uvm_readahead.c revision 1.4
1 1.4 tsutsui /* $NetBSD: uvm_readahead.c,v 1.4 2007/05/11 12:11:09 tsutsui Exp $ */ 2 1.2 yamt 3 1.2 yamt /*- 4 1.2 yamt * Copyright (c)2003, 2005 YAMAMOTO Takashi, 5 1.2 yamt * All rights reserved. 6 1.2 yamt * 7 1.2 yamt * Redistribution and use in source and binary forms, with or without 8 1.2 yamt * modification, are permitted provided that the following conditions 9 1.2 yamt * are met: 10 1.2 yamt * 1. Redistributions of source code must retain the above copyright 11 1.2 yamt * notice, this list of conditions and the following disclaimer. 12 1.2 yamt * 2. Redistributions in binary form must reproduce the above copyright 13 1.2 yamt * notice, this list of conditions and the following disclaimer in the 14 1.2 yamt * documentation and/or other materials provided with the distribution. 15 1.2 yamt * 16 1.2 yamt * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 17 1.2 yamt * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 18 1.2 yamt * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 19 1.2 yamt * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 20 1.2 yamt * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21 1.2 yamt * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 22 1.2 yamt * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 23 1.2 yamt * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 24 1.2 yamt * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.2 yamt * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.2 yamt * SUCH DAMAGE. 27 1.2 yamt */ 28 1.2 yamt 29 1.2 yamt /* 30 1.2 yamt * uvm_object read-ahead 31 1.2 yamt * 32 1.2 yamt * TODO: 33 1.2 yamt * - tune. 34 1.2 yamt * - handle multiple streams. 35 1.2 yamt * - find a better way to deal with PGO_LOCKED pager requests. 36 1.2 yamt * (currently just ignored) 37 1.2 yamt * - consider the amount of memory in the system. 38 1.2 yamt * - consider the speed of the underlying device. 39 1.2 yamt * - consider filesystem block size / block layout. 40 1.2 yamt */ 41 1.2 yamt 42 1.2 yamt #include <sys/cdefs.h> 43 1.4 tsutsui __KERNEL_RCSID(0, "$NetBSD: uvm_readahead.c,v 1.4 2007/05/11 12:11:09 tsutsui Exp $"); 44 1.2 yamt 45 1.2 yamt #include <sys/param.h> 46 1.2 yamt #include <sys/pool.h> 47 1.2 yamt 48 1.2 yamt #include <uvm/uvm.h> 49 1.2 yamt #include <uvm/uvm_readahead.h> 50 1.2 yamt 51 1.2 yamt #if defined(READAHEAD_DEBUG) 52 1.2 yamt #define DPRINTF(a) printf a 53 1.2 yamt #else /* defined(READAHEAD_DEBUG) */ 54 1.2 yamt #define DPRINTF(a) /* nothing */ 55 1.2 yamt #endif /* defined(READAHEAD_DEBUG) */ 56 1.2 yamt 57 1.2 yamt /* 58 1.2 yamt * uvm_ractx: read-ahead context. 