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1 706 jeremybenn
------------------------------------------------------------------------------
2
--                                                                          --
3
--                         GNAT COMPILER COMPONENTS                         --
4
--                                                                          --
5
--                         G N A T . S O C K E T S                          --
6
--                                                                          --
7
--                                 S p e c                                  --
8
--                                                                          --
9
--                     Copyright (C) 2001-2011, AdaCore                     --
10
--                                                                          --
11
-- GNAT is free software;  you can  redistribute it  and/or modify it under --
12
-- terms of the  GNU General Public License as published  by the Free Soft- --
13
-- ware  Foundation;  either version 3,  or (at your option) any later ver- --
14
-- sion.  GNAT is distributed in the hope that it will be useful, but WITH- --
15
-- OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY --
16
-- or FITNESS FOR A PARTICULAR PURPOSE.                                     --
17
--                                                                          --
18
-- As a special exception under Section 7 of GPL version 3, you are granted --
19
-- additional permissions described in the GCC Runtime Library Exception,   --
20
-- version 3.1, as published by the Free Software Foundation.               --
21
--                                                                          --
22
-- You should have received a copy of the GNU General Public License and    --
23
-- a copy of the GCC Runtime Library Exception along with this program;     --
24
-- see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see    --
25
-- <http://www.gnu.org/licenses/>.                                          --
26
--                                                                          --
27
-- GNAT was originally developed  by the GNAT team at  New York University. --
28
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
29
--                                                                          --
30
------------------------------------------------------------------------------
31
 
32
--  This package provides an interface to the sockets communication facility
33
--  provided on many operating systems. This is implemented on the following
34
--  platforms:
35
 
36
--     All native ports, with restrictions as follows
37
 
38
--       Multicast is available only on systems which provide support for this
39
--       feature, so it is not available if Multicast is not supported, or not
40
--       installed.
41
 
42
--       The VMS implementation was implemented using the DECC RTL Socket API,
43
--       and is thus subject to limitations in the implementation of this API.
44
 
45
--     VxWorks cross ports fully implement this package
46
 
47
--     This package is not yet implemented on LynxOS or other cross ports
48
 
49
with Ada.Exceptions;
50
with Ada.Streams;
51
with Ada.Unchecked_Deallocation;
52
 
53
with Interfaces.C;
54
 
55
with System.OS_Constants;
56
with System.Storage_Elements;
57
 
58
package GNAT.Sockets is
59
 
60
   --  Sockets are designed to provide a consistent communication facility
61
   --  between applications. This package provides an Ada binding to the
62
   --  de-facto standard BSD sockets API. The documentation below covers
63
   --  only the specific binding provided by this package. It assumes that
64
   --  the reader is already familiar with general network programming and
65
   --  sockets usage. A useful reference on this matter is W. Richard Stevens'
66
   --  "UNIX Network Programming: The Sockets Networking API"
67
   --  (ISBN: 0131411551).
68
 
69
   --  GNAT.Sockets has been designed with several ideas in mind
70
 
71
   --  This is a system independent interface. Therefore, we try as much as
72
   --  possible to mask system incompatibilities. Some functionalities are not
73
   --  available because there are not fully supported on some systems.
74
 
75
   --  This is a thick binding. For instance, a major effort has been done to
76
   --  avoid using memory addresses or untyped ints. We preferred to define
77
   --  streams and enumeration types. Errors are not returned as returned
78
   --  values but as exceptions.
79
 
80
   --  This package provides a POSIX-compliant interface (between two
81
   --  different implementations of the same routine, we adopt the one closest
82
   --  to the POSIX specification). For instance, using select(), the
83
   --  notification of an asynchronous connect failure is delivered in the
84
   --  write socket set (POSIX) instead of the exception socket set (NT).
85
 
86
   --  The example below demonstrates various features of GNAT.Sockets:
87
 
88
   --  with GNAT.Sockets; use GNAT.Sockets;
89
 
90
   --  with Ada.Text_IO;
91
   --  with Ada.Exceptions; use Ada.Exceptions;
92
 
93
   --  procedure PingPong is
94
 
95
   --     Group : constant String := "239.255.128.128";
96
   --     --  Multicast group: administratively scoped IP address
97
 
98
   --     task Pong is
99
   --        entry Start;
100
   --        entry Stop;
101
   --     end Pong;
102
 
103
   --     task body Pong is
104
   --        Address  : Sock_Addr_Type;
105
   --        Server   : Socket_Type;
106
   --        Socket   : Socket_Type;
107
   --        Channel  : Stream_Access;
108
 
109
   --     begin
110
   --        accept Start;
111
   --
112
   --        --  Get an Internet address of a host (here the local host name).
113
   --        --  Note that a host can have several addresses. Here we get
114
   --        --  the first one which is supposed to be the official one.
115
 
116
   --        Address.Addr := Addresses (Get_Host_By_Name (Host_Name), 1);
117
 
118
   --        --  Get a socket address that is an Internet address and a port
119
 
120
   --        Address.Port := 5876;
121
 
122
   --        --  The first step is to create a socket. Once created, this
123
   --        --  socket must be associated to with an address. Usually only a
124
   --        --  server (Pong here) needs to bind an address explicitly. Most
125
   --        --  of the time clients can skip this step because the socket
126
   --        --  routines will bind an arbitrary address to an unbound socket.
127
 
128
   --        Create_Socket (Server);
129
 
130
   --        --  Allow reuse of local addresses
131
 
132
   --        Set_Socket_Option
133
   --          (Server,
134
   --           Socket_Level,
135
   --           (Reuse_Address, True));
136
 
137
   --        Bind_Socket (Server, Address);
138
 
139
   --        --  A server marks a socket as willing to receive connect events
140
 
141
   --        Listen_Socket (Server);
142
 
143
   --        --  Once a server calls Listen_Socket, incoming connects events
144
   --        --  can be accepted. The returned Socket is a new socket that
145
   --        --  represents the server side of the connection. Server remains
146
   --        --  available to receive further connections.
147
 
148
   --        Accept_Socket (Server, Socket, Address);
149
 
150
   --        --  Return a stream associated to the connected socket
151
 
152
   --        Channel := Stream (Socket);
153
 
154
   --        --  Force Pong to block
155
 
156
   --        delay 0.2;
157
 
158
   --        --  Receive and print message from client Ping
159
 
160
   --        declare
161
   --           Message : String := String'Input (Channel);
162
 
163
   --        begin
164
   --           Ada.Text_IO.Put_Line (Message);
165
 
166
   --           --  Send same message back to client Ping
167
 
168
   --           String'Output (Channel, Message);
169
   --        end;
170
 
171
   --        Close_Socket (Server);
172
   --        Close_Socket (Socket);
173
 
174
   --        --  Part of the multicast example
175
 
176
   --        --  Create a datagram socket to send connectionless, unreliable
177
   --        --  messages of a fixed maximum length.
178
 
