_Addr_Type is
use Interfaces.C.Strings;
Img : chars_ptr := New_String (Image);
Res : C.int;
Err : Integer;
begin
Res := C_Inet_Addr (Img);
Err := Errno;
Free (Img);
if Res = Failure then
Raise_Socket_Error (Err);
end if;
return To_Inet_Addr (To_In_Addr (Res));
end Inet_Addr;
procedure Initialize (Process_Blocking_IO : Boolean := False) is
begin
if not Initialized then
Initialized := True;
Thin.Initialize (Process_Blocking_IO);
end if;
end Initialize;
function Is_Empty (Item : Socket_Set_Type) return Boolean is
begin
return Item.Last = No_Socket;
end Is_Empty;
function Is_IP_Address (Name : String) return Boolean is
begin
for J in Name'Range loop
if Name (J) /= '.'
and then Name (J) not in '0' .. '9'
then
return False;
end if;
end loop;
return True;
end Is_IP_Address;
function Is_Set
(Item : Socket_Set_Type;
Socket : Socket_Type) return Boolean
is
begin
return Item.Last /= No_Socket
and then Socket <= Item.Last
and then Is_Socket_In_Set (Item.Set, C.int (Socket)) /= 0;
end Is_Set;
procedure Listen_Socket
(Socket : Socket_Type;
Length : Positive := 15)
is
Res : constant C.int := C_Listen (C.int (Socket), C.int (Length));
begin
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Listen_Socket;
procedure Narrow (Item : in out Socket_Set_Type) is
Last : aliased C.int := C.int (Item.Last);
begin
if Item.Set /= No_Socket_Set then
Last_Socket_In_Set (Item.Set, Last'Unchecked_Access);
Item.Last := Socket_Type (Last);
end if;
end Narrow;
function Official_Name (E : Host_Entry_Type) return String is
begin
return To_String (E.Official);
end Official_Name;
function Official_Name (S : Service_Entry_Type) return String is
begin
return To_String (S.Official);
end Official_Name;
function Port_Number (S : Service_Entry_Type) return Port_Type is
begin
return S.Port;
end Port_Number;
function Protocol_Name (S : Service_Entry_Type) return String is
begin
return To_String (S.Protocol);
end Protocol_Name;
procedure Raise_Host_Error (Error : Integer) is
function Host_Error_Message return String;
function Host_Error_Message return String is
begin
case Error is
when Constants.HOST_NOT_FOUND => return "Host not found";
when Constants.TRY_AGAIN => return "Try again";
when Constants.NO_RECOVERY => return "No recovery";
when Constants.NO_DATA => return "No address";
when others => return "Unknown error";
end case;
end Host_Error_Message;
begin
Ada.Exceptions.Raise_Exception (Host_Error'Identity, Host_Error_Message);
end Raise_Host_Error;
procedure Raise_Socket_Error (Error : Integer) is
use type C.Strings.chars_ptr;
function Image (E : Integer) return String;
function Image (E : Integer) return String is
Msg : String := E'Img & "] ";
begin
Msg (Msg'First) := '[';
return Msg;
end Image;
begin
Ada.Exceptions.Raise_Exception
(Socket_Error'Identity,
Image (Error) & C.Strings.Value (Socket_Error_Message (Error)));
end Raise_Socket_Error;
procedure Read
(Stream : in out Datagram_Socket_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset)
is
First : Ada.Streams.Stream_Element_Offset := Item'First;
Index : Ada.Streams.Stream_Element_Offset := First - 1;
Max : constant Ada.Streams.Stream_Element_Offset := Item'Last;
begin
loop
Receive_Socket
(Stream.Socket,
Item (First .. Max),
Index,
Stream.From);
Last := Index;
exit when Index < First or else Index = Max;
First := Index + 1;
end loop;
end Read;
procedure Read
(Stream : in out Stream_Socket_Stream_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset)
is
First : Ada.Streams.Stream_Element_Offset := Item'First;
