1ca987d46SWarner Losh /*- 2ca987d46SWarner Losh * Copyright (c) 1998 Michael Smith <msmith@freebsd.org> 3ca987d46SWarner Losh * Copyright 2015 Toomas Soome <tsoome@me.com> 4ca987d46SWarner Losh * All rights reserved. 5ca987d46SWarner Losh * 6ca987d46SWarner Losh * Redistribution and use in source and binary forms, with or without 7ca987d46SWarner Losh * modification, are permitted provided that the following conditions 8ca987d46SWarner Losh * are met: 9ca987d46SWarner Losh * 1. Redistributions of source code must retain the above copyright 10ca987d46SWarner Losh * notice, this list of conditions and the following disclaimer. 11ca987d46SWarner Losh * 2. Redistributions in binary form must reproduce the above copyright 12ca987d46SWarner Losh * notice, this list of conditions and the following disclaimer in the 13ca987d46SWarner Losh * documentation and/or other materials provided with the distribution. 14ca987d46SWarner Losh * 15ca987d46SWarner Losh * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16ca987d46SWarner Losh * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17ca987d46SWarner Losh * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18ca987d46SWarner Losh * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19ca987d46SWarner Losh * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20ca987d46SWarner Losh * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21ca987d46SWarner Losh * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22ca987d46SWarner Losh * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23ca987d46SWarner Losh * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24ca987d46SWarner Losh * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25ca987d46SWarner Losh * SUCH DAMAGE. 26ca987d46SWarner Losh */ 27ca987d46SWarner Losh 28ca987d46SWarner Losh #include <sys/cdefs.h> 29ca987d46SWarner Losh #include <sys/param.h> 30ca987d46SWarner Losh __FBSDID("$FreeBSD$"); 31ca987d46SWarner Losh 32ca987d46SWarner Losh /* 33ca987d46SWarner Losh * Simple hashed block cache 34ca987d46SWarner Losh */ 35ca987d46SWarner Losh 36ca987d46SWarner Losh #include <sys/stdint.h> 37ca987d46SWarner Losh 38ca987d46SWarner Losh #include <stand.h> 39ca987d46SWarner Losh #include <string.h> 40ca987d46SWarner Losh #include <strings.h> 41ca987d46SWarner Losh 42ca987d46SWarner Losh #include "bootstrap.h" 43ca987d46SWarner Losh 44ca987d46SWarner Losh /* #define BCACHE_DEBUG */ 45ca987d46SWarner Losh 46ca987d46SWarner Losh #ifdef BCACHE_DEBUG 477325df02SKyle Evans # define DPRINTF(fmt, args...) printf("%s: " fmt "\n" , __func__ , ## args) 48ca987d46SWarner Losh #else 49*74772ef1SToomas Soome # define DPRINTF(fmt, args...) ((void)0) 50ca987d46SWarner Losh #endif 51ca987d46SWarner Losh 52ca987d46SWarner Losh struct bcachectl 53ca987d46SWarner Losh { 54ca987d46SWarner Losh daddr_t bc_blkno; 55ca987d46SWarner Losh int bc_count; 56ca987d46SWarner Losh }; 57ca987d46SWarner Losh 58ca987d46SWarner Losh /* 59ca987d46SWarner Losh * bcache per device node. cache is allocated on device first open and freed 60ca987d46SWarner Losh * on last close, to save memory. The issue there is the size; biosdisk 61ca987d46SWarner Losh * supports up to 31 (0x1f) devices. Classic setup would use single disk 62ca987d46SWarner Losh * to boot from, but this has changed with zfs. 63ca987d46SWarner Losh */ 64ca987d46SWarner Losh struct bcache { 65ca987d46SWarner Losh struct bcachectl *bcache_ctl; 