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source: mainline/uspace/lib/block/block.c@ f52ce72

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Last change on this file since f52ce72 was 09ab0a9a, checked in by Jiri Svoboda <jiri@…>, 7 years ago
Fix vertical spacing with new Ccheck revision.
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File size: 23.5 KB

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1	/*
2	* Copyright (c) 2008 Jakub Jermar
3	* Copyright (c) 2008 Martin Decky
4	* Copyright (c) 2011 Martin Sucha
5	* All rights reserved.
6	*
7	* Redistribution and use in source and binary forms, with or without
8	* modification, are permitted provided that the following conditions
9	* are met:
10	*
11	* - Redistributions of source code must retain the above copyright
12	* notice, this list of conditions and the following disclaimer.
13	* - Redistributions in binary form must reproduce the above copyright
14	* notice, this list of conditions and the following disclaimer in the
15	* documentation and/or other materials provided with the distribution.
16	* - The name of the author may not be used to endorse or promote products
17	* derived from this software without specific prior written permission.
18	*
19	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
20	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
21	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
22	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
23	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
24	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
25	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
26	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
27	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
28	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
29	*/
30
31	/** @addtogroup libblock
32	* @{
33	*/
34	/**
35	* @file
36	* @brief
37	*/
38
39	#include <ipc/loc.h>
40	#include <ipc/services.h>
41	#include <errno.h>
42	#include <async.h>
43	#include <as.h>
44	#include <assert.h>
45	#include <bd.h>
46	#include <fibril_synch.h>
47	#include <adt/list.h>
48	#include <adt/hash_table.h>
49	#include <macros.h>
50	#include <mem.h>
51	#include <stdlib.h>
52	#include <stdio.h>
53	#include <stacktrace.h>
54	#include <str_error.h>
55	#include <offset.h>
56	#include <inttypes.h>
57	#include "block.h"
58
59	#define MAX_WRITE_RETRIES 10
60
61	/** Lock protecting the device connection list */
62	static FIBRIL_MUTEX_INITIALIZE(dcl_lock);
63	/** Device connection list head. */
64	static LIST_INITIALIZE(dcl);
65
66	typedef struct {
67	fibril_mutex_t lock;
68	size_t lblock_size; /*< Logical block size. /
69	unsigned blocks_cluster; /*< Physical blocks per block_t /
70	unsigned block_count; /*< Total number of blocks. /
71	unsigned blocks_cached; /*< Number of cached blocks. /
72	hash_table_t block_hash;
73	list_t free_list;
74	enum cache_mode mode;
75	} cache_t;
76
77	typedef struct {
78	link_t link;
79	service_id_t service_id;
80	async_sess_t *sess;
81	bd_t *bd;
82	void *bb_buf;
83	aoff64_t bb_addr;
84	aoff64_t pblocks; /*< Number of physical blocks /
85	size_t pblock_size; /*< Physical block size. /
86	cache_t *cache;
87	} devcon_t;
88
89	static errno_t read_blocks(devcon_t , aoff64_t, size_t, void , size_t);
90	static errno_t write_blocks(devcon_t , aoff64_t, size_t, void , size_t);
91	static aoff64_t ba_ltop(devcon_t *, aoff64_t);
92
93	static devcon_t *devcon_search(service_id_t service_id)
94	{
95	fibril_mutex_lock(&dcl_lock);
96
97	list_foreach(dcl, link, devcon_t, devcon) {
98	if (devcon->service_id == service_id) {
99	fibril_mutex_unlock(&dcl_lock);
100	return devcon;
101	}
102	}
103
104	fibril_mutex_unlock(&dcl_lock);
