syscall.c revision 1.7
1 1.7 wiz /* $NetBSD: syscall.c,v 1.7 2009/10/21 13:56:36 wiz Exp $ */ 2 1.1 dsl 3 1.1 dsl /*- 4 1.1 dsl * Copyright (c) 2006 The NetBSD Foundation, Inc. 5 1.1 dsl * All rights reserved. 6 1.1 dsl * 7 1.1 dsl * This code is derived from software contributed to The NetBSD Foundation 8 1.1 dsl * by David Laight. 9 1.1 dsl * 10 1.1 dsl * Redistribution and use in source and binary forms, with or without 11 1.1 dsl * modification, are permitted provided that the following conditions 12 1.1 dsl * are met: 13 1.1 dsl * 1. Redistributions of source code must retain the above copyright 14 1.1 dsl * notice, this list of conditions and the following disclaimer. 15 1.1 dsl * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 dsl * notice, this list of conditions and the following disclaimer in the 17 1.1 dsl * documentation and/or other materials provided with the distribution. 18 1.1 dsl * 19 1.1 dsl * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 dsl * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 dsl * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 dsl * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 dsl * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 dsl * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 dsl * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 dsl * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 dsl * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 dsl * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 dsl * POSSIBILITY OF SUCH DAMAGE. 30 1.1 dsl */ 31 1.1 dsl 32 1.1 dsl #include <sys/cdefs.h> 33 1.7 wiz __RCSID("$NetBSD: syscall.c,v 1.7 2009/10/21 13:56:36 wiz Exp $"); 34 1.1 dsl 35 1.1 dsl /* System call stats */ 36 1.1 dsl 37 1.1 dsl #include <sys/param.h> 38 1.1 dsl #include <sys/user.h> 39 1.1 dsl #include <sys/namei.h> 40 1.1 dsl #include <sys/sysctl.h> 41 1.1 dsl 42 1.1 dsl #include <uvm/uvm_extern.h> 43 1.1 dsl 44 1.2 dsl #include <errno.h> 45 1.1 dsl #include <stdlib.h> 46 1.1 dsl #include <string.h> 47 1.1 dsl #include <util.h> 48 1.1 dsl 49 1.1 dsl #include "systat.h" 50 1.1 dsl #include "extern.h" 51 1.2 dsl #include "drvstats.h" 52 1.1 dsl #include "utmpentry.h" 53 1.1 dsl #include "vmstat.h" 54 1.1 dsl 55 1.1 dsl #include <sys/syscall.h> 56 1.1 dsl #include <../../sys/kern/syscalls.c> 57 1.1 dsl 58 1.1 dsl #define nelem(x) (sizeof (x) / sizeof *(x)) 59 1.1 dsl 60 1.1 dsl static struct Info { 61 1.2 dsl struct uvmexp_sysctl uvmexp; 62 1.2 dsl struct vmtotal Total; 63 1.2 dsl uint64_t counts[SYS_NSYSENT]; 64 1.2 dsl uint64_t times[SYS_NSYSENT]; 65 1.3 dsl } s, s1, s2; 66 1.3 dsl 67 1.3 dsl static uint64_t irf[SYS_NSYSENT], val[SYS_NSYSENT]; 68 1.3 dsl static int irf_first = 1; 69 1.1 dsl 70 1.1 dsl int syscall_sort[SYS_NSYSENT]; 71 1.1 dsl 72 1.1 dsl static