rumpblk.c revision 1.20
1 1.20 pooka /* $NetBSD: rumpblk.c,v 1.20 2009/04/27 14:28:58 pooka Exp $ */ 2 1.1 pooka 3 1.1 pooka /* 4 1.1 pooka * Copyright (c) 2009 Antti Kantee. All Rights Reserved. 5 1.1 pooka * 6 1.1 pooka * Development of this software was supported by the 7 1.1 pooka * Finnish Cultural Foundation. 8 1.1 pooka * 9 1.1 pooka * Redistribution and use in source and binary forms, with or without 10 1.1 pooka * modification, are permitted provided that the following conditions 11 1.1 pooka * are met: 12 1.1 pooka * 1. Redistributions of source code must retain the above copyright 13 1.1 pooka * notice, this list of conditions and the following disclaimer. 14 1.1 pooka * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 pooka * notice, this list of conditions and the following disclaimer in the 16 1.1 pooka * documentation and/or other materials provided with the distribution. 17 1.1 pooka * 18 1.1 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 19 1.1 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 20 1.1 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 21 1.1 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 22 1.1 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 23 1.1 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 24 1.1 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 25 1.1 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 26 1.1 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 27 1.1 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 28 1.1 pooka * SUCH DAMAGE. 29 1.1 pooka */ 30 1.1 pooka 31 1.1 pooka /* 32 1.1 pooka * Block device emulation. Presents a block device interface and 33 1.1 pooka * uses rumpuser system calls to satisfy I/O requests. 34 1.16 pooka * 35 1.16 pooka * We provide fault injection. The driver can be made to fail 36 1.16 pooka * I/O occasionally. 37 1.16 pooka * 38 1.16 pooka * The driver also provides an optimization for regular files by 39 1.16 pooka * using memory-mapped I/O. This avoids kernel access for every 40 1.16 pooka * I/O operation. It also gives finer-grained control of how to 41 1.16 pooka * flush data. Additionally, in case the rump kernel dumps core, 42 1.16 pooka * we get way less carnage. 43 1.1 pooka */ 44 1.1 pooka 45 1.1 pooka #include <sys/cdefs.h> 46 1.20 pooka __KERNEL_RCSID(0, "$NetBSD: rumpblk.c,v 1.20 2009/04/27 14:28:58 pooka Exp $"); 47 1.1 pooka 48 1.1 pooka #include <sys/param.h> 49 1.1 pooka #include <sys/buf.h> 50 1.1 pooka #include <sys/conf.h> 51 1.16 pooka #include <sys/condvar.h> 52 1.1 pooka #include <sys/disklabel.h> 53 1.18 pooka #include <sys/evcnt.h> 54 1.1 pooka #include <sys/fcntl.h> 55 1.1 pooka #include <sys/kmem.h> 56 1.1 pooka #include <sys/malloc.h> 57 1.16 pooka #include <sys/queue.h> 58 1.1 pooka #include <sys/stat.h> 59 1.1 pooka 60 1.1 pooka #include <rump/rumpuser.h> 61 1.1 pooka 62 1.1 pooka #include "rump_private.h" 63 1.1 pooka #include "rump_vfs_private.h" 64 1.1 pooka 65 1.16 pooka #if 0 66 1.16 pooka #define DPRINTF(x) printf x 67 1.16 pooka #else 68 1.16 pooka #define DPRINTF(x) 69 1.16 pooka #endif 70 1.16 pooka 71 1.19 pooka /* Default: 16 x 1MB windows */ 72 1.19 pooka unsigned memwinsize = (1<<20); 73 1.19 pooka unsigned