179
   --        Create_Socket (Socket, Family_Inet, Socket_Datagram);
180
 
181
   --        --  Allow reuse of local addresses
182
 
183
   --        Set_Socket_Option
184
   --          (Socket,
185
   --           Socket_Level,
186
   --           (Reuse_Address, True));
187
 
188
   --        --  Controls the live time of the datagram to avoid it being
189
   --        --  looped forever due to routing errors. Routers decrement
190
   --        --  the TTL of every datagram as it traverses from one network
191
   --        --  to another and when its value reaches 0 the packet is
192
   --        --  dropped. Default is 1.
193
 
194
   --        Set_Socket_Option
195
   --          (Socket,
196
   --           IP_Protocol_For_IP_Level,
197
   --           (Multicast_TTL, 1));
198
 
199
   --        --  Want the data you send to be looped back to your host
200
 
201
   --        Set_Socket_Option
202
   --          (Socket,
203
   --           IP_Protocol_For_IP_Level,
204
   --           (Multicast_Loop, True));
205
 
206
   --        --  If this socket is intended to receive messages, bind it
207
   --        --  to a given socket address.
208
 
209
   --        Address.Addr := Any_Inet_Addr;
210
   --        Address.Port := 55505;
211
 
212
   --        Bind_Socket (Socket, Address);
213
 
214
   --        --  Join a multicast group
215
 
216
   --        --  Portability note: On Windows, this option may be set only
217
   --        --  on a bound socket.
218
 
219
   --        Set_Socket_Option
220
   --          (Socket,
221
   --           IP_Protocol_For_IP_Level,
222
   --           (Add_Membership, Inet_Addr (Group), Any_Inet_Addr));
223
 
224
   --        --  If this socket is intended to send messages, provide the
225
   --        --  receiver socket address.
226
 
227
   --        Address.Addr := Inet_Addr (Group);
228
   --        Address.Port := 55506;
229
 
230
   --        Channel := Stream (Socket, Address);
231
 
232
   --        --  Receive and print message from client Ping
233
 
234
   --        declare
235
   --           Message : String := String'Input (Channel);
236
 
237
   --        begin
238
   --           --  Get the address of the sender
239
 
240
   --           Address := Get_Address (Channel);
241
   --           Ada.Text_IO.Put_Line (Message & " from " & Image (Address));
242
 
243
   --           --  Send same message back to client Ping
244
 
245
   --           String'Output (Channel, Message);
246
   --        end;
247
 
248
   --        Close_Socket (Socket);
249
 
250
   --        accept Stop;
251
 
252
   --     exception when E : others =>
253
   --        Ada.Text_IO.Put_Line
254
   --          (Exception_Name (E) & ": " & Exception_Message (E));
255
   --     end Pong;
256
 
257
   --     task Ping is
258
   --        entry Start;
259
   --        entry Stop;
260
   --     end Ping;
261
 
262
   --     task body Ping is
263
   --        Address  : Sock_Addr_Type;
264
   --        Socket   : Socket_Type;
265
   --        Channel  : Stream_Access;
266
 
267
   --     begin
268
   --        accept Start;
269
 
270
   --        --  See comments in Ping section for the first steps
271
 
272
   --        Address.Addr := Addresses (Get_Host_By_Name (Host_Name), 1);
273
   --        Address.Port := 5876;
274
   --        Create_Socket (Socket);
275
 
276
   --        Set_Socket_Option
277
   --          (Socket,
278
   --           Socket_Level,
279
   --           (Reuse_Address, True));
280
 
281
   --        --  Force Pong to block
282
 
283
   --        delay 0.2;
284
 
285
   --        --  If the client's socket is not bound, Connect_Socket will
286
   --        --  bind to an unused address. The client uses Connect_Socket to
287
   --        --  create a logical connection between the client's socket and
288
   --        --  a server's socket returned by Accept_Socket.
289
 
290
   --        Connect_Socket (Socket, Address);
291
 
292
   --        Channel := Stream (Socket);
293
 
294
   --        --  Send message to server Pong
295
 
296
   --        String'Output (Channel, "Hello world");
297
 
298
   --        --  Force Ping to block
299
 
300
   --        delay 0.2;
301
 
302
   --        --  Receive and print message from server Pong
303
 
304
   --        Ada.Text_IO.Put_Line (String'Input (Channel));
305
   --        Close_Socket (Socket);
306
 
307
   --        --  Part of multicast example. Code similar to Pong's one
308
 
309
   --        Create_Socket (Socket, Family_Inet, Socket_Datagram);
310
 
311
   --        Set_Socket_Option
312
   --          (Socket,
313
   --           Socket_Level,
314
   --           (Reuse_Address, True));
315
 
316
   --        Set_Socket_Option
317
   --          (Socket,
318
   --           IP_Protocol_For_IP_Level,
319
   --           (Multicast_TTL, 1));
320
 
321
   --        Set_Socket_Option
322
   --          (Socket,
323
   --           IP_Protocol_For_IP_Level,
324
   --           (Multicast_Loop, True));
325
 
326
   --        Address.Addr := Any_Inet_Addr;
327
   --        Address.Port := 55506;
328
 
329
   --        Bind_Socket (Socket, Address);
330
 
331
   --        Set_Socket_Option
332
   --          (Socket,
333
   --           IP_Protocol_For_IP_Level,
334
   --           (Add_Membership, Inet_Addr (Group), Any_Inet_Addr));
335
 
336
   --        Address.Addr := Inet_Addr (Group);
337
   --        Address.Port := 55505;
338
 
339
   --        Channel := Stream (Socket, Address);
340
 
341
   --        --  Send message to server Pong
342
 
343
   --        String'Output (Channel, "Hello world");
344
 
345
   --        --  Receive and print message from server Pong
346
 
347
   --        declare
348
   --           Message : String := String'Input (Channel);
349
 
350
   --        begin
351
   --           Address := Get_Address (Channel);
352
   --           Ada.Text_IO.Put_Line (Message & " from " & Image (Address));
353
   --        end;
354
 
355
   --        Close_Socket (Socket);
356
 
357
   --        accept Stop;
358
 
359
   --     exception when E : others =>
360
   --        Ada.Text_IO.Put_Line
361
   --          (Exception_Name (E) & ": " & Exception_Message (E));
362
   --     end Ping;
363
 
364
   --  begin
365
   --     Initialize;
366
   --     Ping.Start;
367
   --     Pong.Start;
368
   --     Ping.Stop;
369
   --     Pong.Stop;
370
   --     Finalize;
371
   --  end PingPong;
372
 
373
   package SOSC renames System.OS_Constants;
374
   --  Renaming used to provide short-hand notations throughout the sockets
375
   --  binding. Note that System.OS_Constants is an internal unit, and the
376
   --  entities declared therein are not meant for direct access by users,
377
   --  including through this renaming.
378
 