66ca987d46SWarner Losh caddr_t bcache_data; 67ca987d46SWarner Losh size_t bcache_nblks; 68ca987d46SWarner Losh size_t ra; 69ca987d46SWarner Losh }; 70ca987d46SWarner Losh 71ca987d46SWarner Losh static u_int bcache_total_nblks; /* set by bcache_init */ 72ca987d46SWarner Losh static u_int bcache_blksize; /* set by bcache_init */ 73ca987d46SWarner Losh static u_int bcache_numdev; /* set by bcache_add_dev */ 74ca987d46SWarner Losh /* statistics */ 75ca987d46SWarner Losh static u_int bcache_units; /* number of devices with cache */ 76ca987d46SWarner Losh static u_int bcache_unit_nblks; /* nblocks per unit */ 77ca987d46SWarner Losh static u_int bcache_hits; 78ca987d46SWarner Losh static u_int bcache_misses; 79ca987d46SWarner Losh static u_int bcache_ops; 80ca987d46SWarner Losh static u_int bcache_bypasses; 81ca987d46SWarner Losh static u_int bcache_bcount; 82ca987d46SWarner Losh static u_int bcache_rablks; 83ca987d46SWarner Losh 84ca987d46SWarner Losh #define BHASH(bc, blkno) ((blkno) & ((bc)->bcache_nblks - 1)) 85ca987d46SWarner Losh #define BCACHE_LOOKUP(bc, blkno) \ 86ca987d46SWarner Losh ((bc)->bcache_ctl[BHASH((bc), (blkno))].bc_blkno != (blkno)) 87ca987d46SWarner Losh #define BCACHE_READAHEAD 256 88ca987d46SWarner Losh #define BCACHE_MINREADAHEAD 32 89ca987d46SWarner Losh 90ca987d46SWarner Losh static void bcache_invalidate(struct bcache *bc, daddr_t blkno); 91ca987d46SWarner Losh static void bcache_insert(struct bcache *bc, daddr_t blkno); 92ca987d46SWarner Losh static void bcache_free_instance(struct bcache *bc); 93ca987d46SWarner Losh 94ca987d46SWarner Losh /* 95ca987d46SWarner Losh * Initialise the cache for (nblks) of (bsize). 96ca987d46SWarner Losh */ 97ca987d46SWarner Losh void 98ca987d46SWarner Losh bcache_init(size_t nblks, size_t bsize) 99ca987d46SWarner Losh { 100ca987d46SWarner Losh /* set up control data */ 101ca987d46SWarner Losh bcache_total_nblks = nblks; 102ca987d46SWarner Losh bcache_blksize = bsize; 103ca987d46SWarner Losh } 104ca987d46SWarner Losh 105ca987d46SWarner Losh /* 106ca987d46SWarner Losh * add number of devices to bcache. we have to divide cache space 107ca987d46SWarner Losh * between the devices, so bcache_add_dev() can be used to set up the 108ca987d46SWarner Losh * number. The issue is, we need to get the number before actual allocations. 109ca987d46SWarner Losh * bcache_add_dev() is supposed to be called from device init() call, so the 110ca987d46SWarner Losh * assumption is, devsw dv_init is called for plain devices first, and 111ca987d46SWarner Losh * for zfs, last. 112ca987d46SWarner Losh */ 113ca987d46SWarner Losh void 114ca987d46SWarner Losh bcache_add_dev(int devices) 115ca987d46SWarner Losh { 116ca987d46SWarner Losh bcache_numdev += devices; 117ca987d46SWarner Losh } 118ca987d46SWarner Losh 119ca987d46SWarner Losh void * 120ca987d46SWarner Losh bcache_allocate(void) 121ca987d46SWarner Losh { 122ca987d46SWarner Losh u_int i; 123ca987d46SWarner Losh struct bcache *bc = malloc(sizeof (struct bcache)); 124ca987d46SWarner Losh int disks = bcache_numdev; 125ca987d46SWarner Losh 126ca987d46SWarner Losh if (disks == 0) 127ca987d46SWarner Losh disks = 1; /* safe guard */ 128ca987d46SWarner Losh 129ca987d46SWarner Losh if (bc == NULL) { 130ca987d46SWarner Losh errno = ENOMEM; 131ca987d46SWarner Losh return (bc); 132ca987d46SWarner Losh } 133ca987d46SWarner Losh 134ca987d46SWarner Losh /* 135ca987d46SWarner Losh * the bcache block count must be