udf_strat_rmw.c revision 1.12
1 1.12 reinoud /* $NetBSD: udf_strat_rmw.c,v 1.12 2008/11/15 18:26:50 reinoud Exp $ */ 2 1.1 reinoud 3 1.1 reinoud /* 4 1.1 reinoud * Copyright (c) 2006, 2008 Reinoud Zandijk 5 1.1 reinoud * All rights reserved. 6 1.1 reinoud * 7 1.1 reinoud * Redistribution and use in source and binary forms, with or without 8 1.1 reinoud * modification, are permitted provided that the following conditions 9 1.1 reinoud * are met: 10 1.1 reinoud * 1. Redistributions of source code must retain the above copyright 11 1.1 reinoud * notice, this list of conditions and the following disclaimer. 12 1.1 reinoud * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 reinoud * notice, this list of conditions and the following disclaimer in the 14 1.1 reinoud * documentation and/or other materials provided with the distribution. 15 1.1 reinoud * 16 1.1 reinoud * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 reinoud * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 reinoud * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 reinoud * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 reinoud * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 1.1 reinoud * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 1.1 reinoud * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 1.1 reinoud * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 1.1 reinoud * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 1.1 reinoud * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 1.1 reinoud * 27 1.1 reinoud */ 28 1.1 reinoud 29 1.1 reinoud #include <sys/cdefs.h> 30 1.1 reinoud #ifndef lint 31 1.12 reinoud __KERNEL_RCSID(0, "$NetBSD: udf_strat_rmw.c,v 1.12 2008/11/15 18:26:50 reinoud Exp $"); 32 1.1 reinoud #endif /* not lint */ 33 1.1 reinoud 34 1.1 reinoud 35 1.1 reinoud #if defined(_KERNEL_OPT) 36 1.1 reinoud #include "opt_quota.h" 37 1.1 reinoud #include "opt_compat_netbsd.h" 38 1.1 reinoud #endif 39 1.1 reinoud 40 1.1 reinoud #include <sys/param.h> 41 1.1 reinoud #include <sys/systm.h> 42 1.1 reinoud #include <sys/sysctl.h> 43 1.1 reinoud #include <sys/namei.h> 44 1.1 reinoud #include <sys/proc.h> 45 1.1 reinoud #include <sys/kernel.h> 46 1.1 reinoud #include <sys/vnode.h> 47 1.1 reinoud #include <miscfs/genfs/genfs_node.h> 48 1.1 reinoud #include <sys/mount.h> 49 1.1 reinoud #include <sys/buf.h> 50 1.1 reinoud #include <sys/file.h> 51 1.1 reinoud #include <sys/device.h> 52 1.1 reinoud #include <sys/disklabel.h> 53 1.1 reinoud #include <sys/ioctl.h> 54 1.1 reinoud #include <sys/malloc.h> 55 1.1 reinoud #include <sys/dirent.h> 56 1.1 reinoud #include <sys/stat.h> 57 1.1 reinoud #include <sys/conf.h> 58 1.1 reinoud #include <sys/kauth.h> 59 1.1 reinoud #include <sys/kthread.h> 60 1.1 reinoud #include <dev/clock_subr.h> 61 1.1 reinoud 62 1.1 reinoud #include <fs/udf/ecma167-udf.h> 63 1.1 reinoud #include <fs/udf/udf_mount.h> 64 1.1 reinoud 65 1.1 reinoud #include "udf.h" 66 1.1 reinoud #include "udf_subr.h" 67 1.1 reinoud #include "udf_bswap.h" 68 1.1 reinoud 69 1.1 reinoud 70 1.1 reinoud #define VTOI(vnode) ((struct udf_node *) (vnode)->v_data) 71 1.1 reinoud #define PRIV(ump) ((struct strat_private *) (ump)->strategy_private) 72 1.1 reinoud #define BTOE(buf) ((struct udf_eccline *) ((buf)->b_private)) 73 1.1 reinoud 74 1.1 reinoud /* --------------------------------------------------------------------- */ 75 1.1 reinoud 76 1.1 reinoud #define UDF_MAX_PACKET_SIZE 64 /* DONT change this */ 77 1.1 reinoud 78 1.1 reinoud /* sheduler states */ 79 1.11 reinoud #define UDF_SHED_WAITING 1 /* waiting on timeout */ 80 1.11 reinoud #define UDF_SHED_READING 2 81 1.11 reinoud #define UDF_SHED_WRITING 3 82 1.11 reinoud #define UDF_SHED_SEQWRITING 4 83 1.11 reinoud #define UDF_SHED_IDLE 5 /* resting */ 84 1.11 reinoud #define UDF_SHED_FREE 6 /* recycleable */ 85 1.11 reinoud #define UDF_SHED_MAX 6+1 86 1.1 reinoud 87 1.1 reinoud /* flags */ 88 1.1 reinoud #define ECC_LOCKED 0x01 /* prevent access */ 89 1.1 reinoud #define ECC_WANTED 0x02 /* trying access */ 90 1.1 reinoud #define ECC_SEQWRITING 0x04 /* sequential queue */ 91 1.1 reinoud #define ECC_FLOATING 0x08 /* not queued yet */ 92 1.1 reinoud 93 1.11 reinoud #define ECC_WAITTIME 5 94 1.11 reinoud 95 1.1 reinoud 96 1.1 reinoud TAILQ_HEAD(ecclineq, udf_eccline); 97 1.1 reinoud struct udf_eccline { 98 1.1 reinoud struct udf_mount *ump; 99 1.1 reinoud uint64_t present; /* preserve these */ 100 1.1 reinoud uint64_t readin; /* bitmap */ 101 1.1 reinoud uint64_t dirty; /* bitmap */ 102 1.1 reinoud uint64_t error; /* bitmap */ 103 1.1 reinoud uint32_t refcnt; 104 1.1 reinoud 105 1.11 reinoud struct timespec wait_time; 106 1.1 reinoud uint32_t flags; 107 1.1 reinoud uint32_t start_sector; /* physical */ 108 1.1 reinoud 109 1.1 reinoud struct buf *buf; 110 1.1 reinoud void *blob; 111 1.1 reinoud 112 1.1 reinoud struct buf *bufs[UDF_MAX_PACKET_SIZE]; 113 1.1 reinoud uint32_t bufs_bpos[UDF_MAX_PACKET_SIZE]; 114 1.1 reinoud int bufs_len[UDF_MAX_PACKET_SIZE]; 115 1.1 reinoud 116 1.1 reinoud int queued_on; /* on which BUFQ list */ 117 1.1 reinoud LIST_ENTRY(udf_eccline) hashchain; /* on sector lookup */ 118 1.1 reinoud }; 119 1.1 reinoud 120 1.1 reinoud 121 1.1 reinoud struct strat_private { 122 1.1 reinoud lwp_t *queue_lwp; 123 1.1 reinoud kcondvar_t discstrat_cv; /* to wait on */ 124 1.1 reinoud kmutex_t discstrat_mutex; /* disc strategy */ 125 1.1 reinoud kmutex_t seqwrite_mutex; /* protect mappings */ 126 1.1 reinoud 127 1.1 reinoud int run_thread; /* thread control */ 128 1.1 reinoud int thread_finished; /* thread control */ 129 1.1 reinoud int cur_queue; 130 1.1 reinoud 131 1.1 reinoud int num_floating; 132 1.1 reinoud int num_queued[UDF_SHED_MAX]; 133 1.1 reinoud struct bufq_state *queues[UDF_SHED_MAX]; 134 1.1 reinoud struct timespec last_queued[UDF_SHED_MAX]; 135 1.1 reinoud struct disk_strategy old_strategy_setting; 136 1.1 reinoud 137 1.1 reinoud struct pool eccline_pool; 138 1.1 reinoud struct pool ecclineblob_pool; 139 1.1 reinoud LIST_HEAD(, udf_eccline) eccline_hash[UDF_ECCBUF_HASHSIZE]; 140 1.1 reinoud }; 141 1.1 reinoud 142 1.1 reinoud /* --------------------------------------------------------------------- */ 143 1.1 reinoud 144 1.1 reinoud #define UDF_LOCK_ECCLINE(eccline) udf_lock_eccline(eccline) 145 1.1 reinoud #define UDF_UNLOCK_ECCLINE(eccline) udf_unlock_eccline(eccline) 146 1.1 reinoud 147 1.1 reinoud /* can be called with or without discstrat lock */ 148 1.1 reinoud static void 149 1.1 reinoud udf_lock_eccline(struct udf_eccline *eccline) 150 1.1 reinoud { 151 1.1 reinoud struct strat_private *priv = PRIV(eccline->ump); 152 1.1 reinoud int waslocked, ret; 153 1.1 reinoud 154 1.1 reinoud waslocked = mutex_owned(&priv->discstrat_mutex); 155 1.1 reinoud if (!waslocked) 156 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 157 1.1 reinoud 158 1.1 reinoud /* wait until its unlocked first */ 159 1.1 reinoud while (eccline->flags & ECC_LOCKED) { 160 1.1 reinoud eccline->flags |= ECC_WANTED; 161 1.1 reinoud ret = cv_timedwait(&priv->discstrat_cv, &priv->discstrat_mutex, 162 1.1 reinoud hz/8); 163 1.1 reinoud if (ret == EWOULDBLOCK) 164 1.1 reinoud DPRINTF(LOCKING, ("eccline lock helt, waiting for " 165 1.1 reinoud "release")); 166 1.1 reinoud } 167 1.1 reinoud eccline->flags |= ECC_LOCKED; 168 1.1 reinoud eccline->flags &= ~ECC_WANTED; 169 1.1 reinoud 170 1.1 reinoud if (!waslocked) 171 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 172 1.1 reinoud } 173 1.1 reinoud 174 1.1 reinoud 175 1.1 reinoud /* can be called with or without discstrat lock */ 176 1.1 reinoud static void 177 1.1 reinoud udf_unlock_eccline(struct udf_eccline *eccline) 