subr_devsw.c revision 1.12.4.3
1 1.12.4.3 mjf /* $NetBSD: subr_devsw.c,v 1.12.4.3 2008/02/18 21:06:47 mjf Exp $ */ 2 1.11 ad 3 1.2 gehenna /*- 4 1.11 ad * Copyright (c) 2001, 2002, 2007 The NetBSD Foundation, Inc. 5 1.2 gehenna * All rights reserved. 6 1.2 gehenna * 7 1.2 gehenna * This code is derived from software contributed to The NetBSD Foundation 8 1.11 ad * by MAEKAWA Masahide <gehenna (at) NetBSD.org>, and by Andrew Doran. 9 1.2 gehenna * 10 1.2 gehenna * Redistribution and use in source and binary forms, with or without 11 1.2 gehenna * modification, are permitted provided that the following conditions 12 1.2 gehenna * are met: 13 1.2 gehenna * 1. Redistributions of source code must retain the above copyright 14 1.2 gehenna * notice, this list of conditions and the following disclaimer. 15 1.2 gehenna * 2. Redistributions in binary form must reproduce the above copyright 16 1.2 gehenna * notice, this list of conditions and the following disclaimer in the 17 1.2 gehenna * documentation and/or other materials provided with the distribution. 18 1.2 gehenna * 3. All advertising materials mentioning features or use of this software 19 1.2 gehenna * must display the following acknowledgement: 20 1.2 gehenna * This product includes software developed by the NetBSD 21 1.2 gehenna * Foundation, Inc. and its contributors. 22 1.2 gehenna * 4. Neither the name of The NetBSD Foundation nor the names of its 23 1.2 gehenna * contributors may be used to endorse or promote products derived 24 1.2 gehenna * from this software without specific prior written permission. 25 1.2 gehenna * 26 1.2 gehenna * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 27 1.2 gehenna * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 28 1.2 gehenna * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 29 1.2 gehenna * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 30 1.2 gehenna * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 31 1.2 gehenna * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 32 1.2 gehenna * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 33 1.2 gehenna * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 34 1.2 gehenna * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 35 1.2 gehenna * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 36 1.2 gehenna * POSSIBILITY OF SUCH DAMAGE. 37 1.2 gehenna */ 38 1.11 ad 39 1.11 ad /* 40 1.11 ad * Overview 41 1.11 ad * 42 1.11 ad * subr_devsw.c: registers device drivers by name and by major 43 1.11 ad * number, and provides wrapper methods for performing I/O and 44 1.11 ad * other tasks on device drivers, keying on the device number 45 1.11 ad * (dev_t). 46 1.11 ad * 47 1.11 ad * When the system is built, the config(8) command generates 48 1.11 ad * static tables of device drivers built into the kernel image 49 1.11 ad * along with their associated methods. These are recorded in 50 1.11 ad * the cdevsw0 and bdevsw0 tables. Drivers can also be added to 51 1.11 ad * and removed from the system dynamically. 52 1.11 ad * 53 1.11 ad * Allocation 54 1.11 ad * 55 1.11 ad * When the system initially boots only the statically allocated 56 1.11 ad * indexes (bdevsw0, cdevsw0) are used. If these overflow due to 57 1.11 ad * allocation, we allocate a fixed block of memory to hold the new, 58 1.11 ad * expanded index. This "fork" of the table is only ever performed 59 1.11 ad * once in order to guarantee that other threads may safely access 60 1.11 ad * the device tables: 61 1.11 ad * 62 1.11 ad * o Once a thread has a "reference" to the table via an earlier 63 1.11 ad * open() call, we know that the entry in the table must exist 64 1.11 ad * and so it is safe to access it. 65 1.11 ad * 66 1.11 ad * o Regardless of whether other threads see the old or new 67 1.11 ad * pointers, they will point to a correct device switch 68 1.11 ad * structure for the operation being performed. 