This file is indexed.

/usr/lib/ocaml/nethttpd/nethttpd_kernel.mli is in libnethttpd-ocaml-dev 3.4.1-2build2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
 37
 38
 39
 40
 41
 42
 43
 44
 45
 46
 47
 48
 49
 50
 51
 52
 53
 54
 55
 56
 57
 58
 59
 60
 61
 62
 63
 64
 65
 66
 67
 68
 69
 70
 71
 72
 73
 74
 75
 76
 77
 78
 79
 80
 81
 82
 83
 84
 85
 86
 87
 88
 89
 90
 91
 92
 93
 94
 95
 96
 97
 98
 99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
(* $Id: nethttpd_kernel.mli 1410 2010-02-14 19:44:28Z gerd $
 *
 *)

(*
 * Copyright 2005 Baretta s.r.l. and Gerd Stolpmann
 *
 * This file is part of Nethttpd.
 *
 * Nethttpd is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * Nethttpd is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Nethttpd; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *)

(** {1 The protocol kernel of the HTTP daemon}
  *
  * This module mainly defines the [http_protocol] class which implements the
  * exchange of messages with a HTTP client. The request messages are represented
  * as sequence of [req_token] values. The response is encapsulated in a separate
  * [http_response] class. The contents of the response are represented as sequence
  * of [resp_token] values.
 *)

(* HTTP protocol kernel for daemon *)

open Nethttp
open Nethttpd_types

type fatal_error =
    [ `Broken_pipe
    | `Broken_pipe_ignore
    | `Message_too_long
    | `Timeout
    | `Unix_error of Unix.error
    | `Server_error
    ]
    (** These are the serious protocol violations after that the daemon stops
      * any further processing.
      *
      * Note that [`Timeout] refers to a timeout in the middle of a request.
      * [`Broken_pipe_ignore] is the "harmless" version of [`Broken_pipe]
      * (see [config_suppress_broken_pipe]).
      *
      * Long messages are fatal because it is suspected that they are denial
      * of service attacks. The kernel generates [`Message_too_long] only for
      * long headers, not for long bodies.
      *
      * Fatal server errors can happen when exceptions are not properly handled.
      * As last resort the HTTP daemon closes the connection without notifying
      * the client.
     *)

val string_of_fatal_error : fatal_error -> string
  (** Convert error to a string, for logging *)

type bad_request_error =
    [ `Bad_header_field of string
    | `Bad_header
    | `Bad_trailer
    | `Bad_request_line
    | `Request_line_too_long
    | `Protocol_not_supported
    | `Unexpected_eof
    | `Format_error of string
    ]
    (** A bad request is a violation where the current request cannot be
      * decoded, and it is not possible to accept further requests over the
      * current connection.
     *)

val string_of_bad_request_error : bad_request_error -> string
  (** Convert error to a string, for logging *)

val status_of_bad_request_error : bad_request_error -> http_status
  (** Returns the best response code for the error *)


type data_chunk = string * int * int
    (** A [data_chunk] is a substring of a string. The substring is described by
      * the triple [(s, pos, len)] where [s] is the container, [pos] is the
      * position where the substring begins, and [len] its length.
     *)

type status_line = int * string
    (** = (code, phrase) *)

type transfer_coding =
    [ `Identity
    | `Chunked
    ]

type resp_token =
    [ `Resp_info_line of (status_line * http_header)
    | `Resp_status_line of status_line
    | `Resp_header of http_header
    | `Resp_body of data_chunk
    | `Resp_trailer of http_trailer
    | `Resp_end
    | `Resp_action of (unit -> unit)
    ]
    (** The [resp_token] represents a textual part of the response to send:
      * - [`Resp_info_line] is an informational status line (code=100..199). There can
      *   be several informational lines, and they can be accompanied with their own
      *   headers. Such lines are only sent to HTTP/1.1 clients.
      * - [`Resp_status_line] is the final status line to send (code >= 200)
      * - [`Resp_header] is the whole response header to send
      * - [`Resp_body] is the next part of the response body to send.
      * - [`Resp_trailer] is the whole response trailer to send (currently ignored)
      * - [`Resp_action] is special because it does not directly represent a token
      *   to send. The argument is a function which is called when the token is
      *   the next token on the active event queue. The function is also called when
      *   the event queue is dropped because of an error (the state of the
      *   response object indicates this). The function must not raise exceptions
      *   except [Unix_error], and it must not block.
     *)

val resp_100_continue : resp_token
  (** The predefined token for the "100 Continue" response *)