power of 2 for hash function 136ca987d46SWarner Losh */ 137ca987d46SWarner Losh i = fls(disks) - 1; /* highbit - 1 */ 138ca987d46SWarner Losh if (disks > (1 << i)) /* next power of 2 */ 139ca987d46SWarner Losh i++; 140ca987d46SWarner Losh 141ca987d46SWarner Losh bc->bcache_nblks = bcache_total_nblks >> i; 142ca987d46SWarner Losh bcache_unit_nblks = bc->bcache_nblks; 1436c81fe16SMaxim Sobolev bc->bcache_data = malloc(bc->bcache_nblks * bcache_blksize); 144ca987d46SWarner Losh if (bc->bcache_data == NULL) { 145ca987d46SWarner Losh /* dont error out yet. fall back to 32 blocks and try again */ 146ca987d46SWarner Losh bc->bcache_nblks = 32; 147ca987d46SWarner Losh bc->bcache_data = malloc(bc->bcache_nblks * bcache_blksize + 148ca987d46SWarner Losh sizeof(uint32_t)); 149ca987d46SWarner Losh } 150ca987d46SWarner Losh 151ca987d46SWarner Losh bc->bcache_ctl = malloc(bc->bcache_nblks * sizeof(struct bcachectl)); 152ca987d46SWarner Losh 153ca987d46SWarner Losh if ((bc->bcache_data == NULL) || (bc->bcache_ctl == NULL)) { 154ca987d46SWarner Losh bcache_free_instance(bc); 155ca987d46SWarner Losh errno = ENOMEM; 156ca987d46SWarner Losh return (NULL); 157ca987d46SWarner Losh } 158ca987d46SWarner Losh 159ca987d46SWarner Losh /* Flush the cache */ 160ca987d46SWarner Losh for (i = 0; i < bc->bcache_nblks; i++) { 161ca987d46SWarner Losh bc->bcache_ctl[i].bc_count = -1; 162ca987d46SWarner Losh bc->bcache_ctl[i].bc_blkno = -1; 163ca987d46SWarner Losh } 164ca987d46SWarner Losh bcache_units++; 165ca987d46SWarner Losh bc->ra = BCACHE_READAHEAD; /* optimistic read ahead */ 166ca987d46SWarner Losh return (bc); 167ca987d46SWarner Losh } 168ca987d46SWarner Losh 169ca987d46SWarner Losh void 170ca987d46SWarner Losh bcache_free(void *cache) 171ca987d46SWarner Losh { 172ca987d46SWarner Losh struct bcache *bc = cache; 173ca987d46SWarner Losh 174ca987d46SWarner Losh if (bc == NULL) 175ca987d46SWarner Losh return; 176ca987d46SWarner Losh 177ca987d46SWarner Losh bcache_free_instance(bc); 178ca987d46SWarner Losh bcache_units--; 179ca987d46SWarner Losh } 180ca987d46SWarner Losh 181ca987d46SWarner Losh /* 182ca987d46SWarner Losh * Handle a write request; write directly to the disk, and populate the 183ca987d46SWarner Losh * cache with the new values. 184ca987d46SWarner Losh */ 185ca987d46SWarner Losh static int 186ca987d46SWarner Losh write_strategy(void *devdata, int rw, daddr_t blk, size_t size, 187ca987d46SWarner Losh char *buf, size_t *rsize) 188ca987d46SWarner Losh { 189ca987d46SWarner Losh struct bcache_devdata *dd = (struct bcache_devdata *)devdata; 190ca987d46SWarner Losh struct bcache *bc = dd->dv_cache; 191ca987d46SWarner Losh daddr_t i, nblk; 192ca987d46SWarner Losh 193ca987d46SWarner Losh nblk = size / bcache_blksize; 194ca987d46SWarner Losh 195ca987d46SWarner Losh /* Invalidate the blocks being written */ 196ca987d46SWarner Losh for (i = 0; i < nblk; i++) { 197ca987d46SWarner Losh bcache_invalidate(bc, blk + i); 198ca987d46SWarner Losh } 199ca987d46SWarner Losh 200ca987d46SWarner Losh /* Write the blocks */ 201ca987d46SWarner Losh return (dd->dv_strategy(dd->dv_devdata, rw, blk, size, buf, rsize)); 202ca987d46SWarner Losh } 203ca987d46SWarner Losh 204ca987d46SWarner Losh /* 205ca987d46SWarner Losh * Handle a read request; fill in parts of the request that can 206ca987d46SWarner Losh * be satisfied by the cache, use the supplied strategy routine to do 207ca987d46SWarner Losh * device I/O and then use the I/O results to populate the cache. 