105	return NULL;
106	}
107
108	static errno_t devcon_add(service_id_t service_id, async_sess_t *sess,
109	size_t bsize, aoff64_t dev_size, bd_t *bd)
110	{
111	devcon_t *devcon;
112
113	devcon = malloc(sizeof(devcon_t));
114	if (!devcon)
115	return ENOMEM;
116
117	link_initialize(&devcon->link);
118	devcon->service_id = service_id;
119	devcon->sess = sess;
120	devcon->bd = bd;
121	devcon->bb_buf = NULL;
122	devcon->bb_addr = 0;
123	devcon->pblock_size = bsize;
124	devcon->pblocks = dev_size;
125	devcon->cache = NULL;
126
127	fibril_mutex_lock(&dcl_lock);
128	list_foreach(dcl, link, devcon_t, d) {
129	if (d->service_id == service_id) {
130	fibril_mutex_unlock(&dcl_lock);
131	free(devcon);
132	return EEXIST;
133	}
134	}
135	list_append(&devcon->link, &dcl);
136	fibril_mutex_unlock(&dcl_lock);
137	return EOK;
138	}
139
140	static void devcon_remove(devcon_t *devcon)
141	{
142	fibril_mutex_lock(&dcl_lock);
143	list_remove(&devcon->link);
144	fibril_mutex_unlock(&dcl_lock);
145	}
146
147	errno_t block_init(service_id_t service_id, size_t comm_size)
148	{
149	bd_t *bd;
150
151	async_sess_t *sess = loc_service_connect(service_id, INTERFACE_BLOCK,
152	IPC_FLAG_BLOCKING);
153	if (!sess) {
154	return ENOENT;
155	}
156
157	errno_t rc = bd_open(sess, &bd);
158	if (rc != EOK) {
159	async_hangup(sess);
160	return rc;
161	}
162
163	size_t bsize;
164	rc = bd_get_block_size(bd, &bsize);
165	if (rc != EOK) {
166	bd_close(bd);
167	async_hangup(sess);
168	return rc;
169	}
170
171	aoff64_t dev_size;
172	rc = bd_get_num_blocks(bd, &dev_size);
173	if (rc != EOK) {
174	bd_close(bd);
175	async_hangup(sess);
176	return rc;
177	}
178
179	rc = devcon_add(service_id, sess, bsize, dev_size, bd);
180	if (rc != EOK) {
181	bd_close(bd);
182	async_hangup(sess);
183	return rc;
184	}
185
186	return EOK;
187	}
188
189	void block_fini(service_id_t service_id)
190	{
191	devcon_t *devcon = devcon_search(service_id);
192	assert(devcon);
193
194	if (devcon->cache)
195	(void) block_cache_fini(service_id);
196
197	(void)bd_sync_cache(devcon->bd, 0, 0);
198
199	devcon_remove(devcon);
200
201	if (devcon->bb_buf)
202	free(devcon->bb_buf);
203
204	bd_close(devcon->bd);
205	async_hangup(devcon->sess);
206
207	free(devcon);
208	}
209
210	errno_t block_bb_read(service_id_t service_id, aoff64_t ba)
211	{
212	void *bb_buf;
213	errno_t rc;
214
215	devcon_t *devcon = devcon_search(service_id);
216	if (!devcon)
217	return ENOENT;
218	if (devcon->bb_buf)
219	return EEXIST;
220	bb_buf = malloc(devcon->pblock_size);
221	if (!bb_buf)
222	return ENOMEM;
223
224	rc = read_blocks(devcon, 0, 1, bb_buf, devcon->pblock_size);
225	if (rc != EOK) {
226	free(bb_buf);
227	return rc;
228	}
229
230	devcon->bb_buf = bb_buf;
231	devcon->bb_addr = ba;
232
233	return EOK;
234	}
235
236	void *block_bb_get(service_id_t service_id)
237	{
238	devcon_t *devcon = devcon_search(service_id);
239	assert(devcon);
240	return devcon->bb_buf;
241	}
242
243	static size_t cache_key_hash(void *key)
244	{
245	aoff64_t lba = (aoff64_t )key;
246	return *lba;
247	}
248
249	static size_t cache_hash(const ht_link_t *item)
250	{
251	block_t *b = hash_table_get_inst(item, block_t, hash_link);
252	return b->lba;
253	}
254
255	static bool cache_key_equal(void key, const ht_link_t item)
256	{
257	aoff64_t lba = (aoff64_t )key;
258	block_t *b = hash_table_get_inst(item, block_t, hash_link);
259	return b->lba == *lba;
260	}
261
262	static hash_table_ops_t cache_ops = {
263	.hash = cache_hash,
264	.key_hash = cache_key_hash,
265	.key_equal = cache_key_equal,
266	.equal = NULL,
267	.remove_callback = NULL
268	};
269
270	errno_t block_cache_init(service_id_t service_id, size_t size, unsigned blocks,
271	enum cache_mode mode)
272	{