178 1.1 reinoud { 179 1.1 reinoud struct strat_private *priv = PRIV(eccline->ump); 180 1.1 reinoud int waslocked; 181 1.1 reinoud 182 1.1 reinoud KASSERT(mutex_owned(&priv->discstrat_mutex)); 183 1.1 reinoud 184 1.1 reinoud waslocked = mutex_owned(&priv->discstrat_mutex); 185 1.1 reinoud if (!waslocked) 186 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 187 1.1 reinoud 188 1.1 reinoud eccline->flags &= ~ECC_LOCKED; 189 1.1 reinoud cv_broadcast(&priv->discstrat_cv); 190 1.1 reinoud 191 1.1 reinoud if (!waslocked) 192 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 193 1.1 reinoud } 194 1.1 reinoud 195 1.1 reinoud 196 1.1 reinoud /* NOTE discstrat_mutex should be held! */ 197 1.1 reinoud static void 198 1.1 reinoud udf_dispose_eccline(struct udf_eccline *eccline) 199 1.1 reinoud { 200 1.1 reinoud struct strat_private *priv = PRIV(eccline->ump); 201 1.1 reinoud struct buf *ret; 202 1.1 reinoud 203 1.1 reinoud KASSERT(mutex_owned(&priv->discstrat_mutex)); 204 1.1 reinoud 205 1.1 reinoud KASSERT(eccline->refcnt == 0); 206 1.1 reinoud KASSERT(eccline->dirty == 0); 207 1.1 reinoud 208 1.3 reinoud DPRINTF(ECCLINE, ("dispose eccline with start sector %d, " 209 1.1 reinoud "present %0"PRIx64"\n", eccline->start_sector, 210 1.1 reinoud eccline->present)); 211 1.1 reinoud 212 1.1 reinoud if (eccline->queued_on) { 213 1.1 reinoud ret = BUFQ_CANCEL(priv->queues[eccline->queued_on], eccline->buf); 214 1.1 reinoud KASSERT(ret == eccline->buf); 215 1.1 reinoud priv->num_queued[eccline->queued_on]--; 216 1.1 reinoud } 217 1.1 reinoud LIST_REMOVE(eccline, hashchain); 218 1.1 reinoud 219 1.1 reinoud if (eccline->flags & ECC_FLOATING) { 220 1.1 reinoud eccline->flags &= ~ECC_FLOATING; 221 1.1 reinoud priv->num_floating--; 222 1.1 reinoud } 223 1.1 reinoud 224 1.1 reinoud putiobuf(eccline->buf); 225 1.1 reinoud pool_put(&priv->ecclineblob_pool, eccline->blob); 226 1.1 reinoud pool_put(&priv->eccline_pool, eccline); 227 1.1 reinoud } 228 1.1 reinoud 229 1.1 reinoud 230 1.1 reinoud /* NOTE discstrat_mutex should be held! */ 231 1.1 reinoud static void 232 1.1 reinoud udf_push_eccline(struct udf_eccline *eccline, int newqueue) 233 1.1 reinoud { 234 1.1 reinoud struct strat_private *priv = PRIV(eccline->ump); 235 1.1 reinoud struct buf *ret; 236 1.1 reinoud int curqueue; 237 1.1 reinoud 238 1.1 reinoud KASSERT(mutex_owned(&priv->discstrat_mutex)); 239 1.1 reinoud 240 1.1 reinoud DPRINTF(PARANOIA, ("DEBUG: buf %p pushed on queue %d\n", eccline->buf, newqueue)); 241 1.1 reinoud 242 1.1 reinoud /* requeue */ 243 1.1 reinoud curqueue = eccline->queued_on; 244 1.1 reinoud if (curqueue) { 245 1.1 reinoud ret = BUFQ_CANCEL(priv->queues[curqueue], eccline->buf); 246 1.1 reinoud 247 1.1 reinoud DPRINTF(PARANOIA, ("push_eccline BUFQ_CANCEL returned %p when " 248 1.1 reinoud "requested to remove %p from queue %d\n", ret, 249 1.1 reinoud eccline->buf, curqueue)); 250 1.1 reinoud #ifdef DIAGNOSTIC 251 1.1 reinoud if (ret == NULL) { 252 1.1 reinoud int i; 253 1.1 reinoud 254 1.1 reinoud printf("udf_push_eccline: bufq_cancel can't find " 255 1.1 reinoud "buffer; dumping queues\n"); 256 1.1 reinoud for (i = 1; i < UDF_SHED_MAX; i++) { 257 1.1 reinoud printf("queue %d\n\t", i); 258 1.1 reinoud ret = BUFQ_GET(priv->queues[i]); 259 1.1 reinoud while (ret) { 260 1.1 reinoud printf("%p ", ret); 261 1.1 reinoud if (ret == eccline->buf) 262 1.1 reinoud printf("[<-] "); 263 1.1 reinoud ret = BUFQ_GET(priv->queues[i]); 264 1.1 reinoud } 265 1.1 reinoud printf("\n"); 266 1.1 reinoud } 267 1.1 reinoud panic("fatal queue bug; exit"); 268 1.1 reinoud } 269 1.1 reinoud #endif 270 1.1 reinoud 271 1.1 reinoud KASSERT(ret == eccline->buf); 272 1.1 reinoud priv->num_queued[curqueue]--; 273 1.1 reinoud } 274 1.1 reinoud 275 1.10 reinoud /* set buffer block numbers to make sure its queued correctly */ 276 1.10 reinoud eccline->buf->b_lblkno = eccline->start_sector; 277 1.10 reinoud eccline->buf->b_blkno = eccline->start_sector; 278 1.10 reinoud eccline->buf->b_rawblkno = eccline->start_sector; 279 1.10 reinoud 280 1.1 reinoud BUFQ_PUT(priv->queues[newqueue], eccline->buf); 281 1.1 reinoud eccline->queued_on = newqueue; 282 1.1 reinoud priv->num_queued[newqueue]++; 283 1.1 reinoud vfs_timestamp(&priv->last_queued[newqueue]); 284 1.1 reinoud 285 1.1 reinoud if (eccline->flags & ECC_FLOATING) { 286 1.1 reinoud eccline->flags &= ~ECC_FLOATING; 287 1.1 reinoud priv->num_floating--; 288 1.1 reinoud } 289 1.1 reinoud 290 1.1 reinoud if ((newqueue != UDF_SHED_FREE) && (newqueue != UDF_SHED_IDLE)) 291 1.1 reinoud cv_signal(&priv->discstrat_cv); 292 1.1 reinoud } 293 1.1 reinoud 294 1.1 reinoud 295 1.1 reinoud static struct udf_eccline * 296 1.1 reinoud udf_pop_eccline(struct strat_private *priv, int queued_on) 297 1.1 reinoud { 298 1.1 reinoud struct udf_eccline *eccline; 299 1.1 reinoud struct buf *buf; 300 1.1 reinoud 301 1.1 reinoud KASSERT(mutex_owned(&priv->discstrat_mutex)); 302 1.1 reinoud 303 1.1 reinoud buf = BUFQ_GET(priv->queues[queued_on]); 304 1.1 reinoud if (!buf) { 305 1.1 reinoud KASSERT(priv->num_queued[queued_on] == 0); 306 1.1 reinoud return NULL; 307 1.1 reinoud } 308 1.1 reinoud 309 1.1 reinoud eccline = BTOE(buf); 310 1.1 reinoud KASSERT(eccline->queued_on == queued_on); 311 1.1 reinoud eccline->queued_on = 0; 312 1.1 reinoud priv->num_queued[queued_on]--; 313 1.1 reinoud 314 1.1 reinoud if (eccline->flags & ECC_FLOATING) 315 1.1 reinoud panic("popping already marked floating eccline"); 316 1.1 reinoud eccline->flags |= ECC_FLOATING; 317 1.1 reinoud priv->num_floating++; 318 1.1 reinoud 319 1.1 reinoud DPRINTF(PARANOIA, ("DEBUG: buf %p popped from queue %d\n", 320 1.1 reinoud eccline->buf, queued_on)); 321 1.1 reinoud 322 1.1 reinoud return eccline; 323 1.1 reinoud } 324 1.1 reinoud 325 1.1 reinoud 326 1.1 reinoud static struct udf_eccline * 327 1.1 reinoud udf_geteccline(struct udf_mount *ump, uint32_t sector, int flags) 328 1.1 reinoud { 329 1.1 reinoud struct strat_private *priv = PRIV(ump); 330 1.1 reinoud struct udf_eccline *eccline; 331 1.1 reinoud uint32_t start_sector, lb_size, blobsize; 332 1.1 reinoud uint8_t *eccline_blob; 333 1.1 reinoud int line, line_offset; 334 1.1 reinoud int num_busy, ret; 335 1.1 reinoud 336 1.1 reinoud line_offset = sector % ump->packet_size; 337 1.1 reinoud start_sector = sector - line_offset; 338 1.1 reinoud line = (start_sector/ump->packet_size) & UDF_ECCBUF_HASHMASK; 339 1.1 reinoud 340 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 341 1.1 reinoud 342 1.1 reinoud retry: 343 1.3 reinoud DPRINTF(ECCLINE, ("get line sector %d, line %d\n", sector, line)); 344 1.1 reinoud LIST_FOREACH(eccline, &priv->eccline_hash[line], hashchain) { 345 1.1 reinoud if (eccline->start_sector == start_sector) { 346 1.3 reinoud DPRINTF(ECCLINE, ("\tfound eccline, start_sector %d\n", 347 1.1 reinoud eccline->start_sector)); 348 1.1 reinoud 349 1.1 reinoud UDF_LOCK_ECCLINE(eccline); 350 1.1 reinoud /* move from freelist (!) */ 351 1.1 reinoud if (eccline->queued_on == UDF_SHED_FREE) { 352 1.3 reinoud DPRINTF(ECCLINE, ("was on freelist\n")); 353 1.1 reinoud KASSERT(eccline->refcnt == 0); 354 1.1 reinoud udf_push_eccline(eccline, UDF_SHED_IDLE); 355 1.1 reinoud } 356 1.1 reinoud eccline->refcnt++; 357 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 358 1.1 reinoud return eccline; 359 1.1 reinoud } 360 1.1 reinoud } 361 1.1 reinoud 362 1.3 reinoud DPRINTF(ECCLINE, ("\tnot found in eccline cache\n")); 363 1.1 reinoud /* not found in eccline cache */ 364 1.1 reinoud 365 1.1 reinoud lb_size = udf_rw32(ump->logical_vol->lb_size); 366 1.1 reinoud blobsize = ump->packet_size * lb_size; 367 1.1 reinoud 368 1.1 reinoud /* dont