Index : Ada.Streams.Stream_Element_Offset := First - 1;
Max : constant Ada.Streams.Stream_Element_Offset := Item'Last;
begin
loop
Receive_Socket (Stream.Socket, Item (First .. Max), Index);
Last := Index;
exit when Index < First or else Index = Max;
First := Index + 1;
end loop;
end Read;
procedure Receive_Socket
(Socket : Socket_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset;
Flags : Request_Flag_Type := No_Request_Flag)
is
use type Ada.Streams.Stream_Element_Offset;
Res : C.int;
begin
Res := C_Recv
(C.int (Socket),
Item (Item'First)'Address,
Item'Length,
To_Int (Flags));
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Last := Item'First + Ada.Streams.Stream_Element_Offset (Res - 1);
end Receive_Socket;
procedure Receive_Socket
(Socket : Socket_Type;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset;
From : out Sock_Addr_Type;
Flags : Request_Flag_Type := No_Request_Flag)
is
use type Ada.Streams.Stream_Element_Offset;
Res : C.int;
Sin : aliased Sockaddr_In;
Len : aliased C.int := Sin'Size / 8;
begin
Res :=
C_Recvfrom
(C.int (Socket),
Item (Item'First)'Address,
Item'Length,
To_Int (Flags),
Sin'Unchecked_Access,
Len'Unchecked_Access);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Last := Item'First + Ada.Streams.Stream_Element_Offset (Res - 1);
From.Addr := To_Inet_Addr (Sin.Sin_Addr);
From.Port := Port_Type (Network_To_Short (Sin.Sin_Port));
end Receive_Socket;
function Resolve_Error
(Error_Value : Integer;
From_Errno : Boolean := True) return Error_Type
is
use GNAT.Sockets.Constants;
begin
if not From_Errno then
case Error_Value is
when Constants.HOST_NOT_FOUND => return Unknown_Host;
when Constants.TRY_AGAIN => return Host_Name_Lookup_Failure;
when Constants.NO_RECOVERY =>
return Non_Recoverable_Error;
when Constants.NO_DATA => return Unknown_Server_Error;
when others => return Cannot_Resolve_Error;
end case;
end if;
case Error_Value is
when ENOERROR => return Success;
when EACCES => return Permission_Denied;
when EADDRINUSE => return Address_Already_In_Use;
when EADDRNOTAVAIL => return Cannot_Assign_Requested_Address;
when EAFNOSUPPORT =>
return Address_Family_Not_Supported_By_Protocol;
when EALREADY => return Operation_Already_In_Progress;
when EBADF => return Bad_File_Descriptor;
when ECONNABORTED => return Software_Caused_Connection_Abort;
when ECONNREFUSED => return Connection_Refused;
when ECONNRESET => return Connection_Reset_By_Peer;
when EDESTADDRREQ => return Destination_Address_Required;
when EFAULT => return Bad_Address;
when EHOSTDOWN => return Host_Is_Down;
when EHOSTUNREACH => return No_Route_To_Host;
when EINPROGRESS => return Operation_Now_In_Progress;
when EINTR => return Interrupted_System_Call;
when EINVAL => return Invalid_Argument;
when EIO => return Input_Output_Error;
when EISCONN => return Transport_Endpoint_Already_Connected;
when ELOOP => return Too_Many_Symbolic_Links;
when EMFILE => return Too_Many_Open_Files;
when EMSGSIZE => return Message_Too_Long;
when ENAMETOOLONG => return File_Name_Too_Long;
when ENETDOWN => return Network_Is_Down;
when ENETRESET =>
return Network_Dropped_Connection_Because_Of_Reset;
when ENETUNREACH => return Network_Is_Unreachable;
when ENOBUFS => return No_Buffer_Space_Available;
when ENOPROTOOPT => return Protocol_Not_Available;
when ENOTCONN => return Transport_Endpoint_Not_Connected;
when ENOTSOCK => return Socket_Operation_On_Non_Socket;
when EOPNOTSUPP => return Operation_Not_Supported;
when EPFNOSUPPORT => return Protocol_Family_Not_Supported;
when EPROTONOSUPPORT => return Protocol_Not_Supported;