379
   procedure Initialize;
380
   pragma Obsolescent
381
     (Entity  => Initialize,
382
      Message => "explicit initialization is no longer required");
383
   --  Initialize must be called before using any other socket routines.
384
   --  Note that this operation is a no-op on UNIX platforms, but applications
385
   --  should make sure to call it if portability is expected: some platforms
386
   --  (such as Windows) require initialization before any socket operation.
387
   --  This is now a no-op (initialization and finalization are done
388
   --  automatically).
389
 
390
   procedure Initialize (Process_Blocking_IO : Boolean);
391
   pragma Obsolescent
392
     (Entity  => Initialize,
393
      Message => "passing a parameter to Initialize is no longer supported");
394
   --  Previous versions of GNAT.Sockets used to require the user to indicate
395
   --  whether socket I/O was process- or thread-blocking on the platform.
396
   --  This property is now determined automatically when the run-time library
397
   --  is built. The old version of Initialize, taking a parameter, is kept
398
   --  for compatibility reasons, but this interface is obsolete (and if the
399
   --  value given is wrong, an exception will be raised at run time).
400
   --  This is now a no-op (initialization and finalization are done
401
   --  automatically).
402
 
403
   procedure Finalize;
404
   pragma Obsolescent
405
     (Entity  => Finalize,
406
      Message => "explicit finalization is no longer required");
407
   --  After Finalize is called it is not possible to use any routines
408
   --  exported in by this package. This procedure is idempotent.
409
   --  This is now a no-op (initialization and finalization are done
410
   --  automatically).
411
 
412
   type Socket_Type is private;
413
   --  Sockets are used to implement a reliable bi-directional point-to-point,
414
   --  stream-based connections between hosts. No_Socket provides a special
415
   --  value to denote uninitialized sockets.
416
 
417
   No_Socket : constant Socket_Type;
418
 
419
   type Selector_Type is limited private;
420
   type Selector_Access is access all Selector_Type;
421
   --  Selector objects are used to wait for i/o events to occur on sockets
422
 
423
   Null_Selector : constant Selector_Type;
424
   --  The Null_Selector can be used in place of a normal selector without
425
   --  having to call Create_Selector if the use of Abort_Selector is not
426
   --  required.
427
 
428
   --  Timeval_Duration is a subtype of Standard.Duration because the full
429
   --  range of Standard.Duration cannot be represented in the equivalent C
430
   --  structure (struct timeval). Moreover, negative values are not allowed
431
   --  to avoid system incompatibilities.
432
 
433
   Immediate : constant Duration := 0.0;
434
 
435
   Forever : constant Duration :=
436
               Duration'Min (Duration'Last, 1.0 * SOSC.MAX_tv_sec);
437
   --  Largest possible Duration that is also a valid value for struct timeval
438
 
439
   subtype Timeval_Duration is Duration range Immediate .. Forever;
440
 
441
   subtype Selector_Duration is Timeval_Duration;
442
   --  Timeout value for selector operations
443
 
444
   type Selector_Status is (Completed, Expired, Aborted);
445
   --  Completion status of a selector operation, indicated as follows:
446
   --    Complete: one of the expected events occurred
447
   --    Expired:  no event occurred before the expiration of the timeout
448
   --    Aborted:  an external action cancelled the wait operation before
449
   --              any event occurred.
450
 
451
   Socket_Error : exception;
452
   --  There is only one exception in this package to deal with an error during
453
   --  a socket routine. Once raised, its message contains a string describing
454
   --  the error code.
455
 
456
   function Image (Socket : Socket_Type) return String;
457
   --  Return a printable string for Socket
458
 
459
   function To_C (Socket : Socket_Type) return Integer;
460
   --  Return a file descriptor to be used by external subprograms. This is
461
   --  useful for C functions that are not yet interfaced in this package.
462
 
463
   type Family_Type is (Family_Inet, Family_Inet6);
464
   --  Address family (or protocol family) identifies the communication domain
465
   --  and groups protocols with similar address formats.
466
 
467
   type Mode_Type is (Socket_Stream, Socket_Datagram);
468
   --  Stream sockets provide connection-oriented byte streams. Datagram
469
   --  sockets support unreliable connectionless message based communication.
470
 
471
   type Shutmode_Type is (Shut_Read, Shut_Write, Shut_Read_Write);
472
   --  When a process closes a socket, the policy is to retain any data queued
473
   --  until either a delivery or a timeout expiration (in this case, the data
474
   --  are discarded). A finer control is available through shutdown. With
475
   --  Shut_Read, no more data can be received from the socket. With_Write, no
476
   --  more data can be transmitted. Neither transmission nor reception can be
477
   --  performed with Shut_Read_Write.
478
 
479
   type Port_Type is range 0 .. 16#ffff#;
480
   --  TCP/UDP port number
481
 
482
   Any_Port : constant Port_Type;
483
   --  All ports
484
 
485
   No_Port : constant Port_Type;
486
   --  Uninitialized port number
487
 
488
   type Inet_Addr_Type (Family : Family_Type := Family_Inet) is private;
489
   --  An Internet address depends on an address family (IPv4 contains 4 octets
490
   --  and IPv6 contains 16 octets). Any_Inet_Addr is a special value treated
491
   --  like a wildcard enabling all addresses. No_Inet_Addr provides a special
492
   --  value to denote uninitialized inet addresses.
493
 
494
   Any_Inet_Addr       : constant Inet_Addr_Type;
495
   No_Inet_Addr        : constant Inet_Addr_Type;
496
   Broadcast_Inet_Addr : constant Inet_Addr_Type;
497
   Loopback_Inet_Addr  : constant Inet_Addr_Type;
498
 
499
   --  Useful constants for IPv4 multicast addresses
500
 
501
   Unspecified_Group_Inet_Addr : constant Inet_Addr_Type;
502
   All_Hosts_Group_Inet_Addr   : constant Inet_Addr_Type;
503
   All_Routers_Group_Inet_Addr : constant Inet_Addr_Type;
504
 
505
   type Sock_Addr_Type (Family : Family_Type := Family_Inet) is record
506
      Addr : Inet_Addr_Type (Family);
507
      Port : Port_Type;
508
   end record;
509
   --  Socket addresses fully define a socket connection with protocol family,
510
   --  an Internet address and a port. No_Sock_Addr provides a special value
511
   --  for uninitialized socket addresses.
512
 
513
   No_Sock_Addr : constant Sock_Addr_Type;
514
 
515
   function Image (Value : Inet_Addr_Type) return String;
516
   --  Return an image of an Internet address. IPv4 notation consists in 4
517
   --  octets in decimal format separated by dots. IPv6 notation consists in
518
   --  16 octets in hexadecimal format separated by colons (and possibly
519
   --  dots).
520
 
