1 /* $Header: /p/tcsh/cvsroot/tcsh/sh.time.c,v 3.33 2006/03/02 18:46:44 christos Exp $ */ 2 /* 3 * sh.time.c: Shell time keeping and printing. 4 */ 5 /*- 6 * Copyright (c) 1980, 1991 The Regents of the University of California. 7 * All rights reserved. 8 * 9 * Redistribution and use in source and binary forms, with or without 10 * modification, are permitted provided that the following conditions 11 * are met: 12 * 1. Redistributions of source code must retain the above copyright 13 * notice, this list of conditions and the following disclaimer. 14 * 2. Redistributions in binary form must reproduce the above copyright 15 * notice, this list of conditions and the following disclaimer in the 16 * documentation and/or other materials provided with the distribution. 17 * 3. Neither the name of the University nor the names of its contributors 18 * may be used to endorse or promote products derived from this software 19 * without specific prior written permission. 20 * 21 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 * SUCH DAMAGE. 32 */ 33 #include "sh.h" 34 35 RCSID("$tcsh: sh.time.c,v 3.33 2006/03/02 18:46:44 christos Exp $") 36 37 #ifdef SUNOS4 38 # include <machine/param.h> 39 #endif /* SUNOS4 */ 40 41 /* 42 * C Shell - routines handling process timing and niceing 43 */ 44 #ifdef BSDTIMES 45 # ifndef RUSAGE_SELF 46 # define RUSAGE_SELF 0 47 # define RUSAGE_CHILDREN -1 48 # endif /* RUSAGE_SELF */ 49 #else /* BSDTIMES */ 50 struct tms times0; 51 #endif /* BSDTIMES */ 52 53 #if !defined(BSDTIMES) && !defined(_SEQUENT_) 54 # ifdef POSIX 55 static void pdtimet (clock_t, clock_t); 56 # else /* ! POSIX */ 57 static void pdtimet (time_t, time_t); 58 # endif /* ! POSIX */ 59 #else /* BSDTIMES || _SEQUENT_ */ 60 static void tvadd (timeval_t *, timeval_t *); 61 static void pdeltat (timeval_t *, timeval_t *); 62 #endif /* BSDTIMES || _SEQUENT_ */ 63 64 void 65 settimes(void) 66 { 67 #ifdef BSDTIMES 68 struct sysrusage ruch; 69 #ifdef convex 70 memset(&ru0, 0, sizeof(ru0)); 71 memset(&ruch, 0, sizeof(ruch)); 72 #endif /* convex */ 73 74 (void) gettimeofday(&time0, NULL); 75 (void) getrusage(RUSAGE_SELF, (struct rusage *) &ru0); 76 (void) getrusage(RUSAGE_CHILDREN, (struct rusage *) &ruch); 77 ruadd(&ru0, &ruch); 78 #else 79 # ifdef _SEQUENT_ 80 struct process_stats ruch; 81 82 (void) get_process_stats(&time0, PS_SELF, &ru0, &ruch); 83 ruadd(&ru0, &ruch); 84 # else /* _SEQUENT_ */ 85 seconds0 = time(NULL); 86 time0 = times(×0); 87 times0.tms_stime += times0.tms_cstime; 88 times0.tms_utime += times0.tms_cutime; 89 times0.tms_cstime = 0; 90 times0.tms_cutime = 0; 91 # endif /* _SEQUENT_ */ 92 #endif /* BSDTIMES */ 93 } 94 95 /* 96 * dotime is only called if it is truly a builtin function and not a 97 * prefix to another command 