69 1.11 ad * 70 1.11 ad * XXX Currently, the wrapper methods such as cdev_read() verify 71 1.11 ad * that a device driver does in fact exist before calling the 72 1.11 ad * associated driver method. This should be changed so that 73 1.11 ad * once the device is has been referenced by a vnode (opened), 74 1.11 ad * calling the other methods should be valid until that reference 75 1.11 ad * is dropped. 76 1.11 ad */ 77 1.7 lukem 78 1.7 lukem #include <sys/cdefs.h> 79 1.12.4.3 mjf __KERNEL_RCSID(0, "$NetBSD: subr_devsw.c,v 1.12.4.3 2008/02/18 21:06:47 mjf Exp $"); 80 1.2 gehenna 81 1.2 gehenna #include <sys/param.h> 82 1.2 gehenna #include <sys/conf.h> 83 1.11 ad #include <sys/kmem.h> 84 1.2 gehenna #include <sys/systm.h> 85 1.11 ad #include <sys/poll.h> 86 1.11 ad #include <sys/tty.h> 87 1.12.4.3 mjf #include <sys/cpu.h> 88 1.11 ad #include <sys/buf.h> 89 1.2 gehenna 90 1.2 gehenna #ifdef DEVSW_DEBUG 91 1.2 gehenna #define DPRINTF(x) printf x 92 1.2 gehenna #else /* DEVSW_DEBUG */ 93 1.2 gehenna #define DPRINTF(x) 94 1.2 gehenna #endif /* DEVSW_DEBUG */ 95 1.2 gehenna 96 1.11 ad #define MAXDEVSW 512 /* the maximum of major device number */ 97 1.2 gehenna #define BDEVSW_SIZE (sizeof(struct bdevsw *)) 98 1.2 gehenna #define CDEVSW_SIZE (sizeof(struct cdevsw *)) 99 1.2 gehenna #define DEVSWCONV_SIZE (sizeof(struct devsw_conv)) 100 1.2 gehenna 101 1.2 gehenna extern const struct bdevsw **bdevsw, *bdevsw0[]; 102 1.2 gehenna extern const struct cdevsw **cdevsw, *cdevsw0[]; 103 1.2 gehenna extern struct devsw_conv *devsw_conv, devsw_conv0[]; 104 1.2 gehenna extern const int sys_bdevsws, sys_cdevsws; 105 1.2 gehenna extern int max_bdevsws, max_cdevsws, max_devsw_convs; 106 1.2 gehenna 107 1.12.4.2 mjf static int bdevsw_attach(const struct bdevsw *, int *); 108 1.12.4.2 mjf static int cdevsw_attach(const struct cdevsw *, int *); 109 1.11 ad static void devsw_detach_locked(const struct bdevsw *, const struct cdevsw *); 110 1.11 ad 111 1.12.4.1 mjf kmutex_t devsw_lock; 112 1.11 ad 113 1.11 ad void 114 1.11 ad devsw_init(void) 115 1.11 ad { 116 1.11 ad 117 1.11 ad KASSERT(sys_bdevsws < MAXDEVSW - 1); 118 1.11 ad KASSERT(sys_cdevsws < MAXDEVSW - 1); 119 1.11 ad 120 1.11 ad mutex_init(&devsw_lock, MUTEX_DEFAULT, IPL_NONE); 121 1.11 ad } 122 1.2 gehenna 123 1.2 gehenna int 124 1.2 gehenna devsw_attach(const char *devname, const struct bdevsw *bdev, int *bmajor, 125 1.2 gehenna const struct cdevsw *cdev, int *cmajor) 126 1.2 gehenna { 127 1.2 gehenna struct devsw_conv *conv; 128 1.2 gehenna char *name; 129 1.2 gehenna int error, i; 130 1.2 gehenna 131 1.2 gehenna if (devname == NULL || cdev == NULL) 132 1.2 gehenna return (EINVAL); 133 1.2 gehenna 134 1.11 ad mutex_enter(&devsw_lock); 135 1.11 ad 136 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 137 1.2 gehenna conv = &devsw_conv[i]; 138 1.2 gehenna if (conv->d_name == NULL || strcmp(devname, conv->d_name) != 0) 139 1.2 gehenna continue; 140 1.2 gehenna 141 1.2 gehenna if (*bmajor < 0) 142 1.2 gehenna *bmajor = conv->d_bmajor; 143 1.2 gehenna if (*cmajor < 0) 144 1.2 gehenna *cmajor = conv->d_cmajor; 145 1.2 gehenna 146 1.11 ad if (*bmajor != conv->d_bmajor || *cmajor != conv->d_cmajor) { 147 1.11 ad error = EINVAL; 148 1.11 ad goto fail; 149 1.11 ad } 150 1.11 ad if ((*bmajor >= 0 && bdev == NULL) || *cmajor < 0) { 151 1.11 ad error = EINVAL; 152 1.11 ad goto fail; 153 1.11 ad } 154 1.2 gehenna 155 1.2 gehenna if ((*bmajor >= 0 && bdevsw[*bmajor] != NULL) || 156 1.11 ad cdevsw[*cmajor] != NULL) { 157 1.11 ad error = EEXIST; 158 1.11 ad goto fail; 159 1.11 ad } 160 1.2 gehenna 161 1.2 gehenna if (bdev != NULL) 162 1.2 gehenna bdevsw[*bmajor] = bdev; 163 1.2 gehenna cdevsw[*cmajor] = cdev; 164 1.2 gehenna 165 1.11 ad mutex_exit(&devsw_lock); 166 1.2 gehenna return (0); 167 1.2 gehenna } 168 1.2 gehenna 169 1.12.4.2 mjf error = bdevsw_attach(bdev, bmajor); 170 1.11 ad if (error != 0) 171 1.11 ad goto fail; 172 1.12.4.2 mjf error = cdevsw_attach(cdev, cmajor); 173 1.2 gehenna if (error != 0) { 174 1.11 ad devsw_detach_locked(bdev, NULL); 175 1.11 ad goto fail; 176 1.2 gehenna } 177 1.2 gehenna 178 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 179 1.2 gehenna if (devsw_conv[i].d_name == NULL) 180 1.2 gehenna break; 181 1.2 gehenna } 182 1.2 gehenna if (i == max_devsw_convs) { 183 1.2 gehenna struct devsw_conv *newptr; 184 1.2 gehenna int old, new; 185 1.2 gehenna 186 1.2 gehenna old = max_devsw_convs; 187 1.2 gehenna new = old + 1; 188 1.2 gehenna 189 1.11 ad newptr = kmem_zalloc(new * DEVSWCONV_SIZE, KM_NOSLEEP); 190 1.2 gehenna if (newptr == NULL) { 191 1.11 ad devsw_detach_locked(bdev, cdev); 192 1.11 ad error = ENOMEM; 193 1.11 ad goto fail; 194 1.2 gehenna } 195 1.2 gehenna newptr[old].d_name = NULL; 196 1.2 gehenna newptr[old].d_bmajor = -1; 197 1.2 gehenna newptr[old].d_cmajor = -1; 198 1.2 gehenna memcpy(newptr, devsw_conv, old * DEVSWCONV_SIZE); 199 1.2 gehenna if (devsw_conv != devsw_conv0) 200 1.11 ad kmem_free(devsw_conv, old * DEVSWCONV_SIZE); 201 1.2 gehenna devsw_conv = newptr; 202 1.2 gehenna max_devsw_convs = new; 203 1.2 gehenna } 204 1.2 gehenna 205 1.6 itojun i = strlen(devname) + 1; 206 1.11 ad name = kmem_alloc(i, KM_NOSLEEP); 207 1.2 gehenna if (name == NULL) { 208 1.11 ad devsw_detach_locked(bdev, cdev); 209 1.11 ad goto fail; 210 1.2 gehenna } 211 1.6 itojun strlcpy(name, devname, i); 212 1.2 gehenna 213 1.2 gehenna devsw_conv[i].d_name = name; 214 1.2 gehenna devsw_conv[i].d_bmajor = *bmajor; 215 1.2 gehenna devsw_conv[i].d_cmajor = *cmajor; 216 1.2 gehenna 217 1.11 ad mutex_exit(&devsw_lock); 218 1.2 gehenna return (0); 219 1.11 ad fail: 220 1.11 ad mutex_exit(&devsw_lock); 221 1.11 ad return (error); 222 1.2 gehenna } 223 1.2 gehenna 224 1.2 gehenna static int 225 1.12.4.2 mjf bdevsw_attach(const struct bdevsw *devsw, int *devmajor) 226 1.2 gehenna { 227 1.11 ad const struct bdevsw **newptr; 228 1.2 gehenna int bmajor, i; 229 1.2 gehenna 230 1.11 ad KASSERT(mutex_owned(&devsw_lock)); 231 1.11 ad 232 1.2 gehenna if (devsw == NULL) 233 1.2 gehenna return (0); 234 1.2 gehenna 235 1.2 gehenna if (*devmajor < 0) { 236 1.2 gehenna for (bmajor = sys_bdevsws ; bmajor < max_bdevsws ; bmajor++) { 237 1.2 gehenna if (bdevsw[bmajor] != NULL) 238 1.2 gehenna continue; 239 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 240 1.2 gehenna if (devsw_conv[i].d_bmajor == bmajor) 241 1.2 gehenna break; 242 1.2 gehenna } 243 1.2 gehenna if (i != max_devsw_convs) 244 1.2 gehenna continue; 245 1.2 gehenna break; 246 1.2 gehenna } 247 1.3 gehenna *devmajor = bmajor; 248 1.2 gehenna } 249 1.11 ad 250 1.2 gehenna if (*devmajor >= MAXDEVSW) { 251 1.11 ad printf("bdevsw_attach: block majors exhausted"); 252 1.2 gehenna return (ENOMEM); 253 1.2 gehenna } 254 1.2 gehenna 255 1.2 gehenna if (*devmajor >= max_bdevsws) { 256 1.11 ad KASSERT(bdevsw == bdevsw0); 257 1.11 ad newptr = kmem_zalloc(MAXDEVSW * BDEVSW_SIZE, KM_NOSLEEP); 258 1.2 gehenna if (newptr == NULL) 259 1.2 gehenna return (ENOMEM); 260 1.11 ad memcpy(newptr, bdevsw, max_bdevsws * BDEVSW_SIZE); 261 1.2 gehenna bdevsw = newptr; 262 1.11 ad max_bdevsws = MAXDEVSW; 263 1.2 