allow too many pending requests */ 369 1.3 reinoud DPRINTF(ECCLINE, ("\tallocating new eccline\n")); 370 1.1 reinoud num_busy = (priv->num_queued[UDF_SHED_SEQWRITING] + priv->num_floating); 371 1.1 reinoud if ((flags & ECC_SEQWRITING) && (num_busy > UDF_ECCLINE_MAXBUSY)) { 372 1.1 reinoud ret = cv_timedwait(&priv->discstrat_cv, 373 1.1 reinoud &priv->discstrat_mutex, hz/8); 374 1.1 reinoud goto retry; 375 1.1 reinoud } 376 1.1 reinoud 377 1.1 reinoud eccline_blob = pool_get(&priv->ecclineblob_pool, PR_NOWAIT); 378 1.1 reinoud eccline = pool_get(&priv->eccline_pool, PR_NOWAIT); 379 1.1 reinoud if ((eccline_blob == NULL) || (eccline == NULL)) { 380 1.1 reinoud if (eccline_blob) 381 1.1 reinoud pool_put(&priv->ecclineblob_pool, eccline_blob); 382 1.1 reinoud if (eccline) 383 1.1 reinoud pool_put(&priv->eccline_pool, eccline); 384 1.1 reinoud 385 1.1 reinoud /* out of memory for now; canibalise freelist */ 386 1.1 reinoud eccline = udf_pop_eccline(priv, UDF_SHED_FREE); 387 1.1 reinoud if (eccline == NULL) { 388 1.1 reinoud /* serious trouble; wait and retry */ 389 1.1 reinoud cv_timedwait(&priv->discstrat_cv, 390 1.1 reinoud &priv->discstrat_mutex, hz/8); 391 1.1 reinoud goto retry; 392 1.1 reinoud } 393 1.1 reinoud /* push back line if we're waiting for it */ 394 1.1 reinoud if (eccline->flags & ECC_WANTED) { 395 1.1 reinoud udf_push_eccline(eccline, UDF_SHED_IDLE); 396 1.1 reinoud goto retry; 397 1.1 reinoud } 398 1.1 reinoud 399 1.1 reinoud /* unlink this entry */ 400 1.1 reinoud LIST_REMOVE(eccline, hashchain); 401 1.1 reinoud 402 1.1 reinoud KASSERT(eccline->flags & ECC_FLOATING); 403 1.1 reinoud 404 1.1 reinoud eccline_blob = eccline->blob; 405 1.1 reinoud memset(eccline, 0, sizeof(struct udf_eccline)); 406 1.1 reinoud eccline->flags = ECC_FLOATING; 407 1.1 reinoud } else { 408 1.1 reinoud memset(eccline, 0, sizeof(struct udf_eccline)); 409 1.1 reinoud eccline->flags = ECC_FLOATING; 410 1.1 reinoud priv->num_floating++; 411 1.1 reinoud } 412 1.1 reinoud 413 1.1 reinoud eccline->queued_on = 0; 414 1.1 reinoud eccline->blob = eccline_blob; 415 1.1 reinoud eccline->buf = getiobuf(NULL, true); 416 1.1 reinoud eccline->buf->b_private = eccline; /* IMPORTANT */ 417 1.1 reinoud 418 1.1 reinoud /* initialise eccline blob */ 419 1.1 reinoud memset(eccline->blob, 0, blobsize); 420 1.1 reinoud 421 1.1 reinoud eccline->ump = ump; 422 1.1 reinoud eccline->present = eccline->readin = eccline->dirty = 0; 423 1.1 reinoud eccline->error = 0; 424 1.1 reinoud eccline->refcnt = 0; 425 1.10 reinoud 426 1.10 reinoud eccline->start_sector = start_sector; 427 1.10 reinoud eccline->buf->b_lblkno = start_sector; 428 1.10 reinoud eccline->buf->b_blkno = start_sector; 429 1.10 reinoud eccline->buf->b_rawblkno = start_sector; 430 1.1 reinoud 431 1.1 reinoud LIST_INSERT_HEAD(&priv->eccline_hash[line], eccline, hashchain); 432 1.1 reinoud 433 1.1 reinoud /* 434 1.1 reinoud * TODO possible optimalisation for checking overlap with partitions 435 1.1 reinoud * to get a clue on future eccline usage 436 1.1 reinoud */ 437 1.1 reinoud eccline->refcnt++; 438 1.1 reinoud UDF_LOCK_ECCLINE(eccline); 439 1.1 reinoud 440 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 441 1.1 reinoud 442 1.1 reinoud return eccline; 443 1.1 reinoud } 444 1.1 reinoud 445 1.1 reinoud 446 1.1 reinoud static void 447 1.1 reinoud udf_puteccline(struct udf_eccline *eccline) 448 1.1 reinoud { 449 1.1 reinoud struct strat_private *priv = PRIV(eccline->ump); 450 1.1 reinoud struct udf_mount *ump = eccline->ump; 451 1.1 reinoud uint64_t allbits = ((uint64_t) 1 << ump->packet_size)-1; 452 1.1 reinoud 453 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 454 1.1 reinoud 455 1.1 reinoud /* clear directly all readin requests from present ones */ 456 1.1 reinoud if (eccline->readin & eccline->present) { 457 1.1 reinoud /* clear all read bits that are already read in */ 458 1.1 reinoud eccline->readin &= (~eccline->present) & allbits; 459 1.1 reinoud wakeup(eccline); 460 1.1 reinoud } 461 1.1 reinoud 462 1.3 reinoud DPRINTF(ECCLINE, ("put eccline start sector %d, refcnt %d\n", 463 1.1 reinoud eccline->start_sector, eccline->refcnt)); 464 1.1 reinoud 465 1.11 reinoud /* if we have active nodes we dont set it on seqwriting */ 466 1.1 reinoud if (eccline->refcnt > 1) 467 1.1 reinoud eccline->flags &= ~ECC_SEQWRITING; 468 1.1 reinoud 469 1.11 reinoud vfs_timestamp(&eccline->wait_time); 470 1.11 reinoud eccline->wait_time.tv_sec += ECC_WAITTIME; 471 1.11 reinoud udf_push_eccline(eccline, UDF_SHED_WAITING); 472 1.1 reinoud 473 1.1 reinoud KASSERT(eccline->refcnt >= 1); 474 1.1 reinoud eccline->refcnt--; 475 1.1 reinoud UDF_UNLOCK_ECCLINE(eccline); 476 1.1 reinoud 477 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 478 1.1 reinoud } 479 1.1 reinoud 480 1.1 reinoud /* --------------------------------------------------------------------- */ 481 1.1 reinoud 482 1.1 reinoud static int 483 1.5 reinoud udf_create_nodedscr_rmw(struct udf_strat_args *args) 484 1.1 reinoud { 485 1.1 reinoud union dscrptr **dscrptr = &args->dscr; 486 1.1 reinoud struct udf_mount *ump = args->ump; 487 1.1 reinoud struct long_ad *icb = args->icb; 488 1.1 reinoud struct udf_eccline *eccline; 489 1.1 reinoud uint64_t bit; 490 1.1 reinoud uint32_t sectornr, lb_size, dummy; 491 1.1 reinoud uint8_t *mem; 492 1.1 reinoud int error, eccsect; 493 1.1 reinoud 494 1.1 reinoud error = udf_translate_vtop(ump, icb, §ornr, &dummy); 495 1.1 reinoud if (error) 496 1.1 reinoud return error; 497 1.1 reinoud 498 1.1 reinoud lb_size = udf_rw32(ump->logical_vol->lb_size); 499 1.1 reinoud 500 1.1 reinoud /* get our eccline */ 501 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 502 1.1 reinoud eccsect = sectornr - eccline->start_sector; 503 1.1 reinoud 504 1.1 reinoud bit = (uint64_t) 1 << eccsect; 505 1.1 reinoud eccline->readin &= ~bit; /* just in case */ 506 1.1 reinoud eccline->present |= bit; 507 1.1 reinoud eccline->dirty &= ~bit; /* Err... euhm... clean? */ 508 1.1 reinoud 509 1.1 reinoud eccline->refcnt++; 510 1.1 reinoud 511 1.1 reinoud /* clear space */ 512 1.1 reinoud mem = ((uint8_t *) eccline->blob) + eccsect * lb_size; 513 1.1 reinoud memset(mem, 0, lb_size); 514 1.1 reinoud 515 1.1 reinoud udf_puteccline(eccline); 516 1.1 reinoud 517 1.1 reinoud *dscrptr = (union dscrptr *) mem; 518 1.1 reinoud return 0; 519 1.1 reinoud } 520 1.1 reinoud 521 1.1 reinoud 522 1.1 reinoud static void 523 1.5 reinoud udf_free_nodedscr_rmw(struct udf_strat_args *args) 524 1.1 reinoud { 525 1.1 reinoud struct udf_mount *ump = args->ump; 526 1.1 reinoud struct long_ad *icb = args->icb; 527 1.1 reinoud struct udf_eccline *eccline; 528 1.1 reinoud uint64_t bit; 529 1.1 reinoud uint32_t sectornr, dummy; 530 1.1 reinoud int error, eccsect; 531 1.1 reinoud 532 1.1 reinoud error = udf_translate_vtop(ump, icb, §ornr, &dummy); 533 1.1 reinoud if (error) 534 1.1 reinoud return; 535 1.1 reinoud 536 1.1 reinoud /* get our eccline */ 537 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 538 1.1 reinoud eccsect = sectornr - eccline->start_sector; 539 1.1 reinoud 540 1.1 reinoud bit = (uint64_t) 1 << eccsect; 541 1.1 reinoud eccline->readin &= ~bit; /* just in case */ 542 1.1 reinoud 543 1.1 reinoud KASSERT(eccline->refcnt >= 1); 544 1.1 reinoud eccline->refcnt--; 545 1.1 reinoud 546 1.1 reinoud udf_puteccline(eccline); 547 1.1 reinoud } 548 1.1 reinoud 549 1.1 reinoud 550 1.1 reinoud static int 551 1.5 reinoud udf_read_nodedscr_rmw(struct udf_strat_args *args) 552 1.1 reinoud { 553 1.1 reinoud union dscrptr **dscrptr = &args->dscr; 554 1.1 reinoud struct udf_mount *ump = args->ump; 555 1.1 reinoud struct long_ad *icb = args->icb; 556 