memwincnt = 16; 74 1.19 pooka 75 1.19 pooka #define STARTWIN(off) ((off) & ~(memwinsize-1)) 76 1.16 pooka #define INWIN(win,off) ((win)->win_off == STARTWIN(off)) 77 1.19 pooka #define WINSIZE(rblk, win) (MIN((rblk->rblk_size-win->win_off),memwinsize)) 78 1.16 pooka #define WINVALID(win) ((win)->win_off != (off_t)-1) 79 1.16 pooka #define WINVALIDATE(win) ((win)->win_off = (off_t)-1) 80 1.16 pooka struct blkwin { 81 1.16 pooka off_t win_off; 82 1.16 pooka void *win_mem; 83 1.16 pooka int win_refcnt; 84 1.16 pooka 85 1.16 pooka TAILQ_ENTRY(blkwin) win_lru; 86 1.16 pooka }; 87 1.16 pooka 88 1.1 pooka #define RUMPBLK_SIZE 16 89 1.1 pooka static struct rblkdev { 90 1.1 pooka char *rblk_path; 91 1.1 pooka int rblk_fd; 92 1.20 pooka #ifdef HAS_ODIRECT 93 1.20 pooka int rblk_dfd; 94 1.20 pooka #endif 95 1.16 pooka 96 1.16 pooka /* for mmap */ 97 1.16 pooka int rblk_mmflags; 98 1.16 pooka kmutex_t rblk_memmtx; 99 1.16 pooka kcondvar_t rblk_memcv; 100 1.16 pooka TAILQ_HEAD(winlru, blkwin) rblk_lruq; 101 1.16 pooka size_t rblk_size; 102 1.16 pooka bool rblk_waiting; 103 1.1 pooka 104 1.1 pooka struct partition *rblk_curpi; 105 1.1 pooka struct partition rblk_pi; 106 1.1 pooka struct disklabel rblk_dl; 107 1.1 pooka } minors[RUMPBLK_SIZE]; 108 1.1 pooka 109 1.20 pooka static struct evcnt ev_io_total; 110 1.20 pooka static struct evcnt ev_io_async; 111 1.20 pooka 112 1.20 pooka static struct evcnt ev_memblk_hits; 113 1.20 pooka static struct evcnt ev_memblk_busy; 114 1.20 pooka 115 1.20 pooka static struct evcnt ev_bwrite_total; 116 1.20 pooka static struct evcnt ev_bwrite_async; 117 1.20 pooka static struct evcnt ev_bread_total; 118 1.18 pooka 119 1.1 pooka dev_type_open(rumpblk_open); 120 1.1 pooka dev_type_close(rumpblk_close); 121 1.1 pooka dev_type_read(rumpblk_read); 122 1.1 pooka dev_type_write(rumpblk_write); 123 1.1 pooka dev_type_ioctl(rumpblk_ioctl); 124 1.1 pooka dev_type_strategy(rumpblk_strategy); 125 1.3 pooka dev_type_strategy(rumpblk_strategy_fail); 126 1.1 pooka dev_type_dump(rumpblk_dump); 127 1.1 pooka dev_type_size(rumpblk_size); 128 1.1 pooka 129 1.1 pooka static const struct bdevsw rumpblk_bdevsw = { 130 1.1 pooka rumpblk_open, rumpblk_close, rumpblk_strategy, rumpblk_ioctl, 131 1.1 pooka nodump, nosize, D_DISK 132 1.1 pooka }; 133 1.1 pooka 134 1.3 pooka static const struct bdevsw rumpblk_bdevsw_fail = { 135 1.3 pooka rumpblk_open, rumpblk_close, rumpblk_strategy_fail, rumpblk_ioctl, 136 1.3 pooka nodump, nosize, D_DISK 137 1.3 pooka }; 138 1.3 pooka 139 1.1 pooka static const struct cdevsw rumpblk_cdevsw = { 140 1.1 pooka rumpblk_open, rumpblk_close, rumpblk_read, rumpblk_write, 141 1.1 pooka rumpblk_ioctl, nostop, notty, nopoll, nommap, nokqfilter, D_DISK 142 1.1 pooka }; 143 1.1 pooka 144 1.3 pooka /* fail every n out of BLKFAIL_MAX */ 145 1.3 pooka #define BLKFAIL_MAX 10000 146 1.3 pooka static int blkfail; 147 1.3 pooka static unsigned randstate; 148 1.1 pooka 149 1.16 pooka static struct blkwin * 150 1.16 pooka getwindow(struct rblkdev *rblk, off_t off, int *wsize, int *error) 151 1.16 pooka { 152 1.16 pooka struct blkwin *win; 153 1.16 pooka 154 1.16 pooka mutex_enter(&rblk->rblk_memmtx); 155 1.16 pooka retry: 156 1.16 pooka /* search for window */ 157 1.16 