521
   function Image (Value : Sock_Addr_Type) return String;
522
   --  Return inet address image and port image separated by a colon
523
 
524
   function Inet_Addr (Image : String) return Inet_Addr_Type;
525
   --  Convert address image from numbers-and-dots notation into an
526
   --  inet address.
527
 
528
   --  Host entries provide complete information on a given host: the official
529
   --  name, an array of alternative names or aliases and array of network
530
   --  addresses.
531
 
532
   type Host_Entry_Type
533
     (Aliases_Length, Addresses_Length : Natural) is private;
534
 
535
   function Official_Name (E : Host_Entry_Type) return String;
536
   --  Return official name in host entry
537
 
538
   function Aliases_Length (E : Host_Entry_Type) return Natural;
539
   --  Return number of aliases in host entry
540
 
541
   function Addresses_Length (E : Host_Entry_Type) return Natural;
542
   --  Return number of addresses in host entry
543
 
544
   function Aliases
545
     (E : Host_Entry_Type;
546
      N : Positive := 1) return String;
547
   --  Return N'th aliases in host entry. The first index is 1
548
 
549
   function Addresses
550
     (E : Host_Entry_Type;
551
      N : Positive := 1) return Inet_Addr_Type;
552
   --  Return N'th addresses in host entry. The first index is 1
553
 
554
   Host_Error : exception;
555
   --  Exception raised by the two following procedures. Once raised, its
556
   --  message contains a string describing the error code. This exception is
557
   --  raised when an host entry cannot be retrieved.
558
 
559
   function Get_Host_By_Address
560
     (Address : Inet_Addr_Type;
561
      Family  : Family_Type := Family_Inet) return Host_Entry_Type;
562
   --  Return host entry structure for the given Inet address. Note that no
563
   --  result will be returned if there is no mapping of this IP address to a
564
   --  host name in the system tables (host database, DNS or otherwise).
565
 
566
   function Get_Host_By_Name
567
     (Name : String) return Host_Entry_Type;
568
   --  Return host entry structure for the given host name. Here name is
569
   --  either a host name, or an IP address. If Name is an IP address, this
570
   --  is equivalent to Get_Host_By_Address (Inet_Addr (Name)).
571
 
572
   function Host_Name return String;
573
   --  Return the name of the current host
574
 
575
   type Service_Entry_Type (Aliases_Length : Natural) is private;
576
   --  Service entries provide complete information on a given service: the
577
   --  official name, an array of alternative names or aliases and the port
578
   --  number.
579
 
580
   function Official_Name (S : Service_Entry_Type) return String;
581
   --  Return official name in service entry
582
 
583
   function Port_Number (S : Service_Entry_Type) return Port_Type;
584
   --  Return port number in service entry
585
 
586
   function Protocol_Name (S : Service_Entry_Type) return String;
587
   --  Return Protocol in service entry (usually UDP or TCP)
588
 
589
   function Aliases_Length (S : Service_Entry_Type) return Natural;
590
   --  Return number of aliases in service entry
591
 
592
   function Aliases
593
     (S : Service_Entry_Type;
594
      N : Positive := 1) return String;
595
   --  Return N'th aliases in service entry (the first index is 1)
596
 
597
   function Get_Service_By_Name
598
     (Name     : String;
599
      Protocol : String) return Service_Entry_Type;
600
   --  Return service entry structure for the given service name
601
 
602
   function Get_Service_By_Port
603
     (Port     : Port_Type;
604
      Protocol : String) return Service_Entry_Type;
605
   --  Return service entry structure for the given service port number
606
 
607
   Service_Error : exception;
608
   --  Comment required ???
609
 
610
   --  Errors are described by an enumeration type. There is only one exception
611
   --  Socket_Error in this package to deal with an error during a socket
612
   --  routine. Once raised, its message contains the error code between
613
   --  brackets and a string describing the error code.
614
 
615
   --  The name of the enumeration constant documents the error condition
616
   --  Note that on some platforms, a single error value is used for both
617
   --  EWOULDBLOCK and EAGAIN. Both errors are therefore always reported as
618
   --  Resource_Temporarily_Unavailable.
619
 
620
   type Error_Type is
621
     (Success,
622
      Permission_Denied,
623
      Address_Already_In_Use,
624
      Cannot_Assign_Requested_Address,
625
      Address_Family_Not_Supported_By_Protocol,
626
      Operation_Already_In_Progress,
627
      Bad_File_Descriptor,
628
      Software_Caused_Connection_Abort,
629
      Connection_Refused,
630
      Connection_Reset_By_Peer,
631
      Destination_Address_Required,
632
      Bad_Address,
633
      Host_Is_Down,
634
      No_Route_To_Host,
635
      Operation_Now_In_Progress,
636
      Interrupted_System_Call,
637
      Invalid_Argument,
638
      Input_Output_Error,
639
      Transport_Endpoint_Already_Connected,
640
      Too_Many_Symbolic_Links,
641
      Too_Many_Open_Files,
642
      Message_Too_Long,
643
      File_Name_Too_Long,
644
      Network_Is_Down,
645
      Network_Dropped_Connection_Because_Of_Reset,
646
      Network_Is_Unreachable,
647
      No_Buffer_Space_Available,
648
      Protocol_Not_Available,
649
      Transport_Endpoint_Not_Connected,
650
      Socket_Operation_On_Non_Socket,
651
      Operation_Not_Supported,
652
      Protocol_Family_Not_Supported,
653
      Protocol_Not_Supported,
654
      Protocol_Wrong_Type_For_Socket,
655
      Cannot_Send_After_Transport_Endpoint_Shutdown,
656
      Socket_Type_Not_Supported,
657
      Connection_Timed_Out,
658
      Too_Many_References,
659
      Resource_Temporarily_Unavailable,
660
      Broken_Pipe,
661
      Unknown_Host,
662
      Host_Name_Lookup_Failure,
663
      Non_Recoverable_Error,
664
      Unknown_Server_Error,
665
      Cannot_Resolve_Error);
666
 
667
   --  Get_Socket_Options and Set_Socket_Options manipulate options associated
668
   --  with a socket. Options may exist at multiple protocol levels in the
669
   --  communication stack. Socket_Level is the uppermost socket level.
670
 
671
   type Level_Type is
672
     (Socket_Level,
673
      IP_Protocol_For_IP_Level,
674
      IP_Protocol_For_UDP_Level,
675
      IP_Protocol_For_TCP_Level);
676
 
677
   --  There are several options available to manipulate sockets. Each option
678
   --  has a name and several values available. Most of the time, the value is
679
   --  a boolean to enable or disable this option.
680
 