when EPROTOTYPE => return Protocol_Wrong_Type_For_Socket;
when ESHUTDOWN =>
return Cannot_Send_After_Transport_Endpoint_Shutdown;
when ESOCKTNOSUPPORT => return Socket_Type_Not_Supported;
when ETIMEDOUT => return Connection_Timed_Out;
when ETOOMANYREFS => return Too_Many_References;
when EWOULDBLOCK => return Resource_Temporarily_Unavailable;
when others => null;
end case;
return Cannot_Resolve_Error;
end Resolve_Error;
function Resolve_Exception
(Occurrence : Exception_Occurrence) return Error_Type
is
Id : constant Exception_Id := Exception_Identity (Occurrence);
Msg : constant String := Exception_Message (Occurrence);
First : Natural := Msg'First;
Last : Natural;
Val : Integer;
begin
while First <= Msg'Last
and then Msg (First) not in '0' .. '9'
loop
First := First + 1;
end loop;
if First > Msg'Last then
return Cannot_Resolve_Error;
end if;
Last := First;
while Last < Msg'Last
and then Msg (Last + 1) in '0' .. '9'
loop
Last := Last + 1;
end loop;
Val := Integer'Value (Msg (First .. Last));
if Id = Socket_Error_Id then
return Resolve_Error (Val);
elsif Id = Host_Error_Id then
return Resolve_Error (Val, False);
else
return Cannot_Resolve_Error;
end if;
end Resolve_Exception;
procedure Receive_Vector
(Socket : Socket_Type;
Vector : Vector_Type;
Count : out Ada.Streams.Stream_Element_Count)
is
Res : C.int;
begin
Res :=
C_Readv
(C.int (Socket),
Vector (Vector'First)'Address,
Vector'Length);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Count := Ada.Streams.Stream_Element_Count (Res);
end Receive_Vector;
procedure Send_Socket
(Socket : Socket_Type;
Item : Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset;
Flags : Request_Flag_Type := No_Request_Flag)
is
use type Ada.Streams.Stream_Element_Offset;
Res : C.int;
begin
Res :=
C_Send
(C.int (Socket),
Item (Item'First)'Address,
Item'Length,
Set_Forced_Flags (To_Int (Flags)));
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Last := Item'First + Ada.Streams.Stream_Element_Offset (Res - 1);
end Send_Socket;
procedure Send_Socket
(Socket : Socket_Type;
Item : Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset;
To : Sock_Addr_Type;
Flags : Request_Flag_Type := No_Request_Flag)
is
use type Ada.Streams.Stream_Element_Offset;
Res : C.int;
Sin : aliased Sockaddr_In;
Len : constant C.int := Sin'Size / 8;
begin
Set_Length (Sin'Unchecked_Access, Len);
Set_Family (Sin'Unchecked_Access, Families (To.Family));
Set_Address (Sin'Unchecked_Access, To_In_Addr (To.Addr));
Set_Port
(Sin'Unchecked_Access,
Short_To_Network (C.unsigned_short (To.Port)));
Res := C_Sendto
(C.int (Socket),
Item (Item'First)'Address,
Item'Length,
Set_Forced_Flags (To_Int (Flags)),
Sin'Unchecked_Access,
Len);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Last := Item'First + Ada.Streams.Stream_Element_Offset (Res - 1);
end Send_Socket;
procedure Send_Vector
(Socket : Socket_Type;
Vector : Vector_Type;
Count : out Ada.Streams.Stream_Element_Count)
is
Res : C.int;
begin
Res :=
C_Writev
(C.int (Socket),
Vector (Vector'First)'Address,
Vector'Length);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
Count := Ada.Streams.Stream_Element_Count (Res);
end Send_Vector;
procedure Set (Item : in out Socket_Set_Type; Socket : Socket_Type) is
begin
if Item.Set = No_Socket_Set then
Item.Set := New_Socket_Set (No_Socket_Set);
Item.Last := Socket;
elsif Item.Last < Socket then
Item.Last := Socket;
end if;
Insert_Socket_In_Set (Item.Set, C.int (Socket));
end Set;
function Set_Forced_Flags (F : C.int) return C.int is
use type C.unsigned;