type resp_state =
    [ `Inhibited | `Queued | `Active | `Processed | `Error | `Dropped ]
    (** The response state:
      * - [`Inhibited] = it is not yet allowed to start the response
      * - [`Queued] = the response waits on the queue for activation
      * - [`Active] = the response is currently being transmitted
      * - [`Processed] = the response has been completely sent
      * - [`Error] = an error occurred during the transmission of this response
      * - [`Dropped] = an earlier response forced to close the connection, and
      *   this response is dequeued
     *)

type front_token = 
   [ `Resp_wire_data of data_chunk
   | `Resp_end 
   ]
   (** Tokens generated by [http_response]:
     * - [`Resp_wire_data] are data tokens.
     * - [`Resp_end] indicates the end of the response.
    *)

exception Send_queue_empty


type announcement =
    [`Ignore | `Ocamlnet | `Ocamlnet_and of string | `As of string ]
  (** See config *)


(** Encapsultation of the HTTP response for a single request *)
class type http_response  =
object
  (** Represents the action of sending the response
    *
    * This class has an internal
    * queue of response tokens that are not yet processed. One can easily add
    * new tokens to the end of the queue ([send]). 
    *
    * The class is responsible for determining the transfer encoding:
    * - When the HTTP version is 1.0, the encoding is always "identity", and the
    *   connection will be closed after the response.
    * - When the HTTP version is 1.1, and there is a Content-length header,
    *   the encoding will be selected as "identity". It is checked whether the
    *   body has really this length. If too short, it is suggested to close
    *   the connection. If too long, the extra part of the message is silently
    *   dropped.
    * - When the HTTP version is 1.1, and there is no Content-length header,
    *   the encoding will be selected as "chunked".
    *
    * Currently, the [TE] request header is not taken into account. The trailer
    * is always empty.
    *
    * The following headers are set (or removed) by this class:
    * - [Transfer-Encoding]
    * - [Trailer]
    * - [Date]
    * - [Connection]
    * - [Upgrade]
    * - [Server] (it is appended to this field)
    *
    * Responses for HEAD requests have the special behaviour that the body is silently
    * dropped. The calculation of header fields is not affected by this. This means
    * that HEAD can be easily implemented by doing the same as for GET.
    *
    * Responses for other requests that must not include a body must set
    * [Content-Length] to 0.
   *)

  (** These methods can be called by the content provider: *)

  method state : resp_state
    (** Reports the state. The initial state is [`Inhibited] *)

  method bidirectional_phase : bool
    (** The bidrectional phase starts after "100 Continue" has been sent to the
      * client, and stops when the response body begins. The bidirectional phase
      * is special for the calculation of timeout values (input determines the timeout
      * although the response has started).
     *)

  method send : resp_token -> unit
    (** Add token to the end of the send queue *)

  method send_queue_empty : bool
    (** Return whether the send queue is empty. When the state is [`Inhibited], this
     * method fakes an empty queue.
     *)

  method protocol : protocol
    (** The HTTP version of the response. This is currently always HTTP/1.1, but maybe
      * we need to fake lower versions for buggy clients. Let's see what comes.
     *)

  method close_connection : bool
    (** Returns whether the connection should be closed after this response.
      * This flag should be evaluated when the [`Resp_end] front token has been
      * reached.
     *)

  method transfer_encoding : transfer_coding
    (** Returns the selected transfer encoding. This is valid after the header
      * has been passed to this object with [send].
     *)

  method front_token : front_token
    (** The first token of the queue, represented as [data_chunk]. Raises 
      * [Send_queue_empty] when there is currently no front token, or the state
      * is [`Inhibited].
      * If there is a front token, it will never have length 0.
      *
      * Note that [Unix_error] exceptions can be raised when [`Resp_action]
      * tokens are processed.
     *)

  method set_callback : (unit -> unit) -> unit
    (** The function will be called when either [set_state] changes the state,
      * or when the send queue becomes empty. Note that the callback must never
      * fail, it is called in situations that make it hard to recover from errors.
     *)

  method body_size : int64
    (** Accumulated size of the response body *)