681
   type Option_Name is
682
     (Keep_Alive,          -- Enable sending of keep-alive messages
683
      Reuse_Address,       -- Allow bind to reuse local address
684
      Broadcast,           -- Enable datagram sockets to recv/send broadcasts
685
      Send_Buffer,         -- Set/get the maximum socket send buffer in bytes
686
      Receive_Buffer,      -- Set/get the maximum socket recv buffer in bytes
687
      Linger,              -- Shutdown wait for msg to be sent or timeout occur
688
      Error,               -- Get and clear the pending socket error
689
      No_Delay,            -- Do not delay send to coalesce data (TCP_NODELAY)
690
      Add_Membership,      -- Join a multicast group
691
      Drop_Membership,     -- Leave a multicast group
692
      Multicast_If,        -- Set default out interface for multicast packets
693
      Multicast_TTL,       -- Set the time-to-live of sent multicast packets
694
      Multicast_Loop,      -- Sent multicast packets are looped to local socket
695
      Receive_Packet_Info, -- Receive low level packet info as ancillary data
696
      Send_Timeout,        -- Set timeout value for output
697
      Receive_Timeout);    -- Set timeout value for input
698
 
699
   type Option_Type (Name : Option_Name := Keep_Alive) is record
700
      case Name is
701
         when Keep_Alive          |
702
              Reuse_Address       |
703
              Broadcast           |
704
              Linger              |
705
              No_Delay            |
706
              Receive_Packet_Info |
707
              Multicast_Loop      =>
708
            Enabled : Boolean;
709
 
710
            case Name is
711
               when Linger    =>
712
                  Seconds : Natural;
713
               when others    =>
714
                  null;
715
            end case;
716
 
717
         when Send_Buffer     |
718
              Receive_Buffer  =>
719
            Size : Natural;
720
 
721
         when Error           =>
722
            Error : Error_Type;
723
 
724
         when Add_Membership  |
725
              Drop_Membership =>
726
            Multicast_Address : Inet_Addr_Type;
727
            Local_Interface   : Inet_Addr_Type;
728
 
729
         when Multicast_If    =>
730
            Outgoing_If : Inet_Addr_Type;
731
 
732
         when Multicast_TTL   =>
733
            Time_To_Live : Natural;
734
 
735
         when Send_Timeout |
736
              Receive_Timeout =>
737
            Timeout : Timeval_Duration;
738
 
739
      end case;
740
   end record;
741
 
742
   --  There are several controls available to manipulate sockets. Each option
743
   --  has a name and several values available. These controls differ from the
744
   --  socket options in that they are not specific to sockets but are
745
   --  available for any device.
746
 
747
   type Request_Name is
748
     (Non_Blocking_IO,  --  Cause a caller not to wait on blocking operations
749
      N_Bytes_To_Read); --  Return the number of bytes available to read
750
 
751
   type Request_Type (Name : Request_Name := Non_Blocking_IO) is record
752
      case Name is
753
         when Non_Blocking_IO =>
754
            Enabled : Boolean;
755
 
756
         when N_Bytes_To_Read =>
757
            Size : Natural;
758
 
759
      end case;
760
   end record;
761
 
762
   --  A request flag allows to specify the type of message transmissions or
763
   --  receptions. A request flag can be combination of zero or more
764
   --  predefined request flags.
765
 
766
   type Request_Flag_Type is private;
767
 
768
   No_Request_Flag : constant Request_Flag_Type;
769
   --  This flag corresponds to the normal execution of an operation
770
 
771
   Process_Out_Of_Band_Data : constant Request_Flag_Type;
772
   --  This flag requests that the receive or send function operates on
773
   --  out-of-band data when the socket supports this notion (e.g.
774
   --  Socket_Stream).
775
 
776
   Peek_At_Incoming_Data : constant Request_Flag_Type;
777
   --  This flag causes the receive operation to return data from the beginning
778
   --  of the receive queue without removing that data from the queue. A
779
   --  subsequent receive call will return the same data.
780
 
781
   Wait_For_A_Full_Reception : constant Request_Flag_Type;
782
   --  This flag requests that the operation block until the full request is
783
   --  satisfied. However, the call may still return less data than requested
784
   --  if a signal is caught, an error or disconnect occurs, or the next data
785
   --  to be received is of a different type than that returned. Note that
786
   --  this flag depends on support in the underlying sockets implementation,
787
   --  and is not supported under Windows.
788
 
789
   Send_End_Of_Record : constant Request_Flag_Type;
790
   --  This flag indicates that the entire message has been sent and so this
791
   --  terminates the record.
792
 
793
   function "+" (L, R : Request_Flag_Type) return Request_Flag_Type;
794
   --  Combine flag L with flag R
795
 
796
   type Stream_Element_Reference is access all Ada.Streams.Stream_Element;
797
 
798
   type Vector_Element is record
799
      Base   : Stream_Element_Reference;
800
      Length : Ada.Streams.Stream_Element_Count;
801
   end record;
802
 
803
   type Vector_Type is array (Integer range <>) of Vector_Element;
804
 
805
   procedure Create_Socket
806
     (Socket : out Socket_Type;
807
      Family : Family_Type := Family_Inet;
808
      Mode   : Mode_Type   := Socket_Stream);
809
   --  Create an endpoint for communication. Raises Socket_Error on error
810
 
811
   procedure Accept_Socket
812
     (Server  : Socket_Type;
813
      Socket  : out Socket_Type;
814
      Address : out Sock_Addr_Type);
815
   --  Extracts the first connection request on the queue of pending
816
   --  connections, creates a new connected socket with mostly the same
817
   --  properties as Server, and allocates a new socket. The returned Address
818
   --  is filled in with the address of the connection. Raises Socket_Error on
819
   --  error.
820
 
821
   procedure Accept_Socket
822
     (Server   : Socket_Type;
823
      Socket   : out Socket_Type;
824
      Address  : out Sock_Addr_Type;
825
      Timeout  : Selector_Duration;
826
      Selector : access Selector_Type := null;
827
      Status   : out Selector_Status);
828
   --  Accept a new connection on Server using Accept_Socket, waiting no longer
829
   --  than the given timeout duration. Status is set to indicate whether the
830
   --  operation completed successfully, timed out, or was aborted. If Selector
831
   --  is not null, the designated selector is used to wait for the socket to
832
   --  become available, else a private selector object is created by this
833
   --  procedure and destroyed before it returns.
834
 
835
   procedure Bind_Socket
836
     (Socket  : Socket_Type;
837
      Address : Sock_Addr_Type);
838
   --  Once a socket is created, assign a local address to it. Raise
839
   --  Socket_Error on error.
840
 
841
   procedure Close_Socket (Socket : Socket_Type);
842
   --  Close a socket and more specifically a non-connected socket
843
 
844
   procedure Connect_Socket
845
     (Socket : Socket_Type;
846
      Server : Sock_Addr_Type);
847
   --  Make a connection to another socket which has the address of Server.
848
   --  Raises Socket_Error on error.
849
 