gehenna } 264 1.2 gehenna 265 1.2 gehenna if (bdevsw[*devmajor] != NULL) 266 1.2 gehenna return (EEXIST); 267 1.2 gehenna 268 1.2 gehenna bdevsw[*devmajor] = devsw; 269 1.2 gehenna 270 1.2 gehenna return (0); 271 1.2 gehenna } 272 1.2 gehenna 273 1.2 gehenna static int 274 1.12.4.2 mjf cdevsw_attach(const struct cdevsw *devsw, int *devmajor) 275 1.2 gehenna { 276 1.11 ad const struct cdevsw **newptr; 277 1.2 gehenna int cmajor, i; 278 1.2 gehenna 279 1.11 ad KASSERT(mutex_owned(&devsw_lock)); 280 1.11 ad 281 1.2 gehenna if (*devmajor < 0) { 282 1.2 gehenna for (cmajor = sys_cdevsws ; cmajor < max_cdevsws ; cmajor++) { 283 1.2 gehenna if (cdevsw[cmajor] != NULL) 284 1.2 gehenna continue; 285 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 286 1.2 gehenna if (devsw_conv[i].d_cmajor == cmajor) 287 1.2 gehenna break; 288 1.2 gehenna } 289 1.2 gehenna if (i != max_devsw_convs) 290 1.2 gehenna continue; 291 1.2 gehenna break; 292 1.2 gehenna } 293 1.3 gehenna *devmajor = cmajor; 294 1.2 gehenna } 295 1.11 ad 296 1.2 gehenna if (*devmajor >= MAXDEVSW) { 297 1.11 ad printf("cdevsw_attach: character majors exhausted"); 298 1.2 gehenna return (ENOMEM); 299 1.2 gehenna } 300 1.2 gehenna 301 1.2 gehenna if (*devmajor >= max_cdevsws) { 302 1.11 ad KASSERT(cdevsw == cdevsw0); 303 1.11 ad newptr = kmem_zalloc(MAXDEVSW * CDEVSW_SIZE, KM_NOSLEEP); 304 1.2 gehenna if (newptr == NULL) 305 1.2 gehenna return (ENOMEM); 306 1.11 ad memcpy(newptr, cdevsw, max_cdevsws * CDEVSW_SIZE); 307 1.2 gehenna cdevsw = newptr; 308 1.11 ad max_cdevsws = MAXDEVSW; 309 1.2 gehenna } 310 1.2 gehenna 311 1.2 gehenna if (cdevsw[*devmajor] != NULL) 312 1.2 gehenna return (EEXIST); 313 1.2 gehenna 314 1.2 gehenna cdevsw[*devmajor] = devsw; 315 1.2 gehenna 316 1.2 gehenna return (0); 317 1.2 gehenna } 318 1.2 gehenna 319 1.11 ad static void 320 1.11 ad devsw_detach_locked(const struct bdevsw *bdev, const struct cdevsw *cdev) 321 1.2 gehenna { 322 1.2 gehenna int i; 323 1.2 gehenna 324 1.11 ad KASSERT(mutex_owned(&devsw_lock)); 325 1.11 ad 326 1.2 gehenna if (bdev != NULL) { 327 1.2 gehenna for (i = 0 ; i < max_bdevsws ; i++) { 328 1.2 gehenna if (bdevsw[i] != bdev) 329 1.2 gehenna continue; 330 1.2 gehenna bdevsw[i] = NULL; 331 1.2 gehenna break; 332 1.2 gehenna } 333 1.2 gehenna } 334 1.2 gehenna if (cdev != NULL) { 335 1.2 gehenna for (i = 0 ; i < max_cdevsws ; i++) { 336 1.2 gehenna if (cdevsw[i] != cdev) 337 1.2 gehenna continue; 338 1.2 gehenna cdevsw[i] = NULL; 339 1.2 gehenna break; 340 1.2 gehenna } 341 1.2 gehenna } 342 1.2 gehenna } 343 1.2 gehenna 344 1.11 ad void 345 1.11 ad devsw_detach(const struct bdevsw *bdev, const struct cdevsw *cdev) 346 1.11 ad { 347 1.11 ad 348 1.11 ad mutex_enter(&devsw_lock); 349 1.11 ad devsw_detach_locked(bdev, cdev); 350 1.11 ad mutex_exit(&devsw_lock); 351 1.11 ad } 352 1.11 ad 353 1.11 ad /* 354 1.11 ad * Look up a block device by number. 355 1.11 ad * 356 1.11 ad * => Caller must ensure that the device is attached. 357 1.11 ad */ 358 1.2 gehenna const struct bdevsw * 359 1.2 gehenna bdevsw_lookup(dev_t dev) 360 1.2 gehenna { 361 1.2 gehenna int bmajor; 362 1.2 gehenna 363 1.2 gehenna if (dev == NODEV) 364 1.2 gehenna return (NULL); 365 1.2 gehenna bmajor = major(dev); 366 1.2 gehenna if (bmajor < 0 || bmajor >= max_bdevsws) 367 1.2 gehenna return (NULL); 368 1.2 gehenna 369 1.2 gehenna return (bdevsw[bmajor]); 370 1.2 gehenna } 371 1.2 gehenna 372 1.11 ad /* 373 1.11 ad * Look up a character device by number. 374 1.11 ad * 375 1.11 ad * => Caller must ensure that the device is attached. 