1 // Copyright (c) 2008 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4 // Written in NSPR style to also be suitable for adding to the NSS demo suite
6 /* memio is a simple NSPR I/O layer that lets you decouple NSS from
7 * the real network. It's rather like openssl's memory bio,
8 * and is useful when your app absolutely, positively doesn't
9 * want to let NSS do its own networking.
19 #include "nss_memio.h"
21 /*--------------- private memio types -----------------------*/
23 /*----------------------------------------------------------------------
24 Simple private circular buffer class. Size cannot be changed once allocated.
25 ----------------------------------------------------------------------*/
28 int head
; /* where to take next byte out of buf */
29 int tail
; /* where to put next byte into buf */
30 int bufsize
; /* number of bytes allocated to buf */
31 /* TODO(port): error handling is pessimistic right now.
32 * Once an error is set, the socket is considered broken
33 * (PR_WOULD_BLOCK_ERROR not included).
40 /* The 'secret' field of a PRFileDesc created by memio_CreateIOLayer points
42 * In the public header, we use struct memio_Private as a typesafe alias
43 * for this. This causes a few ugly typecasts in the private file, but
46 struct PRFilePrivate
{
47 /* read requests are satisfied from this buffer */
48 struct memio_buffer readbuf
;
50 /* write requests are satisfied from this buffer */
51 struct memio_buffer writebuf
;
53 /* SSL needs to know socket peer's name */
56 /* if set, empty I/O returns EOF instead of EWOULDBLOCK */
59 /* if set, the number of bytes requested from readbuf that were not
60 * fulfilled (due to readbuf being empty) */
64 /*--------------- private memio_buffer functions ---------------------*/
66 /* Forward declarations. */
68 /* Allocate a memio_buffer of given size. */
69 static void memio_buffer_new(struct memio_buffer
*mb
, int size
);
71 /* Deallocate a memio_buffer allocated by memio_buffer_new. */
72 static void memio_buffer_destroy(struct memio_buffer
*mb
);
74 /* How many bytes can be read out of the buffer without wrapping */
75 static int memio_buffer_used_contiguous(const struct memio_buffer
*mb
);
77 /* How many bytes exist after the wrap? */
78 static int memio_buffer_wrapped_bytes(const struct memio_buffer
*mb
);
80 /* How many bytes can be written into the buffer without wrapping */
81 static int memio_buffer_unused_contiguous(const struct memio_buffer
*mb
);
83 /* Write n bytes into the buffer. Returns number of bytes written. */
84 static int memio_buffer_put(struct memio_buffer
*mb
, const char *buf
, int n
);
86 /* Read n bytes from the buffer. Returns number of bytes read. */
87 static int memio_buffer_get(struct memio_buffer
*mb
, char *buf
, int n
);
89 /* Allocate a memio_buffer of given size. */
90 static void memio_buffer_new(struct memio_buffer
*mb
, int size
)
95 mb
->buf
= malloc(size
);
98 /* Deallocate a memio_buffer allocated by memio_buffer_new. */
99 static void memio_buffer_destroy(struct memio_buffer
*mb
)
108 /* How many bytes can be read out of the buffer without wrapping */
109 static int memio_buffer_used_contiguous(const struct memio_buffer
*mb
)
111 return (((mb
->tail
>= mb
->head
) ? mb
->tail
: mb
->bufsize
) - mb
->head
);
114 /* How many bytes exist after the wrap? */
115 static int memio_buffer_wrapped_bytes(const struct memio_buffer
*mb
)
117 return (mb
->tail
>= mb
->head
) ? 0 : mb
->tail
;
120 /* How many bytes can be written into the buffer without wrapping */