273	devcon_t *devcon = devcon_search(service_id);
274	cache_t *cache;
275	if (!devcon)
276	return ENOENT;
277	if (devcon->cache)
278	return EEXIST;
279	cache = malloc(sizeof(cache_t));
280	if (!cache)
281	return ENOMEM;
282
283	fibril_mutex_initialize(&cache->lock);
284	list_initialize(&cache->free_list);
285	cache->lblock_size = size;
286	cache->block_count = blocks;
287	cache->blocks_cached = 0;
288	cache->mode = mode;
289
290	/* Allow 1:1 or small-to-large block size translation */
291	if (cache->lblock_size % devcon->pblock_size != 0) {
292	free(cache);
293	return ENOTSUP;
294	}
295
296	cache->blocks_cluster = cache->lblock_size / devcon->pblock_size;
297
298	if (!hash_table_create(&cache->block_hash, 0, 0, &cache_ops)) {
299	free(cache);
300	return ENOMEM;
301	}
302
303	devcon->cache = cache;
304	return EOK;
305	}
306
307	errno_t block_cache_fini(service_id_t service_id)
308	{
309	devcon_t *devcon = devcon_search(service_id);
310	cache_t *cache;
311	errno_t rc;
312
313	if (!devcon)
314	return ENOENT;
315	if (!devcon->cache)
316	return EOK;
317	cache = devcon->cache;
318
319	/*
320	* We are expecting to find all blocks for this device handle on the
321	* free list, i.e. the block reference count should be zero. Do not
322	* bother with the cache and block locks because we are single-threaded.
323	*/
324	while (!list_empty(&cache->free_list)) {
325	block_t *b = list_get_instance(list_first(&cache->free_list),
326	block_t, free_link);
327
328	list_remove(&b->free_link);
329	if (b->dirty) {
330	rc = write_blocks(devcon, b->pba, cache->blocks_cluster,
331	b->data, b->size);
332	if (rc != EOK)
333	return rc;
334	}
335
336	hash_table_remove_item(&cache->block_hash, &b->hash_link);
337
338	free(b->data);
339	free(b);
340	}
341
342	hash_table_destroy(&cache->block_hash);
343	devcon->cache = NULL;
344	free(cache);
345
346	return EOK;
347	}
348
349	#define CACHE_LO_WATERMARK 10
350	#define CACHE_HI_WATERMARK 20
351	static bool cache_can_grow(cache_t *cache)
352	{
353	if (cache->blocks_cached < CACHE_LO_WATERMARK)
354	return true;
355	if (!list_empty(&cache->free_list))
356	return false;
357	return true;
358	}
359
360	static void block_initialize(block_t *b)
361	{
362	fibril_mutex_initialize(&b->lock);
363	b->refcnt = 1;
364	b->write_failures = 0;
365	b->dirty = false;
366	b->toxic = false;
367	fibril_rwlock_initialize(&b->contents_lock);
368	link_initialize(&b->free_link);
369	}
370
371	/** Instantiate a block in memory and get a reference to it.
372	*
373	* @param block Pointer to where the function will store the
374	* block pointer on success.
375	* @param service_id Service ID of the block device.
376	* @param ba Block address (logical).
377	* @param flags If BLOCK_FLAGS_NOREAD is specified, block_get()
378	* will not read the contents of the block from the
379	* device.
380	*
381	* @return EOK on success or an error code.
382	*/
383	errno_t block_get(block_t **block, service_id_t service_id, aoff64_t ba, int flags)
384	{
385	devcon_t *devcon;
386	cache_t *cache;
387	block_t *b;
388	link_t *link;
389	aoff64_t p_ba;
390	errno_t rc;
391
392	devcon = devcon_search(service_id);
393
394	assert(devcon);
395	assert(devcon->cache);
396
397	cache = devcon->cache;
398
399	/*
400	* Check whether the logical block (or part of it) is beyond
401	* the end of the device or not.
402	*/
403	p_ba = ba_ltop(devcon, ba);
404	p_ba += cache->blocks_cluster;
405	if (p_ba >= devcon->pblocks) {
406	/* This request cannot be satisfied */
407	return EIO;
408	}
409
410	retry:
411	rc = EOK;
412	b = NULL;
413
414	fibril_mutex_lock(&cache->lock);
415	ht_link_t *hlink = hash_table_find(&cache->block_hash, &ba);
416	if (hlink) {
417	found:
418	/*
419	* We found the block in the cache.