1.1 reinoud struct udf_eccline *eccline; 557 1.1 reinoud uint64_t bit; 558 1.1 reinoud uint32_t sectornr, dummy; 559 1.1 reinoud uint8_t *pos; 560 1.1 reinoud int sector_size = ump->discinfo.sector_size; 561 1.1 reinoud int lb_size = udf_rw32(ump->logical_vol->lb_size); 562 1.1 reinoud int i, error, dscrlen, eccsect; 563 1.1 reinoud 564 1.1 reinoud lb_size = lb_size; 565 1.1 reinoud KASSERT(sector_size == lb_size); 566 1.1 reinoud error = udf_translate_vtop(ump, icb, §ornr, &dummy); 567 1.1 reinoud if (error) 568 1.1 reinoud return error; 569 1.1 reinoud 570 1.1 reinoud /* get our eccline */ 571 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 572 1.1 reinoud eccsect = sectornr - eccline->start_sector; 573 1.1 reinoud 574 1.1 reinoud bit = (uint64_t) 1 << eccsect; 575 1.1 reinoud if ((eccline->present & bit) == 0) { 576 1.1 reinoud /* mark bit for readin */ 577 1.1 reinoud eccline->readin |= bit; 578 1.1 reinoud eccline->refcnt++; /* prevent recycling */ 579 1.1 reinoud KASSERT(eccline->bufs[eccsect] == NULL); 580 1.1 reinoud udf_puteccline(eccline); 581 1.1 reinoud 582 1.1 reinoud /* wait for completion; XXX remodel to lock bit code */ 583 1.1 reinoud error = 0; 584 1.1 reinoud while ((eccline->present & bit) == 0) { 585 1.1 reinoud tsleep(eccline, PRIBIO+1, "udflvdrd", hz/8); 586 1.1 reinoud if (eccline->error & bit) { 587 1.1 reinoud KASSERT(eccline->refcnt >= 1); 588 1.1 reinoud eccline->refcnt--; /* undo temp refcnt */ 589 1.1 reinoud *dscrptr = NULL; 590 1.1 reinoud return EIO; /* XXX error code */ 591 1.1 reinoud } 592 1.1 reinoud } 593 1.1 reinoud 594 1.1 reinoud /* reget our line */ 595 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 596 1.1 reinoud KASSERT(eccline->refcnt >= 1); 597 1.1 reinoud eccline->refcnt--; /* undo refcnt */ 598 1.1 reinoud } 599 1.1 reinoud 600 1.1 reinoud *dscrptr = (union dscrptr *) 601 1.1 reinoud (((uint8_t *) eccline->blob) + eccsect * sector_size); 602 1.1 reinoud 603 1.1 reinoud /* code from read_phys_descr */ 604 1.1 reinoud /* check if its a valid tag */ 605 1.1 reinoud error = udf_check_tag(*dscrptr); 606 1.1 reinoud if (error) { 607 1.1 reinoud /* check if its an empty block */ 608 1.1 reinoud pos = (uint8_t *) *dscrptr; 609 1.1 reinoud for (i = 0; i < sector_size; i++, pos++) { 610 1.1 reinoud if (*pos) break; 611 1.1 reinoud } 612 1.1 reinoud if (i == sector_size) { 613 1.1 reinoud /* return no error but with no dscrptr */ 614 1.1 reinoud error = 0; 615 1.1 reinoud } 616 1.1 reinoud *dscrptr = NULL; 617 1.1 reinoud udf_puteccline(eccline); 618 1.1 reinoud return error; 619 1.1 reinoud } 620 1.1 reinoud 621 1.1 reinoud /* calculate descriptor size */ 622 1.1 reinoud dscrlen = udf_tagsize(*dscrptr, sector_size); 623 1.1 reinoud error = udf_check_tag_payload(*dscrptr, dscrlen); 624 1.1 reinoud if (error) { 625 1.1 reinoud *dscrptr = NULL; 626 1.1 reinoud udf_puteccline(eccline); 627 1.1 reinoud return error; 628 1.1 reinoud } 629 1.1 reinoud 630 1.1 reinoud eccline->refcnt++; 631 1.1 reinoud udf_puteccline(eccline); 632 1.1 reinoud 633 1.1 reinoud return 0; 634 1.1 reinoud } 635 1.1 reinoud 636 1.1 reinoud 637 1.1 reinoud static int 638 1.5 reinoud udf_write_nodedscr_rmw(struct udf_strat_args *args) 639 1.1 reinoud { 640 1.1 reinoud union dscrptr *dscrptr = args->dscr; 641 1.1 reinoud struct udf_mount *ump = args->ump; 642 1.1 reinoud struct long_ad *icb = args->icb; 643 1.1 reinoud struct udf_node *udf_node = args->udf_node; 644 1.1 reinoud struct udf_eccline *eccline; 645 1.1 reinoud uint64_t bit; 646 1.1 reinoud uint32_t sectornr, logsectornr, dummy; 647 1.1 reinoud // int waitfor = args->waitfor; 648 1.1 reinoud int sector_size = ump->discinfo.sector_size; 649 1.1 reinoud int lb_size = udf_rw32(ump->logical_vol->lb_size); 650 1.1 reinoud int error, eccsect; 651 1.1 reinoud 652 1.1 reinoud lb_size = lb_size; 653 1.1 reinoud KASSERT(sector_size == lb_size); 654 1.1 reinoud sectornr = 0; 655 1.1 reinoud error = udf_translate_vtop(ump, icb, §ornr, &dummy); 656 1.1 reinoud if (error) 657 1.1 reinoud return error; 658 1.1 reinoud 659 1.5 reinoud /* add reference to the vnode to prevent recycling */ 660 1.5 reinoud vhold(udf_node->vnode); 661 1.5 reinoud 662 1.1 reinoud /* get our eccline */ 663 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 664 1.1 reinoud eccsect = sectornr - eccline->start_sector; 665 1.1 reinoud 666 1.1 reinoud bit = (uint64_t) 1 << eccsect; 667 1.1 reinoud 668 1.1 reinoud /* old callback still pending? */ 669 1.1 reinoud if (eccline->bufs[eccsect]) { 670 1.5 reinoud DPRINTF(WRITE, ("udf_write_nodedscr_rmw: writing descriptor" 671 1.1 reinoud " over buffer?\n")); 672 1.1 reinoud nestiobuf_done(eccline->bufs[eccsect], 673 1.1 reinoud eccline->bufs_len[eccsect], 674 1.1 reinoud 0); 675 1.1 reinoud eccline->bufs[eccsect] = NULL; 676 1.1 reinoud } 677 1.1 reinoud 678 1.1 reinoud /* set sector number in the descriptor and validate */ 679 1.1 reinoud dscrptr = (union dscrptr *) 680 1.1 reinoud (((uint8_t *) eccline->blob) + eccsect * sector_size); 681 1.1 reinoud KASSERT(dscrptr == args->dscr); 682 1.1 reinoud 683 1.1 reinoud logsectornr = udf_rw32(icb->loc.lb_num); 684 1.1 reinoud dscrptr->tag.tag_loc = udf_rw32(logsectornr); 685 1.1 reinoud udf_validate_tag_and_crc_sums(dscrptr); 686 1.1 reinoud 687 1.1 reinoud udf_fixup_node_internals(ump, (uint8_t *) dscrptr, UDF_C_NODE); 688 1.1 reinoud 689 1.1 reinoud /* set our flags */ 690 1.1 reinoud KASSERT(eccline->present & bit); 691 1.1 reinoud eccline->dirty |= bit; 692 1.1 reinoud 693 1.1 reinoud KASSERT(udf_tagsize(dscrptr, sector_size) <= sector_size); 694 1.1 reinoud 695 1.1 reinoud udf_puteccline(eccline); 696 1.1 reinoud 697 1.5 reinoud holdrele(udf_node->vnode); 698 1.5 reinoud udf_node->outstanding_nodedscr--; 699 1.5 reinoud if (udf_node->outstanding_nodedscr == 0) { 700 1.5 reinoud UDF_UNLOCK_NODE(udf_node, udf_node->i_flags & IN_CALLBACK_ULK); 701 1.5 reinoud wakeup(&udf_node->outstanding_nodedscr); 702 1.5 reinoud } 703 1.5 reinoud 704 1.1 reinoud /* XXX waitfor not used */ 705 1.1 reinoud return 0; 706 1.1 reinoud } 707 1.1 reinoud 708 1.1 reinoud 709 1.1 reinoud static void 710 1.1 reinoud udf_queuebuf_rmw(struct udf_strat_args *args) 711 1.1 reinoud { 712 1.1 reinoud struct udf_mount *ump = args->ump; 713 1.1 reinoud struct buf *buf = args->nestbuf; 714 1.6 reinoud struct desc_tag *tag; 715 1.1 reinoud struct strat_private *priv = PRIV(ump); 716 1.1 reinoud struct udf_eccline *eccline; 717 1.1 reinoud struct long_ad *node_ad_cpy; 718 1.1 reinoud uint64_t bit, *lmapping, *pmapping, *lmappos, *pmappos, blknr; 719 1.6 reinoud uint32_t buf_len, len, sectors, sectornr, our_sectornr; 720 1.1 reinoud uint32_t bpos; 721 1.6 reinoud uint16_t vpart_num; 722 1.1 reinoud uint8_t *fidblk, *src, *dst; 723 1.1 reinoud int sector_size = ump->discinfo.sector_size; 724 1.1 reinoud int blks = sector_size / DEV_BSIZE; 725 1.1 reinoud int eccsect, what, queue, error; 726 1.1 reinoud 727 1.1 reinoud KASSERT(ump); 728 1.1 reinoud KASSERT(buf); 729 1.1 reinoud KASSERT(buf->b_iodone == nestiobuf_iodone); 730 1.1 reinoud 731 1.1 reinoud blknr = buf->b_blkno; 732 1.1 reinoud our_sectornr = blknr / blks; 733 1.1 reinoud 734 1.1 reinoud what = buf->b_udf_c_type; 735 1.1 reinoud queue = UDF_SHED_READING; 736 1.1 reinoud if ((buf->b_flags & B_READ) == 0) { 737 1.1 reinoud /* writing */ 738 1.1 reinoud queue = UDF_SHED_SEQWRITING; 739 1.1 reinoud if (what == UDF_C_DSCR) 740 1.1 reinoud queue = UDF_SHED_WRITING; 741 1.1 reinoud if (what == UDF_C_NODE) 742 1.1 reinoud queue = UDF_SHED_WRITING; 743 1.1 reinoud } 744 1.1 reinoud 745 1.1 reinoud if (queue == UDF_SHED_READING) { 746 1.3 reinoud