59 1.2 yamt */ 60 1.2 yamt 61 1.2 yamt struct uvm_ractx { 62 1.2 yamt int ra_flags; 63 1.2 yamt #define RA_VALID 1 64 1.2 yamt off_t ra_winstart; /* window start offset */ 65 1.2 yamt size_t ra_winsize; /* window size */ 66 1.2 yamt off_t ra_next; /* next offset to read-ahead */ 67 1.2 yamt }; 68 1.2 yamt 69 1.4 tsutsui #if defined(sun2) || (defined(sun3) && defined(_SUN3_)) 70 1.4 tsutsui /* XXX: on sun2 and sun3 (but not sun3x) MAXPHYS is 0xe000 */ 71 1.4 tsutsui #undef MAXPHYS 72 1.4 tsutsui #define MAXPHYS 0x8000 /* XXX */ 73 1.4 tsutsui #endif 74 1.4 tsutsui 75 1.2 yamt #define RA_WINSIZE_INIT MAXPHYS /* initial window size */ 76 1.2 yamt #define RA_WINSIZE_MAX (MAXPHYS * 8) /* max window size */ 77 1.2 yamt #define RA_WINSIZE_SEQENTIAL RA_WINSIZE_MAX /* fixed window size used for 78 1.2 yamt SEQUENTIAL hint */ 79 1.2 yamt #define RA_MINSIZE (MAXPHYS * 2) /* min size to start i/o */ 80 1.2 yamt #define RA_IOCHUNK MAXPHYS /* read-ahead i/o chunk size */ 81 1.2 yamt 82 1.2 yamt static off_t ra_startio(struct uvm_object *, off_t, size_t); 83 1.2 yamt static struct uvm_ractx *ra_allocctx(void); 84 1.2 yamt static void ra_freectx(struct uvm_ractx *); 85 1.2 yamt 86 1.2 yamt static POOL_INIT(ractx_pool, sizeof(struct uvm_ractx), 0, 0, 0, "ractx", 87 1.3 ad &pool_allocator_nointr, IPL_NONE); 88 1.2 yamt 89 1.2 yamt static struct uvm_ractx * 90 1.2 yamt ra_allocctx(void) 91 1.2 yamt { 92 1.2 yamt 93 1.2 yamt return pool_get(&ractx_pool, PR_NOWAIT); 94 1.2 yamt } 95 1.2 yamt 96 1.2 yamt static void 97 1.2 yamt ra_freectx(struct uvm_ractx *ra) 98 1.2 yamt { 99 1.2 yamt 100 1.2 yamt pool_put(&ractx_pool, ra); 101 1.2 yamt } 102 1.2 yamt 103 1.2 yamt /* 104 1.2 yamt * ra_startio: start i/o for read-ahead. 105 1.2 yamt * 106 1.2 yamt * => start i/o for each RA_IOCHUNK sized chunk. 107 1.2 yamt * => return offset to which we started i/o. 108 1.2 yamt */ 109 1.2 yamt 110 1.2 yamt static off_t 111 1.2 yamt ra_startio(struct uvm_object *uobj, off_t off, size_t sz) 112 1.2 yamt { 113 1.2 yamt const off_t endoff = off + sz; 114 1.2 yamt 115 1.2 yamt DPRINTF(("%s: uobj=%p, off=%" PRIu64 ", endoff=%" PRIu64 "\n", 116 1.2 yamt __func__, uobj, off, endoff)); 117 1.2 yamt off = trunc_page(off); 118 1.2 yamt while (off < endoff) { 119 1.2 yamt const size_t chunksize = RA_IOCHUNK; 120 1.2 yamt int error; 121 1.2 yamt size_t donebytes; 122 1.2 yamt int npages; 123 1.2 yamt int orignpages; 124 1.2 yamt size_t bytelen; 125 1.2 yamt 126 1.2 yamt KASSERT((chunksize & (chunksize - 1)) == 0); 127 1.2 yamt KASSERT((off & PAGE_MASK) == 0); 128 1.2 yamt bytelen = ((off + chunksize) & -(off_t)chunksize) - off; 129 1.2 yamt KASSERT((bytelen & PAGE_MASK) == 0); 130 1.2 yamt npages = orignpages = bytelen >> PAGE_SHIFT; 131 1.2 yamt KASSERT(npages != 0); 132 1.2 yamt 133 1.2 yamt /* 134 1.2 yamt * use UVM_ADV_RANDOM to avoid recursion. 