pooka TAILQ_FOREACH(win, &rblk->rblk_lruq, win_lru) { 158 1.16 pooka if (INWIN(win, off) && WINVALID(win)) 159 1.16 pooka break; 160 1.16 pooka } 161 1.16 pooka 162 1.16 pooka /* found? return */ 163 1.16 pooka if (win) { 164 1.20 pooka ev_memblk_hits.ev_count++; 165 1.16 pooka TAILQ_REMOVE(&rblk->rblk_lruq, win, win_lru); 166 1.16 pooka goto good; 167 1.16 pooka } 168 1.16 pooka 169 1.16 pooka /* 170 1.16 pooka * Else, create new window. If the least recently used is not 171 1.16 pooka * currently in use, reuse that. Otherwise we need to wait. 172 1.16 pooka */ 173 1.16 pooka win = TAILQ_LAST(&rblk->rblk_lruq, winlru); 174 1.16 pooka if (win->win_refcnt == 0) { 175 1.16 pooka TAILQ_REMOVE(&rblk->rblk_lruq, win, win_lru); 176 1.16 pooka mutex_exit(&rblk->rblk_memmtx); 177 1.16 pooka 178 1.16 pooka if (WINVALID(win)) { 179 1.16 pooka DPRINTF(("win %p, unmap mem %p, off 0x%" PRIx64 "\n", 180 1.16 pooka win, win->win_mem, win->win_off)); 181 1.16 pooka rumpuser_unmap(win->win_mem, WINSIZE(rblk, win)); 182 1.16 pooka WINVALIDATE(win); 183 1.16 pooka } 184 1.16 pooka 185 1.16 pooka win->win_off = STARTWIN(off); 186 1.16 pooka win->win_mem = rumpuser_filemmap(rblk->rblk_fd, win->win_off, 187 1.16 pooka WINSIZE(rblk, win), rblk->rblk_mmflags, error); 188 1.16 pooka DPRINTF(("win %p, off 0x%" PRIx64 ", mem %p\n", 189 1.16 pooka win, win->win_off, win->win_mem)); 190 1.16 pooka 191 1.16 pooka mutex_enter(&rblk->rblk_memmtx); 192 1.16 pooka if (win->win_mem == NULL) { 193 1.16 pooka WINVALIDATE(win); 194 1.16 pooka TAILQ_INSERT_TAIL(&rblk->rblk_lruq, win, win_lru); 195 1.16 pooka mutex_exit(&rblk->rblk_memmtx); 196 1.16 pooka return NULL; 197 1.16 pooka } 198 1.16 pooka } else { 199 1.16 pooka DPRINTF(("memwin wait\n")); 200 1.20 pooka ev_memblk_busy.ev_count++; 201 1.18 pooka 202 1.16 pooka rblk->rblk_waiting = true; 203 1.16 pooka cv_wait(&rblk->rblk_memcv, &rblk->rblk_memmtx); 204 1.16 pooka goto retry; 205 1.16 pooka } 206 1.16 pooka 207 1.16 pooka good: 208 1.16 pooka KASSERT(win); 209 1.16 pooka win->win_refcnt++; 210 1.16 pooka TAILQ_INSERT_HEAD(&rblk->rblk_lruq, win, win_lru); 211 1.16 pooka mutex_exit(&rblk->rblk_memmtx); 212 1.19 pooka *wsize = MIN(*wsize, memwinsize - (off-win->win_off)); 213 1.16 pooka KASSERT(*wsize); 214 1.16 pooka 215 1.16 pooka return win; 216 1.16 pooka } 217 1.16 pooka 218 1.16 pooka static void 219 1.16 pooka putwindow(struct rblkdev *rblk, struct blkwin *win) 220 1.16 pooka { 221 1.16 pooka 222 1.16 pooka mutex_enter(&rblk->rblk_memmtx); 223 1.16 pooka if (--win->win_refcnt == 0 && rblk->rblk_waiting) { 224 1.16 pooka rblk->rblk_waiting = false; 225 1.16 pooka cv_signal(&rblk->rblk_memcv); 226 1.16 pooka } 227 1.16 pooka KASSERT(win->win_refcnt >= 0); 228 1.16 pooka mutex_exit(&rblk->rblk_memmtx); 229 1.16 pooka } 230 1.16 pooka 231 1.16 pooka static void 232 1.16 pooka wincleanup(struct rblkdev *rblk) 233 1.16 pooka { 234 1.16 pooka struct blkwin *win; 235 1.16 pooka 236 1.16 pooka while ((win = TAILQ_FIRST(&rblk->rblk_lruq)) != NULL) { 237 1.16 pooka TAILQ_REMOVE(&rblk->rblk_lruq, win, win_lru); 238 1.16 pooka if (WINVALID(win)) { 239 1.16 pooka DPRINTF(("cleanup win %p addr %p\n", 240 1.16 pooka win, win->win_mem)); 241 1.16 pooka