DPRINTF(SHEDULE, ("\nudf_queuebuf_rmw READ %p : sector %d type %d," 747 1.1 reinoud "b_resid %d, b_bcount %d, b_bufsize %d\n", 748 1.1 reinoud buf, (uint32_t) buf->b_blkno / blks, buf->b_udf_c_type, 749 1.1 reinoud buf->b_resid, buf->b_bcount, buf->b_bufsize)); 750 1.1 reinoud 751 1.1 reinoud /* mark bits for reading */ 752 1.1 reinoud buf_len = buf->b_bcount; 753 1.1 reinoud sectornr = our_sectornr; 754 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 755 1.1 reinoud eccsect = sectornr - eccline->start_sector; 756 1.1 reinoud bpos = 0; 757 1.1 reinoud while (buf_len) { 758 1.1 reinoud len = MIN(buf_len, sector_size); 759 1.1 reinoud if (eccsect == ump->packet_size) { 760 1.1 reinoud udf_puteccline(eccline); 761 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 762 1.1 reinoud eccsect = sectornr - eccline->start_sector; 763 1.1 reinoud } 764 1.1 reinoud bit = (uint64_t) 1 << eccsect; 765 1.1 reinoud error = eccline->error & bit ? EIO : 0; 766 1.1 reinoud if (eccline->present & bit) { 767 1.1 reinoud src = (uint8_t *) eccline->blob + 768 1.1 reinoud eccsect * sector_size; 769 1.1 reinoud dst = (uint8_t *) buf->b_data + bpos; 770 1.1 reinoud if (!error) 771 1.1 reinoud memcpy(dst, src, len); 772 1.1 reinoud nestiobuf_done(buf, len, error); 773 1.1 reinoud } else { 774 1.1 reinoud eccline->readin |= bit; 775 1.1 reinoud KASSERT(eccline->bufs[eccsect] == NULL); 776 1.1 reinoud eccline->bufs[eccsect] = buf; 777 1.1 reinoud eccline->bufs_bpos[eccsect] = bpos; 778 1.1 reinoud eccline->bufs_len[eccsect] = len; 779 1.1 reinoud } 780 1.1 reinoud bpos += sector_size; 781 1.1 reinoud eccsect++; 782 1.1 reinoud sectornr++; 783 1.1 reinoud buf_len -= len; 784 1.1 reinoud } 785 1.1 reinoud udf_puteccline(eccline); 786 1.1 reinoud return; 787 1.1 reinoud } 788 1.1 reinoud 789 1.1 reinoud if (queue == UDF_SHED_WRITING) { 790 1.3 reinoud DPRINTF(SHEDULE, ("\nudf_queuebuf_rmw WRITE %p : sector %d " 791 1.1 reinoud "type %d, b_resid %d, b_bcount %d, b_bufsize %d\n", 792 1.1 reinoud buf, (uint32_t) buf->b_blkno / blks, buf->b_udf_c_type, 793 1.1 reinoud buf->b_resid, buf->b_bcount, buf->b_bufsize)); 794 1.1 reinoud /* if we have FIDs fixup using buffer's sector number(s) */ 795 1.1 reinoud if (buf->b_udf_c_type == UDF_C_FIDS) { 796 1.1 reinoud panic("UDF_C_FIDS in SHED_WRITING!\n"); 797 1.1 reinoud #if 0 798 1.1 reinoud buf_len = buf->b_bcount; 799 1.1 reinoud sectornr = our_sectornr; 800 1.1 reinoud bpos = 0; 801 1.1 reinoud while (buf_len) { 802 1.1 reinoud len = MIN(buf_len, sector_size); 803 1.1 reinoud fidblk = (uint8_t *) buf->b_data + bpos; 804 1.1 reinoud udf_fixup_fid_block(fidblk, sector_size, 805 1.1 reinoud 0, len, sectornr); 806 1.1 reinoud sectornr++; 807 1.1 reinoud bpos += len; 808 1.1 reinoud buf_len -= len; 809 1.1 reinoud } 810 1.1 reinoud #endif 811 1.1 reinoud } 812 1.1 reinoud udf_fixup_node_internals(ump, buf->b_data, buf->b_udf_c_type); 813 1.1 reinoud 814 1.1 reinoud /* copy parts into the bufs and set for writing */ 815 1.1 reinoud buf_len = buf->b_bcount; 816 1.1 reinoud sectornr = our_sectornr; 817 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 818 1.1 reinoud eccsect = sectornr - eccline->start_sector; 819 1.1 reinoud bpos = 0; 820 1.1 reinoud while (buf_len) { 821 1.1 reinoud len = MIN(buf_len, sector_size); 822 1.1 reinoud if (eccsect == ump->packet_size) { 823 1.1 reinoud udf_puteccline(eccline); 824 1.1 reinoud eccline = udf_geteccline(ump, sectornr, 0); 825 1.1 reinoud eccsect = sectornr - eccline->start_sector; 826 1.1 reinoud } 827 1.1 reinoud bit = (uint64_t) 1 << eccsect; 828 1.1 reinoud KASSERT((eccline->readin & bit) == 0); 829 1.1 reinoud eccline->present |= bit; 830 1.1 reinoud eccline->dirty |= bit; 831 1.1 reinoud if (eccline->bufs[eccsect]) { 832 1.1 reinoud /* old callback still pending */ 833 1.1 reinoud nestiobuf_done(eccline->bufs[eccsect], 834 1.1 reinoud eccline->bufs_len[eccsect], 835 1.1 reinoud 0); 836 1.1 reinoud eccline->bufs[eccsect] = NULL; 837 1.1 reinoud } 838 1.1 reinoud 839 1.2 reinoud src = (uint8_t *) buf->b_data + bpos; 840 1.2 reinoud dst = (uint8_t *) eccline->blob + eccsect * sector_size; 841 1.2 reinoud if (len != sector_size) 842 1.2 reinoud memset(dst, 0, sector_size); 843 1.2 reinoud memcpy(dst, src, len); 844 1.2 reinoud 845 1.1 reinoud /* note that its finished for this extent */ 846 1.1 reinoud eccline->bufs[eccsect] = NULL; 847 1.1 reinoud nestiobuf_done(buf, len, 0); 848 1.1 reinoud 849 1.1 reinoud bpos += sector_size; 850 1.1 reinoud eccsect++; 851 1.1 reinoud sectornr++; 852 1.1 reinoud buf_len -= len; 853 1.1 reinoud } 854 1.1 reinoud udf_puteccline(eccline); 855 1.1 reinoud return; 856 1.1 reinoud 857 1.1 reinoud } 858 1.1 reinoud 859 1.1 reinoud /* sequential writing */ 860 1.1 reinoud KASSERT(queue == UDF_SHED_SEQWRITING); 861 1.3 reinoud DPRINTF(SHEDULE, ("\nudf_queuebuf_rmw SEQWRITE %p : sector XXXX " 862 1.1 reinoud "type %d, b_resid %d, b_bcount %d, b_bufsize %d\n", 863 1.1 reinoud buf, buf->b_udf_c_type, buf->b_resid, buf->b_bcount, 864 1.1 reinoud buf->b_bufsize)); 865 1.1 reinoud /* 866 1.1 reinoud * Buffers should not have been allocated to disc addresses yet on 867 1.1 reinoud * this queue. Note that a buffer can get multiple extents allocated. 868 1.1 reinoud * Note that it *looks* like the normal writing but its different in 869 1.1 reinoud * the details. 870 1.1 reinoud * 871 1.6 reinoud * lmapping contains lb_num relative to base partition. 872 1.6 reinoud * 873 1.6 reinoud * XXX should we try to claim/organize the allocated memory to 874 1.6 reinoud * block-aligned pieces? 875 1.1 reinoud */ 876 1.1 reinoud mutex_enter(&priv->seqwrite_mutex); 877 1.1 reinoud 878 1.1 reinoud lmapping = ump->la_lmapping; 879 1.1 reinoud node_ad_cpy = ump->la_node_ad_cpy; 880 1.1 reinoud 881 1.6 reinoud /* logically allocate buf and map it in the file */ 882 1.6 reinoud udf_late_allocate_buf(ump, buf, lmapping, node_ad_cpy, &vpart_num); 883 1.1 reinoud 884 1.1 reinoud /* if we have FIDs, fixup using the new allocation table */ 885 1.1 reinoud if (buf->b_udf_c_type == UDF_C_FIDS) { 886 1.1 reinoud buf_len = buf->b_bcount; 887 1.1 reinoud bpos = 0; 888 1.1 reinoud lmappos = lmapping; 889 1.1 reinoud while (buf_len) { 890 1.1 reinoud sectornr = *lmappos++; 891 1.1 reinoud len = MIN(buf_len, sector_size); 892 1.1 reinoud fidblk = (uint8_t *) buf->b_data + bpos; 893 1.1 reinoud udf_fixup_fid_block(fidblk, sector_size, 894 1.1 reinoud 0, len, sectornr); 895 1.1 reinoud bpos += len; 896 1.1 reinoud buf_len -= len; 897 1.1 reinoud } 898 1.1 reinoud } 899 1.6 reinoud if (buf->b_udf_c_type == UDF_C_METADATA_SBM) { 900 1.6 reinoud if (buf->b_lblkno == 0) { 901 1.6 reinoud /* update the tag location inside */ 902 1.6 reinoud tag = (struct desc_tag *) buf->b_data; 903 1.7 reinoud tag->tag_loc = udf_rw32(*lmapping); 904 1.6 reinoud udf_validate_tag_and_crc_sums(buf->b_data); 905 1.6 reinoud } 906 1.6 reinoud } 907 1.1 reinoud udf_fixup_node_internals(ump, buf->b_data, buf->b_udf_c_type); 908 1.1 reinoud 909 1.6 reinoud /* 910 1.6 reinoud * Translate new mappings in lmapping to pmappings. 911 1.6 reinoud * pmapping to contain lb_nums as used for disc adressing. 