function To_unsigned is
new Ada.Unchecked_Conversion (C.int, C.unsigned);
function To_int is
new Ada.Unchecked_Conversion (C.unsigned, C.int);
begin
return To_int (To_unsigned (F) or Constants.MSG_Forced_Flags);
end Set_Forced_Flags;
procedure Set_Socket_Option
(Socket : Socket_Type;
Level : Level_Type := Socket_Level;
Option : Option_Type)
is
V8 : aliased Two_Int;
V4 : aliased C.int;
V1 : aliased C.unsigned_char;
Len : aliased C.int;
Add : System.Address := Null_Address;
Res : C.int;
begin
case Option.Name is
when Keep_Alive |
Reuse_Address |
Broadcast |
No_Delay =>
V4 := C.int (Boolean'Pos (Option.Enabled));
Len := V4'Size / 8;
Add := V4'Address;
when Linger =>
V8 (V8'First) := C.int (Boolean'Pos (Option.Enabled));
V8 (V8'Last) := C.int (Option.Seconds);
Len := V8'Size / 8;
Add := V8'Address;
when Send_Buffer |
Receive_Buffer =>
V4 := C.int (Option.Size);
Len := V4'Size / 8;
Add := V4'Address;
when Error =>
V4 := C.int (Boolean'Pos (True));
Len := V4'Size / 8;
Add := V4'Address;
when Add_Membership |
Drop_Membership =>
V8 (V8'First) := To_Int (To_In_Addr (Option.Multicast_Address));
V8 (V8'Last) := To_Int (To_In_Addr (Option.Local_Interface));
Len := V8'Size / 8;
Add := V8'Address;
when Multicast_TTL =>
V1 := C.unsigned_char (Option.Time_To_Live);
Len := V1'Size / 8;
Add := V1'Address;
when Multicast_Loop =>
V1 := C.unsigned_char (Boolean'Pos (Option.Enabled));
Len := V1'Size / 8;
Add := V1'Address;
end case;
Res := C_Setsockopt
(C.int (Socket),
Levels (Level),
Options (Option.Name),
Add, Len);
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Set_Socket_Option;
function Short_To_Network (S : C.unsigned_short) return C.unsigned_short is
use type C.unsigned_short;
begin
pragma Warnings (Off);
if Default_Bit_Order = High_Order_First then
return S;
pragma Warnings (On);
else
return (S / 256) + (S mod 256) * 256;
end if;
end Short_To_Network;
procedure Shutdown_Socket
(Socket : Socket_Type;
How : Shutmode_Type := Shut_Read_Write)
is
Res : C.int;
begin
Res := C_Shutdown (C.int (Socket), Shutmodes (How));
if Res = Failure then
Raise_Socket_Error (Socket_Errno);
end if;
end Shutdown_Socket;
function Stream
(Socket : Socket_Type;
Send_To : Sock_Addr_Type) return Stream_Access
is
S : Datagram_Socket_Stream_Access;
begin
S := new Datagram_Socket_Stream_Type;
S.Socket := Socket;
S.To := Send_To;
S.From := Get_Socket_Name (Socket);
return Stream_Access (S);
end Stream;
function Stream (Socket : Socket_Type) return Stream_Access is
S : Stream_Socket_Stream_Access;
begin
S := new Stream_Socket_Stream_Type;
S.Socket := Socket;
return Stream_Access (S);
end Stream;
function To_C (Socket : Socket_Type) return Integer is
begin
return Integer (Socket);
end To_C;
function To_Host_Entry (E : Hostent) return Host_Entry_Type is
use type C.size_t;
Official : constant String :=
C.Strings.Value (E.H_Name);
Aliases : constant Chars_Ptr_Array :=
Chars_Ptr_Pointers.Value (E.H_Aliases);
Addresses : constant In_Addr_Access_Array :=
In_Addr_Access_Pointers.Value (E.H_Addr_List);
Result : Host_Entry_Type
(Aliases_Length => Aliases'Length - 1,
Addresses_Length => Addresses'Length - 1);
Source : C.size_t;
Target : Natural;
begin
Result.Official := To_Name (Official);
Source := Aliases'First;
Target := Result.Aliases'First;
while Target <= Result.Aliases_Length loop
Result.Aliases (Target) :=
To_Name (C.Strings.Value (Aliases (Source)));
Source := Source + 1;
Target := Target + 1;
end loop;
Source := Addresses'First;
Target := Result.Addresses'First;
while Target <= Result.Addresses_Length loop