121 static int memio_buffer_unused_contiguous(const struct memio_buffer
*mb
)
123 if (mb
->head
> mb
->tail
) return mb
->head
- mb
->tail
- 1;
124 return mb
->bufsize
- mb
->tail
- (mb
->head
== 0);
127 /* Write n bytes into the buffer. Returns number of bytes written. */
128 static int memio_buffer_put(struct memio_buffer
*mb
, const char *buf
, int n
)
133 /* Handle part before wrap */
134 len
= PR_MIN(n
, memio_buffer_unused_contiguous(mb
));
136 /* Buffer not full */
137 memcpy(&mb
->buf
[mb
->tail
], buf
, len
);
139 if (mb
->tail
== mb
->bufsize
)
145 /* Handle part after wrap */
146 len
= PR_MIN(n
, memio_buffer_unused_contiguous(mb
));
148 /* Output buffer still not full, input buffer still not empty */
149 memcpy(&mb
->buf
[mb
->tail
], buf
, len
);
151 if (mb
->tail
== mb
->bufsize
)
161 /* Read n bytes from the buffer. Returns number of bytes read. */
162 static int memio_buffer_get(struct memio_buffer
*mb
, char *buf
, int n
)
167 /* Handle part before wrap */
168 len
= PR_MIN(n
, memio_buffer_used_contiguous(mb
));
170 memcpy(buf
, &mb
->buf
[mb
->head
], len
);
172 if (mb
->head
== mb
->bufsize
)
178 /* Handle part after wrap */
179 len
= PR_MIN(n
, memio_buffer_used_contiguous(mb
));
181 memcpy(buf
, &mb
->buf
[mb
->head
], len
);
183 if (mb
->head
== mb
->bufsize
)
192 /*--------------- private memio functions -----------------------*/
194 static PRStatus PR_CALLBACK
memio_Close(PRFileDesc
*fd
)
196 struct PRFilePrivate
*secret
= fd
->secret
;
197 memio_buffer_destroy(&secret
->readbuf
);
198 memio_buffer_destroy(&secret
->writebuf
);
204 static PRStatus PR_CALLBACK
memio_Shutdown(PRFileDesc
*fd
, PRIntn how
)
206 /* TODO: pass shutdown status to app somehow */
210 /* If there was a network error in the past taking bytes
211 * out of the buffer, return it to the next call that
212 * tries to read from an empty buffer.
214 static int PR_CALLBACK
memio_Recv(PRFileDesc
*fd
, void *buf
, PRInt32 len
,
215 PRIntn flags
, PRIntervalTime timeout
)
217 struct PRFilePrivate
*secret
;
218 struct memio_buffer
*mb
;
222 PR_SetError(PR_NOT_IMPLEMENTED_ERROR
, 0);
227 mb
= &secret
->readbuf
;
228 PR_ASSERT(mb
->bufsize
);
229 rv
= memio_buffer_get(mb
, buf
, len
);
230 if (rv
== 0 && !secret
->eof
) {
231 secret
->read_requested
= len
;
232 /* If there is no more data in the buffer, report any pending errors
233 * that were previously observed. Note that both the readbuf and the
234 * writebuf are checked for errors, since the application may have
235 * encountered a socket error while writing that would otherwise not
236 * be reported until the application attempted to write again - which
240 PR_SetError(mb
->last_err
, 0);
241 else if (secret
->writebuf
.last_err
)
242 PR_SetError(secret
->writebuf
.last_err
, 0);
244 PR_SetError(PR_WOULD_BLOCK_ERROR
, 0);
248 secret
->read_requested
= 0;
252 static int PR_CALLBACK
memio_Read(PRFileDesc
*fd
, void *buf
, PRInt32 len
)
254 /* pull bytes from buffer */
255 return memio_Recv(fd
, buf
, len
, 0, PR_INTERVAL_NO_TIMEOUT
);
258 static int PR_CALLBACK
memio_Send(PRFileDesc
*fd
, const void *buf
, PRInt32 len
,
259 PRIntn flags
, PRIntervalTime timeout
)
261 struct PRFilePrivate
*secret
;
262 struct memio_buffer
*mb
;
266 mb
= &secret
->writebuf
;
267 PR_ASSERT(mb
->bufsize
);
269 /* Note that the read error state is not reported, because it cannot be
270 * reported until all buffered data has been read. If there is an error
271 * with the next layer, attempting to call Send again will report the
272 * error appropriately.