912 1.6 reinoud */ 913 1.6 reinoud pmapping = ump->la_pmapping; 914 1.6 reinoud sectors = (buf->b_bcount + sector_size -1) / sector_size; 915 1.6 reinoud udf_translate_vtop_list(ump, sectors, vpart_num, lmapping, pmapping); 916 1.6 reinoud 917 1.1 reinoud /* copy parts into the bufs and set for writing */ 918 1.1 reinoud pmappos = pmapping; 919 1.1 reinoud buf_len = buf->b_bcount; 920 1.1 reinoud sectornr = *pmappos++; 921 1.1 reinoud eccline = udf_geteccline(ump, sectornr, ECC_SEQWRITING); 922 1.1 reinoud eccsect = sectornr - eccline->start_sector; 923 1.1 reinoud bpos = 0; 924 1.1 reinoud while (buf_len) { 925 1.1 reinoud len = MIN(buf_len, sector_size); 926 1.1 reinoud eccsect = sectornr - eccline->start_sector; 927 1.1 reinoud if ((eccsect < 0) || (eccsect >= ump->packet_size)) { 928 1.1 reinoud eccline->flags |= ECC_SEQWRITING; 929 1.1 reinoud udf_puteccline(eccline); 930 1.1 reinoud eccline = udf_geteccline(ump, sectornr, ECC_SEQWRITING); 931 1.1 reinoud eccsect = sectornr - eccline->start_sector; 932 1.1 reinoud } 933 1.1 reinoud bit = (uint64_t) 1 << eccsect; 934 1.1 reinoud KASSERT((eccline->readin & bit) == 0); 935 1.1 reinoud eccline->present |= bit; 936 1.1 reinoud eccline->dirty |= bit; 937 1.1 reinoud eccline->bufs[eccsect] = NULL; 938 1.1 reinoud 939 1.1 reinoud src = (uint8_t *) buf->b_data + bpos; 940 1.1 reinoud dst = (uint8_t *) 941 1.1 reinoud eccline->blob + eccsect * sector_size; 942 1.1 reinoud if (len != sector_size) 943 1.1 reinoud memset(dst, 0, sector_size); 944 1.1 reinoud memcpy(dst, src, len); 945 1.1 reinoud 946 1.1 reinoud /* note that its finished for this extent */ 947 1.1 reinoud nestiobuf_done(buf, len, 0); 948 1.1 reinoud 949 1.1 reinoud bpos += sector_size; 950 1.1 reinoud sectornr = *pmappos++; 951 1.1 reinoud buf_len -= len; 952 1.1 reinoud } 953 1.1 reinoud eccline->flags |= ECC_SEQWRITING; 954 1.1 reinoud udf_puteccline(eccline); 955 1.1 reinoud mutex_exit(&priv->seqwrite_mutex); 956 1.1 reinoud } 957 1.1 reinoud 958 1.1 reinoud /* --------------------------------------------------------------------- */ 959 1.1 reinoud 960 1.1 reinoud static void 961 1.1 reinoud udf_shedule_read_callback(struct buf *buf) 962 1.1 reinoud { 963 1.1 reinoud struct udf_eccline *eccline = BTOE(buf); 964 1.1 reinoud struct udf_mount *ump = eccline->ump; 965 1.1 reinoud uint64_t bit; 966 1.1 reinoud uint8_t *src, *dst; 967 1.1 reinoud int sector_size = ump->discinfo.sector_size; 968 1.1 reinoud int error, i, len; 969 1.1 reinoud 970 1.3 reinoud DPRINTF(ECCLINE, ("read callback called\n")); 971 1.1 reinoud /* post process read action */ 972 1.1 reinoud error = buf->b_error; 973 1.1 reinoud for (i = 0; i < ump->packet_size; i++) { 974 1.1 reinoud bit = (uint64_t) 1 << i; 975 1.1 reinoud src = (uint8_t *) buf->b_data + i * sector_size; 976 1.1 reinoud dst = (uint8_t *) eccline->blob + i * sector_size; 977 1.1 reinoud if (eccline->present & bit) 978 1.1 reinoud continue; 979 1.8 reinoud eccline->present |= bit; 980 1.8 reinoud if (error) 981 1.1 reinoud eccline->error |= bit; 982 1.1 reinoud if (eccline->bufs[i]) { 983 1.1 reinoud dst = (uint8_t *) eccline->bufs[i]->b_data + 984 1.1 reinoud eccline->bufs_bpos[i]; 985 1.1 reinoud len = eccline->bufs_len[i]; 986 1.1 reinoud if (!error) 987 1.1 reinoud memcpy(dst, src, len); 988 1.1 reinoud nestiobuf_done(eccline->bufs[i], len, error); 989 1.1 reinoud eccline->bufs[i] = NULL; 990 1.1 reinoud } 991 1.1 reinoud 992 1.1 reinoud } 993 1.1 reinoud KASSERT(buf->b_data == eccline->blob); 994 1.1 reinoud KASSERT(eccline->present == ((uint64_t) 1 << ump->packet_size)-1); 995 1.1 reinoud 996 1.1 reinoud /* 997 1.1 reinoud * XXX TODO what to do on read errors? read in all sectors 998 1.1 reinoud * synchronously and allocate a sparable entry? 999 1.1 reinoud */ 1000 1.1 reinoud 1001 1.1 reinoud wakeup(eccline); 1002 1.1 reinoud udf_puteccline(eccline); 1003 1.3 reinoud DPRINTF(ECCLINE, ("read callback finished\n")); 1004 1.1 reinoud } 1005 1.1 reinoud 1006 1.1 reinoud 1007 1.1 reinoud static void 1008 1.1 reinoud udf_shedule_write_callback(struct buf *buf) 1009 1.1 reinoud { 1010 1.1 reinoud struct udf_eccline *eccline = BTOE(buf); 1011 1.1 reinoud struct udf_mount *ump = eccline->ump; 1012 1.1 reinoud uint64_t bit; 1013 1.1 reinoud int error, i, len; 1014 1.1 reinoud 1015 1.3 reinoud DPRINTF(ECCLINE, ("write callback called\n")); 1016 1.1 reinoud /* post process write action */ 1017 1.1 reinoud error = buf->b_error; 1018 1.1 reinoud for (i = 0; i < ump->packet_size; i++) { 1019 1.1 reinoud bit = (uint64_t) 1 << i; 1020 1.1 reinoud if ((eccline->dirty & bit) == 0) 1021 1.1 reinoud continue; 1022 1.1 reinoud if (error) { 1023 1.1 reinoud eccline->error |= bit; 1024 1.1 reinoud } else { 1025 1.1 reinoud eccline->dirty &= ~bit; 1026 1.1 reinoud } 1027 1.1 reinoud if (eccline->bufs[i]) { 1028 1.1 reinoud len = eccline->bufs_len[i]; 1029 1.1 reinoud nestiobuf_done(eccline->bufs[i], len, error); 1030 1.1 reinoud eccline->bufs[i] = NULL; 1031 1.1 reinoud } 1032 1.1 reinoud } 1033 1.1 reinoud KASSERT(eccline->dirty == 0); 1034 1.1 reinoud 1035 1.1 reinoud KASSERT(error == 0); 1036 1.1 reinoud /* 1037 1.1 reinoud * XXX TODO on write errors allocate a sparable entry 1038 1.1 reinoud */ 1039 1.1 reinoud 1040 1.1 reinoud wakeup(eccline); 1041 1.1 reinoud udf_puteccline(eccline); 1042 1.1 reinoud } 1043 1.1 reinoud 1044 1.1 reinoud 1045 1.1 reinoud static void 1046 1.1 reinoud udf_issue_eccline(struct udf_eccline *eccline, int queued_on) 1047 1.1 reinoud { 1048 1.1 reinoud struct udf_mount *ump = eccline->ump; 1049 1.1 reinoud struct strat_private *priv = PRIV(ump); 1050 1.1 reinoud struct buf *buf, *nestbuf; 1051 1.1 reinoud uint64_t bit, allbits = ((uint64_t) 1 << ump->packet_size)-1; 1052 1.1 reinoud uint32_t start; 1053 1.1 reinoud int sector_size = ump->discinfo.sector_size; 1054 1.1 reinoud int blks = sector_size / DEV_BSIZE; 1055 1.1 reinoud int i; 1056 1.1 reinoud 1057 1.1 reinoud if (queued_on == UDF_SHED_READING) { 1058 1.3 reinoud DPRINTF(SHEDULE, ("udf_issue_eccline reading : ")); 1059 1.1 reinoud /* read all bits that are not yet present */ 1060 1.1 reinoud eccline->readin = (~eccline->present) & allbits; 1061 1.1 reinoud KASSERT(eccline->readin); 1062 1.1 reinoud start = eccline->start_sector; 1063 1.1 reinoud buf = eccline->buf; 1064 1.1 reinoud buf_init(buf); 1065 1.1 reinoud buf->b_flags = B_READ | B_ASYNC; 1066 1.4 reinoud SET(buf->b_cflags, BC_BUSY); /* mark buffer busy */ 1067 1.1 reinoud buf->b_oflags = 0; 1068 1.1 reinoud buf->b_iodone = udf_shedule_read_callback; 1069 1.1 reinoud buf->b_data = eccline->blob; 1070 1.1 reinoud buf->b_bcount = ump->packet_size * sector_size; 1071 1.1 reinoud buf->b_resid = buf->b_bcount; 1072 1.1 reinoud buf->b_bufsize = buf->b_bcount; 1073 1.1 reinoud buf->b_private = eccline; 1074 1.1 reinoud BIO_SETPRIO(buf, BPRIO_DEFAULT); 1075 1.1 reinoud buf->b_lblkno = buf->b_blkno = buf->b_rawblkno = start * blks; 1076 1.1 reinoud buf->b_proc = NULL; 1077 1.1 reinoud 1078 1.1 reinoud if (eccline->present != 0) { 1079 1.1 reinoud for (i = 0; i < ump->packet_size; i++) { 1080 1.1 reinoud bit = (uint64_t) 1 << i; 1081 1.1 reinoud if (eccline->present & bit) { 1082 1.1 reinoud nestiobuf_done(buf, sector_size, 0); 1083 1.1 reinoud continue; 1084 1.1 reinoud } 1085 1.1 reinoud nestbuf = getiobuf(NULL, true); 1086 1.1 reinoud nestiobuf_setup(buf, nestbuf, i * sector_size, 1087 1.1 reinoud sector_size); 1088 1.1 reinoud /* adjust blocknumber to read */ 1089 1.1 reinoud nestbuf->b_blkno = buf->b_blkno + i*blks; 1090 1.1 reinoud nestbuf->b_rawblkno = buf->b_rawblkno + i*blks; 1091 1.1 reinoud 1092 1.3 reinoud DPRINTF(SHEDULE, ("sector %d ", 1093 1.3 reinoud start + i)); 1094 1.1 reinoud /* call asynchronous */ 1095 1.1 reinoud VOP_STRATEGY(ump->devvp, nestbuf); 1096 1.1 reinoud } 1097 1.3 reinoud DPRINTF(SHEDULE, ("\n")); 1098 1.1 reinoud return; 1099 1.1 reinoud } 1100 1.1 reinoud } else { 1101 1.1 reinoud /* write or seqwrite */ 1102 1.3 reinoud DPRINTF(SHEDULE, ("udf_issue_eccline writing or seqwriting : ")); 1103 1.1 reinoud if (eccline->present != allbits) { 1104 1.1 reinoud /* requeue to read-only */ 1105 1.3 reinoud DPRINTF(SHEDULE, ("\n\t-> not