enum sort_order { UNSORTED, NAMES, COUNTS } sort_order = NAMES; 73 1.1 dsl 74 1.2 dsl #define SHOW_COUNTS 1 75 1.2 dsl #define SHOW_TIMES 2 76 1.2 dsl static int show = SHOW_COUNTS; 77 1.2 dsl 78 1.2 dsl static void getinfo(struct Info *, int); 79 1.1 dsl 80 1.3 dsl static char buf[32]; 81 1.1 dsl static float hertz; 82 1.1 dsl 83 1.2 dsl static size_t counts_mib_len, times_mib_len; 84 1.2 dsl static int counts_mib[4], times_mib[4]; 85 1.1 dsl 86 1.1 dsl WINDOW * 87 1.1 dsl opensyscall(void) 88 1.1 dsl { 89 1.1 dsl return (stdscr); 90 1.1 dsl } 91 1.1 dsl 92 1.1 dsl void 93 1.1 dsl closesyscall(WINDOW *w) 94 1.1 dsl { 95 1.1 dsl 96 1.1 dsl if (w == NULL) 97 1.1 dsl return; 98 1.1 dsl wclear(w); 99 1.1 dsl wrefresh(w); 100 1.1 dsl } 101 1.1 dsl 102 1.1 dsl 103 1.1 dsl /* 104 1.1 dsl * These constants define where the major pieces are laid out 105 1.1 dsl */ 106 1.1 dsl #define SYSCALLROW 9 /* Below the vmstat header */ 107 1.1 dsl 108 1.1 dsl int 109 1.1 dsl initsyscall(void) 110 1.1 dsl { 111 1.1 dsl static char name[] = "name"; 112 1.1 dsl 113 1.1 dsl hertz = stathz ? stathz : hz; 114 1.1 dsl 115 1.1 dsl syscall_order(name); 116 1.1 dsl 117 1.2 dsl /* drvinit gets number of cpus! */ 118 1.2 dsl drvinit(1); 119 1.1 dsl 120 1.2 dsl counts_mib_len = nelem(counts_mib); 121 1.2 dsl if (sysctlnametomib("kern.syscalls.counts", counts_mib, &counts_mib_len)) 122 1.2 dsl counts_mib_len = 0; 123 1.2 dsl 124 1.2 dsl times_mib_len = nelem(times_mib); 125 1.2 dsl if (sysctlnametomib("kern.syscalls.times", times_mib, ×_mib_len)) 126 1.2 dsl times_mib_len = 0; 127 1.1 dsl 128 1.2 dsl getinfo(&s2, SHOW_COUNTS | SHOW_TIMES); 129 1.1 dsl s1 = s2; 130 1.2 dsl 131 1.1 dsl return(1); 132 1.1 dsl } 133 1.1 dsl 134 1.1 dsl void 135 1.1 dsl fetchsyscall(void) 136 1.1 dsl { 137 1.1 dsl time_t now; 138 1.1 dsl 139 1.1 dsl time(&now); 140 1.1 dsl strlcpy(buf, ctime(&now), sizeof(buf)); 141 1.1 dsl buf[19] = '\0'; 142 1.2 dsl getinfo(&s, show); 143 1.1 dsl } 144 1.1 dsl 145 1.1 dsl void 146 1.1 dsl labelsyscall(void) 147 1.1 dsl { 148 1.1 dsl labelvmstat_top(); 149 1.1 dsl } 150 1.1 dsl 151 1.1 dsl #define MAXFAIL 5 152 1.1 dsl 153 1.3 dsl static void 154 1.3 dsl putuint64(uint64_t v, int row, int col, int width) 155 1.1 dsl { 156 1.3 dsl static const char suffix[] = "KMDT"; 157 1.3 dsl int len, i; 158 1.1 dsl 159 1.3 dsl len = snprintf(buf, sizeof buf, "%" PRIu64, v); 160 1.3 dsl if (len > width) { 161 1.3 dsl i = (len - width) / 3; 162 1.6 lukem if (i >= (int)sizeof(suffix)) { 163 1.3 dsl memset(buf, '*', width); 164 1.3 dsl len = width; 165 1.3 dsl } else { 166 1.3 dsl len -= (i + 1) * 3; 167 1.3 dsl buf[len++] = suffix[i]; 168 1.3 dsl } 169 1.3 dsl buf[len] = 0; 170 1.3 dsl } 171 1.3 dsl mvprintw(row, col, "%*s", width, buf); 172 1.2 dsl } 173 1.2 dsl 174 1.2 dsl static int 175 1.3 