275 PR_SetError(mb
->last_err
, 0);
278 rv
= memio_buffer_put(mb
, buf
, len
);
280 PR_SetError(PR_WOULD_BLOCK_ERROR
, 0);
286 static int PR_CALLBACK
memio_Write(PRFileDesc
*fd
, const void *buf
, PRInt32 len
)
288 /* append bytes to buffer */
289 return memio_Send(fd
, buf
, len
, 0, PR_INTERVAL_NO_TIMEOUT
);
292 static PRStatus PR_CALLBACK
memio_GetPeerName(PRFileDesc
*fd
, PRNetAddr
*addr
)
294 /* TODO: fail if memio_SetPeerName has not been called */
295 struct PRFilePrivate
*secret
= fd
->secret
;
296 *addr
= secret
->peername
;
300 static PRStatus
memio_GetSocketOption(PRFileDesc
*fd
, PRSocketOptionData
*data
)
303 * Even in the original version for real tcp sockets,
304 * PR_SockOpt_Nonblocking is a special case that does not
305 * translate to a getsockopt() call
307 if (PR_SockOpt_Nonblocking
== data
->option
) {
308 data
->value
.non_blocking
= PR_TRUE
;
311 PR_SetError(PR_OPERATION_NOT_SUPPORTED_ERROR
, 0);
315 /*--------------- private memio data -----------------------*/
318 * Implement just the bare minimum number of methods needed to make ssl happy.
320 * Oddly, PR_Recv calls ssl_Recv calls ssl_SocketIsBlocking calls
321 * PR_GetSocketOption, so we have to provide an implementation of
322 * PR_GetSocketOption that just says "I'm nonblocking".
325 static struct PRIOMethods memio_layer_methods
= {
354 memio_GetSocketOption
,
364 static PRDescIdentity memio_identity
= PR_INVALID_IO_LAYER
;
366 static PRStatus
memio_InitializeLayerName(void)
368 memio_identity
= PR_GetUniqueIdentity("memio");
372 /*--------------- public memio functions -----------------------*/
374 PRFileDesc
*memio_CreateIOLayer(int readbufsize
, int writebufsize
)
377 struct PRFilePrivate
*secret
;
378 static PRCallOnceType once
;
380 PR_CallOnce(&once
, memio_InitializeLayerName
);
382 fd
= PR_CreateIOLayerStub(memio_identity
, &memio_layer_methods
);
383 secret
= malloc(sizeof(struct PRFilePrivate
));
384 memset(secret
, 0, sizeof(*secret
));
386 memio_buffer_new(&secret
->readbuf
, readbufsize
);
387 memio_buffer_new(&secret
->writebuf
, writebufsize
);
392 void memio_SetPeerName(PRFileDesc
*fd
, const PRNetAddr
*peername
)
394 PRFileDesc
*memiofd
= PR_GetIdentitiesLayer(fd
, memio_identity
);
395 struct PRFilePrivate
*secret
= memiofd
->secret
;
396 secret
->peername
= *peername
;
399 memio_Private
*memio_GetSecret(PRFileDesc
*fd
)
401 PRFileDesc
*memiofd
= PR_GetIdentitiesLayer(fd
, memio_identity
);
402 struct PRFilePrivate
*secret
= memiofd
->secret
;
403 return (memio_Private
*)secret
;
406 int memio_GetReadRequest(memio_Private
*secret
)
408 return ((PRFilePrivate
*)secret
)->read_requested
;
411 int memio_GetReadParams(memio_Private
*secret
, char **buf
)
413 struct memio_buffer
* mb
= &((PRFilePrivate
*)secret
)->readbuf
;
414 PR_ASSERT(mb
->bufsize
);
416 *buf
= &mb
->buf
[mb
->tail
];
417 return memio_buffer_unused_contiguous(mb
);
420 int memio_GetReadableBufferSize(memio_Private
*secret
)
422 struct memio_buffer