376 1.11 ad */ 377 1.2 gehenna const struct cdevsw * 378 1.2 gehenna cdevsw_lookup(dev_t dev) 379 1.2 gehenna { 380 1.2 gehenna int cmajor; 381 1.2 gehenna 382 1.2 gehenna if (dev == NODEV) 383 1.2 gehenna return (NULL); 384 1.2 gehenna cmajor = major(dev); 385 1.2 gehenna if (cmajor < 0 || cmajor >= max_cdevsws) 386 1.2 gehenna return (NULL); 387 1.2 gehenna 388 1.2 gehenna return (cdevsw[cmajor]); 389 1.2 gehenna } 390 1.2 gehenna 391 1.11 ad /* 392 1.11 ad * Look up a block device by reference to its operations set. 393 1.11 ad * 394 1.11 ad * => Caller must ensure that the device is not detached, and therefore 395 1.11 ad * that the returned major is still valid when dereferenced. 396 1.11 ad */ 397 1.2 gehenna int 398 1.2 gehenna bdevsw_lookup_major(const struct bdevsw *bdev) 399 1.2 gehenna { 400 1.2 gehenna int bmajor; 401 1.2 gehenna 402 1.2 gehenna for (bmajor = 0 ; bmajor < max_bdevsws ; bmajor++) { 403 1.2 gehenna if (bdevsw[bmajor] == bdev) 404 1.2 gehenna return (bmajor); 405 1.2 gehenna } 406 1.2 gehenna 407 1.2 gehenna return (-1); 408 1.2 gehenna } 409 1.2 gehenna 410 1.11 ad /* 411 1.11 ad * Look up a character device by reference to its operations set. 412 1.11 ad * 413 1.11 ad * => Caller must ensure that the device is not detached, and therefore 414 1.11 ad * that the returned major is still valid when dereferenced. 415 1.11 ad */ 416 1.2 gehenna int 417 1.2 gehenna cdevsw_lookup_major(const struct cdevsw *cdev) 418 1.2 gehenna { 419 1.2 gehenna int cmajor; 420 1.2 gehenna 421 1.2 gehenna for (cmajor = 0 ; cmajor < max_cdevsws ; cmajor++) { 422 1.2 gehenna if (cdevsw[cmajor] == cdev) 423 1.2 gehenna return (cmajor); 424 1.2 gehenna } 425 1.2 gehenna 426 1.2 gehenna return (-1); 427 1.2 gehenna } 428 1.2 gehenna 429 1.2 gehenna /* 430 1.2 gehenna * Convert from block major number to name. 431 1.11 ad * 432 1.11 ad * => Caller must ensure that the device is not detached, and therefore 433 1.11 ad * that the name pointer is still valid when dereferenced. 434 1.2 gehenna */ 435 1.2 gehenna const char * 436 1.2 gehenna devsw_blk2name(int bmajor) 437 1.2 gehenna { 438 1.11 ad const char *name; 439 1.2 gehenna int cmajor, i; 440 1.2 gehenna 441 1.11 ad name = NULL; 442 1.11 ad cmajor = -1; 443 1.11 ad 444 1.11 ad mutex_enter(&devsw_lock); 445 1.11 ad if (bmajor < 0 || bmajor >= max_bdevsws || bdevsw[bmajor] == NULL) { 446 1.11 ad mutex_exit(&devsw_lock); 447 1.2 gehenna return (NULL); 448 1.2 gehenna } 449 1.11 ad for (i = 0 ; i < max_devsw_convs; i++) { 450 1.11 ad if (devsw_conv[i].d_bmajor == bmajor) { 451 1.11 ad cmajor = devsw_conv[i].d_cmajor; 452 1.11 ad break; 453 1.11 ad } 454 1.11 ad } 455 1.11 ad if (cmajor >= 0 && cmajor < max_cdevsws && cdevsw[cmajor] != NULL) 456 1.11 ad name = devsw_conv[i].d_name; 457 1.11 ad mutex_exit(&devsw_lock); 458 1.2 gehenna 459 1.11 ad return (name); 460 1.2 gehenna } 461 1.2 gehenna 462 1.2 gehenna /* 463 1.2 gehenna * Convert from device name to block major number. 464 1.11 ad * 465 1.11 ad * => Caller must ensure that the device is not detached, and therefore 466 1.11 ad * that the major number is still valid when dereferenced. 467 1.2 gehenna */ 468 1.2 gehenna int 469 1.2 gehenna devsw_name2blk(const char *name, char *devname, size_t devnamelen) 470 1.2 gehenna { 471 1.2 gehenna struct devsw_conv *conv; 472 1.2 gehenna int bmajor, i; 473 1.2 gehenna 474 1.2 gehenna if (name == NULL) 475 1.2 gehenna return (-1); 476 1.2 gehenna 477 1.11 ad mutex_enter(&devsw_lock); 478 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 479 1.5 mrg size_t len; 480 1.5 mrg 481 1.2 gehenna conv = &devsw_conv[i]; 482 1.2 gehenna if (conv->d_name == NULL) 483 1.2 gehenna continue; 484 1.5 mrg len = strlen(conv->d_name); 485 1.5 mrg if (strncmp(conv->d_name, name, len) != 