850
   procedure Connect_Socket
851
     (Socket   : Socket_Type;
852
      Server   : Sock_Addr_Type;
853
      Timeout  : Selector_Duration;
854
      Selector : access Selector_Type := null;
855
      Status   : out Selector_Status);
856
   --  Connect Socket to the given Server address using Connect_Socket, waiting
857
   --  no longer than the given timeout duration. Status is set to indicate
858
   --  whether the operation completed successfully, timed out, or was aborted.
859
   --  If Selector is not null, the designated selector is used to wait for the
860
   --  socket to become available, else a private selector object is created
861
   --  by this procedure and destroyed before it returns.
862
 
863
   procedure Control_Socket
864
     (Socket  : Socket_Type;
865
      Request : in out Request_Type);
866
   --  Obtain or set parameter values that control the socket. This control
867
   --  differs from the socket options in that they are not specific to sockets
868
   --  but are available for any device.
869
 
870
   function Get_Peer_Name (Socket : Socket_Type) return Sock_Addr_Type;
871
   --  Return the peer or remote socket address of a socket. Raise
872
   --  Socket_Error on error.
873
 
874
   function Get_Socket_Name (Socket : Socket_Type) return Sock_Addr_Type;
875
   --  Return the local or current socket address of a socket. Return
876
   --  No_Sock_Addr on error (e.g. socket closed or not locally bound).
877
 
878
   function Get_Socket_Option
879
     (Socket : Socket_Type;
880
      Level  : Level_Type := Socket_Level;
881
      Name   : Option_Name) return Option_Type;
882
   --  Get the options associated with a socket. Raises Socket_Error on error
883
 
884
   procedure Listen_Socket
885
     (Socket : Socket_Type;
886
      Length : Natural := 15);
887
   --  To accept connections, a socket is first created with Create_Socket,
888
   --  a willingness to accept incoming connections and a queue Length for
889
   --  incoming connections are specified. Raise Socket_Error on error.
890
   --  The queue length of 15 is an example value that should be appropriate
891
   --  in usual cases. It can be adjusted according to each application's
892
   --  particular requirements.
893
 
894
   procedure Receive_Socket
895
     (Socket : Socket_Type;
896
      Item   : out Ada.Streams.Stream_Element_Array;
897
      Last   : out Ada.Streams.Stream_Element_Offset;
898
      Flags  : Request_Flag_Type := No_Request_Flag);
899
   --  Receive message from Socket. Last is the index value such that Item
900
   --  (Last) is the last character assigned. Note that Last is set to
901
   --  Item'First - 1 when the socket has been closed by peer. This is not
902
   --  an error, and no exception is raised in this case unless Item'First
903
   --  is Stream_Element_Offset'First, in which case Constraint_Error is
904
   --  raised. Flags allows to control the reception. Raise Socket_Error on
905
   --  error.
906
 
907
   procedure Receive_Socket
908
     (Socket : Socket_Type;
909
      Item   : out Ada.Streams.Stream_Element_Array;
910
      Last   : out Ada.Streams.Stream_Element_Offset;
911
      From   : out Sock_Addr_Type;
912
      Flags  : Request_Flag_Type := No_Request_Flag);
913
   --  Receive message from Socket. If Socket is not connection-oriented, the
914
   --  source address From of the message is filled in. Last is the index
915
   --  value such that Item (Last) is the last character assigned. Flags
916
   --  allows to control the reception. Raises Socket_Error on error.
917
 
918
   procedure Receive_Vector
919
     (Socket : Socket_Type;
920
      Vector : Vector_Type;
921
      Count  : out Ada.Streams.Stream_Element_Count;
922
      Flags  : Request_Flag_Type := No_Request_Flag);
923
   --  Receive data from a socket and scatter it into the set of vector
924
   --  elements Vector. Count is set to the count of received stream elements.
925
   --  Flags allow control over reception.
926
 
927
   function Resolve_Exception
928
     (Occurrence : Ada.Exceptions.Exception_Occurrence) return Error_Type;
929
   --  When Socket_Error or Host_Error are raised, the exception message
930
   --  contains the error code between brackets and a string describing the
931
   --  error code. Resolve_Error extracts the error code from an exception
932
   --  message and translate it into an enumeration value.
933
 
934
   procedure Send_Socket
935
     (Socket : Socket_Type;
936
      Item   : Ada.Streams.Stream_Element_Array;
937
      Last   : out Ada.Streams.Stream_Element_Offset;
938
      To     : access Sock_Addr_Type;
939
      Flags  : Request_Flag_Type := No_Request_Flag);
940
   pragma Inline (Send_Socket);
941
   --  Transmit a message over a socket. For a datagram socket, the address
942
   --  is given by To.all. For a stream socket, To must be null. Last
943
   --  is the index value such that Item (Last) is the last character
944
   --  sent. Note that Last is set to Item'First - 1 if the socket has been
945
   --  closed by the peer (unless Item'First is Stream_Element_Offset'First,
946
   --  in which case Constraint_Error is raised instead). This is not an error,
947
   --  and Socket_Error is not raised in that case. Flags allows control of the
948
   --  transmission. Raises exception Socket_Error on error. Note: this
949
   --  subprogram is inlined because it is also used to implement the two
950
   --  variants below.
951
 
952
   procedure Send_Socket
953
     (Socket : Socket_Type;
954
      Item   : Ada.Streams.Stream_Element_Array;
955
      Last   : out Ada.Streams.Stream_Element_Offset;
956
      Flags  : Request_Flag_Type := No_Request_Flag);
957
   --  Transmit a message over a socket. Upon return, Last is set to the index
958
   --  within Item of the last element transmitted. Flags allows to control
959
   --  the transmission. Raises Socket_Error on any detected error condition.
960
 
961
   procedure Send_Socket
962
     (Socket : Socket_Type;
963
      Item   : Ada.Streams.Stream_Element_Array;
964
      Last   : out Ada.Streams.Stream_Element_Offset;
965
      To     : Sock_Addr_Type;
966
      Flags  : Request_Flag_Type := No_Request_Flag);
967
   --  Transmit a message over a datagram socket. The destination address is
968
   --  To. Flags allows to control the transmission. Raises Socket_Error on
969
   --  error.
970
 
971
   procedure Send_Vector
972
     (Socket : Socket_Type;
973
      Vector : Vector_Type;
974
      Count  : out Ada.Streams.Stream_Element_Count;
975
      Flags  : Request_Flag_Type := No_Request_Flag);
976
   --  Transmit data gathered from the set of vector elements Vector to a
977
   --  socket. Count is set to the count of transmitted stream elements. Flags
978
   --  allow control over transmission.
979
 
980
   procedure Set_Socket_Option
981
     (Socket : Socket_Type;
982
      Level  : Level_Type := Socket_Level;
983
      Option : Option_Type);
984
   --  Manipulate socket options. Raises Socket_Error on error
985
 