135 1.2 yamt */ 136 1.2 yamt 137 1.2 yamt simple_lock(&uobj->vmobjlock); 138 1.2 yamt error = (*uobj->pgops->pgo_get)(uobj, off, NULL, 139 1.2 yamt &npages, 0, VM_PROT_READ, UVM_ADV_RANDOM, 0); 140 1.2 yamt DPRINTF(("%s: off=%" PRIu64 ", bytelen=%zu -> %d\n", 141 1.2 yamt __func__, off, bytelen, error)); 142 1.2 yamt if (error != 0 && error != EBUSY) { 143 1.2 yamt if (error != EINVAL) { /* maybe past EOF */ 144 1.2 yamt DPRINTF(("%s: error=%d\n", __func__, error)); 145 1.2 yamt } 146 1.2 yamt break; 147 1.2 yamt } 148 1.2 yamt KASSERT(orignpages == npages); 149 1.2 yamt donebytes = orignpages << PAGE_SHIFT; 150 1.2 yamt off += donebytes; 151 1.2 yamt } 152 1.2 yamt 153 1.2 yamt return off; 154 1.2 yamt } 155 1.2 yamt 156 1.2 yamt /* ------------------------------------------------------------ */ 157 1.2 yamt 158 1.2 yamt /* 159 1.2 yamt * uvm_ra_allocctx: allocate a context. 160 1.2 yamt */ 161 1.2 yamt 162 1.2 yamt struct uvm_ractx * 163 1.2 yamt uvm_ra_allocctx(void) 164 1.2 yamt { 165 1.2 yamt struct uvm_ractx *ra; 166 1.2 yamt 167 1.2 yamt ra = ra_allocctx(); 168 1.2 yamt if (ra != NULL) { 169 1.2 yamt ra->ra_flags = 0; 170 1.2 yamt } 171 1.2 yamt 172 1.2 yamt return ra; 173 1.2 yamt } 174 1.2 yamt 175 1.2 yamt /* 176 1.2 yamt * uvm_ra_freectx: free a context. 177 1.2 yamt */ 178 1.2 yamt 179 1.2 yamt void 180 1.2 yamt uvm_ra_freectx(struct uvm_ractx *ra) 181 1.2 yamt { 182 1.2 yamt 183 1.2 yamt KASSERT(ra != NULL); 184 1.2 yamt ra_freectx(ra); 185 1.2 yamt } 186 1.2 yamt 187 1.2 yamt /* 188 1.2 yamt * uvm_ra_request: update a read-ahead context and start i/o if appropriate. 189 1.2 yamt * 190 1.2 yamt * => called when [reqoff, reqoff+reqsize) is requested. 191 1.2 yamt */ 192 1.2 yamt 193 1.2 yamt void 194 1.2 yamt uvm_ra_request(struct uvm_ractx *ra, int advice, struct uvm_object *uobj, 195 1.2 yamt off_t reqoff, size_t reqsize) 196 1.2 yamt { 197 1.2 yamt 198 1.2 yamt if (ra == NULL || advice == UVM_ADV_RANDOM) { 199 1.2 yamt return; 200 1.2 yamt } 201 1.2 yamt 202 1.2 yamt /* 203 1.2 yamt * XXX needs locking? maybe. 204 1.2 yamt * but the worst effect is merely a bad read-ahead. 205 1.2 yamt */ 206 1.2 yamt 207 1.2 yamt if (advice == UVM_ADV_SEQUENTIAL) { 208 1.2 yamt 209 1.2 yamt /* 210 1.2 yamt * always do read-ahead with a large window. 211 1.2 yamt */ 212 1.2 yamt 213 1.2 yamt if ((ra->ra_flags & RA_VALID) == 0) { 214 1.2 yamt ra->ra_winstart = ra->ra_next = 0; 215 1.2 yamt ra->ra_flags |= RA_VALID; 216 1.2 yamt } 217 1.2 yamt if (reqoff < ra->ra_winstart) { 218 1.2 yamt ra->ra_next = reqoff; 219 1.2 yamt } 220 1.2 yamt ra->ra_winsize = RA_WINSIZE_SEQENTIAL; 221 1.2 yamt goto do_readahead; 222 1.2 yamt } 223 1.2 yamt 224 1.2 yamt /* 225 1.2 yamt * a request with UVM_ADV_NORMAL hint. (ie. no hint) 226 1.2 yamt * 227 1.2 yamt * we keep a sliding window in order to determine: 228 1.2 yamt * - if the previous read-ahead was successful or not. 229 1.2 yamt * - how many bytes to read-ahead. 230 1.2 yamt */ 231 1.2 yamt 232 1.2 yamt /* 233 1.2 yamt * if it's the first request for this context, 234 1.2 yamt * initialize context and return. 