0) 486 1.5 mrg continue; 487 1.5 mrg if (*(name +len) && !isdigit(*(name + len))) 488 1.2 gehenna continue; 489 1.2 gehenna bmajor = conv->d_bmajor; 490 1.2 gehenna if (bmajor < 0 || bmajor >= max_bdevsws || 491 1.2 gehenna bdevsw[bmajor] == NULL) 492 1.5 mrg break; 493 1.2 gehenna if (devname != NULL) { 494 1.2 gehenna #ifdef DEVSW_DEBUG 495 1.2 gehenna if (strlen(conv->d_name) >= devnamelen) 496 1.2 gehenna printf("devsw_name2blk: too short buffer"); 497 1.2 gehenna #endif /* DEVSW_DEBUG */ 498 1.4 tsutsui strncpy(devname, conv->d_name, devnamelen); 499 1.2 gehenna devname[devnamelen - 1] = '\0'; 500 1.2 gehenna } 501 1.11 ad mutex_exit(&devsw_lock); 502 1.2 gehenna return (bmajor); 503 1.2 gehenna } 504 1.2 gehenna 505 1.11 ad mutex_exit(&devsw_lock); 506 1.2 gehenna return (-1); 507 1.2 gehenna } 508 1.2 gehenna 509 1.2 gehenna /* 510 1.2 gehenna * Convert from character dev_t to block dev_t. 511 1.11 ad * 512 1.11 ad * => Caller must ensure that the device is not detached, and therefore 513 1.11 ad * that the major number is still valid when dereferenced. 514 1.2 gehenna */ 515 1.2 gehenna dev_t 516 1.2 gehenna devsw_chr2blk(dev_t cdev) 517 1.2 gehenna { 518 1.2 gehenna int bmajor, cmajor, i; 519 1.11 ad dev_t rv; 520 1.2 gehenna 521 1.2 gehenna cmajor = major(cdev); 522 1.11 ad bmajor = -1; 523 1.11 ad rv = NODEV; 524 1.2 gehenna 525 1.11 ad mutex_enter(&devsw_lock); 526 1.11 ad if (cmajor < 0 || cmajor >= max_cdevsws || cdevsw[cmajor] == NULL) { 527 1.11 ad mutex_exit(&devsw_lock); 528 1.11 ad return (NODEV); 529 1.11 ad } 530 1.2 gehenna for (i = 0 ; i < max_devsw_convs ; i++) { 531 1.11 ad if (devsw_conv[i].d_cmajor == cmajor) { 532 1.11 ad bmajor = devsw_conv[i].d_bmajor; 533 1.11 ad break; 534 1.11 ad } 535 1.2 gehenna } 536 1.11 ad if (bmajor >= 0 && bmajor < max_bdevsws && bdevsw[bmajor] != NULL) 537 1.11 ad rv = makedev(bmajor, minor(cdev)); 538 1.11 ad mutex_exit(&devsw_lock); 539 1.2 gehenna 540 1.11 ad return (rv); 541 1.2 gehenna } 542 1.2 gehenna 543 1.2 gehenna /* 544 1.2 gehenna * Convert from block dev_t to character dev_t. 545 1.11 ad * 546 1.11 ad * => Caller must ensure that the device is not detached, and therefore 547 1.11 ad * that the major number is still valid when dereferenced. 548 1.2 gehenna */ 549 1.2 gehenna dev_t 550 1.2 gehenna devsw_blk2chr(dev_t bdev) 551 1.2 gehenna { 552 1.2 gehenna int bmajor, cmajor, i; 553 1.11 ad dev_t rv; 554 1.2 gehenna 555 1.11 ad bmajor = major(bdev); 556 1.11 ad cmajor = -1; 557 1.11 ad rv = NODEV; 558 1.11 ad 559 1.11 ad mutex_enter(&devsw_lock); 560 1.11 ad if (bmajor < 0 || bmajor >= max_bdevsws || bdevsw[bmajor] == NULL) { 561 1.11 ad mutex_exit(&devsw_lock); 562 1.2 gehenna return (NODEV); 563 1.11 ad } 564 1.11 ad for (i = 0 ; i < max_devsw_convs ; i++) { 565 1.11 ad if (devsw_conv[i].d_bmajor == bmajor) { 566 1.11 ad cmajor = devsw_conv[i].d_cmajor; 567 1.11 ad break; 568 1.11 ad } 569 1.11 ad } 570 1.11 ad if (cmajor >= 0 && cmajor < max_cdevsws && cdevsw[cmajor] != NULL) 571 1.11 ad rv = makedev(cmajor, minor(bdev)); 572 1.11 ad mutex_exit(&devsw_lock); 573 1.2 gehenna 574 1.11 ad return (rv); 575 1.11 ad } 576 1.11 ad 577 1.11 ad /* 578 1.11 ad * Device access methods. 579 1.11 ad */ 580 1.11 ad 581 1.11 ad #define DEV_LOCK(d) \ 582 1.11 ad if ((d->d_flag & D_MPSAFE) == 0) { \ 583 1.11 ad KERNEL_LOCK(1, curlwp); \ 584 1.11 ad } 585 1.2 gehenna 586 1.11 ad #define DEV_UNLOCK(d) \ 587 1.11 ad if ((d->d_flag & D_MPSAFE) == 0) { \ 588 1.11 ad KERNEL_UNLOCK_ONE(curlwp); \ 589 1.2 gehenna } 590 1.2 gehenna 591 1.11 ad int 592 1.11 ad bdev_open(dev_t dev, int flag, int devtype, lwp_t *l) 593 1.11 ad { 594 1.11 ad const struct bdevsw *d; 595 1.11 ad int rv; 596 1.11 ad 597 1.11 ad /* 598 1.11 ad * For open we need to lock, in order to synchronize 599 1.11 ad * with attach/detach. 