rumpuser_unmap(win->win_mem, WINSIZE(rblk, win)); 242 1.16 pooka } 243 1.16 pooka kmem_free(win, sizeof(*win)); 244 1.16 pooka } 245 1.16 pooka rblk->rblk_mmflags = 0; 246 1.16 pooka } 247 1.16 pooka 248 1.1 pooka int 249 1.8 cegger rumpblk_init(void) 250 1.1 pooka { 251 1.3 pooka char buf[64]; 252 1.1 pooka int rumpblk = RUMPBLK; 253 1.19 pooka unsigned tmp; 254 1.16 pooka int error, i; 255 1.3 pooka 256 1.3 pooka if (rumpuser_getenv("RUMP_BLKFAIL", buf, sizeof(buf), &error) == 0) { 257 1.3 pooka blkfail = strtoul(buf, NULL, 10); 258 1.3 pooka /* fail everything */ 259 1.3 pooka if (blkfail > BLKFAIL_MAX) 260 1.3 pooka blkfail = BLKFAIL_MAX; 261 1.3 pooka if (rumpuser_getenv("RUMP_BLKFAIL_SEED", buf, sizeof(buf), 262 1.3 pooka &error) == 0) { 263 1.3 pooka randstate = strtoul(buf, NULL, 10); 264 1.3 pooka } else { 265 1.3 pooka randstate = arc4random(); /* XXX: not enough entropy */ 266 1.3 pooka } 267 1.3 pooka printf("rumpblk: FAULT INJECTION ACTIVE! every %d out of" 268 1.3 pooka " %d I/O will fail. key %u\n", blkfail, BLKFAIL_MAX, 269 1.3 pooka randstate); 270 1.3 pooka } else { 271 1.3 pooka blkfail = 0; 272 1.3 pooka } 273 1.1 pooka 274 1.19 pooka if (rumpuser_getenv("RUMP_BLKWINSIZE", buf, sizeof(buf), &error) == 0) { 275 1.19 pooka printf("rumpblk: "); 276 1.19 pooka tmp = strtoul(buf, NULL, 10); 277 1.19 pooka if (tmp && !(tmp & (tmp-1))) 278 1.19 pooka memwinsize = tmp; 279 1.19 pooka else 280 1.19 pooka printf("invalid RUMP_BLKWINSIZE %d, ", tmp); 281 1.19 pooka printf("using %d for memwinsize\n", memwinsize); 282 1.19 pooka } 283 1.19 pooka if (rumpuser_getenv("RUMP_BLKWINCOUNT", buf, sizeof(buf), &error) == 0){ 284 1.19 pooka printf("rumpblk: "); 285 1.19 pooka tmp = strtoul(buf, NULL, 10); 286 1.19 pooka if (tmp) 287 1.19 pooka memwincnt = tmp; 288 1.19 pooka else 289 1.19 pooka printf("invalid RUMP_BLKWINCOUNT %d, ", tmp); 290 1.19 pooka printf("using %d for memwincount\n", memwincnt); 291 1.19 pooka } 292 1.19 pooka 293 1.16 pooka memset(minors, 0, sizeof(minors)); 294 1.16 pooka for (i = 0; i < RUMPBLK_SIZE; i++) { 295 1.16 pooka mutex_init(&minors[i].rblk_memmtx, MUTEX_DEFAULT, IPL_NONE); 296 1.16 pooka cv_init(&minors[i].rblk_memcv, "rblkmcv"); 297 1.16 pooka } 298 1.16 pooka 299 1.20 pooka evcnt_attach_dynamic(&ev_io_total, EVCNT_TYPE_MISC, NULL, 300 1.20 pooka "rumpblk", "rumpblk I/O reqs"); 301 1.20 pooka evcnt_attach_dynamic(&ev_io_async, EVCNT_TYPE_MISC, NULL, 302 1.20 pooka "rumpblk", "rumpblk async I/O"); 303 1.20 pooka 304 1.20 pooka evcnt_attach_dynamic(&ev_bread_total, EVCNT_TYPE_MISC, NULL, 305 1.20 pooka "rumpblk", "rumpblk bytes read"); 306 1.20 pooka evcnt_attach_dynamic(&ev_bwrite_total, EVCNT_TYPE_MISC, NULL, 307 1.20 pooka "rumpblk", "rumpblk bytes written"); 308 1.20 pooka evcnt_attach_dynamic(&ev_bwrite_async, EVCNT_TYPE_MISC, NULL, 309 1.20 pooka "rumpblk", "rumpblk bytes written async"); 310 1.20 pooka 311 1.20 pooka evcnt_attach_dynamic(&ev_memblk_hits, EVCNT_TYPE_MISC, NULL, 312 1.18 pooka "rumpblk", "memblk window hits"); 313 1.20 pooka evcnt_attach_dynamic(&ev_memblk_busy, EVCNT_TYPE_MISC, NULL, 314 1.18 pooka "rumpblk", "memblk all windows busy"); 315 1.18 pooka 316 1.3 pooka if (blkfail) { 317 1.3 pooka return devsw_attach("rumpblk", &rumpblk_bdevsw_fail, &rumpblk, 