  (** These methods must only be called by the HTTP protocol processor: *)

  method set_state : resp_state -> unit
    (** Sets the state *)

  method advance : int -> unit
    (** Tell this object that [n] bytes of the front token could be really
      * sent using [Unix.write]. If this means that the whole front token
      * has been sent, the next token is pulled from the queue and is made
      * the new front token. Otherwise, the data chunk representing the
      * front token is modified such that the position is advanced by
      * [n], and the length is reduced by [n].
     *)

end

class http_response_impl : ?close:bool -> ?suppress_body:bool -> int64 -> protocol -> announcement -> http_response
  (** Exported for debugging and testing only *)

val send_static_response : 
      http_response -> 
      http_status -> http_header option -> string -> unit
  (** Sends the string argument as response body, together with the given status and
    * the header (optional). Response header fields are set as follows:
    * - The [Content-Length] is set to the length of the string.
    * - The [Content-Type] is set to "text/html" unless given by the header.
    * If the header object is passed in, these modifications are done 
    * directly in this object as side effect.
   *)

val send_file_response : http_response -> 
                         http_status -> http_header option ->
                            Unix.file_descr -> int64 -> unit
  (** Sends the contents of a file as response body, together with the given status and
    * the header (optional). The descriptor must be a file descriptor (that cannot
    * block). The int64 number is the length
    * of the body.  Response header fields are set as follows:
    * - The [Content-Length] is set to the length of the string.
    * - The [Content-Type] is set to "text/html" unless given by the header.
    *
    * Note that [Content-Range] is not set automatically, even if the file is only
    * partially transferred.
    *
    * If the header object is passed in, these modifications are done 
    * directly in this object as side effect.
    *
    * The function does not send the file immediately, but rather sets the [http_response]
    * object up that the next chunk of the file is added when the send queue becomes
    * empty. This file will be closed when the transfer is done.
   *)

type request_line = http_method * protocol
  (** The method (including the URI), and the HTTP version *)

type req_token =
    [ `Req_header of request_line * http_header * http_response
    | `Req_expect_100_continue
    | `Req_body of data_chunk
    | `Req_trailer of http_trailer
    | `Req_end
    | `Eof
    | `Fatal_error of fatal_error
    | `Bad_request_error of bad_request_error * http_response
    | `Timeout
    ]
    (** A [req_token] represents a textual part of the received request:
      * - [`Req_header] is the full received header. Together with the header,
      *   the corresponding [http_response] object is returned which must
      *   be used to transmit the response.
      * - [`Req_expect_100_continue] is generated when the client expects that the
      *   server sends a "100 Continue" response (or a final status code) now.
      *   One should add [`Resp_info_line resp_100_continue] to the send queue
      *   if the header is acceptable, or otherwise generate an error response. In any
      *   case, the rest of the request must be read until [`Req_end].
      * - [`Req_body] is a part of the request body. The transfer-coding, if any,
      *   is already decoded.
      * - [`Req_trailer] is the received trailer
      * - [`Req_end] indicates the end of the request (the next request may begin
      *   immediately).
      * - [`Eof] indicates the end of the stream
      * - [`Bad_request_error] indicates that the request violated the HTTP protocol
      *   in a serious way and cannot be decoded. It is required to send a 
      *   "400 Bad Request" response. The following token will be [`Eof].
      * - [`Fatal_error] indicates that the connection crashed. 
      *   The following token will be [`Eof].
      * - [`Timeout] means that nothing has been received for a certain amount
      *   of time, and the protocol is in a state that the next request can begin.
      *   The following token will be [`Eof].
      *
      * Note that it is always allowed to [send] tokens to the client. The protocol
      * implementation takes care that the response is transmitted at the right point
      * in time.
     *)

val string_of_req_token : req_token -> string
  (** For debugging *)

exception Recv_queue_empty

(** Configuration values for the HTTP kernel *)
class type http_protocol_config =
object
  method config_max_reqline_length : int
    (** Maximum size of the request line. Longer lines are immediately replied with
      * a "Request URI too long" response. Suggestion: 32768.
     *)

  method config_max_header_length : int
    (** Maximum size of the header, {b including} the request line. Longer headers
      * are treated as attack, and cause the fatal error [`Message_too_long].
      * Suggestion: 65536.
     *)

  method config_max_trailer_length : int
    (** Maximum size of the trailer *)

  method config_limit_pipeline_length : int
    (** Limits the length of the pipeline (= unreplied requests). A value of 0
      * disables pipelining. A value of n allows that another request is
      * received although there are already n unreplied requests.
     *)

  method config_limit_pipeline_size : int
    (** Limits the size of the pipeline in bytes. If the buffered bytes in the
      * input queue exceed this value, the receiver temporarily stops reading
      * more data. The value 0 has the effect that even the read-ahead of
      * data of the current request is disabled. The value (-1) disables the
      * receiver completely (not recommended).
     *)