208ca987d46SWarner Losh */ 209ca987d46SWarner Losh static int 210ca987d46SWarner Losh read_strategy(void *devdata, int rw, daddr_t blk, size_t size, 211ca987d46SWarner Losh char *buf, size_t *rsize) 212ca987d46SWarner Losh { 213ca987d46SWarner Losh struct bcache_devdata *dd = (struct bcache_devdata *)devdata; 214ca987d46SWarner Losh struct bcache *bc = dd->dv_cache; 215ca987d46SWarner Losh size_t i, nblk, p_size, r_size, complete, ra; 216ca987d46SWarner Losh int result; 217ca987d46SWarner Losh daddr_t p_blk; 218ca987d46SWarner Losh caddr_t p_buf; 219ca987d46SWarner Losh 220ca987d46SWarner Losh if (bc == NULL) { 221ca987d46SWarner Losh errno = ENODEV; 222ca987d46SWarner Losh return (-1); 223ca987d46SWarner Losh } 224ca987d46SWarner Losh 225ca987d46SWarner Losh if (rsize != NULL) 226ca987d46SWarner Losh *rsize = 0; 227ca987d46SWarner Losh 228ca987d46SWarner Losh nblk = size / bcache_blksize; 229ca987d46SWarner Losh if (nblk == 0 && size != 0) 230ca987d46SWarner Losh nblk++; 231ca987d46SWarner Losh result = 0; 232ca987d46SWarner Losh complete = 1; 233ca987d46SWarner Losh 234ca987d46SWarner Losh /* Satisfy any cache hits up front, break on first miss */ 235ca987d46SWarner Losh for (i = 0; i < nblk; i++) { 236ca987d46SWarner Losh if (BCACHE_LOOKUP(bc, (daddr_t)(blk + i))) { 237ca987d46SWarner Losh bcache_misses += (nblk - i); 238ca987d46SWarner Losh complete = 0; 239ca987d46SWarner Losh if (nblk - i > BCACHE_MINREADAHEAD && bc->ra > BCACHE_MINREADAHEAD) 240ca987d46SWarner Losh bc->ra >>= 1; /* reduce read ahead */ 241ca987d46SWarner Losh break; 242ca987d46SWarner Losh } else { 243ca987d46SWarner Losh bcache_hits++; 244ca987d46SWarner Losh } 245ca987d46SWarner Losh } 246ca987d46SWarner Losh 247ca987d46SWarner Losh if (complete) { /* whole set was in cache, return it */ 248ca987d46SWarner Losh if (bc->ra < BCACHE_READAHEAD) 249ca987d46SWarner Losh bc->ra <<= 1; /* increase read ahead */ 250ca987d46SWarner Losh bcopy(bc->bcache_data + (bcache_blksize * BHASH(bc, blk)), buf, size); 251ca987d46SWarner Losh goto done; 252ca987d46SWarner Losh } 253ca987d46SWarner Losh 254ca987d46SWarner Losh /* 255ca987d46SWarner Losh * Fill in any misses. From check we have i pointing to first missing 256ca987d46SWarner Losh * block, read in all remaining blocks + readahead. 257ca987d46SWarner Losh * We have space at least for nblk - i before bcache wraps. 258ca987d46SWarner Losh */ 259ca987d46SWarner Losh p_blk = blk + i; 260ca987d46SWarner Losh p_buf = bc->bcache_data + (bcache_blksize * BHASH(bc, p_blk)); 261ca987d46SWarner Losh r_size = bc->bcache_nblks - BHASH(bc, p_blk); /* remaining blocks */ 262ca987d46SWarner Losh 263ca987d46SWarner Losh p_size = MIN(r_size, nblk - i); /* read at least those blocks */ 264ca987d46SWarner Losh 265ca987d46SWarner Losh /* 266ca987d46SWarner Losh * The read ahead size setup. 267ca987d46SWarner Losh * While the read ahead can save us IO, it also can complicate things: 268ca987d46SWarner Losh * 1. We do not want to read ahead by wrapping around the 269ca987d46SWarner Losh * bcache end - this would complicate the cache management. 270ca987d46SWarner Losh * 2. We are using bc->ra as dynamic hint for read ahead size, 271ca987d46SWarner Losh * detected cache hits will increase the read-ahead block count, and 272ca987d46SWarner Losh * misses will decrease, see the code above. 