* mb
= &((PRFilePrivate
*)secret
)->readbuf
;
423 PR_ASSERT(mb
->bufsize
);
425 return memio_buffer_used_contiguous(mb
);
428 void memio_PutReadResult(memio_Private
*secret
, int bytes_read
)
430 struct memio_buffer
* mb
= &((PRFilePrivate
*)secret
)->readbuf
;
431 PR_ASSERT(mb
->bufsize
);
433 if (bytes_read
> 0) {
434 mb
->tail
+= bytes_read
;
435 if (mb
->tail
== mb
->bufsize
)
437 } else if (bytes_read
== 0) {
438 /* Record EOF condition and report to caller when buffer runs dry */
439 ((PRFilePrivate
*)secret
)->eof
= PR_TRUE
;
440 } else /* if (bytes_read < 0) */ {
441 mb
->last_err
= bytes_read
;
445 int memio_GetWriteParams(memio_Private
*secret
,
446 const char **buf1
, unsigned int *len1
,
447 const char **buf2
, unsigned int *len2
)
449 struct memio_buffer
* mb
= &((PRFilePrivate
*)secret
)->writebuf
;
450 PR_ASSERT(mb
->bufsize
);
455 *buf1
= &mb
->buf
[mb
->head
];
456 *len1
= memio_buffer_used_contiguous(mb
);
458 *len2
= memio_buffer_wrapped_bytes(mb
);
462 void memio_PutWriteResult(memio_Private
*secret
, int bytes_written
)
464 struct memio_buffer
* mb
= &((PRFilePrivate
*)secret
)->writebuf
;
465 PR_ASSERT(mb
->bufsize
);
467 if (bytes_written
> 0) {
468 mb
->head
+= bytes_written
;
469 if (mb
->head
>= mb
->bufsize
)
470 mb
->head
-= mb
->bufsize
;
471 } else if (bytes_written
< 0) {
472 mb
->last_err
= bytes_written
;
476 /*--------------- private memio_buffer self-test -----------------*/
478 /* Even a trivial unit test is very helpful when doing circular buffers. */
479 /*#define TRIVIAL_SELF_TEST*/
480 #ifdef TRIVIAL_SELF_TEST
483 #define TEST_BUFLEN 7
485 #define CHECKEQ(a, b) { \
487 printf("%d != %d, Test failed line %d\n", a, b, __LINE__); \
494 struct memio_buffer mb
;
498 memio_buffer_new(&mb
, TEST_BUFLEN
);
500 CHECKEQ(memio_buffer_unused_contiguous(&mb
), TEST_BUFLEN
-1);
501 CHECKEQ(memio_buffer_used_contiguous(&mb
), 0);
503 CHECKEQ(memio_buffer_put(&mb
, "howdy", 5), 5);
505 CHECKEQ(memio_buffer_unused_contiguous(&mb
), TEST_BUFLEN
-1-5);
506 CHECKEQ(memio_buffer_used_contiguous(&mb
), 5);
507 CHECKEQ(memio_buffer_wrapped_bytes(&mb
), 0);
509 CHECKEQ(memio_buffer_put(&mb
, "!", 1), 1);
511 CHECKEQ(memio_buffer_unused_contiguous(&mb
), 0);
512 CHECKEQ(memio_buffer_used_contiguous(&mb
), 6);
513 CHECKEQ(memio_buffer_wrapped_bytes(&mb
), 0);
515 CHECKEQ(memio_buffer_get(&mb
, buf
, 6), 6);
516 CHECKEQ(memcmp(buf
, "howdy!", 6), 0);
518 CHECKEQ(memio_buffer_unused_contiguous(&mb
), 1);
519 CHECKEQ(memio_buffer_used_contiguous(&mb
), 0);
521 CHECKEQ(memio_buffer_put(&mb
, "01234", 5), 5);
523 CHECKEQ(memio_buffer_used_contiguous(&mb
), 1);
524 CHECKEQ(memio_buffer_wrapped_bytes(&mb
), 4);
525 CHECKEQ(memio_buffer_unused_contiguous(&mb
), TEST_BUFLEN
-1-5);
527 CHECKEQ(memio_buffer_put(&mb
, "5", 1), 1);
529 CHECKEQ(memio_buffer_unused_contiguous(&mb
), 0);
530 CHECKEQ(memio_buffer_used_contiguous(&mb
), 1);
532 /* TODO: add more cases */
534 printf("Test passed\n");