/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * pnpsplit splits interval into prime & nonprime portions * ONLY ROUTINE THAT KNOWS ABOUT HOLIDAYS AND DEFN OF PRIME/NONPRIME */ #include #include #include #include "acctdef.h" #include #include /* * validate that hours and minutes of prime/non-prime read in * from holidays file fall within proper boundaries. * Time is expected in the form and range of 0000-2400. */ static int thisyear = 1970; /* this is changed by holidays file */ static int holidays[NHOLIDAYS]; /* holidays file day-of-year table */ static int day_tab[2][13] = { {0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}, {0, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31} }; /* * prime(0) and nonprime(1) times during a day * for BTL, prime time is 9AM to 5PM */ static struct hours { int h_sec; /* normally always zero */ int h_min; /* initialized from holidays file (time%100) */ int h_hour; /* initialized from holidays file (time/100) */ long h_type; /* prime/nonprime of previous period */ } h[4]; int daysend[] = {0, 60, 23}; /* the sec, min, hr of the day's end */ struct tm *localtime(); long tmsecs(); /* * split interval of length etime, starting at start into prime/nonprime * values, return as result * input values in seconds */ int pnpsplit(start, etime, result) long start, result[2]; ulong_t etime; { struct tm cur, end; time_t tcur, tend; long tmp; int sameday; register struct hours *hp; char *memcpy(); /* once holidays file is read, this is zero */ if(thisyear && (checkhol() == 0)) { return(0); } tcur = start; tend = start + etime; memcpy(&end, localtime(&tend), sizeof(end)); result[PRIME] = 0; result[NONPRIME] = 0; while ( tcur < tend ) { /* one iteration per day or part thereof */ memcpy(&cur, localtime(&tcur), sizeof(cur)); sameday = cur.tm_yday == end.tm_yday; if (ssh(&cur)) { /* ssh:only NONPRIME */ if (sameday) { result[NONPRIME] += tend-tcur; break; } else { tmp = tmsecs(&cur, daysend); result[NONPRIME] += tmp; tcur += tmp; } } else { /* working day, PRIME or NONPRIME */ for (hp = h; tmless(hp, &cur); hp++); for (; hp->h_sec >= 0; hp++) { if (sameday && tmless(&end, hp)) { /* WHCC mod, change from = to += 3/6/86 Paul */ result[hp->h_type] += tend-tcur; tcur = tend; break; /* all done */ } else { /* time to next PRIME /NONPRIME change */ tmp = tmsecs(&cur, hp); result[hp->h_type] += tmp; tcur += tmp; cur.tm_sec = hp->h_sec; cur.tm_min = hp->h_min; cur.tm_hour = hp->h_hour; } } } } return(1); } /* * Starting day after Christmas, complain if holidays not yet updated. * This code is only executed once per program invocation. */ int checkhol() { register struct tm *tp; time_t t; if(inithol() == 0) { fprintf(stderr, "pnpsplit: holidays table setup failed\n"); thisyear = 0; holidays[0] = -1; return(0); } time(&t); tp = localtime(&t); tp->tm_year += 1900; if ((tp->tm_year == thisyear && tp->tm_yday > 359) || tp->tm_year > thisyear) fprintf(stderr, "***UPDATE %s WITH NEW HOLIDAYS***\n", HOLFILE); thisyear = 0; /* checkhol() will not be called again */ return(1); } /* * ssh returns 1 if Sat, Sun, or Holiday */ int ssh(ltp) register struct tm *ltp; { int i; if (ltp->tm_wday == 0 || ltp->tm_wday == 6) return(1); for (i = 0; holidays[i] >= 0; i++) if (ltp->tm_yday == holidays[i]) return(1); return(0); } /* * inithol - read from an ascii file and initialize the "thisyear" * variable, the times that prime and non-prime start, and the * holidays array. */ int inithol() { FILE *fopen(), *holptr; char *fgets(), holbuf[128]; register int line = 0, holindx = 0, errflag = 0; int pstart, npstart; int doy; /* day of the year */ int month, day; char *c; if((holptr=fopen(HOLFILE, "r")) == NULL) { perror(HOLFILE); fclose(holptr); return(0); } while(fgets(holbuf, sizeof(holbuf), holptr) != NULL) { /* skip over blank lines and comments */ if (holbuf[0] == '*') continue; for (c = holbuf; isspace(*c); c++) /* is a space */; if (*c == '\0') continue; else if(++line == 1) { /* format: year p-start np-start */ if(sscanf(holbuf, "%4d %4d %4d", &thisyear, &pstart, &npstart) != 3) { fprintf(stderr, "%s: bad {yr ptime nptime} conversion\n", HOLFILE); errflag++; break; } /* validate year */ if(thisyear < 1970 || thisyear > 2037) { fprintf(stderr, "pnpsplit: invalid year: %d\n", thisyear); errflag++; break; } /* validate prime/nonprime hours */ if((! okay(pstart)) || (! okay(npstart))) { fprintf(stderr, "pnpsplit: invalid p/np hours\n"); errflag++; break; } /* Set up start of prime time; 2400 == 0000 */ h[0].h_sec = 0; h[0].h_min = pstart%100; h[0].h_hour = (pstart/100==24) ? 0 : pstart/100; h[0].h_type = NONPRIME; /* Set up start of non-prime time; 2400 == 2360 */ if ((npstart/100) == 24) { h[1].h_sec = 0; h[1].h_min = 60; h[1].h_hour = 23; } else { h[1].h_sec = 0; h[1].h_min = npstart % 100; h[1].h_hour = npstart / 100; } h[1].h_sec = 0; h[1].h_min = npstart%100; h[1].h_hour = (npstart/100==24) ? 0 : npstart/100; h[1].h_type = PRIME ; /* This is the end of the day */ h[2].h_sec = 0; h[2].h_min = 60; h[2].h_hour = 23; h[2].h_type = NONPRIME; /* The end of the array */ h[3].h_sec = -1; continue; } else if(holindx >= NHOLIDAYS) { fprintf(stderr, "pnpsplit: too many holidays, "); fprintf(stderr, "recompile with larger NHOLIDAYS\n"); errflag++; break; } /* Fill up holidays array from holidays file */ sscanf(holbuf, "%d/%d %*s %*s %*[^\n]\n", &month, &day); if (month < 0 || month > 12) { fprintf(stderr, "pnpsplit: invalid month %d\n", month); errflag++; break; } if (day < 0 || day > 31) { fprintf(stderr, "pnpsplit: invalid day %d\n", day); errflag++; break; } doy = day_of_year(thisyear, month, day); holidays[holindx++] = (doy - 1); } fclose(holptr); if(!errflag && holindx < NHOLIDAYS) { holidays[holindx] = -1; return(1); } else return(0); } /* * tmsecs returns number of seconds from t1 to t2, * times expressed in localtime format. * assumed that t1 <= t2, and are in same day. */ long tmsecs(t1, t2) register struct tm *t1, *t2; { return((t2->tm_sec - t1->tm_sec) + 60*(t2->tm_min - t1->tm_min) + 3600L*(t2->tm_hour - t1->tm_hour)); } /* * return 1 if t1 earlier than t2 (times in localtime format) * assumed that t1 and t2 are in same day */ int tmless(t1, t2) register struct tm *t1, *t2; { if (t1->tm_hour != t2->tm_hour) return(t1->tm_hour < t2->tm_hour); if (t1->tm_min != t2->tm_min) return(t1->tm_min < t2->tm_min); return(t1->tm_sec < t2->tm_sec); } /* set day of year from month and day */ int day_of_year(year, month, day) { int i, leap; leap = year%4 == 0 && year%100 || year%400 == 0; for (i = 1; i < month; i++) day += day_tab[leap][i]; return(day); }