273ca987d46SWarner Losh * 3. The bcache is sized by 512B blocks, however, the underlying device 274ca987d46SWarner Losh * may have a larger sector size, and we should perform the IO by 275ca987d46SWarner Losh * taking into account these larger sector sizes. We could solve this by 276ca987d46SWarner Losh * passing the sector size to bcache_allocate(), or by using ioctl(), but 277ca987d46SWarner Losh * in this version we are using the constant, 16 blocks, and are rounding 278ca987d46SWarner Losh * read ahead block count down to multiple of 16. 279ca987d46SWarner Losh * Using the constant has two reasons, we are not entirely sure if the 280ca987d46SWarner Losh * BIOS disk interface is providing the correct value for sector size. 281ca987d46SWarner Losh * And secondly, this way we get the most conservative setup for the ra. 282ca987d46SWarner Losh * 283ca987d46SWarner Losh * The selection of multiple of 16 blocks (8KB) is quite arbitrary, however, 284ca987d46SWarner Losh * we want to cover CDs (2K) and 4K disks. 285ca987d46SWarner Losh * bcache_allocate() will always fall back to a minimum of 32 blocks. 286ca987d46SWarner Losh * Our choice of 16 read ahead blocks will always fit inside the bcache. 287ca987d46SWarner Losh */ 288ca987d46SWarner Losh 289ca987d46SWarner Losh if ((rw & F_NORA) == F_NORA) 290ca987d46SWarner Losh ra = 0; 291ca987d46SWarner Losh else 292ca987d46SWarner Losh ra = bc->bcache_nblks - BHASH(bc, p_blk + p_size); 293ca987d46SWarner Losh 294ca987d46SWarner Losh if (ra != 0 && ra != bc->bcache_nblks) { /* do we have RA space? */ 295ca987d46SWarner Losh ra = MIN(bc->ra, ra - 1); 296ca987d46SWarner Losh ra = rounddown(ra, 16); /* multiple of 16 blocks */ 297ca987d46SWarner Losh p_size += ra; 298ca987d46SWarner Losh } 299ca987d46SWarner Losh 300ca987d46SWarner Losh /* invalidate bcache */ 301ca987d46SWarner Losh for (i = 0; i < p_size; i++) { 302ca987d46SWarner Losh bcache_invalidate(bc, p_blk + i); 303ca987d46SWarner Losh } 304ca987d46SWarner Losh 305ca987d46SWarner Losh r_size = 0; 306ca987d46SWarner Losh /* 307ca987d46SWarner Losh * with read-ahead, it may happen we are attempting to read past 308ca987d46SWarner Losh * disk end, as bcache has no information about disk size. 309ca987d46SWarner Losh * in such case we should get partial read if some blocks can be 310ca987d46SWarner Losh * read or error, if no blocks can be read. 311ca987d46SWarner Losh * in either case we should return the data in bcache and only 312ca987d46SWarner Losh * return error if there is no data. 313ca987d46SWarner Losh */ 314ca987d46SWarner Losh rw &= F_MASK; 315ca987d46SWarner Losh result = dd->dv_strategy(dd->dv_devdata, rw, p_blk, 316ca987d46SWarner Losh p_size * bcache_blksize, p_buf, &r_size); 317ca987d46SWarner Losh 318ca987d46SWarner Losh r_size /= bcache_blksize; 319ca987d46SWarner Losh for (i = 0; i < r_size; i++) 320ca987d46SWarner Losh bcache_insert(bc, p_blk + i); 321ca987d46SWarner Losh 322ca987d46SWarner Losh /* update ra statistics */ 323ca987d46SWarner Losh if (r_size != 0) { 324ca987d46SWarner Losh if (r_size < p_size) 325ca987d46SWarner Losh bcache_rablks += (p_size - r_size); 326ca987d46SWarner Losh else 327ca987d46SWarner Losh bcache_rablks += ra; 328ca987d46SWarner Losh } 329ca987d46SWarner Losh 330ca987d46SWarner Losh /* check how much data can we copy */ 331ca987d46SWarner Losh for (i = 0; i < nblk; i++) { 332ca987d46SWarner Losh if (BCACHE_LOOKUP(bc, (daddr_t)(blk + i))) 333ca987d46SWarner Losh break; 334ca987d46SWarner