98 */ 99 /*ARGSUSED*/ 100 void 101 dotime(Char **v, struct command *c) 102 { 103 #ifdef BSDTIMES 104 timeval_t timedol; 105 struct sysrusage ru1, ruch; 106 #ifdef convex 107 memset(&ru1, 0, sizeof(ru1)); 108 memset(&ruch, 0, sizeof(ruch)); 109 #endif /* convex */ 110 111 (void) getrusage(RUSAGE_SELF, (struct rusage *) &ru1); 112 (void) getrusage(RUSAGE_CHILDREN, (struct rusage *) &ruch); 113 ruadd(&ru1, &ruch); 114 (void) gettimeofday(&timedol, NULL); 115 prusage(&ru0, &ru1, &timedol, &time0); 116 #else 117 # ifdef _SEQUENT_ 118 timeval_t timedol; 119 struct process_stats ru1, ruch; 120 121 (void) get_process_stats(&timedol, PS_SELF, &ru1, &ruch); 122 ruadd(&ru1, &ruch); 123 prusage(&ru0, &ru1, &timedol, &time0); 124 # else /* _SEQUENT_ */ 125 # ifndef POSIX 126 time_t timedol; 127 # else /* POSIX */ 128 clock_t timedol; 129 # endif /* POSIX */ 130 131 struct tms times_dol; 132 133 timedol = times(×_dol); 134 times_dol.tms_stime += times_dol.tms_cstime; 135 times_dol.tms_utime += times_dol.tms_cutime; 136 times_dol.tms_cstime = 0; 137 times_dol.tms_cutime = 0; 138 prusage(×0, ×_dol, timedol, time0); 139 # endif /* _SEQUENT_ */ 140 #endif /* BSDTIMES */ 141 USE(c); 142 USE(v); 143 } 144 145 /* 146 * donice is only called when it on the line by itself or with a +- value 147 */ 148 /*ARGSUSED*/ 149 void 150 donice(Char **v, struct command *c) 151 { 152 Char *cp; 153 int nval = 0; 154 155 USE(c); 156 v++, cp = *v++; 157 if (cp == 0) 158 nval = 4; 159 else if (*v == 0 && any("+-", cp[0])) 160 nval = getn(cp); 161 #ifdef HAVE_SETPRIORITY 162 if (setpriority(PRIO_PROCESS, 0, nval) == -1 && errno) 163 stderror(ERR_SYSTEM, "setpriority", strerror(errno)); 164 #else /* !HAVE_SETPRIORITY */ 165 (void) nice(nval); 166 #endif /* HAVE_SETPRIORITY */ 167 } 168 169 #ifdef BSDTIMES 170 void 171 ruadd(struct sysrusage *ru, struct sysrusage *ru2) 172 { 173 tvadd(&ru->ru_utime, &ru2->ru_utime); 174 tvadd(&ru->ru_stime, &ru2->ru_stime); 175 #ifndef _OSD_POSIX 176 if (ru2->ru_maxrss > ru->ru_maxrss) 177 ru->ru_maxrss = ru2->ru_maxrss; 178 179 ru->ru_ixrss += ru2->ru_ixrss; 180 ru->ru_idrss += ru2->ru_idrss; 181 ru->ru_isrss += ru2->ru_isrss; 182 ru->ru_minflt += ru2->ru_minflt; 183 ru->ru_majflt += ru2->ru_majflt; 184 ru->ru_nswap += ru2->ru_nswap; 185 ru->ru_inblock += ru2->ru_inblock; 186 ru->ru_oublock += ru2->ru_oublock; 187 ru->ru_msgsnd += ru2->ru_msgsnd; 188 ru->ru_msgrcv += ru2->ru_msgrcv; 189 ru->ru_nsignals += ru2->ru_nsignals; 190 ru->ru_nvcsw += ru2->ru_nvcsw; 191 ru->ru_nivcsw += ru2->ru_nivcsw; 192 #endif /*bs2000*/ 193 194 # ifdef convex 195 tvadd(&ru->ru_exutime, &ru2->ru_exutime); 196 ru->ru_utotal += ru2->ru_utotal; 197 ru->ru_usamples += ru2->ru_usamples; 198 ru->ru_stotal += ru2->ru_stotal; 199 ru->ru_ssamples += ru2->ru_ssamples; 200 # endif /* convex */ 201 } 202 203 #else /* BSDTIMES */ 204 # ifdef _SEQUENT_ 205 void 206 ruadd(struct process_stats *ru, struct process_stats *ru2) 207 { 208 tvadd(&ru->ps_utime, &ru2->ps_utime); 209 tvadd(&ru->ps_stime, &ru2->ps_stime); 210 if (ru2->ps_maxrss > ru->ps_maxrss) 211 ru->ps_maxrss = ru2->ps_maxrss; 212 213 ru->ps_pagein += ru2->ps_pagein; 214 ru->ps_reclaim += ru2->ps_reclaim; 215 ru->ps_zerofill += ru2->ps_zerofill; 216 ru->ps_pffincr += ru2->ps_pffincr; 217 ru->ps_pffdecr += ru2->ps_pffdecr; 218 ru->ps_swap += ru2->ps_swap; 219 ru->ps_syscall += ru2->ps_syscall; 220 ru->ps_volcsw += ru2->ps_volcsw; 221 ru->ps_involcsw += ru2->ps_involcsw; 222 ru->ps_signal += ru2->ps_signal; 223 ru->ps_lread += ru2->ps_lread; 224 ru->ps_lwrite += ru2->ps_lwrite; 225 ru->ps_bread += ru2->ps_bread; 226 ru->ps_bwrite += ru2->ps_bwrite; 227 ru->ps_phread += ru2->ps_phread; 228 ru->ps_phwrite += ru2->ps_phwrite; 229 } 230 231 # endif /* _SEQUENT_ */ 232 #endif /* BSDTIMES */ 233 234 #ifdef BSDTIMES 235 236 /* 237 * PWP: the LOG1024 and pagetok stuff taken from the top command, 238 * written by William LeFebvre 239 */ 240 /* Log base 2 of 1024 is 10 (2^10 == 1024) */ 241 #define LOG1024 10 242 243 /* Convert clicks (kernel pages) to kbytes ... */ 244 /* If there is no PGSHIFT defined, assume it is 11 */ 245 /* Is this needed for compatability with some old flavor of 4.2 or 4.1? */ 246 #ifdef SUNOS4 247 # ifndef PGSHIFT 248 # define pagetok(size) ((size) << 1) 249 # else 250 # if PGSHIFT>10 251 # define pagetok(size) ((size) << (PGSHIFT - LOG1024)) 252 # else 253 # define pagetok(size) ((size) >> (LOG1024 - PGSHIFT)) 254 # endif 255 # endif 256 #endif 257 258 /* 259 * if any other machines return wierd values in the ru_i* stuff, put 260 * the adjusting macro here: 261 */ 262 #ifdef SUNOS4 263 # define IADJUST(i) (pagetok(i)/2) 264 #else /* SUNOS4 */ 265 # ifdef convex 266 /* 267 * convex has megabytes * CLK_TCK 268 * multiply by 100 since we use time in 100ths of a second in prusage 269 */ 270 # define IADJUST(i) (((i) << 10) / CLK_TCK * 100) 271 # else /* convex */ 272 # define IADJUST(i) (i) 273 # endif /* convex */ 274 #endif /* SUNOS4 */ 275 276 void 277 prusage(struct sysrusage *r0, struct sysrusage *r1, timeval_t *e, timeval_t *b) 278 279 #else /* BSDTIMES */ 280 # ifdef _SEQUENT_ 281 void 282 prusage(struct process_stats *r0, struct process_stats *r1, timeval_t e, 283 timeval_t b) 284 285 # else /* _SEQUENT_ */ 286 # ifndef POSIX 287 void 288 prusage(struct tms *bs, struct tms *es, time_t e, time_t b) 289 # else /* POSIX */ 290 void 291 prusage(struct tms *bs, struct tms *es, clock_t e, clock_t b) 292 # endif /* POSIX */ 293 # endif /* _SEQUENT_ */ 294 #endif /* BSDTIMES */ 295 { 296 #ifdef BSDTIMES 297 