Result.Addresses (Target) :=
To_Inet_Addr (Addresses (Source).all);
Source := Source + 1;
Target := Target + 1;
end loop;
return Result;
end To_Host_Entry;
function To_In_Addr (Addr : Inet_Addr_Type) return Thin.In_Addr is
begin
if Addr.Family = Family_Inet then
return (S_B1 => C.unsigned_char (Addr.Sin_V4 (1)),
S_B2 => C.unsigned_char (Addr.Sin_V4 (2)),
S_B3 => C.unsigned_char (Addr.Sin_V4 (3)),
S_B4 => C.unsigned_char (Addr.Sin_V4 (4)));
end if;
raise Socket_Error;
end To_In_Addr;
function To_Inet_Addr
(Addr : In_Addr) return Inet_Addr_Type
is
Result : Inet_Addr_Type;
begin
Result.Sin_V4 (1) := Inet_Addr_Comp_Type (Addr.S_B1);
Result.Sin_V4 (2) := Inet_Addr_Comp_Type (Addr.S_B2);
Result.Sin_V4 (3) := Inet_Addr_Comp_Type (Addr.S_B3);
Result.Sin_V4 (4) := Inet_Addr_Comp_Type (Addr.S_B4);
return Result;
end To_Inet_Addr;
function To_Int (F : Request_Flag_Type) return C.int
is
Current : Request_Flag_Type := F;
Result : C.int := 0;
begin
for J in Flags'Range loop
exit when Current = 0;
if Current mod 2 /= 0 then
if Flags (J) = -1 then
Raise_Socket_Error (Constants.EOPNOTSUPP);
end if;
Result := Result + Flags (J);
end if;
Current := Current / 2;
end loop;
return Result;
end To_Int;
function To_Name (N : String) return Name_Type is
begin
return Name_Type'(N'Length, N);
end To_Name;
function To_Service_Entry (E : Servent) return Service_Entry_Type is
use type C.size_t;
Official : constant String :=
C.Strings.Value (E.S_Name);
Aliases : constant Chars_Ptr_Array :=
Chars_Ptr_Pointers.Value (E.S_Aliases);
Protocol : constant String :=
C.Strings.Value (E.S_Proto);
Result : Service_Entry_Type
(Aliases_Length => Aliases'Length - 1);
Source : C.size_t;
Target : Natural;
begin
Result.Official := To_Name (Official);
Source := Aliases'First;
Target := Result.Aliases'First;
while Target <= Result.Aliases_Length loop
Result.Aliases (Target) :=
To_Name (C.Strings.Value (Aliases (Source)));
Source := Source + 1;
Target := Target + 1;
end loop;
Result.Port :=
Port_Type (Network_To_Short (C.unsigned_short (E.S_Port)));
Result.Protocol := To_Name (Protocol);
return Result;
end To_Service_Entry;
function To_String (HN : Name_Type) return String is
begin
return HN.Name (1 .. HN.Length);
end To_String;
function To_Timeval (Val : Selector_Duration) return Timeval is
S : Timeval_Unit;
MS : Timeval_Unit;
begin
if Val = 0.0 then
S := 0;
MS := 0;
else
S := Timeval_Unit (Val - 0.5);
MS := Timeval_Unit (1_000_000 * (Val - Selector_Duration (S)));
end if;
return (S, MS);
end To_Timeval;
procedure Write
(Stream : in out Datagram_Socket_Stream_Type;
Item : Ada.Streams.Stream_Element_Array)
is
First : Ada.Streams.Stream_Element_Offset := Item'First;
Index : Ada.Streams.Stream_Element_Offset := First - 1;
Max : constant Ada.Streams.Stream_Element_Offset := Item'Last;
begin
loop
Send_Socket
(Stream.Socket,
Item (First .. Max),
Index,
Stream.To);
exit when Index < First or else Index = Max;
First := Index + 1;
end loop;
if Index /= Max then
raise Socket_Error;
end if;
end Write;
procedure Write
(Stream : in out Stream_Socket_Stream_Type;
Item : Ada.Streams.Stream_Element_Array)
is
First : Ada.Streams.Stream_Element_Offset := Item'First;
Index : Ada.Streams.Stream_Element_Offset := First - 1;
Max : constant Ada.Streams.Stream_Element_Offset := Item'Last;
begin
loop
Send_Socket (Stream.Socket, Item (First .. Max), Index);
exit when Index < First or else Index = Max;
First := Index + 1;
end loop;
if Index /= Max then
raise Socket_Error;
end if;
end Write;
end GNAT.Sockets;