420	*/
421	b = hash_table_get_inst(hlink, block_t, hash_link);
422	fibril_mutex_lock(&b->lock);
423	if (b->refcnt++ == 0)
424	list_remove(&b->free_link);
425	if (b->toxic)
426	rc = EIO;
427	fibril_mutex_unlock(&b->lock);
428	fibril_mutex_unlock(&cache->lock);
429	} else {
430	/*
431	* The block was not found in the cache.
432	*/
433	if (cache_can_grow(cache)) {
434	/*
435	* We can grow the cache by allocating new blocks.
436	* Should the allocation fail, we fail over and try to
437	* recycle a block from the cache.
438	*/
439	b = malloc(sizeof(block_t));
440	if (!b)
441	goto recycle;
442	b->data = malloc(cache->lblock_size);
443	if (!b->data) {
444	free(b);
445	b = NULL;
446	goto recycle;
447	}
448	cache->blocks_cached++;
449	} else {
450	/*
451	* Try to recycle a block from the free list.
452	*/
453	recycle:
454	if (list_empty(&cache->free_list)) {
455	fibril_mutex_unlock(&cache->lock);
456	rc = ENOMEM;
457	goto out;
458	}
459	link = list_first(&cache->free_list);
460	b = list_get_instance(link, block_t, free_link);
461
462	fibril_mutex_lock(&b->lock);
463	if (b->dirty) {
464	/*
465	* The block needs to be written back to the
466	* device before it changes identity. Do this
467	* while not holding the cache lock so that
468	* concurrency is not impeded. Also move the
469	* block to the end of the free list so that we
470	* do not slow down other instances of
471	* block_get() draining the free list.
472	*/
473	list_remove(&b->free_link);
474	list_append(&b->free_link, &cache->free_list);
475	fibril_mutex_unlock(&cache->lock);
476	rc = write_blocks(devcon, b->pba,
477	cache->blocks_cluster, b->data, b->size);
478	if (rc != EOK) {
479	/*
480	* We did not manage to write the block
481	* to the device. Keep it around for
482	* another try. Hopefully, we will grab
483	* another block next time.
484	*/
485	if (b->write_failures < MAX_WRITE_RETRIES) {
486	b->write_failures++;
487	fibril_mutex_unlock(&b->lock);
488	goto retry;
489	} else {
490	printf("Too many errors writing block %"
491	PRIuOFF64 "from device handle %" PRIun "\n"
492	"SEVERE DATA LOSS POSSIBLE\n",
493	b->lba, devcon->service_id);
494	}
495	} else
496	b->write_failures = 0;
497
498	b->dirty = false;
499	if (!fibril_mutex_trylock(&cache->lock)) {
500	/*
501	* Somebody is probably racing with us.
502	* Unlock the block and retry.
503	*/
504	fibril_mutex_unlock(&b->lock);
505	goto retry;
506	}
507	hlink = hash_table_find(&cache->block_hash, &ba);
508	if (hlink) {
509	/*
510	* Someone else must have already
511	* instantiated the block while we were
512	* not holding the cache lock.
513	* Leave the recycled block on the
514	* freelist and continue as if we
515	* found the block of interest during
516	* the first try.
517	*/
518	fibril_mutex_unlock(&b->lock);
519	goto found;
520	}
521
522	}
523	fibril_mutex_unlock(&b->lock);
524
525	/*
526	* Unlink the block from the free list and the hash
527	* table.
528	*/
529	list_remove(&b->free_link);
530	hash_table_remove_item(&cache->block_hash, &b->hash_link);
531	}
532
533	block_initialize(b);
534	b->service_id = service_id;
535	b->size = cache->lblock_size;
536	b->lba = ba;
537	b->pba = ba_ltop(devcon, b->lba);
538	hash_table_insert(&cache->block_hash, &b->hash_link);
539
540	/*
541	* Lock the block before releasing the cache lock. Thus we don't
542	* kill concurrent operations on the cache while doing I/O on
543	* the block.
544	*/
545	fibril_mutex_lock(&b->lock);
546	fibril_mutex_unlock(&cache->lock);
547
548	if (!(flags & BLOCK_FLAGS_NOREAD)) {
549	/*
550	* The block contains old or no data. We need to read
551	* the new contents from the device.