complete, requeue to " 1106 1.3 reinoud "reading\n")); 1107 1.1 reinoud udf_push_eccline(eccline, UDF_SHED_READING); 1108 1.1 reinoud return; 1109 1.1 reinoud } 1110 1.1 reinoud start = eccline->start_sector; 1111 1.1 reinoud buf = eccline->buf; 1112 1.1 reinoud buf_init(buf); 1113 1.1 reinoud buf->b_flags = B_WRITE | B_ASYNC; 1114 1.4 reinoud SET(buf->b_cflags, BC_BUSY); /* mark buffer busy */ 1115 1.1 reinoud buf->b_oflags = 0; 1116 1.1 reinoud buf->b_iodone = udf_shedule_write_callback; 1117 1.1 reinoud buf->b_data = eccline->blob; 1118 1.1 reinoud buf->b_bcount = ump->packet_size * sector_size; 1119 1.1 reinoud buf->b_resid = buf->b_bcount; 1120 1.1 reinoud buf->b_bufsize = buf->b_bcount; 1121 1.1 reinoud buf->b_private = eccline; 1122 1.1 reinoud BIO_SETPRIO(buf, BPRIO_DEFAULT); 1123 1.1 reinoud buf->b_lblkno = buf->b_blkno = buf->b_rawblkno = start * blks; 1124 1.1 reinoud buf->b_proc = NULL; 1125 1.1 reinoud } 1126 1.1 reinoud 1127 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 1128 1.1 reinoud /* call asynchronous */ 1129 1.3 reinoud DPRINTF(SHEDULE, ("sector %d for %d\n", 1130 1.3 reinoud start, ump->packet_size)); 1131 1.1 reinoud VOP_STRATEGY(ump->devvp, buf); 1132 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 1133 1.1 reinoud } 1134 1.1 reinoud 1135 1.1 reinoud 1136 1.1 reinoud static void 1137 1.1 reinoud udf_discstrat_thread(void *arg) 1138 1.1 reinoud { 1139 1.1 reinoud struct udf_mount *ump = (struct udf_mount *) arg; 1140 1.1 reinoud struct strat_private *priv = PRIV(ump); 1141 1.1 reinoud struct udf_eccline *eccline; 1142 1.1 reinoud struct timespec now, *last; 1143 1.11 reinoud uint64_t allbits = ((uint64_t) 1 << ump->packet_size)-1; 1144 1.11 reinoud int new_queue, wait, work, num, cnt; 1145 1.1 reinoud 1146 1.1 reinoud work = 1; 1147 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 1148 1.1 reinoud priv->num_floating = 0; 1149 1.1 reinoud while (priv->run_thread || work || priv->num_floating) { 1150 1.11 reinoud /* get our time */ 1151 1.11 reinoud vfs_timestamp(&now); 1152 1.11 reinoud 1153 1.11 reinoud /* maintenance: handle eccline state machine */ 1154 1.11 reinoud num = priv->num_queued[UDF_SHED_WAITING]; 1155 1.11 reinoud cnt = 0; 1156 1.11 reinoud while (cnt < num) { 1157 1.11 reinoud eccline = udf_pop_eccline(priv, UDF_SHED_WAITING); 1158 1.11 reinoud /* requeue */ 1159 1.11 reinoud new_queue = UDF_SHED_FREE; 1160 1.11 reinoud if (eccline->refcnt > 0) 1161 1.11 reinoud new_queue = UDF_SHED_IDLE; 1162 1.11 reinoud if (eccline->flags & ECC_WANTED) 1163 1.11 reinoud new_queue = UDF_SHED_IDLE; 1164 1.11 reinoud if (eccline->readin) 1165 1.11 reinoud new_queue = UDF_SHED_READING; 1166 1.11 reinoud if (eccline->dirty) { 1167 1.11 reinoud new_queue = UDF_SHED_WAITING; 1168 1.11 reinoud if (eccline->wait_time.tv_sec - now.tv_sec <= 0) { 1169 1.11 reinoud new_queue = UDF_SHED_WRITING; 1170 1.11 reinoud if (eccline->flags & ECC_SEQWRITING) 1171 1.11 reinoud new_queue = UDF_SHED_SEQWRITING; 1172 1.11 reinoud if (eccline->present != allbits) 1173 1.11 reinoud new_queue = UDF_SHED_READING; 1174 1.11 reinoud } 1175 1.11 reinoud } 1176 1.11 reinoud udf_push_eccline(eccline, new_queue); 1177 1.11 reinoud cnt++; 1178 1.11 reinoud } 1179 1.11 reinoud 1180 1.1 reinoud /* maintenance: free exess ecclines */ 1181 1.1 reinoud while (priv->num_queued[UDF_SHED_FREE] > UDF_ECCLINE_MAXFREE) { 1182 1.1 reinoud eccline = udf_pop_eccline(priv, UDF_SHED_FREE); 1183 1.1 reinoud KASSERT(eccline); 1184 1.1 reinoud KASSERT(eccline->refcnt == 0); 1185 1.11 reinoud if (eccline->flags & ECC_WANTED) { 1186 1.11 reinoud udf_push_eccline(eccline, UDF_SHED_IDLE); 1187 1.11 reinoud DPRINTF(ECCLINE, ("Tried removing, pushed back to free list\n")); 1188 1.11 reinoud } else { 1189 1.11 reinoud DPRINTF(ECCLINE, ("Removing entry from free list\n")); 1190 1.11 reinoud udf_dispose_eccline(eccline); 1191 1.11 reinoud } 1192 1.1 reinoud } 1193 1.1 reinoud 1194 1.11 reinoud /* process the current selected queue */ 1195 1.1 reinoud /* get our time */ 1196 1.1 reinoud vfs_timestamp(&now); 1197 1.1 reinoud last = &priv->last_queued[priv->cur_queue]; 1198 1.1 reinoud 1199 1.1 reinoud /* don't shedule too quickly when there is only one */ 1200 1.1 reinoud if (priv->cur_queue == UDF_SHED_WRITING) { 1201 1.1 reinoud if (priv->num_queued[priv->cur_queue] <= 2) { 1202 1.10 reinoud if (now.tv_sec - last->tv_sec < 4) { 1203 1.1 reinoud /* wait some time */ 1204 1.1 reinoud cv_timedwait(&priv->discstrat_cv, 1205 1.1 reinoud &priv->discstrat_mutex, hz); 1206 1.10 reinoud continue; 1207 1.1 reinoud } 1208 1.1 reinoud } 1209 1.1 reinoud } 1210 1.1 reinoud 1211 1.1 reinoud /* get our line */ 1212 1.1 reinoud eccline = udf_pop_eccline(priv, priv->cur_queue); 1213 1.1 reinoud if (eccline) { 1214 1.1 reinoud wait = 0; 1215 1.1 reinoud new_queue = priv->cur_queue; 1216 1.3 reinoud DPRINTF(ECCLINE, ("UDF_ISSUE_ECCLINE\n")); 1217 1.1 reinoud 1218 1.1 reinoud /* complete the `get' by locking and refcounting it */ 1219 1.1 reinoud UDF_LOCK_ECCLINE(eccline); 1220 1.1 reinoud eccline->refcnt++; 1221 1.1 reinoud 1222 1.1 reinoud udf_issue_eccline(eccline, priv->cur_queue); 1223 1.1 reinoud } else { 1224 1.1 reinoud wait = 1; 1225 1.1 reinoud /* check if we can/should switch */ 1226 1.1 reinoud new_queue = priv->cur_queue; 1227 1.1 reinoud if (BUFQ_PEEK(priv->queues[UDF_SHED_READING])) 1228 1.1 reinoud new_queue = UDF_SHED_READING; 1229 1.1 reinoud if (BUFQ_PEEK(priv->queues[UDF_SHED_WRITING])) 1230 1.1 reinoud new_queue = UDF_SHED_WRITING; 1231 1.1 reinoud if (BUFQ_PEEK(priv->queues[UDF_SHED_SEQWRITING])) 1232 1.1 reinoud new_queue = UDF_SHED_SEQWRITING; 1233 1.1 reinoud 1234 1.1 reinoud /* dont switch seqwriting too fast */ 1235 1.1 reinoud if (priv->cur_queue == UDF_SHED_READING) { 1236 1.1 reinoud if (now.tv_sec - last->tv_sec < 1) 1237 1.1 reinoud new_queue = priv->cur_queue; 1238 1.1 reinoud } 1239 1.1 reinoud if (priv->cur_queue == UDF_SHED_WRITING) { 1240 1.1 reinoud if (now.tv_sec - last->tv_sec < 2) 1241 1.1 reinoud new_queue = priv->cur_queue; 1242 1.1 reinoud } 1243 1.1 reinoud if (priv->cur_queue == UDF_SHED_SEQWRITING) { 1244 1.1 reinoud if (now.tv_sec - last->tv_sec < 4) 1245 1.1 reinoud new_queue = priv->cur_queue; 1246 1.1 reinoud } 1247 1.1 reinoud } 1248 1.1 reinoud 1249 1.1 reinoud /* give room */ 1250 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 1251 1.1 reinoud 1252 1.1 reinoud if (new_queue != priv->cur_queue) { 1253 1.1 reinoud wait = 0; 1254 1.1 reinoud DPRINTF(SHEDULE, ("switching from %d to %d\n", 1255 1.1 reinoud priv->cur_queue, new_queue)); 1256 1.1 reinoud priv->cur_queue = new_queue; 1257 1.1 reinoud } 1258 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 1259 1.1 reinoud 1260 1.1 reinoud /* wait for more if needed */ 1261 1.1 reinoud if (wait) 1262 1.1 reinoud cv_timedwait(&priv->discstrat_cv, 1263 1.1 reinoud &priv->discstrat_mutex, hz); /* /8 */ 1264 1.1 reinoud 1265 1.11 reinoud work = (BUFQ_PEEK(priv->queues[UDF_SHED_WAITING]) != NULL); 1266 1.11 reinoud work |= (BUFQ_PEEK(priv->queues[UDF_SHED_READING]) != NULL); 1267 1.1 reinoud work |= (BUFQ_PEEK(priv->queues[UDF_SHED_WRITING]) != NULL); 1268 1.1 reinoud work |= (BUFQ_PEEK(priv->queues[UDF_SHED_SEQWRITING]) != NULL); 1269 1.1 reinoud 1270 1.1 reinoud DPRINTF(PARANOIA, ("work : (%d, %d, %d) -> work %d, float %d\n", 1271 1.1 reinoud (BUFQ_PEEK(priv->queues[UDF_SHED_READING]) != NULL), 1272 1.1 reinoud (BUFQ_PEEK(priv->queues[UDF_SHED_WRITING]) != NULL), 1273 1.1 reinoud (BUFQ_PEEK(priv->queues[UDF_SHED_SEQWRITING]) != NULL), 1274 1.1 reinoud work, priv->num_floating)); 1275 1.1 reinoud } 1276 1.1 reinoud 1277 