318 1.3 pooka &rumpblk_cdevsw, &rumpblk); 319 1.3 pooka } else { 320 1.3 pooka return devsw_attach("rumpblk", &rumpblk_bdevsw, &rumpblk, 321 1.3 pooka &rumpblk_cdevsw, &rumpblk); 322 1.3 pooka } 323 1.1 pooka } 324 1.1 pooka 325 1.1 pooka int 326 1.1 pooka rumpblk_register(const char *path) 327 1.1 pooka { 328 1.1 pooka size_t len; 329 1.1 pooka int i; 330 1.1 pooka 331 1.1 pooka for (i = 0; i < RUMPBLK_SIZE; i++) 332 1.15 pooka if (minors[i].rblk_path && strcmp(minors[i].rblk_path, path)==0) 333 1.1 pooka return i; 334 1.1 pooka 335 1.1 pooka for (i = 0; i < RUMPBLK_SIZE; i++) 336 1.1 pooka if (minors[i].rblk_path == NULL) 337 1.1 pooka break; 338 1.1 pooka if (i == RUMPBLK_SIZE) 339 1.1 pooka return -1; 340 1.1 pooka 341 1.1 pooka len = strlen(path); 342 1.10 uebayasi minors[i].rblk_path = malloc(len + 1, M_TEMP, M_WAITOK); 343 1.1 pooka strcpy(minors[i].rblk_path, path); 344 1.1 pooka minors[i].rblk_fd = -1; 345 1.1 pooka return i; 346 1.1 pooka } 347 1.1 pooka 348 1.1 pooka int 349 1.1 pooka rumpblk_open(dev_t dev, int flag, int fmt, struct lwp *l) 350 1.1 pooka { 351 1.1 pooka struct rblkdev *rblk = &minors[minor(dev)]; 352 1.5 pooka uint64_t fsize; 353 1.9 pooka int ft, dummy; 354 1.1 pooka int error, fd; 355 1.1 pooka 356 1.1 pooka KASSERT(rblk->rblk_fd == -1); 357 1.1 pooka fd = rumpuser_open(rblk->rblk_path, OFLAGS(flag), &error); 358 1.1 pooka if (error) 359 1.1 pooka return error; 360 1.1 pooka 361 1.9 pooka if (rumpuser_getfileinfo(rblk->rblk_path, &fsize, &ft, &error) == -1) { 362 1.9 pooka rumpuser_close(fd, &dummy); 363 1.9 pooka return error; 364 1.9 pooka } 365 1.9 pooka 366 1.20 pooka #ifdef HAS_ODIRECT 367 1.20 pooka rblk->rblk_dfd = rumpuser_open(rblk->rblk_path, 368 1.20 pooka OFLAGS(flag) | O_DIRECT, &error); 369 1.20 pooka if (error) 370 1.20 pooka return error; 371 1.20 pooka #endif 372 1.20 pooka 373 1.9 pooka if (ft == RUMPUSER_FT_REG) { 374 1.16 pooka struct blkwin *win; 375 1.16 pooka int i, winsize; 376 1.16 pooka 377 1.1 pooka /* 378 1.16 pooka * Use mmap to access a regular file. Allocate and 379 1.16 pooka * cache initial windows here. Failure to allocate one 380 1.16 pooka * means fallback to read/write i/o. 381 1.1 pooka */ 382 1.9 pooka 383 1.16 pooka rblk->rblk_mmflags = 0; 384 1.16 pooka if (flag & FREAD) 385 1.16 pooka rblk->rblk_mmflags |= RUMPUSER_FILEMMAP_READ; 386 1.16 pooka if (flag & FWRITE) { 387 1.16 pooka rblk->rblk_mmflags |= RUMPUSER_FILEMMAP_WRITE; 388 1.16 pooka rblk->rblk_mmflags |= RUMPUSER_FILEMMAP_SHARED; 389 1.16 pooka } 390 1.16 pooka 391 1.16 pooka TAILQ_INIT(&rblk->rblk_lruq); 392 1.16 pooka rblk->rblk_size = fsize; 393 1.16 pooka rblk->rblk_fd = fd; 394 1.16 pooka 395 1.19 pooka for (i = 0; i < memwincnt && i * memwinsize < fsize; i++) { 396 1.16 pooka win = kmem_zalloc(sizeof(*win), KM_SLEEP); 397 1.16 pooka WINVALIDATE(win); 398 1.16 pooka TAILQ_INSERT_TAIL(&rblk->rblk_lruq, win, win_lru); 399 1.16 pooka 400 1.16 pooka /* 401 1.16 pooka * Allocate first windows. Here we just generally 402 1.16 pooka * make sure a) we can mmap at all b) we have the 403 1.16 pooka * necessary VA available 404 1.16 pooka */ 405 1.16 pooka winsize = 1; 406 1.19 pooka win = getwindow(rblk, i*memwinsize, &winsize, &error); 