552	*/
553	rc = read_blocks(devcon, b->pba, cache->blocks_cluster,
554	b->data, cache->lblock_size);
555	if (rc != EOK)
556	b->toxic = true;
557	} else
558	rc = EOK;
559
560	fibril_mutex_unlock(&b->lock);
561	}
562	out:
563	if ((rc != EOK) && b) {
564	assert(b->toxic);
565	(void) block_put(b);
566	b = NULL;
567	}
568	*block = b;
569	return rc;
570	}
571
572	/** Release a reference to a block.
573	*
574	* If the last reference is dropped, the block is put on the free list.
575	*
576	* @param block Block of which a reference is to be released.
577	*
578	* @return EOK on success or an error code.
579	*/
580	errno_t block_put(block_t *block)
581	{
582	devcon_t *devcon = devcon_search(block->service_id);
583	cache_t *cache;
584	unsigned blocks_cached;
585	enum cache_mode mode;
586	errno_t rc = EOK;
587
588	assert(devcon);
589	assert(devcon->cache);
590	assert(block->refcnt >= 1);
591
592	cache = devcon->cache;
593
594	retry:
595	fibril_mutex_lock(&cache->lock);
596	blocks_cached = cache->blocks_cached;
597	mode = cache->mode;
598	fibril_mutex_unlock(&cache->lock);
599
600	/*
601	* Determine whether to sync the block. Syncing the block is best done
602	* when not holding the cache lock as it does not impede concurrency.
603	* Since the situation may have changed when we unlocked the cache, the
604	* blocks_cached and mode variables are mere hints. We will recheck the
605	* conditions later when the cache lock is held again.
606	*/
607	fibril_mutex_lock(&block->lock);
608	if (block->toxic)
609	block->dirty = false; /* will not write back toxic block */
610	if (block->dirty && (block->refcnt == 1) &&
611	(blocks_cached > CACHE_HI_WATERMARK \|\| mode != CACHE_MODE_WB)) {
612	rc = write_blocks(devcon, block->pba, cache->blocks_cluster,
613	block->data, block->size);
614	if (rc == EOK)
615	block->write_failures = 0;
616	block->dirty = false;
617	}
618	fibril_mutex_unlock(&block->lock);
619
620	fibril_mutex_lock(&cache->lock);
621	fibril_mutex_lock(&block->lock);
622	if (!--block->refcnt) {
623	/*
624	* Last reference to the block was dropped. Either free the
625	* block or put it on the free list. In case of an I/O error,
626	* free the block.
627	*/
628	if ((cache->blocks_cached > CACHE_HI_WATERMARK) \|\|
629	(rc != EOK)) {
630	/*
631	* Currently there are too many cached blocks or there
632	* was an I/O error when writing the block back to the
633	* device.
634	*/
635	if (block->dirty) {
636	/*
637	* We cannot sync the block while holding the
638	* cache lock. Release everything and retry.
639	*/
640	block->refcnt++;
641
642	if (block->write_failures < MAX_WRITE_RETRIES) {
643	block->write_failures++;
644	fibril_mutex_unlock(&block->lock);
645	fibril_mutex_unlock(&cache->lock);
646	goto retry;
647	} else {
648	printf("Too many errors writing block %"
649	PRIuOFF64 "from device handle %" PRIun "\n"
650	"SEVERE DATA LOSS POSSIBLE\n",
651	block->lba, devcon->service_id);
652	}
653	}
654	/*
655	* Take the block out of the cache and free it.
656	*/
657	hash_table_remove_item(&cache->block_hash, &block->hash_link);
658	fibril_mutex_unlock(&block->lock);
659	free(block->data);
660	free(block);
661	cache->blocks_cached--;
662	fibril_mutex_unlock(&cache->lock);
663	return rc;
664	}
665	/*
666	* Put the block on the free list.
667	*/
668	if (cache->mode != CACHE_MODE_WB && block->dirty) {
669	/*
670	* We cannot sync the block while holding the cache
671	* lock. Release everything and retry.
672	*/
673	block->refcnt++;
674	fibril_mutex_unlock(&block->lock);
675	fibril_mutex_unlock(&cache->lock);
676	goto retry;
677	}
678	list_append(&block->free_link, &cache->free_list);
679	}
680	fibril_mutex_unlock(&block->lock);
681	fibril_mutex_unlock(&cache->lock);
682
683	return rc;
684	}
685
686	/** Read sequential data from a block device.
687	*
688	* @param service_id Service ID of the block device.