235 1.2 yamt */ 236 1.2 yamt 237 1.2 yamt if ((ra->ra_flags & RA_VALID) == 0) { 238 1.2 yamt initialize: 239 1.2 yamt ra->ra_winstart = ra->ra_next = reqoff + reqsize; 240 1.2 yamt ra->ra_winsize = RA_WINSIZE_INIT; 241 1.2 yamt ra->ra_flags |= RA_VALID; 242 1.2 yamt goto done; 243 1.2 yamt } 244 1.2 yamt 245 1.2 yamt /* 246 1.2 yamt * if it isn't in our window, 247 1.2 yamt * initialize context and return. 248 1.2 yamt * (read-ahead miss) 249 1.2 yamt */ 250 1.2 yamt 251 1.2 yamt if (reqoff < ra->ra_winstart || 252 1.2 yamt ra->ra_winstart + ra->ra_winsize < reqoff) { 253 1.2 yamt 254 1.2 yamt /* 255 1.2 yamt * ... unless we seem to be reading the same chunk repeatedly. 256 1.2 yamt * 257 1.2 yamt * XXX should have some margin? 258 1.2 yamt */ 259 1.2 yamt 260 1.2 yamt if (reqoff + reqsize == ra->ra_winstart) { 261 1.2 yamt DPRINTF(("%s: %p: same block: off=%" PRIu64 262 1.2 yamt ", size=%zd, winstart=%" PRIu64 "\n", 263 1.2 yamt __func__, ra, reqoff, reqsize, ra->ra_winstart)); 264 1.2 yamt goto done; 265 1.2 yamt } 266 1.2 yamt goto initialize; 267 1.2 yamt } 268 1.2 yamt 269 1.2 yamt /* 270 1.2 yamt * it's in our window. (read-ahead hit) 271 1.2 yamt * - start read-ahead i/o if appropriate. 272 1.2 yamt * - advance and enlarge window. 273 1.2 yamt */ 274 1.2 yamt 275 1.2 yamt do_readahead: 276 1.2 yamt 277 1.2 yamt /* 278 1.2 yamt * don't bother to read-ahead behind current request. 279 1.2 yamt */ 280 1.2 yamt 281 1.2 yamt if (reqoff > ra->ra_next) { 282 1.2 yamt ra->ra_next = reqoff; 283 1.2 yamt } 284 1.2 yamt 285 1.2 yamt /* 286 1.2 yamt * try to make [reqoff, reqoff+ra_winsize) in-core. 287 1.2 yamt * note that [reqoff, ra_next) is considered already done. 288 1.2 yamt */ 289 1.2 yamt 290 1.2 yamt if (reqoff + ra->ra_winsize > ra->ra_next) { 291 1.2 yamt off_t raoff = MAX(reqoff, ra->ra_next); 292 1.2 yamt size_t rasize = reqoff + ra->ra_winsize - ra->ra_next; 293 1.2 yamt 294 1.2 yamt #if defined(DIAGNOSTIC) 295 1.2 yamt if (rasize > RA_WINSIZE_MAX) { 296 1.2 yamt 297 1.2 yamt /* 298 1.2 yamt * shouldn't happen as far as we're protected by 299 1.2 yamt * kernel_lock. 300 1.2 yamt */ 301 1.2 yamt 302 1.2 yamt printf("%s: corrupted context", __func__); 303 1.2 yamt rasize = RA_WINSIZE_MAX; 304 1.2 yamt } 305 1.2 yamt #endif /* defined(DIAGNOSTIC) */ 306 1.2 yamt 307 1.2 yamt /* 308 1.2 yamt * issue read-ahead only if we can start big enough i/o. 309 1.2 yamt * otherwise we end up with a stream of small i/o. 310 1.2 yamt */ 311 1.2 yamt 312 1.2 yamt if (rasize >= RA_MINSIZE) { 313 1.2 yamt ra->ra_next = ra_startio(uobj, raoff, rasize); 314 1.2 yamt } 315 1.2 yamt } 316 1.2 yamt 317 1.2 yamt /* 318 1.2 yamt * update window. 319 1.2 yamt * 320 1.2 yamt * enlarge window by reqsize, so that it grows in a predictable manner 321 1.2 yamt * regardless of the size of each read(2). 322 1.2 yamt */ 323 1.2 yamt 324 1.2 yamt ra->ra_winstart = reqoff + reqsize; 325 1.2 yamt ra->ra_winsize = MIN(RA_WINSIZE_MAX, ra->ra_winsize + reqsize); 326 1.2 yamt 327 1.2 yamt done:; 328 1.2 yamt } 329
Indexes created Tue Sep 23 02:09:52 GMT 2025