986
   procedure Shutdown_Socket
987
     (Socket : Socket_Type;
988
      How    : Shutmode_Type := Shut_Read_Write);
989
   --  Shutdown a connected socket. If How is Shut_Read further receives will
990
   --  be disallowed. If How is Shut_Write further sends will be disallowed.
991
   --  If How is Shut_Read_Write further sends and receives will be disallowed.
992
 
993
   type Stream_Access is access all Ada.Streams.Root_Stream_Type'Class;
994
   --  Same interface as Ada.Streams.Stream_IO
995
 
996
   function Stream (Socket : Socket_Type) return Stream_Access;
997
   --  Create a stream associated with an already connected stream-based socket
998
 
999
   function Stream
1000
     (Socket  : Socket_Type;
1001
      Send_To : Sock_Addr_Type) return Stream_Access;
1002
   --  Create a stream associated with an already bound datagram-based socket.
1003
   --  Send_To is the destination address to which messages are being sent.
1004
 
1005
   function Get_Address
1006
     (Stream : not null Stream_Access) return Sock_Addr_Type;
1007
   --  Return the socket address from which the last message was received
1008
 
1009
   procedure Free is new Ada.Unchecked_Deallocation
1010
     (Ada.Streams.Root_Stream_Type'Class, Stream_Access);
1011
   --  Destroy a stream created by one of the Stream functions above, releasing
1012
   --  the corresponding resources. The user is responsible for calling this
1013
   --  subprogram when the stream is not needed anymore.
1014
 
1015
   type Socket_Set_Type is limited private;
1016
   --  This type allows to manipulate sets of sockets. It allows to wait for
1017
   --  events on multiple endpoints at one time. This type has default
1018
   --  initialization, and the default value is the empty set.
1019
   --
1020
   --  Note: This type used to contain a pointer to dynamically allocated
1021
   --  storage, but this is not the case anymore, and no special precautions
1022
   --  are required to avoid memory leaks.
1023
 
1024
   procedure Clear (Item : in out Socket_Set_Type; Socket : Socket_Type);
1025
   --  Remove Socket from Item
1026
 
1027
   procedure Copy (Source : Socket_Set_Type; Target : out Socket_Set_Type);
1028
   --  Copy Source into Target as Socket_Set_Type is limited private
1029
 
1030
   procedure Empty (Item : out Socket_Set_Type);
1031
   --  Remove all Sockets from Item
1032
 
1033
   procedure Get (Item : in out Socket_Set_Type; Socket : out Socket_Type);
1034
   --  Extract a Socket from socket set Item. Socket is set to
1035
   --  No_Socket when the set is empty.
1036
 
1037
   function Is_Empty (Item : Socket_Set_Type) return Boolean;
1038
   --  Return True iff Item is empty
1039
 
1040
   function Is_Set
1041
     (Item   : Socket_Set_Type;
1042
      Socket : Socket_Type) return Boolean;
1043
   --  Return True iff Socket is present in Item
1044
 
1045
   procedure Set (Item : in out Socket_Set_Type; Socket : Socket_Type);
1046
   --  Insert Socket into Item
1047
 
1048
   function Image (Item : Socket_Set_Type) return String;
1049
   --  Return a printable image of Item, for debugging purposes
1050
 
1051
   --  The select(2) system call waits for events to occur on any of a set of
1052
   --  file descriptors. Usually, three independent sets of descriptors are
1053
   --  watched (read, write  and exception). A timeout gives an upper bound
1054
   --  on the amount of time elapsed before select returns. This function
1055
   --  blocks until an event occurs. On some platforms, the select(2) system
1056
   --  can block the full process (not just the calling thread).
1057
   --
1058
   --  Check_Selector provides the very same behaviour. The only difference is
1059
   --  that it does not watch for exception events. Note that on some platforms
1060
   --  it is kept process blocking on purpose. The timeout parameter allows the
1061
   --  user to have the behaviour he wants. Abort_Selector allows to safely
1062
   --  abort a blocked Check_Selector call. A special socket is opened by
1063
   --  Create_Selector and included in each call to Check_Selector.
1064
   --
1065
   --  Abort_Selector causes an event to occur on this descriptor in order to
1066
   --  unblock Check_Selector. Note that each call to Abort_Selector will cause
1067
   --  exactly one call to Check_Selector to return with Aborted status. The
1068
   --  special socket created by Create_Selector is closed when Close_Selector
1069
   --  is called.
1070
   --
1071
   --  A typical case where it is useful to abort a Check_Selector operation is
1072
   --  the situation where a change to the monitored sockets set must be made.
1073
 
1074
   procedure Create_Selector (Selector : out Selector_Type);
1075
   --  Initialize (open) a new selector
1076
 
1077
   procedure Close_Selector (Selector : in out Selector_Type);
1078
   --  Close Selector and all internal descriptors associated; deallocate any
1079
   --  associated resources. This subprogram may be called only when there is
1080
   --  no other task still using Selector (i.e. still executing Check_Selector
1081
   --  or Abort_Selector on this Selector). Has no effect if Selector is
1082
   --  already closed.
1083
 
1084
   procedure Check_Selector
1085
     (Selector     : Selector_Type;
1086
      R_Socket_Set : in out Socket_Set_Type;
1087
      W_Socket_Set : in out Socket_Set_Type;
1088
      Status       : out Selector_Status;
1089
      Timeout      : Selector_Duration := Forever);
1090
   --  Return when one Socket in R_Socket_Set has some data to be read or if
1091
   --  one Socket in W_Socket_Set is ready to transmit some data. In these
1092
   --  cases Status is set to Completed and sockets that are ready are set in
1093
   --  R_Socket_Set or W_Socket_Set. Status is set to Expired if no socket was
1094
   --  ready after a Timeout expiration. Status is set to Aborted if an abort
1095
   --  signal has been received while checking socket status.
1096
   --
1097
   --  Note that two different Socket_Set_Type objects must be passed as
1098
   --  R_Socket_Set and W_Socket_Set (even if they denote the same set of
1099
   --  Sockets), or some event may be lost.
1100
   --
1101
   --  Socket_Error is raised when the select(2) system call returns an error
1102
   --  condition, or when a read error occurs on the signalling socket used for
1103
   --  the implementation of Abort_Selector.
1104
 
1105
   procedure Check_Selector
1106
     (Selector     : Selector_Type;
1107
      R_Socket_Set : in out Socket_Set_Type;
1108
      W_Socket_Set : in out Socket_Set_Type;
1109
      E_Socket_Set : in out Socket_Set_Type;
1110
      Status       : out Selector_Status;
1111
      Timeout      : Selector_Duration := Forever);
1112
   --  This refined version of Check_Selector allows watching for exception
1113
   --  events (i.e. notifications of out-of-band transmission and reception).
1114
   --  As above, all of R_Socket_Set, W_Socket_Set and E_Socket_Set must be
1115
   --  different objects.
1116
 