689	* @param buf Buffer for holding one block
690	* @param bufpos Pointer to the first unread valid offset within the
691	* communication buffer.
692	* @param buflen Pointer to the number of unread bytes that are ready in
693	* the communication buffer.
694	* @param pos Device position to be read.
695	* @param dst Destination buffer.
696	* @param size Size of the destination buffer.
697	* @param block_size Block size to be used for the transfer.
698	*
699	* @return EOK on success or an error code on failure.
700	*/
701	errno_t block_seqread(service_id_t service_id, void buf, size_t bufpos,
702	size_t buflen, aoff64_t pos, void *dst, size_t size)
703	{
704	size_t offset = 0;
705	size_t left = size;
706	size_t block_size;
707	devcon_t *devcon;
708
709	devcon = devcon_search(service_id);
710	assert(devcon);
711	block_size = devcon->pblock_size;
712
713	while (left > 0) {
714	size_t rd;
715
716	if (bufpos + left < buflen)
717	rd = left;
718	else
719	rd = buflen - bufpos;
720
721	if (rd > 0) {
722	/*
723	* Copy the contents of the communication buffer to the
724	* destination buffer.
725	*/
726	memcpy(dst + offset, buf + *bufpos, rd);
727	offset += rd;
728	*bufpos += rd;
729	*pos += rd;
730	left -= rd;
731	}
732
733	if (bufpos == buflen) {
734	/* Refill the communication buffer with a new block. */
735	errno_t rc;
736
737	rc = read_blocks(devcon, *pos / block_size, 1, buf,
738	devcon->pblock_size);
739	if (rc != EOK) {
740	return rc;
741	}
742
743	*bufpos = 0;
744	*buflen = block_size;
745	}
746	}
747
748	return EOK;
749	}
750
751	/** Read blocks directly from device (bypass cache).
752	*
753	* @param service_id Service ID of the block device.
754	* @param ba Address of first block (physical).
755	* @param cnt Number of blocks.
756	* @param src Buffer for storing the data.
757	*
758	* @return EOK on success or an error code on failure.
759	*/
760	errno_t block_read_direct(service_id_t service_id, aoff64_t ba, size_t cnt, void *buf)
761	{
762	devcon_t *devcon;
763
764	devcon = devcon_search(service_id);
765	assert(devcon);
766
767	return read_blocks(devcon, ba, cnt, buf, devcon->pblock_size * cnt);
768	}
769
770	/** Write blocks directly to device (bypass cache).
771	*
772	* @param service_id Service ID of the block device.
773	* @param ba Address of first block (physical).
774	* @param cnt Number of blocks.
775	* @param src The data to be written.
776	*
777	* @return EOK on success or an error code on failure.
778	*/
779	errno_t block_write_direct(service_id_t service_id, aoff64_t ba, size_t cnt,
780	const void *data)
781	{
782	devcon_t *devcon;
783
784	devcon = devcon_search(service_id);
785	assert(devcon);
786
787	return write_blocks(devcon, ba, cnt, (void )data, devcon->pblock_size cnt);
788	}
789
790	/** Synchronize blocks to persistent storage.
791	*
792	* @param service_id Service ID of the block device.
793	* @param ba Address of first block (physical).
794	* @param cnt Number of blocks.
795	*
796	* @return EOK on success or an error code on failure.
797	*/
798	errno_t block_sync_cache(service_id_t service_id, aoff64_t ba, size_t cnt)
799	{
800	devcon_t *devcon;
801
802	devcon = devcon_search(service_id);
803	assert(devcon);
804
805	return bd_sync_cache(devcon->bd, ba, cnt);
806	}
807
808	/** Get device block size.
809	*
810	* @param service_id Service ID of the block device.
811	* @param bsize Output block size.
812	*
813	* @return EOK on success or an error code on failure.
814	*/
815	errno_t block_get_bsize(service_id_t service_id, size_t *bsize)
816	{
817	devcon_t *devcon;
818
819	devcon = devcon_search(service_id);
820	assert(devcon);
821
822	return bd_get_block_size(devcon->bd, bsize);
823	}
824
825	/** Get number of blocks on device.
826	*
827	* @param service_id Service ID of the block device.
828	* @param nblocks Output number of blocks.
829	*
830	* @return EOK on success or an error code on failure.