407 1.16 pooka if (win) { 408 1.16 pooka putwindow(rblk, win); 409 1.16 pooka } else { 410 1.16 pooka wincleanup(rblk); 411 1.16 pooka break; 412 1.12 pooka } 413 1.9 pooka } 414 1.9 pooka 415 1.1 pooka memset(&rblk->rblk_dl, 0, sizeof(rblk->rblk_dl)); 416 1.9 pooka rblk->rblk_pi.p_size = fsize >> DEV_BSHIFT; 417 1.9 pooka rblk->rblk_dl.d_secsize = DEV_BSIZE; 418 1.9 pooka rblk->rblk_curpi = &rblk->rblk_pi; 419 1.9 pooka } else { 420 1.13 pooka if (rumpuser_ioctl(fd, DIOCGDINFO, &rblk->rblk_dl, 421 1.17 pooka &error) == -1) { 422 1.17 pooka KASSERT(error); 423 1.1 pooka rumpuser_close(fd, &dummy); 424 1.1 pooka return error; 425 1.1 pooka } 426 1.9 pooka 427 1.16 pooka rblk->rblk_fd = fd; 428 1.9 pooka rblk->rblk_curpi = &rblk->rblk_dl.d_partitions[0]; 429 1.1 pooka } 430 1.1 pooka 431 1.16 pooka KASSERT(rblk->rblk_fd != -1); 432 1.1 pooka return 0; 433 1.1 pooka } 434 1.1 pooka 435 1.1 pooka int 436 1.1 pooka rumpblk_close(dev_t dev, int flag, int fmt, struct lwp *l) 437 1.1 pooka { 438 1.1 pooka struct rblkdev *rblk = &minors[minor(dev)]; 439 1.1 pooka int dummy; 440 1.1 pooka 441 1.16 pooka if (rblk->rblk_mmflags) 442 1.16 pooka wincleanup(rblk); 443 1.16 pooka rumpuser_fsync(rblk->rblk_fd, &dummy); 444 1.1 pooka rumpuser_close(rblk->rblk_fd, &dummy); 445 1.1 pooka rblk->rblk_fd = -1; 446 1.1 pooka 447 1.1 pooka return 0; 448 1.1 pooka } 449 1.1 pooka 450 1.1 pooka int 451 1.1 pooka rumpblk_ioctl(dev_t dev, u_long xfer, void *addr, int flag, struct lwp *l) 452 1.1 pooka { 453 1.1 pooka struct rblkdev *rblk = &minors[minor(dev)]; 454 1.1 pooka int rv, error; 455 1.1 pooka 456 1.1 pooka if (xfer == DIOCGPART) { 457 1.1 pooka struct partinfo *pi = (struct partinfo *)addr; 458 1.1 pooka 459 1.1 pooka pi->part = rblk->rblk_curpi; 460 1.1 pooka pi->disklab = &rblk->rblk_dl; 461 1.1 pooka 462 1.1 pooka return 0; 463 1.1 pooka } 464 1.1 pooka 465 1.1 pooka rv = rumpuser_ioctl(rblk->rblk_fd, xfer, addr, &error); 466 1.1 pooka if (rv == -1) 467 1.1 pooka return error; 468 1.1 pooka 469 1.1 pooka return 0; 470 1.1 pooka } 471 1.1 pooka 472 1.1 pooka int 473 1.1 pooka rumpblk_read(dev_t dev, struct uio *uio, int flags) 474 1.1 pooka { 475 1.1 pooka 476 1.1 pooka panic("%s: unimplemented", __func__); 477 1.1 pooka } 478 1.1 pooka 479 1.1 pooka int 480 1.1 pooka rumpblk_write(dev_t dev, struct uio *uio, int flags) 481 1.1 pooka { 482 1.1 pooka 483 1.1 pooka panic("%s: unimplemented", __func__); 484 1.1 pooka } 485 1.1 pooka 486 1.3 pooka static void 487 1.3 pooka dostrategy(struct buf *bp) 488 1.1 pooka { 489 1.1 pooka struct rblkdev *rblk = &minors[minor(bp->b_dev)]; 490 1.1 pooka off_t off; 491 1.9 pooka int async, error; 492 1.1 pooka 493 1.20 pooka /* collect statistics */ 494 1.20 pooka ev_io_total.ev_count++; 495 1.20 pooka if (async) 496 1.20 pooka ev_io_async.ev_count++; 497 1.20 pooka if (BUF_ISWRITE(bp)) { 498 1.20 pooka ev_bwrite_total.ev_count += bp->b_bcount; 499 1.20 pooka if (async) 500 1.20 pooka ev_bwrite_async.ev_count += bp->b_bcount; 501 1.20 pooka } else { 502 1.20 pooka ev_bread_total.ev_count++; 503 1.20 pooka } 504 1.20 pooka 505 1.1 pooka off = bp->b_blkno << DEV_BSHIFT; 506 1.11 pooka /* 507 1.11 pooka * Do bounds checking if we're working on a file. Otherwise 508 1.11 pooka * invalid file systems might attempt to read beyond EOF. This 509 1.11 pooka * is bad(tm) especially on mmapped images. This is essentially 510 1.11 pooka * the kernel bounds_check() routines. 