dsl compare_irf(const void *a, const void *b) 176 1.2 dsl { 177 1.2 dsl int ia = *(const int *)a, ib = *(const int *)b; 178 1.2 dsl int64_t delta; 179 1.1 dsl 180 1.3 dsl delta = irf[ib] - irf[ia]; 181 1.2 dsl return delta ? delta < 0 ? -1 : 1 : 0; 182 1.1 dsl } 183 1.1 dsl 184 1.1 dsl void 185 1.1 dsl showsyscall(void) 186 1.1 dsl { 187 1.1 dsl int i, ii, l, c; 188 1.3 dsl uint64_t v; 189 1.1 dsl static int failcnt = 0; 190 1.1 dsl static int relabel = 0; 191 1.1 dsl static char pigs[] = "pigs"; 192 1.3 dsl uint64_t itime; 193 1.1 dsl 194 1.1 dsl if (relabel) { 195 1.1 dsl labelsyscall(); 196 1.1 dsl relabel = 0; 197 1.1 dsl } 198 1.1 dsl 199 1.1 dsl cpuswap(); 200 1.1 dsl if (display_mode == TIME) { 201 1.1 dsl etime = cur.cp_etime; 202 1.1 dsl /* < 5 ticks - ignore this trash */ 203 1.1 dsl if ((etime * hertz) < 1.0) { 204 1.7 wiz if (failcnt++ <= MAXFAIL) 205 1.1 dsl return; 206 1.1 dsl clear(); 207 1.1 dsl mvprintw(2, 10, "The alternate system clock has died!"); 208 1.1 dsl mvprintw(3, 10, "Reverting to ``pigs'' display."); 209 1.1 dsl move(CMDLINE, 0); 210 1.1 dsl refresh(); 211 1.1 dsl failcnt = 0; 212 1.1 dsl sleep(5); 213 1.1 dsl command(pigs); 214 1.1 dsl return; 215 1.1 dsl } 216 1.1 dsl } else 217 1.1 dsl etime = 1.0; 218 1.3 dsl itime = etime * 100; 219 1.1 dsl 220 1.1 dsl failcnt = 0; 221 1.1 dsl 222 1.1 dsl show_vmstat_top(&s.Total, &s.uvmexp, &s1.uvmexp); 223 1.1 dsl 224 1.3 dsl /* Sort out the values we are going to display */ 225 1.6 lukem for (i = 0; i < (int)nelem(s.counts); i++) { 226 1.3 dsl switch (show) { 227 1.3 dsl default: 228 1.3 dsl case SHOW_COUNTS: 229 1.3 dsl v = s.counts[i] - s1.counts[i]; 230 1.3 dsl break; 231 1.3 dsl case SHOW_TIMES: 232 1.3 dsl v = s.times[i] - s1.times[i]; 233 1.3 dsl break; 234 1.3 dsl case SHOW_COUNTS | SHOW_TIMES: /* time/count */ 235 1.3 dsl v = s.counts[i] - s1.counts[i]; 236 1.3 dsl v = v ? (s.times[i] - s1.times[i]) / v : 0; 237 1.3 dsl } 238 1.3 dsl 239 1.3 dsl if (display_mode == TIME) 240 1.3 dsl v = (v * 100 + itime/2) / itime; 241 1.3 dsl 242 1.3 dsl val[i] = v; 243 1.3 dsl 244 1.1 dsl /* 245 1.1 dsl * We use an 'infinite response filter' in a vague 246 1.1 dsl * attempt to stop the data leaping around too much. 247 1.1 dsl * I suspect there are other/better methods in use. 248 1.1 dsl */ 249 1.3 dsl if (irf_first) { 250 1.3 dsl irf[i] = v; 251 1.3 dsl irf_first = 0; 252 1.3 dsl } else { 253 1.3 dsl irf[i] = irf[i] * 7 / 8 + v; 254 1.1 dsl } 255 1.3 dsl } 256 1.1 dsl 257 1.3 dsl if (sort_order == COUNTS) { 258 1.1 dsl /* mergesort() doesn't swap equal values about... */ 259 1.1 dsl mergesort(syscall_sort, nelem(syscall_sort), 260 1.3 dsl sizeof syscall_sort[0], compare_irf); 261 1.1 dsl } 262 1.1 dsl 263 1.1 dsl l = SYSCALLROW; 264 1.1 dsl c = 0; 265 1.1 dsl move(l, c); 266 1.6 lukem for (ii = 0; ii < (int)nelem(s.counts); ii++) { 267 1.1 dsl i = syscall_sort[ii]; 268 1.3 dsl if (val[i] == 0 && irf[i] == 0) 269 1.1 dsl continue; 270 1.1 dsl 271 1.6 lukem if (i < (int)nelem(syscallnames)) { 272 1.1 dsl const char *name = syscallnames[i]; 273 1.1 dsl while (name[0] == '_') 274 1.1 dsl name++; 275 1.1 dsl if (name[0] == 'c' && !strcmp(name + 1, "ompat_")) 276 1.1 dsl name += 7; 277 1.1 dsl mvprintw(l, c, "%17.17s", name); 278 1.1 dsl } else 279 1.1 dsl mvprintw(l, c, "syscall #%d ", i); 280 1.1 dsl 281 1.3 dsl putuint64(val[i], l, c + 18, 8); 282 1.1 dsl c += 27; 283 1.1 dsl if (c + 26 > COLS) { 284 1.1 dsl c = 0; 285 1.1 dsl l++; 286 1.1 dsl if (l >= LINES - 1) 287 1.1 dsl break; 288 1.1 dsl } 289 1.1 dsl } 290 1.2 dsl if (display_mode == TIME) { 291 1.2 dsl memcpy(s1.counts, s.counts, sizeof s1.counts); 292 1.2 dsl memcpy(s1.times, s.times, sizeof s1.times); 293 1.2 dsl } 294 1.1 dsl while (l < LINES - 1) { 295 1.1 dsl clrtoeol(); 296 1.1 dsl move(++l, 0); 297 1.1 dsl } 298 1.1 dsl } 299 1.1 dsl 300 1.1 dsl void 301 1.1 dsl syscall_boot(char *args) 302 1.1 dsl { 303 1.1 dsl memset(&s1, 0, sizeof s1); 304 1.1 dsl display_mode = BOOT; 305 1.1 dsl } 306 1.1 dsl 307 1.1 dsl void 308 1.1 dsl syscall_run(char *args) 309 1.1 dsl { 310 1.1 dsl s1 = s2; 311 1.1 dsl display_mode = RUN; 312 1.1 dsl } 313 1.1 dsl 314 1.1 dsl void 315 1.1 dsl syscall_time(char *args) 316 1.1 dsl { 317 1.1 dsl display_mode = TIME; 318 1.1 dsl } 319 1.1 dsl 320 1.1 dsl void 321 1.1 dsl syscall_zero(char *args) 322 1.1 dsl { 323 1.1 dsl s1 = s; 324 1.1 dsl } 325 1.1 dsl 326 1.1 dsl static int 327 1.1 dsl compare_names(const void *a, const void *b) 328 1.1 dsl { 329 1.1 dsl const char *name_a = syscallnames[*(const int *)a]; 330 1.1 dsl const char *name_b = syscallnames[*(const int *)b]; 331 1.1 dsl 332 1.1 dsl while (*name_a == '_') 333 1.1 dsl name_a++; 334 1.1 dsl while (*name_b == '_') 335 1.1 dsl name_b++; 336 1.1 dsl 337 1.1 dsl return strcmp(name_a, name_b); 338 1.1 dsl } 339 1.1 dsl 340 1.1 dsl void 341 1.1 dsl syscall_order(char *args) 342 1.1 dsl { 343 1.1 dsl int i, len; 344 1.1 dsl 345 1.1 dsl if (args == NULL) 346 1.1 dsl goto usage; 347 1.1 dsl 348 1.1 dsl len = strcspn(args, " \t\r\n"); 349 1.1 dsl 350 1.1 dsl if (args[len + strspn(args + len, " \t\r\n")]) 351 1.1 dsl goto usage; 352 1.1 dsl 353 1.3 dsl if (memcmp(args, "count", len) == 0) 354 1.1 dsl sort_order = COUNTS; 355 1.3 dsl else if (memcmp(args, "name", len) == 0) 356 1.1 dsl sort_order = NAMES; 357 1.1 dsl else if (memcmp(args, "syscall", len) == 0) 358 1.1 dsl sort_order = UNSORTED; 359 1.1 dsl else 360 1.1 dsl goto usage; 361 1.1 dsl 362 1.1 dsl /* Undo all the sorting */ 363 1.6 lukem for (i = 0; i < (int)nelem(syscall_sort); i++) 364 1.1 dsl syscall_sort[i] = i; 365 1.1 dsl 366 1.1 dsl if (sort_order == NAMES) { 367 1.1 dsl /* Only sort the entries we have names for */ 368 1.1 dsl qsort(syscall_sort, nelem(syscallnames), sizeof syscall_sort[0], 369 1.1 dsl compare_names); 370 1.1 dsl } 371 1.1 dsl return; 372 1.1 dsl 373 1.1 dsl usage: 374 1.1 dsl error("Usage: sort [count|name|syscall]"); 375 1.1 dsl } 376 1.1 dsl 377 1.2 dsl void 378 1.2 dsl syscall_show(char *args) 379 1.2 dsl { 380 1.2 dsl int len; 381 1.2 dsl 382 1.2 dsl if (args == NULL) 383 1.2 dsl goto usage; 384 1.2 dsl 385 1.2 dsl len = strcspn(args, " \t\r\n"); 386 1.2 dsl 387 1.2 dsl if (args[len + strspn(args + len, " \t\r\n")]) 388 1.2 dsl goto usage; 389 1.2 dsl 390 1.2 dsl if (memcmp(args, "counts", len) == 0) 391 1.2 dsl show = SHOW_COUNTS; 392 1.2 dsl else if (memcmp(args, "times", len) == 0) 393 1.2 dsl show = SHOW_TIMES; 394 1.2 dsl else if (memcmp(args, "ratio", len) == 0) 395 1.2 dsl show = SHOW_COUNTS | SHOW_TIMES; 396 1.2 dsl else 397 1.2 dsl goto usage; 398 1.2 dsl 399 1.3 dsl memset(&irf, 0, sizeof irf); 400 1.3 dsl irf_first = 1; 401 1.3 dsl 402 1.2 dsl return; 403 1.2 dsl 404 1.2 dsl usage: 405 1.2 dsl error("Usage: show [counts|times|ratio]"); 406 1.2 dsl } 407 1.2 dsl 408 1.1 dsl static void 409 1.2 dsl getinfo(struct Info *stats, int get_what) 410 1.1 dsl { 411 1.1 dsl int mib[2]; 412 1.1 dsl size_t size; 413 1.1 dsl 414 1.1 dsl cpureadstats(); 415 1.1 dsl 416 1.2 dsl if (get_what & SHOW_COUNTS) { 417 1.2 dsl size = sizeof stats->counts; 418 1.2 dsl if (!counts_mib_len || 419 1.2 dsl sysctl(counts_mib, counts_mib_len, &stats->counts, &size, 420 1.2 dsl NULL, 0)) { 421 1.2 dsl error("can't get syscall counts: %s\n", strerror(errno)); 422 1.2 dsl memset(&stats->counts, 0, sizeof stats->counts); 423 1.2 dsl } 424 1.2 dsl } 425 1.2 dsl 426 1.2 dsl if (get_what & SHOW_TIMES) { 427 1.2 dsl size = sizeof stats->times; 428 1.2 dsl if (!times_mib_len || 429 1.2 dsl sysctl(times_mib, times_mib_len, &stats->times, &size, 430 1.2 dsl NULL, 0)) { 431 1.2 dsl error("can't get syscall times: %s\n", strerror(errno)); 432 1.2 dsl memset(&stats->times, 0, sizeof stats->times); 433 1.2 dsl } 434 1.1 dsl } 435 1.1 dsl 436 1.1 dsl size = sizeof(stats->uvmexp); 437 1.1 dsl mib[0] = CTL_VM; 438 1.1 dsl mib[1] = VM_UVMEXP2; 439 1.1 dsl if (sysctl(mib, 2, &stats->uvmexp, &size, NULL, 0) < 0) { 440 1.1 dsl error("can't get uvmexp: %s\n", strerror(errno)); 441 1.1 dsl memset(&stats->uvmexp, 0, sizeof(stats->uvmexp)); 442 1.1 dsl } 443 1.1 dsl size = sizeof(stats->Total); 444 1.1 dsl mib[0] = CTL_VM; 445 1.1 dsl mib[1] = VM_METER; 446 1.1 dsl if (sysctl(mib, 2, &stats->Total, &size, NULL, 0) < 0) { 447 1.1 dsl error("Can't get kernel info: %s\n", strerror(errno)); 448 1.1 dsl memset(&stats->Total, 0, sizeof(stats->Total)); 449 1.1 dsl } 450 1.1 dsl } 451
Indexes created Mon Sep 22 05:09:51 GMT 2025