  method config_announce_server : announcement
    (** Whether to set the [Server] header:
     * - [`Ignore]: The kernel does not touch the [Server] header.
     * - [`Ocamlnet]: Announce this web server as "Ocamlnet/<version>"
     * - [`Ocamlnet_and s]: Announce this web server as [s] and append
     *   the Ocamlnet string.
     * - [`As s]: Announce this web server as [s]
     *)

  method config_suppress_broken_pipe : bool
    (** Whether to suppress [`Broken_pipe] errors. Instead 
      * [`Broken_pipe_ignore] is reported.
     *)

end


val default_http_protocol_config : http_protocol_config 
  (** Default config:
      - [config_max_reqline_length = 32768]
      - [config_max_header_length = 65536]
      - [config_max_trailer_length = 32768]
      - [config_limit_pipeline_length = 5]
      - [config_limit_pipeline_size = 65536]
      - [config_announce_server = `Ocamlnet]
      - [config_suppress_broken_pipe = false]
   *)

class modify_http_protocol_config : 
        ?config_max_reqline_length:int ->
        ?config_max_header_length:int ->
        ?config_max_trailer_length:int ->
        ?config_limit_pipeline_length:int ->
        ?config_limit_pipeline_size:int ->
        ?config_announce_server:announcement ->
        ?config_suppress_broken_pipe:bool ->
        http_protocol_config -> http_protocol_config 
  (** Modifies the passed config object as specified by the optional
      arguments
   *)

(** The core event loop of the HTTP daemon *)
class http_protocol : #http_protocol_config -> Unix.file_descr ->
object
  (** Exchange of HTTP messages
    *
    * In [fd] one must pass the already connected socket. It must be in non-
    * blocking mode.
    *
    * How to use this class: Basically, one invokes [cycle] until the whole
    * message exchange on [fd] is processed. [cycle] receives data from the
    * socket and sends data to the socket. There are two internal queues:
    *
    * The receive queue stores parts of received requests as [req_token].
    * One can take values from the front of this queue by calling [receive].
    *
    * The response queue stores [http_response] objects. Each of the objects
    * corresponds to a request that was received before. This queue is handled
    * fully automatically, but one can watch its length to see whether all responses
    * are actually transmitted over the wire.
    *
    * The basic algorithm to process messages is:
    *
    * {[
    * let rec next_token () =
    *   if proto # recv_queue_len = 0 then (
    *     proto # cycle ();
    *     next_token()
    *   )
    *   else
    *     proto # receive()
    *
    * let cur_token = ref (next_token()) in
    * while !cur_token <> `Eof do
    *   (* Process first token of next request: *)
    *   match !cur_token with
    *    | `Req_header(req_line, header, resp) ->
    *         (* Depending on [req_line], read further tokens until [`Req_end] *)
    *         ...
    *         (* Switch to the first token of the next message: *)
    *         cur_token := next_token()
    *    | `Timeout -> ...
    *    | `Bad_request_error(e,resp) -> 
    *          (* Generate 400 error, send it to [resp] *)
    *          ...
    *          (* Switch to the first token of the next message: *)
    *          cur_token := next_token()
    *    | `Fatal_error e -> failwith "Crash"
    *    | _ -> assert false
    * done;
    * while proto # resp_queue_len > 0 do
    *   proto # cycle ();
    * done;
    * proto # shutdown()
    * ]}
    *
    * See the file [tests/easy_daemon.ml] for a complete implementation of this.
    *
    * As one can see, it is essential to watch the lengths of the queues in order
    * to figure out what has happened during [cycle].
    *
    * When the body of the request is empty, [`Req_body] tokens are omitted.
    * Note that for requests like [GET] that always have an empty body, it is
    * still possible that an errorneous client sends a body, and that [`Req_body]
    * tokens arrive. One must accept and ignore these tokens.
    *
    * Error handling: For serious errors, the connection is immediately aborted.
    * In this case, [receive] returns a [`Fatal_error] token. Note that the
    * queued responses cannot be sent! An example of this is [`Broken_pipe].
    *
    * There is a large class of non-serious errors, esp. format errors
    * in the header and body. It is typical of these errors that one cannot determine
    * the end of the request properly. For this reason, the daemon stops reading
    * further data from the request, but the response queue is still delivered.
    * For these errors, [receive] returns a [`Bad_request_error] token.
    * This token contains a [http_response] object that must be filled with a
    * 400 error response.
   *)