600 1.11 ad */ 601 1.11 ad mutex_enter(&devsw_lock); 602 1.11 ad d = bdevsw_lookup(dev); 603 1.11 ad mutex_exit(&devsw_lock); 604 1.11 ad if (d == NULL) 605 1.11 ad return ENXIO; 606 1.11 ad 607 1.11 ad DEV_LOCK(d); 608 1.11 ad rv = (*d->d_open)(dev, flag, devtype, l); 609 1.11 ad DEV_UNLOCK(d); 610 1.11 ad 611 1.11 ad return rv; 612 1.11 ad } 613 1.11 ad 614 1.11 ad int 615 1.11 ad bdev_close(dev_t dev, int flag, int devtype, lwp_t *l) 616 1.11 ad { 617 1.11 ad const struct bdevsw *d; 618 1.11 ad int rv; 619 1.11 ad 620 1.11 ad if ((d = bdevsw_lookup(dev)) == NULL) 621 1.11 ad return ENXIO; 622 1.11 ad 623 1.11 ad DEV_LOCK(d); 624 1.11 ad rv = (*d->d_close)(dev, flag, devtype, l); 625 1.11 ad DEV_UNLOCK(d); 626 1.11 ad 627 1.11 ad return rv; 628 1.11 ad } 629 1.11 ad 630 1.11 ad void 631 1.11 ad bdev_strategy(struct buf *bp) 632 1.11 ad { 633 1.11 ad const struct bdevsw *d; 634 1.11 ad 635 1.11 ad if ((d = bdevsw_lookup(bp->b_dev)) == NULL) 636 1.11 ad panic("bdev_strategy"); 637 1.11 ad 638 1.11 ad DEV_LOCK(d); 639 1.11 ad (*d->d_strategy)(bp); 640 1.11 ad DEV_UNLOCK(d); 641 1.11 ad } 642 1.11 ad 643 1.11 ad int 644 1.11 ad bdev_ioctl(dev_t dev, u_long cmd, void *data, int flag, lwp_t *l) 645 1.11 ad { 646 1.11 ad const struct bdevsw *d; 647 1.11 ad int rv; 648 1.11 ad 649 1.11 ad if ((d = bdevsw_lookup(dev)) == NULL) 650 1.11 ad return ENXIO; 651 1.11 ad 652 1.11 ad DEV_LOCK(d); 653 1.11 ad rv = (*d->d_ioctl)(dev, cmd, data, flag, l); 654 1.11 ad DEV_UNLOCK(d); 655 1.11 ad 656 1.11 ad return rv; 657 1.11 ad } 658 1.11 ad 659 1.11 ad int 660 1.11 ad bdev_dump(dev_t dev, daddr_t addr, void *data, size_t sz) 661 1.11 ad { 662 1.11 ad const struct bdevsw *d; 663 1.11 ad int rv; 664 1.11 ad 665 1.11 ad /* 666 1.11 ad * Dump can be called without the device open. Since it can 667 1.11 ad * currently only be called with the system paused (and in a 668 1.11 ad * potentially unstable state), we don't perform any locking. 669 1.11 ad */ 670 1.11 ad if ((d = bdevsw_lookup(dev)) == NULL) 671 1.11 ad return ENXIO; 672 1.11 ad 673 1.11 ad /* DEV_LOCK(d); */ 674 1.11 ad rv = (*d->d_dump)(dev, addr, data, sz); 675 1.11 ad /* DEV_UNLOCK(d); */ 676 1.11 ad 677 1.11 ad return rv; 678 1.11 ad } 679 1.11 ad 680 1.11 ad int 681 1.11 ad bdev_type(dev_t dev) 682 1.11 ad { 683 1.11 ad const struct bdevsw *d; 684 1.11 ad 685 1.11 ad if ((d = bdevsw_lookup(dev)) == NULL) 686 1.11 ad return D_OTHER; 687 1.11 ad return d->d_flag & D_TYPEMASK; 688 1.11 ad } 689 1.11 ad 690 1.11 ad int 691 1.11 ad cdev_open(dev_t dev, int flag, int devtype, lwp_t *l) 692 1.11 ad { 693 1.11 ad const struct cdevsw *d; 694 1.11 ad int rv; 695 1.11 ad 696 1.11 ad /* 697 1.11 ad * For open we need to lock, in order to synchronize 698 1.11 ad * with attach/detach. 699 1.11 ad */ 700 1.11 ad mutex_enter(&devsw_lock); 701 1.11 ad d = cdevsw_lookup(dev); 702 1.11 ad mutex_exit(&devsw_lock); 703 1.11 ad if (d == NULL) 704 1.11 ad return ENXIO; 705 1.11 ad 706 1.11 ad DEV_LOCK(d); 707 1.11 ad rv = (*d->d_open)(dev, flag, devtype, l); 708 1.11 ad DEV_UNLOCK(d); 709 1.11 ad 710 1.11 ad return rv; 711 1.11 ad } 712 1.11 ad 713 1.11 ad int 714 1.11 ad cdev_close(dev_t dev, int flag, int devtype, lwp_t *l) 715 1.11 ad { 716 1.11 ad const struct cdevsw *d; 717 1.11 ad int rv; 718 1.11 ad 719 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 720 1.11 ad return ENXIO; 721 1.11 ad 722 1.11 ad DEV_LOCK(d); 723 1.11 ad rv = (*d->d_close)(dev, flag, devtype, l); 724 1.11 ad DEV_UNLOCK(d); 725 1.11 ad 726 1.11 ad return