Losh } 335ca987d46SWarner Losh 336ca987d46SWarner Losh if (size > i * bcache_blksize) 337ca987d46SWarner Losh size = i * bcache_blksize; 338ca987d46SWarner Losh 339ca987d46SWarner Losh if (size != 0) { 340ca987d46SWarner Losh bcopy(bc->bcache_data + (bcache_blksize * BHASH(bc, blk)), buf, size); 341ca987d46SWarner Losh result = 0; 342ca987d46SWarner Losh } 343ca987d46SWarner Losh 344ca987d46SWarner Losh done: 345ca987d46SWarner Losh if ((result == 0) && (rsize != NULL)) 346ca987d46SWarner Losh *rsize = size; 347ca987d46SWarner Losh return(result); 348ca987d46SWarner Losh } 349ca987d46SWarner Losh 350ca987d46SWarner Losh /* 351ca987d46SWarner Losh * Requests larger than 1/2 cache size will be bypassed and go 352ca987d46SWarner Losh * directly to the disk. XXX tune this. 353ca987d46SWarner Losh */ 354ca987d46SWarner Losh int 355ca987d46SWarner Losh bcache_strategy(void *devdata, int rw, daddr_t blk, size_t size, 356ca987d46SWarner Losh char *buf, size_t *rsize) 357ca987d46SWarner Losh { 358ca987d46SWarner Losh struct bcache_devdata *dd = (struct bcache_devdata *)devdata; 359ca987d46SWarner Losh struct bcache *bc = dd->dv_cache; 360ca987d46SWarner Losh u_int bcache_nblks = 0; 361ca987d46SWarner Losh int nblk, cblk, ret; 362ca987d46SWarner Losh size_t csize, isize, total; 363ca987d46SWarner Losh 364ca987d46SWarner Losh bcache_ops++; 365ca987d46SWarner Losh 366ca987d46SWarner Losh if (bc != NULL) 367ca987d46SWarner Losh bcache_nblks = bc->bcache_nblks; 368ca987d46SWarner Losh 369ca987d46SWarner Losh /* bypass large requests, or when the cache is inactive */ 370ca987d46SWarner Losh if (bc == NULL || 371ca987d46SWarner Losh ((size * 2 / bcache_blksize) > bcache_nblks)) { 3727325df02SKyle Evans DPRINTF("bypass %zu from %qu", size / bcache_blksize, blk); 373ca987d46SWarner Losh bcache_bypasses++; 374ca987d46SWarner Losh rw &= F_MASK; 375ca987d46SWarner Losh return (dd->dv_strategy(dd->dv_devdata, rw, blk, size, buf, rsize)); 376ca987d46SWarner Losh } 377ca987d46SWarner Losh 378ca987d46SWarner Losh switch (rw & F_MASK) { 379ca987d46SWarner Losh case F_READ: 380ca987d46SWarner Losh nblk = size / bcache_blksize; 381ca987d46SWarner Losh if (size != 0 && nblk == 0) 382ca987d46SWarner Losh nblk++; /* read at least one block */ 383ca987d46SWarner Losh 384ca987d46SWarner Losh ret = 0; 385ca987d46SWarner Losh total = 0; 386ca987d46SWarner Losh while(size) { 387ca987d46SWarner Losh cblk = bcache_nblks - BHASH(bc, blk); /* # of blocks left */ 388ca987d46SWarner Losh cblk = MIN(cblk, nblk); 389ca987d46SWarner Losh 390ca987d46SWarner Losh if (size <= bcache_blksize) 391ca987d46SWarner Losh csize = size; 392ca987d46SWarner Losh else 393ca987d46SWarner Losh csize = cblk * bcache_blksize; 394ca987d46SWarner Losh 395ca987d46SWarner Losh ret = read_strategy(devdata, rw, blk, csize, buf+total, &isize); 396ca987d46SWarner Losh 397ca987d46SWarner Losh /* 398ca987d46SWarner Losh * we may have error from read ahead, if we have read some data 399ca987d46SWarner Losh * return partial read. 400ca987d46SWarner Losh */ 401ca987d46SWarner Losh if (ret != 0 || isize == 0) { 402ca987d46SWarner Losh if (total != 0) 403ca987d46SWarner Losh ret = 0; 404ca987d46SWarner Losh break; 405ca987d46SWarner Losh } 406ca987d46SWarner Losh blk += isize / bcache_blksize; 407ca987d46SWarner Losh total += isize; 408ca987d46SWarner Losh size -= isize; 409ca987d46SWarner Losh nblk = size / bcache_blksize; 410ca987d46SWarner