/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.11 */ /* * acctprc1 [ctmpfile] * reads std. input (acct.h format), adds login names * writes std. output (ptmp.h/ascii format) * if ctmpfile is given, it is expected have ctmp.h/ascii data, * sorted by uid/name; it is used to make better guesses at login names */ #include #include #include "acctdef.h" #include #include #include #define MYKIND(flag) ((flag & ACCTF) == 0) struct acct ab; struct ctmp cb; struct ptmp pb; int a_usize = A_USIZE; struct urec { /* 1 for each distinct uid/name */ uid_t ur_uid; /* sorted by uid/name */ char ur_name[NSZ]; struct srec *ur_srec; /* ptr to first session */ short ur_cnt; /* # sessions */ } * ur; struct urec *urlast; int a_ssize = A_SSIZE; int ssize; struct srec { /* 1 for each distinct session */ dev_t sr_tty; /* dev, used to connect with process*/ time_t sr_start; /* start time of session */ time_t sr_end; /* end time of session */ } * sr; char *getname(uid_t, dev_t, time_t); void readctmp(char *); char *getnamc(uid_t, dev_t, time_t); int aread(int); char *uidtonam(); int main(int argc, char **argv) { long elaps[2]; ulong_t etime, stime; unsigned long mem; ulong_t expand(); int ver; /* version of acct struct */ int aread(); if ((ur = (struct urec *) calloc(a_usize, sizeof (struct urec))) == NULL) { fprintf(stderr, "acctpr1: Cannot allocate memory\n"); exit(3); } urlast = ur; if ((sr = (struct srec *) calloc(a_ssize, sizeof (struct srec))) == NULL) { fprintf(stderr, "acctpr1: Cannot allocate memory\n"); exit(3); } while (--argc > 0) { if (**++argv == '-') switch(*++*argv) { } else { readctmp(*argv); } } if (fread((char *)&ab, sizeof(struct acct), 1, stdin) != 1) return; else if (ab.ac_flag & AEXPND) ver = 2; /* 4.0 acct structure */ else ver = 1; /* 3.x acct structure */ rewind(stdin); while (aread(ver) == 1) { if (!MYKIND(ab.ac_flag)) continue; pb.pt_uid = ab.ac_uid; CPYN(pb.pt_name, getname(ab.ac_uid, ab.ac_tty, ab.ac_btime)); /* * approximate cpu P/NP split as same as elapsed time */ if ((etime = SECS(expand(ab.ac_etime))) == 0) etime = 1; stime = expand(ab.ac_stime) + expand(ab.ac_utime); mem = expand(ab.ac_mem); if(pnpsplit(ab.ac_btime, etime, elaps) == 0) { fprintf(stderr, "acctprc1: could not calculate prime/non-prime hours\n"); exit(1); } pb.pt_cpu[0] = (double)stime * (double)elaps[0] / etime; pb.pt_cpu[1] = (stime > pb.pt_cpu[0])? stime - pb.pt_cpu[0] : 0; pb.pt_cpu[1] = stime - pb.pt_cpu[0]; if (stime) pb.pt_mem = (mem + stime - 1) / stime; else pb.pt_mem = 0; /* unlikely */ printf("%ld\t%.*s\t%lu\t%lu\t%u\n", pb.pt_uid, OUTPUT_NSZ, pb.pt_name, pb.pt_cpu[0], pb.pt_cpu[1], pb.pt_mem); } exit(0); } /* * return ptr to name corresponding to uid * try ctmp first, then use uidtonam (internal list or passwd file) */ char * getname(uid_t uid, dev_t tty, time_t start) { char *p; if ((p = getnamc(uid, tty, start)) != NULL) return (p); return (uidtonam(uid)); } /* * read ctmp file, build up urec-srec data structures for * later use by getnamc */ void readctmp(char *fname) { FILE *fp; struct urec *up; struct srec *sp; int i = 0, j = 0, k=0; if ((fp = fopen(fname, "r")) == NULL) { fprintf(stderr, "acctprc1: can't open %s\n", fname); return; } up = NULL; sp = sr; while (fscanf(fp, "%hd\t%ld\t%s\t%lu\t%lu\t%lu\t%*[^\n]", &cb.ct_tty, &cb.ct_uid, cb.ct_name, &cb.ct_con[0], &cb.ct_con[1], &cb.ct_start) != EOF) { if (up == NULL || cb.ct_uid != up->ur_uid || !EQN(cb.ct_name, up->ur_name)) { if (up == NULL) up = ur; if (++up >= &ur[a_usize]) { a_usize = a_usize + A_USIZE; if ((ur = (struct urec *) realloc(ur, a_usize * sizeof (struct urec))) == NULL) { fprintf(stderr, "acctprc1: 1 Cannot reallocate memory\n"); exit(2); } up = &ur[a_usize - A_USIZE]; } up->ur_uid = cb.ct_uid; CPYN(up->ur_name, cb.ct_name); up->ur_srec = sp; up->ur_cnt = 0; } if (sp >= &sr[a_ssize-1]) { a_ssize = a_ssize + A_SSIZE; if ((sr = (struct srec *) realloc(sr, a_ssize * sizeof (struct srec))) == NULL) { fprintf(stderr, "acctprc1: 2 Cannot reallocate memory\n"); printf("errno=%d\n", errno); exit(2); } sp = &sr[a_ssize - A_SSIZE]; } sp->sr_tty = cb.ct_tty; sp->sr_start = cb.ct_start; sp->sr_end = cb.ct_start + cb.ct_con[0] + cb.ct_con[1]; sp++; up->ur_cnt++; } if (up != NULL) urlast = ++up; fclose(fp); } /* * using urec-srec data (if any), make best guess at login name * corresponding to uid, return ptr to the name. * must match on tty; use start time to help guess * for any urec having same uid as uid, search array of associated * srecs for those having same tty * if start time of process is within range of session, that's it * if none can be found within range, give it to person of same uid * who last logged off on that terminal */ char * getnamc(uid_t uid, dev_t tty, time_t start) { struct urec *up; struct srec *sp; struct srec *splast; long latest; char *guess; latest = 0; guess = NULL; for (up = ur; up < urlast && uid >= up->ur_uid; up++) if (uid == up->ur_uid) { sp = up->ur_srec; splast = sp+up->ur_cnt; for (; sp < splast; sp++) if (tty == sp->sr_tty) { if (start >= sp->sr_start && start <= sp->sr_end) return(up->ur_name); if (start >= sp->sr_start && sp->sr_end > latest) { latest = sp->sr_end; guess = up->ur_name; } } } return(guess); } int aread(int ver) { struct o_acct oab; int ret; if (ver != 2) { if ((ret = fread((char *)&oab, sizeof(struct o_acct), 1, stdin)) == 1){ /* copy SVR3 acct struct to SVR4 acct struct */ ab.ac_flag = oab.ac_flag | AEXPND; ab.ac_stat = oab.ac_stat; ab.ac_uid = (uid_t) oab.ac_uid; ab.ac_gid = (gid_t) oab.ac_gid; ab.ac_tty = (dev_t) oab.ac_tty; ab.ac_btime = oab.ac_btime; ab.ac_utime = oab.ac_utime; ab.ac_stime = oab.ac_stime; ab.ac_mem = oab.ac_mem; ab.ac_io = oab.ac_io; ab.ac_rw = oab.ac_rw; strcpy(ab.ac_comm, oab.ac_comm); } } else ret = fread((char *)&ab, sizeof(struct acct), 1, stdin); return(ret != 1 ? 0 : 1); }