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 1278 1.1 reinoud 1279 1.1 reinoud /* tear down remaining ecclines */ 1280 1.1 reinoud mutex_enter(&priv->discstrat_mutex); 1281 1.11 reinoud KASSERT(priv->num_queued[UDF_SHED_WAITING] == 0); 1282 1.1 reinoud KASSERT(priv->num_queued[UDF_SHED_IDLE] == 0); 1283 1.1 reinoud KASSERT(priv->num_queued[UDF_SHED_READING] == 0); 1284 1.1 reinoud KASSERT(priv->num_queued[UDF_SHED_WRITING] == 0); 1285 1.1 reinoud KASSERT(priv->num_queued[UDF_SHED_SEQWRITING] == 0); 1286 1.1 reinoud 1287 1.11 reinoud KASSERT(BUFQ_PEEK(priv->queues[UDF_SHED_WAITING]) == NULL); 1288 1.1 reinoud KASSERT(BUFQ_PEEK(priv->queues[UDF_SHED_IDLE]) == NULL); 1289 1.1 reinoud KASSERT(BUFQ_PEEK(priv->queues[UDF_SHED_READING]) == NULL); 1290 1.1 reinoud KASSERT(BUFQ_PEEK(priv->queues[UDF_SHED_WRITING]) == NULL); 1291 1.1 reinoud KASSERT(BUFQ_PEEK(priv->queues[UDF_SHED_SEQWRITING]) == NULL); 1292 1.1 reinoud eccline = udf_pop_eccline(priv, UDF_SHED_FREE); 1293 1.1 reinoud while (eccline) { 1294 1.1 reinoud udf_dispose_eccline(eccline); 1295 1.1 reinoud eccline = udf_pop_eccline(priv, UDF_SHED_FREE); 1296 1.1 reinoud } 1297 1.1 reinoud KASSERT(priv->num_queued[UDF_SHED_FREE] == 0); 1298 1.1 reinoud mutex_exit(&priv->discstrat_mutex); 1299 1.1 reinoud 1300 1.1 reinoud priv->thread_finished = 1; 1301 1.1 reinoud wakeup(&priv->run_thread); 1302 1.1 reinoud kthread_exit(0); 1303 1.1 reinoud /* not reached */ 1304 1.1 reinoud } 1305 1.1 reinoud 1306 1.1 reinoud /* --------------------------------------------------------------------- */ 1307 1.1 reinoud 1308 1.1 reinoud /* 1309 1.1 reinoud * Buffer memory pool allocator. 1310 1.1 reinoud */ 1311 1.1 reinoud 1312 1.1 reinoud static void * 1313 1.1 reinoud ecclinepool_page_alloc(struct pool *pp, int flags) 1314 1.1 reinoud { 1315 1.1 reinoud return (void *)uvm_km_alloc(kernel_map, 1316 1.1 reinoud MAXBSIZE, MAXBSIZE, 1317 1.1 reinoud ((flags & PR_WAITOK) ? 0 : UVM_KMF_NOWAIT | UVM_KMF_TRYLOCK) 1318 1.1 reinoud | UVM_KMF_WIRED /* UVM_KMF_PAGABLE? */); 1319 1.1 reinoud } 1320 1.1 reinoud 1321 1.1 reinoud static void 1322 1.1 reinoud ecclinepool_page_free(struct pool *pp, void *v) 1323 1.1 reinoud { 1324 1.1 reinoud uvm_km_free(kernel_map, (vaddr_t)v, MAXBSIZE, UVM_KMF_WIRED); 1325 1.1 reinoud } 1326 1.1 reinoud 1327 1.1 reinoud static struct pool_allocator ecclinepool_allocator = { 1328 1.1 reinoud .pa_alloc = ecclinepool_page_alloc, 1329 1.1 reinoud .pa_free = ecclinepool_page_free, 1330 1.1 reinoud .pa_pagesz = MAXBSIZE, 1331 1.1 reinoud }; 1332 1.1 reinoud 1333 1.1 reinoud 1334 1.1 reinoud static void 1335 1.1 reinoud udf_discstrat_init_rmw(struct udf_strat_args *args) 1336 1.1 reinoud { 1337 1.1 reinoud struct udf_mount *ump = args->ump; 1338 1.1 reinoud struct strat_private *priv = PRIV(ump); 1339 1.1 reinoud uint32_t lb_size, blobsize, hashline; 1340 1.1 reinoud int i; 1341 1.1 reinoud 1342 1.1 reinoud KASSERT(ump); 1343 1.1 reinoud KASSERT(ump->logical_vol); 1344 1.1 reinoud KASSERT(priv == NULL); 1345 1.1 reinoud 1346 1.1 reinoud lb_size = udf_rw32(ump->logical_vol->lb_size); 1347 1.1 reinoud blobsize = ump->packet_size * lb_size; 1348 1.1 reinoud KASSERT(lb_size > 0); 1349 1.1 reinoud KASSERT(ump->packet_size <= 64); 1350 1.1 reinoud 1351 1.1 reinoud /* initialise our memory space */ 1352 1.1 reinoud ump->strategy_private = malloc(sizeof(struct strat_private), 1353 1.1 reinoud M_UDFTEMP, M_WAITOK); 1354 1.1 reinoud priv = ump->strategy_private; 1355 1.1 reinoud memset(priv, 0 , sizeof(struct strat_private)); 1356 1.1 reinoud 1357 1.1 reinoud /* initialise locks */ 1358 1.1 reinoud cv_init(&priv->discstrat_cv, "udfstrat"); 1359 1.1 reinoud mutex_init(&priv->discstrat_mutex, MUTEX_DRIVER, IPL_BIO); 1360 1.1 reinoud mutex_init(&priv->seqwrite_mutex, MUTEX_DEFAULT, IPL_NONE); 1361 1.1 reinoud 1362 1.1 reinoud /* initialise struct eccline pool */ 1363 1.1 reinoud pool_init(&priv->eccline_pool, sizeof(struct udf_eccline), 1364 1.1 reinoud 0, 0, 0, "udf_eccline_pool", NULL, IPL_NONE); 1365 1.1 reinoud 1366 1.1 reinoud /* initialise eccline blob pool */ 1367 1.12 reinoud ecclinepool_allocator.pa_pagesz = blobsize; 1368 1.1 reinoud pool_init(&priv->ecclineblob_pool, blobsize, 1369 1.12 reinoud 0, 0, 0, "udf_eccline_blob", &ecclinepool_allocator, IPL_NONE); 1370 1.1 reinoud 1371 1.1 reinoud /* initialise main queues */ 1372 1.1 reinoud for (i = 0; i < UDF_SHED_MAX; i++) { 1373 1.1 reinoud priv->num_queued[i] = 0; 1374 1.1 reinoud vfs_timestamp(&priv->last_queued[i]); 1375 1.1 reinoud } 1376 1.11 reinoud bufq_alloc(&priv->queues[UDF_SHED_WAITING], "fcfs", 1377 1.11 reinoud BUFQ_SORT_RAWBLOCK); 1378 1.1 reinoud bufq_alloc(&priv->queues[UDF_SHED_READING], "disksort", 1379 1.1 reinoud BUFQ_SORT_RAWBLOCK); 1380 1.1 reinoud bufq_alloc(&priv->queues[UDF_SHED_WRITING], "disksort", 1381 1.1 reinoud BUFQ_SORT_RAWBLOCK); 1382 1.1 reinoud bufq_alloc(&priv->queues[UDF_SHED_SEQWRITING], "disksort", 0); 1383 1.1 reinoud 1384 1.1 reinoud /* initialise administrative queues */ 1385 1.1 reinoud bufq_alloc(&priv->queues[UDF_SHED_IDLE], "fcfs", 0); 1386 1.1 reinoud bufq_alloc(&priv->queues[UDF_SHED_FREE], "fcfs", 0); 1387 1.1 reinoud 1388 1.1 reinoud for (hashline = 0; hashline < UDF_ECCBUF_HASHSIZE; hashline++) { 1389 1.1 reinoud LIST_INIT(&priv->eccline_hash[hashline]); 1390 1.1 reinoud } 1391 1.1 reinoud 1392 1.1 reinoud /* create our disk strategy thread */ 1393 1.1 reinoud priv->cur_queue = UDF_SHED_READING; 1394 1.1 reinoud priv->thread_finished = 0; 1395 1.1 reinoud priv->run_thread = 1; 1396 1.1 reinoud if (kthread_create(PRI_NONE, 0 /* KTHREAD_MPSAFE*/, NULL /* cpu_info*/, 1397 1.1 reinoud udf_discstrat_thread, ump, &priv->queue_lwp, 1398 1.1 reinoud "%s", "udf_rw")) { 1399 1.1 reinoud panic("fork udf_rw"); 1400 1.1 reinoud } 1401 1.1 reinoud } 1402 1.1 reinoud 1403 1.1 reinoud 1404 1.1 reinoud static void 1405 1.1 reinoud udf_discstrat_finish_rmw(struct udf_strat_args *args) 1406 1.1 reinoud { 1407 1.1 reinoud struct udf_mount *ump = args->ump; 1408 1.1 reinoud struct strat_private *priv = PRIV(ump); 1409 1.1 reinoud int error; 1410 1.1 reinoud 1411 1.1 reinoud if (ump == NULL) 1412 1.1 reinoud return; 1413 1.1 reinoud 1414 1.1 reinoud /* stop our sheduling thread */ 1415 1.1 reinoud KASSERT(priv->run_thread == 1); 1416 1.1 reinoud priv->run_thread = 0; 1417 1.1 reinoud wakeup(priv->queue_lwp); 1418 1.1 reinoud while (!priv->thread_finished) { 1419 1.1 reinoud error = tsleep(&priv->run_thread, PRIBIO+1, 1420 1.1 reinoud "udfshedfin", hz); 1421 1.1 reinoud } 1422 1.1 reinoud /* kthread should be finished now */ 1423 1.1 reinoud 1424 1.1 reinoud /* cleanup our pools */ 1425 1.1 reinoud pool_destroy(&priv->eccline_pool); 1426 1.1 reinoud pool_destroy(&priv->ecclineblob_pool); 1427 1.1 reinoud 1428 1.1 reinoud cv_destroy(&priv->discstrat_cv); 1429 1.1 reinoud mutex_destroy(&priv->discstrat_mutex); 1430 1.1 reinoud mutex_destroy(&priv->seqwrite_mutex); 1431 1.1 reinoud 1432 1.1 reinoud /* free our private space */ 1433 1.1 reinoud free(ump->strategy_private, M_UDFTEMP); 1434 1.1 reinoud ump->strategy_private = NULL; 1435 1.1 reinoud } 1436 1.1 reinoud 1437 1.1 reinoud /* --------------------------------------------------------------------- */ 1438 1.1 reinoud 1439 1.1 reinoud struct udf_strategy udf_strat_rmw = 1440 1.1 reinoud { 1441 1.5 reinoud udf_create_nodedscr_rmw, 1442 1.5 reinoud udf_free_nodedscr_rmw, 1443 1.5 reinoud udf_read_nodedscr_rmw, 1444 1.5 reinoud udf_write_nodedscr_rmw, 1445 1.1 reinoud udf_queuebuf_rmw, 1446 1.1 reinoud udf_discstrat_init_rmw, 1447 1.1 reinoud udf_discstrat_finish_rmw 1448 1.1 reinoud }; 1449 1.1 reinoud 1450
Indexes created Thu Sep 25 16:09:42 GMT 2025