time_t t = 298 (r1->ru_utime.tv_sec - r0->ru_utime.tv_sec) * 100 + 299 (r1->ru_utime.tv_usec - r0->ru_utime.tv_usec) / 10000 + 300 (r1->ru_stime.tv_sec - r0->ru_stime.tv_sec) * 100 + 301 (r1->ru_stime.tv_usec - r0->ru_stime.tv_usec) / 10000; 302 303 #else 304 # ifdef _SEQUENT_ 305 time_t t = 306 (r1->ps_utime.tv_sec - r0->ps_utime.tv_sec) * 100 + 307 (r1->ps_utime.tv_usec - r0->ps_utime.tv_usec) / 10000 + 308 (r1->ps_stime.tv_sec - r0->ps_stime.tv_sec) * 100 + 309 (r1->ps_stime.tv_usec - r0->ps_stime.tv_usec) / 10000; 310 311 # else /* _SEQUENT_ */ 312 # ifndef POSIX 313 time_t t = (es->tms_utime - bs->tms_utime + 314 es->tms_stime - bs->tms_stime) * 100 / HZ; 315 316 # else /* POSIX */ 317 clock_t t = (es->tms_utime - bs->tms_utime + 318 es->tms_stime - bs->tms_stime) * 100 / clk_tck; 319 320 # endif /* POSIX */ 321 # endif /* _SEQUENT_ */ 322 #endif /* BSDTIMES */ 323 324 const char *cp; 325 long i; 326 struct varent *vp = adrof(STRtime); 327 328 #ifdef BSDTIMES 329 # ifdef convex 330 static struct system_information sysinfo; 331 long long memtmp; /* let memory calculations exceede 2Gb */ 332 # endif /* convex */ 333 int ms = (int) 334 ((e->tv_sec - b->tv_sec) * 100 + (e->tv_usec - b->tv_usec) / 10000); 335 336 cp = "%Uu %Ss %E %P %X+%Dk %I+%Oio %Fpf+%Ww"; 337 #else /* !BSDTIMES */ 338 # ifdef _SEQUENT_ 339 int ms = (int) 340 ((e->tv_sec - b->tv_sec) * 100 + (e->tv_usec - b->tv_usec) / 10000); 341 342 cp = "%Uu %Ss %E %P %I+%Oio %Fpf+%Ww"; 343 # else /* !_SEQUENT_ */ 344 # ifndef POSIX 345 time_t ms = ((time_t)((e - b) / HZ) * 100) + 346 (time_t)(((e - b) % HZ) * 100) / HZ; 347 # else /* POSIX */ 348 clock_t ms = ((clock_t)((e - b) / clk_tck) * 100) + 349 (clock_t)(((e - b) % clk_tck) * 100) / clk_tck; 350 # endif /* POSIX */ 351 352 cp = "%Uu %Ss %E %P"; 353 354 /* 355 * the tms stuff is not very precise, so we fudge it. 356 * granularity fix: can't be more than 100% 357 * this breaks in multi-processor systems... 358 * maybe I should take it out and let people see more then 100% 359 * utilizations. 360 */ 361 # if 0 362 if (ms < t && ms != 0) 363 ms = t; 364 # endif 365 # endif /*! _SEQUENT_ */ 366 #endif /* !BSDTIMES */ 367 #ifdef TDEBUG 368 xprintf("es->tms_utime %lu bs->tms_utime %lu\n", 369 es->tms_utime, bs->tms_utime); 370 xprintf("es->tms_stime %lu bs->tms_stime %lu\n", 371 es->tms_stime, bs->tms_stime); 372 xprintf("ms %lu e %lu b %lu\n", ms, e, b); 373 xprintf("t %lu\n", t); 374 #endif /* TDEBUG */ 375 376 if (vp && vp->vec && vp->vec[0] && vp->vec[1]) 377 cp = short2str(vp->vec[1]); 378 for (; *cp; cp++) 379 if (*cp != '%') 380 xputchar(*cp); 381 else if (cp[1]) 382 switch (*++cp) { 383 384 case 'U': /* user CPU time used */ 385 #ifdef BSDTIMES 386 pdeltat(&r1->ru_utime, &r0->ru_utime); 387 #else 388 # ifdef _SEQUENT_ 389 pdeltat(&r1->ps_utime, &r0->ps_utime); 390 # else /* _SEQUENT_ */ 391 # ifndef POSIX 392 pdtimet(es->tms_utime, bs->tms_utime); 393 # else /* POSIX */ 394 pdtimet(es->tms_utime, bs->tms_utime); 395 # endif /* POSIX */ 396 # endif /* _SEQUENT_ */ 397 #endif /* BSDTIMES */ 398 break; 399 400 case 'S': /* system CPU time used */ 401 #ifdef BSDTIMES 402 pdeltat(&r1->ru_stime, &r0->ru_stime); 403 #else 404 # ifdef _SEQUENT_ 405 pdeltat(&r1->ps_stime, &r0->ps_stime); 406 # else /* _SEQUENT_ */ 407 # ifndef POSIX 408 pdtimet(es->tms_stime, bs->tms_stime); 409 # else /* POSIX */ 410 pdtimet(es->tms_stime, bs->tms_stime); 411 # endif /* POSIX */ 412 # endif /* _SEQUENT_ */ 413 #endif /* BSDTIMES */ 414 break; 415 416 case 'E': /* elapsed (wall-clock) time */ 417 #ifdef BSDTIMES 418 pcsecs((long) ms); 419 #else /* BSDTIMES */ 420 pcsecs(ms); 421 #endif /* BSDTIMES */ 422 break; 423 424 case 'P': /* percent time spent running */ 425 /* check if the process did not run */ 426 #ifdef convex 427 /* 428 * scale the cpu %- ages by the number of processors 429 * available on this machine 430 */ 431 if ((sysinfo.cpu_count == 0) && 432 (getsysinfo(SYSINFO_SIZE, &sysinfo) < 0)) 433 sysinfo.cpu_count = 1; 434 i = (ms == 0) ? 0 : (t * 1000.0 / (ms * sysinfo.cpu_count)); 435 #else /* convex */ 436 i = (ms == 0) ? 0 : (long)(t * 1000.0 / ms); 437 #endif /* convex */ 438 xprintf("%ld.%01ld%%", i / 10, i % 10); /* nn.n% */ 439 break; 440 441 #ifdef BSDTIMES 442 case 'W': /* number of swaps */ 443 #ifdef _OSD_POSIX 444 i = 0; 445 #else 446 i = r1->ru_nswap - r0->ru_nswap; 447 #endif 448 xprintf("%ld", i); 449 break; 450 451 #ifdef convex 452 case 'X': /* (average) shared text size */ 453 memtmp = (t == 0 ? 0LL : IADJUST((long long)r1->ru_ixrss - 454 (long long)r0->ru_ixrss) / 455 (long long)t); 456 xprintf("%lu", (unsigned long)memtmp); 457 break; 458 459 case 'D': /* (average) unshared data size */ 460 memtmp = (t == 0 ? 0LL : IADJUST((long long)r1->ru_idrss + 461 (long long)r1->ru_isrss - 462 ((long long)r0->ru_idrss + 463 (long long)r0->ru_isrss)) / 464 (long long)t); 465 xprintf("%lu", (unsigned long)memtmp); 466 break; 467 468 case 'K': /* (average) total data memory used */ 469 memtmp = (t == 0 ? 0LL : IADJUST(((long long)r1->ru_ixrss + 470 (long long)r1->ru_isrss + 471 (long long)r1->ru_idrss) - 472 ((long long)r0->ru_ixrss + 473 (long long)r0->ru_idrss + 474 (long long)r0->ru_isrss)) / 475 (long long)t); 476 xprintf("%lu", (unsigned long)memtmp); 477 break; 478 #else /* !convex */ 479 case 'X': /* (average) shared text size */ 480 #ifdef _OSD_POSIX 481 xprintf("0",0); 482 #else 483 xprintf("%ld", t == 0 ? 0L : 484 IADJUST(r1->ru_ixrss - r0->ru_ixrss) / t); 485 #endif 486 break; 487 488 case 'D': /* (average) unshared data size */ 489 #ifdef _OSD_POSIX 490 xprintf("0",0); 491 #else 492 xprintf("%ld", t == 0 ? 