  method cycle : ?block:float -> unit -> unit
    (** Looks at the file descriptor. If there is data to read from the descriptor,
      * and there is free space in the input buffer, additional data is read into
      * the buffer. It is also tried to interpret the new data as [req_token]s,
      * and if possible, new [req_token]s are appended to the receive queue.
      *
      * If the response queue has objects, and there is really data one can send,
      * and if the socket allows one to send data, it is tried to send as much
      * data as possible.
      *
      * The option [block] (default: 0) can be set to wait until data
      * can be exchanged with the socket. This avoids busy waiting. The number
      * is the duration in seconds to wait until the connection times out
      * (0 means not to wait at all, -1 means to wait infinitely). When a timeout
      * happens, and there is nothing to send, and the last request was fully
      * processed, [receive] will simply return [`Timeout] (i.e. when 
      * [waiting_for_next_message] is [true]). Otherwise, the
      * fatal error [`Timeout] is generated.
     *)

  method receive : unit -> req_token
    (** Returns the first [req_token] from the receive queue. Raises
      * [Recv_queue_empty] when the queue is empty (= has no new data)
     *)

  method peek_recv : unit -> req_token
    (** Peeks the first token, but leaves it in the queue.
      * Raises [Recv_queue_empty] when the queue is empty.
     *)

  method recv_queue_len : int
    (** Returns the length of the receive queue (number of tokens) *)

  method resp_queue_len : int
    (** Returns the length of the internal response queue (number of [http_response]
      * objects that have not yet fully processed)
     *)

  method pipeline_len : int
    (** Returns the number of unanswered requests = Number of received [`Req_end] tokens
      * minus number of responses in state [`Processed]. Note that [pipeline_len]
      * can become [-1] when bad requests are responded.
     *)

  method recv_queue_byte_size : int
    (** Returns the (estimated) size of the input queue in bytes *)

  method waiting_for_next_message : bool
    (** Whether the kernel is currently waiting for the beginning of a new
      * arriving HTTP request. This is [false] while the request is being
      * received.
     *)

  method input_timeout_class : [ `Normal | `Next_message | `None ]
    (** Suggests the calculation of a timeout value for input:
      * - [`Normal]: The normal timeout value applies
      * - [`Next_message]: The timeout value applies while waiting for the next message
      * - [`None]: The connection is output-driven, no input timeout value
     *)

  method shutdown : unit -> unit
    (** Shuts the socket down. Note: the descriptor is not closed.
     *)

  method timeout : unit -> unit
    (** Process a timeout condition as [cycle] does *)

  method abort : fatal_error -> unit
    (** Stops the transmission of data. The receive queue is cleared and filled
      * with the two tokens [`Fatal_error] and [`Eof]. 
      * The response queue is cleared. The [cycle]
      * method will return immediately without doing anything.
     *)

  method fd : Unix.file_descr
    (** Just returns the socket *)

  method do_input : bool
    (** Returns [true] iff the protocol engine is interested in new data from the
      * socket. Returns [false] after EOF and after errors.
     *)

  method do_output : bool
    (** Returns [true] iff the protocol engine has data to output to the socket *)

  method need_linger : bool
    (** Returns [true] when a lingering close operation is needed to reliably shut
      * down the socket. In many cases, this expensive operation is not necessary.
      * See the class [lingering_close] below.
     *)

  method config : http_protocol_config
    (** Just returns the configuration *)

  method test_coverage : string list
    (** For testing: returns a list of tokens indicating into which cases the program
      * ran.
     *)

end


(** Closes a file descriptor using the "lingering close" algorithm.
    The optional [preclose] function is called just before [Unix.close].
 *)
class lingering_close : ?preclose:(unit->unit) -> Unix.file_descr ->
object
  (** Closes a file descriptor using the "lingering close" algorithm
    * 
    * Usage:
    * {[ while lc # lingering do lc # cycle ~block:true () done ]}
   *)

  method cycle : ?block:bool -> unit -> unit
    (** Reads data from the file descriptor until EOF or until a fixed timeout
      * is over. Finally, the descriptor is closed. If [block] is set, the method
      * blocks until data is available. (Default: [false])
     *)

  method lingering : bool
    (** Whether the socket is still lingering *)

  method fd : Unix.file_descr
    (** The file descriptor *)
end


(** {1 Debugging} *)

module Debug : sig
  val enable : bool ref
    (** Enables {!Netlog}-style debugging of this module
     *)
end