511 1.11 pooka */ 512 1.11 pooka if (rblk->rblk_size && off + bp->b_bcount > rblk->rblk_size) { 513 1.11 pooka int64_t sz = rblk->rblk_size - off; 514 1.11 pooka 515 1.11 pooka /* EOF */ 516 1.11 pooka if (sz == 0) { 517 1.11 pooka rump_biodone(bp, 0, 0); 518 1.11 pooka return; 519 1.11 pooka } 520 1.11 pooka /* beyond EOF ==> error */ 521 1.11 pooka if (sz < 0) { 522 1.11 pooka rump_biodone(bp, 0, EINVAL); 523 1.11 pooka return; 524 1.11 pooka } 525 1.11 pooka 526 1.11 pooka /* truncate to device size */ 527 1.11 pooka bp->b_bcount = sz; 528 1.11 pooka } 529 1.11 pooka 530 1.9 pooka async = bp->b_flags & B_ASYNC; 531 1.1 pooka DPRINTF(("rumpblk_strategy: 0x%x bytes %s off 0x%" PRIx64 532 1.20 pooka " (0x%" PRIx64 " - 0x%" PRIx64 "), %ssync\n", 533 1.16 pooka bp->b_bcount, BUF_ISREAD(bp) ? "READ" : "WRITE", 534 1.20 pooka off, off, (off + bp->b_bcount), async ? "a" : "")); 535 1.1 pooka 536 1.16 pooka /* mmap? handle here and return */ 537 1.16 pooka if (rblk->rblk_mmflags) { 538 1.16 pooka struct blkwin *win; 539 1.16 pooka int winsize, iodone; 540 1.16 pooka uint8_t *ioaddr, *bufaddr; 541 1.16 pooka 542 1.16 pooka for (iodone = 0; iodone < bp->b_bcount; 543 1.16 pooka iodone += winsize, off += winsize) { 544 1.16 pooka winsize = bp->b_bcount - iodone; 545 1.16 pooka win = getwindow(rblk, off, &winsize, &error); 546 1.16 pooka if (win == NULL) { 547 1.16 pooka rump_biodone(bp, iodone, error); 548 1.16 pooka return; 549 1.16 pooka } 550 1.16 pooka 551 1.16 pooka ioaddr = (uint8_t *)win->win_mem + (off-STARTWIN(off)); 552 1.16 pooka bufaddr = (uint8_t *)bp->b_data + iodone; 553 1.11 pooka 554 1.16 pooka DPRINTF(("strat: %p off 0x%" PRIx64 555 1.16 pooka ", ioaddr %p (%p)/buf %p\n", win, 556 1.16 pooka win->win_off, ioaddr, win->win_mem, bufaddr)); 557 1.16 pooka if (BUF_ISREAD(bp)) { 558 1.16 pooka memcpy(bufaddr, ioaddr, winsize); 559 1.16 pooka } else { 560 1.16 pooka memcpy(ioaddr, bufaddr, winsize); 561 1.16 pooka } 562 1.16 pooka 563 1.16 pooka /* synchronous write, sync bits back to disk */ 564 1.16 pooka if (BUF_ISWRITE(bp) && !async) { 565 1.16 pooka rumpuser_memsync(ioaddr, winsize, &error); 566 1.16 pooka } 567 1.16 pooka putwindow(rblk, win); 568 1.9 pooka } 569 1.9 pooka 570 1.9 pooka rump_biodone(bp, bp->b_bcount, 0); 571 1.9 pooka return; 572 1.9 pooka } 573 1.9 pooka 574 1.1 pooka /* 575 1.1 pooka * Do I/O. We have different paths for async and sync I/O. 576 1.1 pooka * Async I/O is done by passing a request to rumpuser where 577 1.1 pooka * it is executed. The rumpuser routine then calls 578 1.1 pooka * biodone() to signal any waiters in the kernel. I/O's are 579 1.1 pooka * executed in series. Technically executing them in parallel 580 1.1 pooka * would produce better results, but then we'd need either 581 1.1 pooka * more threads or posix aio. Maybe worth investigating 582 1.1 pooka * this later. 