rv; 727 1.11 ad } 728 1.11 ad 729 1.11 ad int 730 1.11 ad cdev_read(dev_t dev, struct uio *uio, int flag) 731 1.11 ad { 732 1.11 ad const struct cdevsw *d; 733 1.11 ad int rv; 734 1.11 ad 735 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 736 1.11 ad return ENXIO; 737 1.11 ad 738 1.11 ad DEV_LOCK(d); 739 1.11 ad rv = (*d->d_read)(dev, uio, flag); 740 1.11 ad DEV_UNLOCK(d); 741 1.11 ad 742 1.11 ad return rv; 743 1.11 ad } 744 1.11 ad 745 1.11 ad int 746 1.11 ad cdev_write(dev_t dev, struct uio *uio, int flag) 747 1.11 ad { 748 1.11 ad const struct cdevsw *d; 749 1.11 ad int rv; 750 1.11 ad 751 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 752 1.11 ad return ENXIO; 753 1.11 ad 754 1.11 ad DEV_LOCK(d); 755 1.11 ad rv = (*d->d_write)(dev, uio, flag); 756 1.11 ad DEV_UNLOCK(d); 757 1.11 ad 758 1.11 ad return rv; 759 1.11 ad } 760 1.11 ad 761 1.11 ad int 762 1.11 ad cdev_ioctl(dev_t dev, u_long cmd, void *data, int flag, lwp_t *l) 763 1.11 ad { 764 1.11 ad const struct cdevsw *d; 765 1.11 ad int rv; 766 1.11 ad 767 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 768 1.11 ad return ENXIO; 769 1.11 ad 770 1.11 ad DEV_LOCK(d); 771 1.11 ad rv = (*d->d_ioctl)(dev, cmd, data, flag, l); 772 1.11 ad DEV_UNLOCK(d); 773 1.11 ad 774 1.11 ad return rv; 775 1.11 ad } 776 1.11 ad 777 1.11 ad void 778 1.11 ad cdev_stop(struct tty *tp, int flag) 779 1.11 ad { 780 1.11 ad const struct cdevsw *d; 781 1.11 ad 782 1.11 ad if ((d = cdevsw_lookup(tp->t_dev)) == NULL) 783 1.11 ad return; 784 1.11 ad 785 1.11 ad DEV_LOCK(d); 786 1.11 ad (*d->d_stop)(tp, flag); 787 1.11 ad DEV_UNLOCK(d); 788 1.11 ad } 789 1.11 ad 790 1.11 ad struct tty * 791 1.11 ad cdev_tty(dev_t dev) 792 1.11 ad { 793 1.11 ad const struct cdevsw *d; 794 1.11 ad struct tty * rv; 795 1.11 ad 796 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 797 1.11 ad return NULL; 798 1.11 ad 799 1.12 ad /* XXX Check if necessary. */ 800 1.12 ad if (d->d_tty == NULL) 801 1.12 ad return NULL; 802 1.12 ad 803 1.11 ad DEV_LOCK(d); 804 1.11 ad rv = (*d->d_tty)(dev); 805 1.11 ad DEV_UNLOCK(d); 806 1.11 ad 807 1.11 ad return rv; 808 1.11 ad } 809 1.11 ad 810 1.11 ad int 811 1.11 ad cdev_poll(dev_t dev, int flag, lwp_t *l) 812 1.11 ad { 813 1.11 ad const struct cdevsw *d; 814 1.11 ad int rv; 815 1.11 ad 816 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 817 1.11 ad return POLLERR; 818 1.11 ad 819 1.11 ad DEV_LOCK(d); 820 1.11 ad rv = (*d->d_poll)(dev, flag, l); 821 1.11 ad DEV_UNLOCK(d); 822 1.11 ad 823 1.11 ad return rv; 824 1.11 ad } 825 1.11 ad 826 1.11 ad paddr_t 827 1.11 ad cdev_mmap(dev_t dev, off_t off, int flag) 828 1.11 ad { 829 1.11 ad const struct cdevsw *d; 830 1.11 ad paddr_t rv; 831 1.11 ad 832 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 833 1.11 ad return (paddr_t)-1LL; 834 1.11 ad 835 1.11 ad DEV_LOCK(d); 836 1.11 ad rv = (*d->d_mmap)(dev, off, flag); 837 1.11 ad DEV_UNLOCK(d); 838 1.11 ad 839 1.11 ad return rv; 840 1.11 ad } 841 1.11 ad 842 1.11 ad int 843 1.11 ad cdev_kqfilter(dev_t dev, struct knote *kn) 844 1.11 ad { 845 1.11 ad const struct cdevsw *d; 846 1.11 ad int rv; 847 1.11 ad 848 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 849 1.11 ad return ENXIO; 850 1.11 ad 851 1.11 ad DEV_LOCK(d); 852 1.11 ad rv = (*d->d_kqfilter)(dev, kn); 853 1.11 ad DEV_UNLOCK(d); 854 1.11 ad 855 1.11 ad return rv; 856 1.11 ad } 857 1.11 ad 858 1.11 ad int 859 1.11 ad cdev_type(dev_t dev) 860 1.11 ad { 861 1.11 ad const struct cdevsw *d; 862 1.11 ad 863 1.11 ad if ((d = cdevsw_lookup(dev)) == NULL) 864 1.11 ad return D_OTHER; 865 1.11 ad return d->d_flag & D_TYPEMASK; 866 1.2 gehenna } 867
Indexes created Tue Sep 30 20:09:53 GMT 2025