831	*/
832	errno_t block_get_nblocks(service_id_t service_id, aoff64_t *nblocks)
833	{
834	devcon_t *devcon = devcon_search(service_id);
835	assert(devcon);
836
837	return bd_get_num_blocks(devcon->bd, nblocks);
838	}
839
840	/** Read bytes directly from the device (bypass cache)
841	*
842	* @param service_id Service ID of the block device.
843	* @param abs_offset Absolute offset in bytes where to start reading
844	* @param bytes Number of bytes to read
845	* @param data Buffer that receives the data
846	*
847	* @return EOK on success or an error code on failure.
848	*/
849	errno_t block_read_bytes_direct(service_id_t service_id, aoff64_t abs_offset,
850	size_t bytes, void *data)
851	{
852	errno_t rc;
853	size_t phys_block_size;
854	size_t buf_size;
855	void *buffer;
856	aoff64_t first_block;
857	aoff64_t last_block;
858	size_t blocks;
859	size_t offset;
860
861	rc = block_get_bsize(service_id, &phys_block_size);
862	if (rc != EOK) {
863	return rc;
864	}
865
866	/* calculate data position and required space */
867	first_block = abs_offset / phys_block_size;
868	offset = abs_offset % phys_block_size;
869	last_block = (abs_offset + bytes - 1) / phys_block_size;
870	blocks = last_block - first_block + 1;
871	buf_size = blocks * phys_block_size;
872
873	/* read the data into memory */
874	buffer = malloc(buf_size);
875	if (buffer == NULL) {
876	return ENOMEM;
877	}
878
879	rc = block_read_direct(service_id, first_block, blocks, buffer);
880	if (rc != EOK) {
881	free(buffer);
882	return rc;
883	}
884
885	/* copy the data from the buffer */
886	memcpy(data, buffer + offset, bytes);
887	free(buffer);
888
889	return EOK;
890	}
891
892	/** Get TOC from device.
893	*
894	* @param service_id Service ID of the block device.
895	* @param session Starting session.
896	*
897	* @return Allocated TOC structure.
898	* @return EOK on success or an error code.
899	*
900	*/
901	errno_t block_read_toc(service_id_t service_id, uint8_t session, void *buf,
902	size_t bufsize)
903	{
904	devcon_t *devcon = devcon_search(service_id);
905
906	assert(devcon);
907	return bd_read_toc(devcon->bd, session, buf, bufsize);
908	}
909
910	/** Read blocks from block device.
911	*
912	* @param devcon Device connection.
913	* @param ba Address of first block.
914	* @param cnt Number of blocks.
915	* @param src Buffer for storing the data.
916	*
917	* @return EOK on success or an error code on failure.
918	*/
919	static errno_t read_blocks(devcon_t devcon, aoff64_t ba, size_t cnt, void buf,
920	size_t size)
921	{
922	assert(devcon);
923
924	errno_t rc = bd_read_blocks(devcon->bd, ba, cnt, buf, size);
925	if (rc != EOK) {
926	printf("Error %s reading %zu blocks starting at block %" PRIuOFF64
927	" from device handle %" PRIun "\n", str_error_name(rc), cnt, ba,
928	devcon->service_id);
929	#ifndef NDEBUG
930	stacktrace_print();
931	#endif
932	}
933
934	return rc;
935	}
936
937	/** Write block to block device.
938	*
939	* @param devcon Device connection.
940	* @param ba Address of first block.
941	* @param cnt Number of blocks.
942	* @param src Buffer containing the data to write.
943	*
944	* @return EOK on success or an error code on failure.
945	*/
946	static errno_t write_blocks(devcon_t devcon, aoff64_t ba, size_t cnt, void data,
947	size_t size)
948	{
949	assert(devcon);
950
951	errno_t rc = bd_write_blocks(devcon->bd, ba, cnt, data, size);
952	if (rc != EOK) {
953	printf("Error %s writing %zu blocks starting at block %" PRIuOFF64
954	" to device handle %" PRIun "\n", str_error_name(rc), cnt, ba, devcon->service_id);
955	#ifndef NDEBUG
956	stacktrace_print();
957	#endif
958	}
959
960	return rc;
961	}
962
963	/** Convert logical block address to physical block address. */
964	static aoff64_t ba_ltop(devcon_t *devcon, aoff64_t lba)
965	{
966	assert(devcon->cache != NULL);
967	return lba * devcon->cache->blocks_cluster;
968	}
969
970	/** @}
971	*/

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