583 1.14 pooka * 584 1.14 pooka * Using bufq here might be a good idea. 585 1.1 pooka */ 586 1.20 pooka 587 1.13 pooka if (rump_threads) { 588 1.1 pooka struct rumpuser_aio *rua; 589 1.20 pooka int op, fd; 590 1.20 pooka 591 1.20 pooka fd = rblk->rblk_fd; 592 1.20 pooka if (BUF_ISREAD(bp)) { 593 1.20 pooka op = RUA_OP_READ; 594 1.20 pooka } else { 595 1.20 pooka op = RUA_OP_WRITE; 596 1.20 pooka if (!async) { 597 1.20 pooka /* O_DIRECT not fully automatic yet */ 598 1.20 pooka #ifdef HAS_ODIRECT 599 1.20 pooka if ((off & (DEV_BSIZE-1)) == 0 600 1.20 pooka && ((intptr_t)bp->b_data&(DEV_BSIZE-1)) == 0 601 1.20 pooka && (bp->b_bcount & (DEV_BSIZE-1)) == 0) 602 1.20 pooka fd = rblk->rblk_dfd; 603 1.20 pooka else 604 1.20 pooka #endif 605 1.20 pooka op |= RUA_OP_SYNC; 606 1.20 pooka } 607 1.20 pooka } 608 1.1 pooka 609 1.1 pooka rumpuser_mutex_enter(&rumpuser_aio_mtx); 610 1.20 pooka while ((rumpuser_aio_head+1) % N_AIOS == rumpuser_aio_tail) { 611 1.13 pooka rumpuser_cv_wait(&rumpuser_aio_cv, &rumpuser_aio_mtx); 612 1.20 pooka } 613 1.1 pooka 614 1.2 pooka rua = &rumpuser_aios[rumpuser_aio_head]; 615 1.2 pooka KASSERT(rua->rua_bp == NULL); 616 1.20 pooka rua->rua_fd = fd; 617 1.2 pooka rua->rua_data = bp->b_data; 618 1.2 pooka rua->rua_dlen = bp->b_bcount; 619 1.2 pooka rua->rua_off = off; 620 1.2 pooka rua->rua_bp = bp; 621 1.20 pooka rua->rua_op = op; 622 1.2 pooka 623 1.1 pooka /* insert into queue & signal */ 624 1.6 pooka rumpuser_aio_head = (rumpuser_aio_head+1) % N_AIOS; 625 1.1 pooka rumpuser_cv_signal(&rumpuser_aio_cv); 626 1.1 pooka rumpuser_mutex_exit(&rumpuser_aio_mtx); 627 1.1 pooka } else { 628 1.1 pooka if (BUF_ISREAD(bp)) { 629 1.1 pooka rumpuser_read_bio(rblk->rblk_fd, bp->b_data, 630 1.1 pooka bp->b_bcount, off, rump_biodone, bp); 631 1.1 pooka } else { 632 1.1 pooka rumpuser_write_bio(rblk->rblk_fd, bp->b_data, 633 1.1 pooka bp->b_bcount, off, rump_biodone, bp); 634 1.1 pooka } 635 1.20 pooka if (BUF_ISWRITE(bp) && !async) 636 1.20 pooka rumpuser_fsync(rblk->rblk_fd, &error); 637 1.1 pooka } 638 1.1 pooka } 639 1.3 pooka 640 1.3 pooka void 641 1.3 pooka rumpblk_strategy(struct buf *bp) 642 1.3 pooka { 643 1.3 pooka 644 1.3 pooka dostrategy(bp); 645 1.3 pooka } 646 1.3 pooka 647 1.3 pooka /* 648 1.4 pooka * Simple random number generator. This is private so that we can 649 1.4 pooka * very repeatedly control which blocks will fail. 650 1.4 pooka * 651 1.3 pooka * <mlelstv> pooka, rand() 652 1.3 pooka * <mlelstv> [paste] 653 1.3 pooka */ 654 1.3 pooka static unsigned 655 1.3 pooka gimmerand(void) 656 1.3 pooka { 657 1.3 pooka 658 1.3 pooka return (randstate = randstate * 1103515245 + 12345) % (0x80000000L); 659 1.3 pooka } 660 1.3 pooka 661 1.3 pooka /* 662 1.3 pooka * Block device with very simple fault injection. Fails every 663 1.3 pooka * n out of BLKFAIL_MAX I/O with EIO. n is determined by the env 664 1.3 pooka * variable RUMP_BLKFAIL. 665 1.3 pooka */ 666 1.3 pooka void 667 1.3 pooka rumpblk_strategy_fail(struct buf *bp) 668 1.3 pooka { 669 1.3 pooka 670 1.3 pooka if (gimmerand() % BLKFAIL_MAX >= blkfail) { 671 1.3 pooka dostrategy(bp); 672 1.3 pooka } else { 673 1.3 pooka printf("block fault injection: failing I/O on block %lld\n", 674 1.3 pooka (long long)bp->b_blkno); 675 1.3 pooka bp->b_error = EIO; 676 1.3 pooka biodone(bp); 677 1.3 pooka } 678 1.3 pooka } 679
Indexes created Tue Sep 30 17:09:57 GMT 2025