1117
   procedure Abort_Selector (Selector : Selector_Type);
1118
   --  Send an abort signal to the selector. The Selector may not be the
1119
   --  Null_Selector.
1120
 
1121
   type Fd_Set is private;
1122
   --  ??? This type must not be used directly, it needs to be visible because
1123
   --  it is used in the visible part of GNAT.Sockets.Thin_Common. This is
1124
   --  really an inversion of abstraction. The private part of GNAT.Sockets
1125
   --  needs to have visibility on this type, but since Thin_Common is a child
1126
   --  of Sockets, the type can't be declared there. The correct fix would
1127
   --  be to move the thin sockets binding outside of GNAT.Sockets altogether,
1128
   --  e.g. by renaming it to GNAT.Sockets_Thin.
1129
 
1130
private
1131
 
1132
   type Socket_Type is new Integer;
1133
   No_Socket : constant Socket_Type := -1;
1134
 
1135
   --  A selector is either a null selector, which is always "open" and can
1136
   --  never be aborted, or a regular selector, which is created "closed",
1137
   --  becomes "open" when Create_Selector is called, and "closed" again when
1138
   --  Close_Selector is called.
1139
 
1140
   type Selector_Type (Is_Null : Boolean := False) is limited record
1141
      case Is_Null is
1142
         when True =>
1143
            null;
1144
 
1145
         when False =>
1146
            R_Sig_Socket : Socket_Type := No_Socket;
1147
            W_Sig_Socket : Socket_Type := No_Socket;
1148
            --  Signalling sockets used to abort a select operation
1149
      end case;
1150
   end record;
1151
 
1152
   pragma Volatile (Selector_Type);
1153
 
1154
   Null_Selector : constant Selector_Type := (Is_Null => True);
1155
 
1156
   type Fd_Set is
1157
     new System.Storage_Elements.Storage_Array (1 .. SOSC.SIZEOF_fd_set);
1158
   for Fd_Set'Alignment use Interfaces.C.long'Alignment;
1159
   --  Set conservative alignment so that our Fd_Sets are always adequately
1160
   --  aligned for the underlying data type (which is implementation defined
1161
   --  and may be an array of C long integers).
1162
 
1163
   type Fd_Set_Access is access all Fd_Set;
1164
   pragma Convention (C, Fd_Set_Access);
1165
   No_Fd_Set_Access : constant Fd_Set_Access := null;
1166
 
1167
   type Socket_Set_Type is record
1168
      Last : Socket_Type := No_Socket;
1169
      --  Highest socket in set. Last = No_Socket denotes an empty set (which
1170
      --  is the default initial value).
1171
 
1172
      Set : aliased Fd_Set;
1173
      --  Underlying socket set. Note that the contents of this component is
1174
      --  undefined if Last = No_Socket.
1175
   end record;
1176
 
1177
   subtype Inet_Addr_Comp_Type is Natural range 0 .. 255;
1178
   --  Octet for Internet address
1179
 
1180
   type Inet_Addr_VN_Type is array (Natural range <>) of Inet_Addr_Comp_Type;
1181
 
1182
   subtype Inet_Addr_V4_Type is Inet_Addr_VN_Type (1 ..  4);
1183
   subtype Inet_Addr_V6_Type is Inet_Addr_VN_Type (1 .. 16);
1184
 
1185
   type Inet_Addr_Type (Family : Family_Type := Family_Inet) is record
1186
      case Family is
1187
         when Family_Inet =>
1188
            Sin_V4 : Inet_Addr_V4_Type := (others => 0);
1189
 
1190
         when Family_Inet6 =>
1191
            Sin_V6 : Inet_Addr_V6_Type := (others => 0);
1192
      end case;
1193
   end record;
1194
 
1195
   Any_Port : constant Port_Type := 0;
1196
   No_Port  : constant Port_Type := 0;
1197
 
1198
   Any_Inet_Addr       : constant Inet_Addr_Type :=
1199
                           (Family_Inet, (others => 0));
1200
   No_Inet_Addr        : constant Inet_Addr_Type :=
1201
                           (Family_Inet, (others => 0));
1202
   Broadcast_Inet_Addr : constant Inet_Addr_Type :=
1203
                           (Family_Inet, (others => 255));
1204
   Loopback_Inet_Addr  : constant Inet_Addr_Type :=
1205
                           (Family_Inet, (127, 0, 0, 1));
1206
 
1207
   Unspecified_Group_Inet_Addr : constant Inet_Addr_Type :=
1208
                                   (Family_Inet, (224, 0, 0, 0));
1209
   All_Hosts_Group_Inet_Addr   : constant Inet_Addr_Type :=
1210
                                   (Family_Inet, (224, 0, 0, 1));
1211
   All_Routers_Group_Inet_Addr : constant Inet_Addr_Type :=
1212
                                   (Family_Inet, (224, 0, 0, 2));
1213
 
1214
   No_Sock_Addr : constant Sock_Addr_Type := (Family_Inet, No_Inet_Addr, 0);
1215
 
1216
   Max_Name_Length : constant := 64;
1217
   --  The constant MAXHOSTNAMELEN is usually set to 64
1218
 
1219
   subtype Name_Index is Natural range 1 .. Max_Name_Length;
1220
 
1221
   type Name_Type (Length : Name_Index := Max_Name_Length) is record
1222
      Name : String (1 .. Length);
1223
   end record;
1224
   --  We need fixed strings to avoid access types in host entry type
1225
 
1226
   type Name_Array is array (Natural range <>) of Name_Type;
1227
   type Inet_Addr_Array is array (Natural range <>) of Inet_Addr_Type;
1228
 
1229
   type Host_Entry_Type (Aliases_Length, Addresses_Length : Natural) is record
1230
      Official  : Name_Type;
1231
      Aliases   : Name_Array (1 .. Aliases_Length);
1232
      Addresses : Inet_Addr_Array (1 .. Addresses_Length);
1233
   end record;
1234
 
1235
   type Service_Entry_Type (Aliases_Length : Natural) is record
1236
      Official : Name_Type;
1237
      Aliases  : Name_Array (1 .. Aliases_Length);
1238
      Port     : Port_Type;
1239
      Protocol : Name_Type;
1240
   end record;
1241
 
1242
   type Request_Flag_Type is mod 2 ** 8;
1243
   No_Request_Flag           : constant Request_Flag_Type := 0;
1244
   Process_Out_Of_Band_Data  : constant Request_Flag_Type := 1;
1245
   Peek_At_Incoming_Data     : constant Request_Flag_Type := 2;
1246
   Wait_For_A_Full_Reception : constant Request_Flag_Type := 4;
1247
   Send_End_Of_Record        : constant Request_Flag_Type := 8;
1248
 
1249
end GNAT.Sockets;

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