0L : 493 IADJUST(r1->ru_idrss + r1->ru_isrss - 494 (r0->ru_idrss + r0->ru_isrss)) / t); 495 #endif 496 break; 497 498 case 'K': /* (average) total data memory used */ 499 #ifdef _OSD_POSIX 500 xprintf("0",0); 501 #else 502 xprintf("%ld", t == 0 ? 0L : 503 IADJUST((r1->ru_ixrss + r1->ru_isrss + r1->ru_idrss) - 504 (r0->ru_ixrss + r0->ru_idrss + r0->ru_isrss)) / t); 505 #endif 506 break; 507 #endif /* convex */ 508 case 'M': /* max. Resident Set Size */ 509 #ifdef SUNOS4 510 xprintf("%ld", pagetok(r1->ru_maxrss)); 511 #else 512 # ifdef convex 513 xprintf("%ld", r1->ru_maxrss * 4L); 514 # else /* !convex */ 515 # ifdef _OSD_POSIX 516 xprintf("0",0); 517 # else 518 xprintf("%ld", r1->ru_maxrss / 2L); 519 # endif 520 # endif /* convex */ 521 #endif /* SUNOS4 */ 522 break; 523 524 case 'F': /* page faults */ 525 #ifdef _OSD_POSIX 526 xprintf("0",0); 527 #else 528 xprintf("%ld", r1->ru_majflt - r0->ru_majflt); 529 #endif 530 break; 531 532 case 'R': /* page reclaims */ 533 #ifdef _OSD_POSIX 534 xprintf("0",0); 535 #else 536 xprintf("%ld", r1->ru_minflt - r0->ru_minflt); 537 #endif 538 break; 539 540 case 'I': /* FS blocks in */ 541 #ifdef _OSD_POSIX 542 xprintf("0",0); 543 #else 544 xprintf("%ld", r1->ru_inblock - r0->ru_inblock); 545 #endif 546 break; 547 548 case 'O': /* FS blocks out */ 549 #ifdef _OSD_POSIX 550 xprintf("0",0); 551 #else 552 xprintf("%ld", r1->ru_oublock - r0->ru_oublock); 553 #endif 554 break; 555 556 # ifdef convex 557 case 'C': /* CPU parallelization factor */ 558 if (r1->ru_usamples != 0LL) { 559 long long parr = ((r1->ru_utotal * 100LL) / 560 r1->ru_usamples); 561 xprintf("%d.%02d", (int)(parr/100), (int)(parr%100)); 562 } else 563 xprintf("?"); 564 break; 565 # endif /* convex */ 566 case 'r': /* PWP: socket messages recieved */ 567 #ifdef _OSD_POSIX 568 xprintf("0",0); 569 #else 570 xprintf("%ld", r1->ru_msgrcv - r0->ru_msgrcv); 571 #endif 572 break; 573 574 case 's': /* PWP: socket messages sent */ 575 #ifdef _OSD_POSIX 576 xprintf("0",0); 577 #else 578 xprintf("%ld", r1->ru_msgsnd - r0->ru_msgsnd); 579 #endif 580 break; 581 582 case 'k': /* PWP: signals received */ 583 #ifdef _OSD_POSIX 584 xprintf("0",0); 585 #else 586 xprintf("%ld", r1->ru_nsignals - r0->ru_nsignals); 587 #endif 588 break; 589 590 case 'w': /* PWP: voluntary context switches (waits) */ 591 #ifdef _OSD_POSIX 592 xprintf("0",0); 593 #else 594 xprintf("%ld", r1->ru_nvcsw - r0->ru_nvcsw); 595 #endif 596 break; 597 598 case 'c': /* PWP: involuntary context switches */ 599 #ifdef _OSD_POSIX 600 xprintf("0",0); 601 #else 602 xprintf("%ld", r1->ru_nivcsw - r0->ru_nivcsw); 603 #endif 604 break; 605 #else /* BSDTIMES */ 606 # ifdef _SEQUENT_ 607 case 