Losh } 411ca987d46SWarner Losh 412ca987d46SWarner Losh if (rsize) 413ca987d46SWarner Losh *rsize = total; 414ca987d46SWarner Losh 415ca987d46SWarner Losh return (ret); 416ca987d46SWarner Losh case F_WRITE: 417ca987d46SWarner Losh return write_strategy(devdata, F_WRITE, blk, size, buf, rsize); 418ca987d46SWarner Losh } 419ca987d46SWarner Losh return -1; 420ca987d46SWarner Losh } 421ca987d46SWarner Losh 422ca987d46SWarner Losh /* 423ca987d46SWarner Losh * Free allocated bcache instance 424ca987d46SWarner Losh */ 425ca987d46SWarner Losh static void 426ca987d46SWarner Losh bcache_free_instance(struct bcache *bc) 427ca987d46SWarner Losh { 428ca987d46SWarner Losh if (bc != NULL) { 429ca987d46SWarner Losh if (bc->bcache_ctl) 430ca987d46SWarner Losh free(bc->bcache_ctl); 431ca987d46SWarner Losh if (bc->bcache_data) 432ca987d46SWarner Losh free(bc->bcache_data); 433ca987d46SWarner Losh free(bc); 434ca987d46SWarner Losh } 435ca987d46SWarner Losh } 436ca987d46SWarner Losh 437ca987d46SWarner Losh /* 438ca987d46SWarner Losh * Insert a block into the cache. 439ca987d46SWarner Losh */ 440ca987d46SWarner Losh static void 441ca987d46SWarner Losh bcache_insert(struct bcache *bc, daddr_t blkno) 442ca987d46SWarner Losh { 443ca987d46SWarner Losh u_int cand; 444ca987d46SWarner Losh 445ca987d46SWarner Losh cand = BHASH(bc, blkno); 446ca987d46SWarner Losh 4477325df02SKyle Evans DPRINTF("insert blk %llu -> %u # %d", blkno, cand, bcache_bcount); 448ca987d46SWarner Losh bc->bcache_ctl[cand].bc_blkno = blkno; 449ca987d46SWarner Losh bc->bcache_ctl[cand].bc_count = bcache_bcount++; 450ca987d46SWarner Losh } 451ca987d46SWarner Losh 452ca987d46SWarner Losh /* 453ca987d46SWarner Losh * Invalidate a block from the cache. 454ca987d46SWarner Losh */ 455ca987d46SWarner Losh static void 456ca987d46SWarner Losh bcache_invalidate(struct bcache *bc, daddr_t blkno) 457ca987d46SWarner Losh { 458ca987d46SWarner Losh u_int i; 459ca987d46SWarner Losh 460ca987d46SWarner Losh i = BHASH(bc, blkno); 461ca987d46SWarner Losh if (bc->bcache_ctl[i].bc_blkno == blkno) { 462ca987d46SWarner Losh bc->bcache_ctl[i].bc_count = -1; 463ca987d46SWarner Losh bc->bcache_ctl[i].bc_blkno = -1; 4647325df02SKyle Evans DPRINTF("invalidate blk %llu", blkno); 465ca987d46SWarner Losh } 466ca987d46SWarner Losh } 467ca987d46SWarner Losh 468ca987d46SWarner Losh #ifndef BOOT2 469ca987d46SWarner Losh COMMAND_SET(bcachestat, "bcachestat", "get disk block cache stats", command_bcache); 470ca987d46SWarner Losh 471ca987d46SWarner Losh static int 472ca987d46SWarner Losh command_bcache(int argc, char *argv[]) 473ca987d46SWarner Losh { 474ca987d46SWarner Losh if (argc != 1) { 475ca987d46SWarner Losh command_errmsg = "wrong number of arguments"; 476ca987d46SWarner Losh return(CMD_ERROR); 477ca987d46SWarner Losh } 478ca987d46SWarner Losh 47913dcff6bSToomas Soome printf("\ncache blocks: %u\n", bcache_total_nblks); 48013dcff6bSToomas Soome printf("cache blocksz: %u\n", bcache_blksize); 48113dcff6bSToomas Soome printf("cache readahead: %u\n", bcache_rablks); 48213dcff6bSToomas Soome printf("unit cache blocks: %u\n", bcache_unit_nblks); 48313dcff6bSToomas Soome printf("cached units: %u\n", bcache_units); 48413dcff6bSToomas Soome printf("%u ops %d bypasses %u hits %u misses\n", bcache_ops, 485ca987d46SWarner Losh bcache_bypasses, bcache_hits, bcache_misses); 486ca987d46SWarner Losh return(CMD_OK); 487ca987d46SWarner Losh } 488ca987d46SWarner Losh #endif 489