'W': /* number of swaps */ 608 i = r1->ps_swap - r0->ps_swap; 609 xprintf("%ld", i); 610 break; 611 612 case 'M': 613 xprintf("%ld", r1->ps_maxrss / 2); 614 break; 615 616 case 'F': 617 xprintf("%ld", r1->ps_pagein - r0->ps_pagein); 618 break; 619 620 case 'R': 621 xprintf("%ld", r1->ps_reclaim - r0->ps_reclaim); 622 break; 623 624 case 'I': 625 xprintf("%ld", r1->ps_bread - r0->ps_bread); 626 break; 627 628 case 'O': 629 xprintf("%ld", r1->ps_bwrite - r0->ps_bwrite); 630 break; 631 632 case 'k': 633 xprintf("%ld", r1->ps_signal - r0->ps_signal); 634 break; 635 636 case 'w': 637 xprintf("%ld", r1->ps_volcsw - r0->ps_volcsw); 638 break; 639 640 case 'c': 641 xprintf("%ld", r1->ps_involcsw - r0->ps_involcsw); 642 break; 643 644 case 'Z': 645 xprintf("%ld", r1->ps_zerofill - r0->ps_zerofill); 646 break; 647 648 case 'i': 649 xprintf("%ld", r1->ps_pffincr - r0->ps_pffincr); 650 break; 651 652 case 'd': 653 xprintf("%ld", r1->ps_pffdecr - r0->ps_pffdecr); 654 break; 655 656 case 'Y': 657 xprintf("%ld", r1->ps_syscall - r0->ps_syscall); 658 break; 659 660 case 'l': 661 xprintf("%ld", r1->ps_lread - r0->ps_lread); 662 break; 663 664 case 'm': 665 xprintf("%ld", r1->ps_lwrite - r0->ps_lwrite); 666 break; 667 668 case 'p': 669 xprintf("%ld", r1->ps_phread - r0->ps_phread); 670 break; 671 672 case 'q': 673 xprintf("%ld", r1->ps_phwrite - r0->ps_phwrite); 674 break; 675 # endif /* _SEQUENT_ */ 676 #endif /* BSDTIMES */ 677 default: 678 break; 679 } 680 xputchar('\n'); 681 } 682 683 #if defined(BSDTIMES) || defined(_SEQUENT_) 684 static void 685 pdeltat(timeval_t *t1, timeval_t *t0) 686 { 687 timeval_t td; 688 689 tvsub(&td, t1, t0); 690 xprintf("%ld.%03ld", td.tv_sec, td.tv_usec / 1000L); 691 } 692 693 static void 694 tvadd(timeval_t *tsum, timeval_t *t0) 695 { 696 697 tsum->tv_sec += t0->tv_sec; 698 tsum->tv_usec += t0->tv_usec; 699 if (tsum->tv_usec >= 1000000) 700 tsum->tv_sec++, tsum->tv_usec -= 1000000; 701 } 702 703 void 704 tvsub(timeval_t *tdiff, timeval_t *t1, timeval_t *t0) 705 { 706 707 tdiff->tv_sec = t1->tv_sec - t0->tv_sec; 708 tdiff->tv_usec = t1->tv_usec - t0->tv_usec; 709 if (tdiff->tv_usec < 0) 710 tdiff->tv_sec--, tdiff->tv_usec += 1000000; 711 } 712 713 #else /* !BSDTIMES && !_SEQUENT_ */ 714 static void 715 #ifndef POSIX 716 pdtimet(time_t eval, time_t bval) 717 718 #else /* POSIX */ 719 pdtimet(clock_t eval, clock_t bval) 720 721 #endif /* POSIX */ 722 { 723 #ifndef POSIX 724 time_t val; 725 726 #else /* POSIX */ 727 clock_t val; 728 729 #endif /* POSIX */ 730 731 #ifndef POSIX 732 val = (eval - bval) * 100 / HZ; 733 #else /* POSIX */ 734 val = (eval - bval) * 100 / clk_tck; 735 #endif /* POSIX */ 736 737 xprintf("%ld.%02ld", val / 100, val - (val / 100 * 100)); 738 } 739 #endif /* BSDTIMES || _SEQUENT_ */ 740