/* * 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. */ #pragma ident "%Z%%M% %I% %E% SMI" /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "priocntl.h" /* * This file contains the class specific code implementing * the real-time priocntl sub-command. */ #define ADDKEYVAL(p, k, v) { (p[0]) = (k); (p[1]) = (v); p += 2; } #define RT_KEYCNT 4 /* maximal number of (key, value) pairs */ /* * control flags */ #define RT_DOPRI 0x01 /* change priority */ #define RT_DOTQ 0x02 /* change RT time quantum */ #define RT_DOSIG 0x10 /* change RT time quantum signal */ static void print_rtinfo(void); static int print_rtprocs(void); static int rt_priocntl(idtype_t, id_t, int, char *, uintptr_t *); static int set_rtprocs(idtype_t, int, char **, uint_t, pri_t, long, long, int); static void exec_rtcmd(char **, uint_t, pri_t, long, long, int); static char usage[] = "usage: priocntl -l\n" " priocntl -d [-i idtype] [idlist]\n" " priocntl -s [-c RT] [-p rtpri] [-t tqntm [-r res]] [-q tqsig]\n" " [-i idtype] [idlist]\n" " priocntl -e [-c RT] [-p rtpri] [-t tqntm [-r res]] [-q tqsig]\n" " command [argument(s)]\n"; static char cmdpath[MAXPATHLEN]; static char basenm[BASENMSZ]; int main(int argc, char *argv[]) { int c; int lflag, dflag, sflag, pflag; int tflag, rflag, eflag, iflag, qflag; pri_t rtpri; long tqntm; long res; int tqsig; char *idtypnm; idtype_t idtype; int idargc; uint_t cflags; (void) strlcpy(cmdpath, argv[0], MAXPATHLEN); (void) strlcpy(basenm, basename(argv[0]), BASENMSZ); lflag = dflag = sflag = pflag = 0; tflag = rflag = eflag = iflag = qflag = 0; while ((c = getopt(argc, argv, "ldsp:t:r:q:ec:i:")) != -1) { switch (c) { case 'l': lflag++; break; case 'd': dflag++; break; case 's': sflag++; break; case 'p': pflag++; rtpri = (pri_t)str2num(optarg, SHRT_MIN, SHRT_MAX); if (errno) fatalerr("%s: Specified real time priority %s" " out of configured range\n", basenm, optarg); break; case 't': tflag++; tqntm = str2num(optarg, 1, INT_MAX); if (errno) fatalerr("%s: Invalid time quantum specified;" " time quantum must be positive\n", basenm); break; case 'r': rflag++; res = str2num(optarg, 1, 1000000000); if (errno) fatalerr("%s: Invalid resolution specified;" " resolution must be between" " 1 and 1,000,000,000\n", basenm); break; case 'q': qflag++; if (str2sig(optarg, &tqsig) != 0) fatalerr("%s: Invalid real time quantum signal" " specified\n", basenm); break; case 'e': eflag++; break; case 'c': if (strcmp(optarg, "RT") != 0) fatalerr("error: %s executed for %s class, %s" " is actually sub-command for RT class\n", cmdpath, optarg, cmdpath); break; case 'i': iflag++; idtypnm = optarg; break; case '?': fatalerr(usage); default: break; } } if (lflag) { if (dflag || sflag || pflag || tflag || rflag || eflag || iflag || qflag) fatalerr(usage); print_rtinfo(); } else if (dflag) { if (lflag || sflag || pflag || tflag || rflag || eflag || qflag) fatalerr(usage); return (print_rtprocs()); } else if (sflag) { if (lflag || dflag || eflag) fatalerr(usage); if (iflag) { if (str2idtyp(idtypnm, &idtype) == -1) fatalerr("%s: Bad idtype %s\n", basenm, idtypnm); } else { idtype = P_PID; } cflags = (pflag ? RT_DOPRI : 0); if (tflag) cflags |= RT_DOTQ; if (rflag == 0) res = 1000; if (optind < argc) idargc = argc - optind; else idargc = 0; if (qflag) cflags |= RT_DOSIG; return (set_rtprocs(idtype, idargc, &argv[optind], cflags, rtpri, tqntm, res, tqsig)); } else if (eflag) { if (lflag || dflag || sflag || iflag) fatalerr(usage); cflags = (pflag ? RT_DOPRI : 0); if (tflag) cflags |= RT_DOTQ; if (rflag == 0) res = 1000; if (qflag) cflags |= RT_DOSIG; exec_rtcmd(&argv[optind], cflags, rtpri, tqntm, res, tqsig); } else { fatalerr(usage); } return (0); } /* * Print our class name and the configured user priority range. */ static void print_rtinfo(void) { pcinfo_t pcinfo; (void) strcpy(pcinfo.pc_clname, "RT"); (void) printf("RT (Real Time)\n"); if (priocntl(0, 0, PC_GETCID, (caddr_t)&pcinfo) == -1) fatalerr("\tCan't get maximum configured RT priority\n"); (void) printf("\tConfigured RT User Priority Range: 0 through %d\n", ((rtinfo_t *)pcinfo.pc_clinfo)->rt_maxpri); } /* * Read a list of pids from stdin and print the real-time priority and time * quantum (in millisecond resolution) for each of the corresponding processes. */ static int print_rtprocs(void) { pid_t *pidlist; size_t numread; int i; char clname[PC_CLNMSZ]; pri_t rt_pri; uint_t rt_tqsecs; int rt_tqnsecs; int rt_tqsig; int error = 0; /* * Read a list of pids from stdin. */ if ((pidlist = read_pidlist(&numread, stdin)) == NULL) fatalerr("%s: Can't read pidlist.\n", basenm); (void) printf("REAL TIME PROCESSES:\n" " PID RTPRI TQNTM TQSIG\n"); if (numread == 0) fatalerr("%s: No pids on input\n", basenm); for (i = 0; i < numread; i++) { (void) printf("%7ld", pidlist[i]); if (priocntl(P_PID, pidlist[i], PC_GETXPARMS, "RT", RT_KY_TQSECS, &rt_tqsecs, RT_KY_TQNSECS, &rt_tqnsecs, RT_KY_PRI, &rt_pri, RT_KY_TQSIG, &rt_tqsig, 0) != -1) { (void) printf(" %5d", rt_pri); if (rt_tqnsecs == RT_TQINF) (void) printf(" RT_TQINF"); else (void) printf(" %11lld", (longlong_t)rt_tqsecs * 1000 + rt_tqnsecs / 1000000); (void) printf(" %3d\n", rt_tqsig); } else { error = 1; if (priocntl(P_PID, pidlist[i], PC_GETXPARMS, NULL, PC_KY_CLNAME, clname, 0) != -1 && strcmp(clname, "RT")) /* * Process from some class other than real time. * It has probably changed class while priocntl * command was executing (otherwise we wouldn't * have been passed its pid). Print the little * we know about it. */ (void) printf("\tChanged to class %s while" " priocntl command executing\n", clname); else (void) printf("\tCan't get real time" " parameters\n"); } } free_pidlist(pidlist); return (error); } /* * Call priocntl() with command codes PC_SETXPARMS or PC_GETXPARMS. * The first parameter behind the command code is always the class name. * Each parameter is headed by a key, which determines the meaning of the * following value. There are maximal RT_KEYCNT = 4 (key, value) pairs. */ static int rt_priocntl(idtype_t idtype, id_t id, int cmd, char *clname, uintptr_t *argsp) { return (priocntl(idtype, id, cmd, clname, argsp[0], argsp[1], argsp[2], argsp[3], argsp[4], argsp[5], argsp[6], argsp[7], 0)); } /* * Set all processes in the set specified by idtype/idargv to real time * (if they aren't already real time) and set their real-time priority, * real-time quantum and real-time quantum signal to those specified by * rtpri, tqntm/res and rtqsig. */ static int set_rtprocs(idtype_t idtype, int idargc, char **idargv, uint_t cflags, pri_t rtpri, long tqntm, long res, int rtqsig) { pcinfo_t pcinfo; uintptr_t args[2*RT_KEYCNT+1]; uintptr_t *argsp = &args[0]; pri_t maxrtpri; hrtimer_t hrtime; char idtypnm[PC_IDTYPNMSZ]; int i; id_t id; int error = 0; /* * Get the real time class ID and max configured RT priority. */ (void) strcpy(pcinfo.pc_clname, "RT"); if (priocntl(0, 0, PC_GETCID, (caddr_t)&pcinfo) == -1) fatalerr("%s: Can't get RT class ID, priocntl system call" " failed with errno %d\n", basenm, errno); maxrtpri = ((rtinfo_t *)pcinfo.pc_clinfo)->rt_maxpri; /* * Validate the rtpri and res arguments. */ if ((cflags & RT_DOPRI) != 0) { if (rtpri > maxrtpri || rtpri < 0) fatalerr("%s: Specified real time priority %d out of" " configured range\n", basenm, rtpri); ADDKEYVAL(argsp, RT_KY_PRI, rtpri); } if ((cflags & RT_DOTQ) != 0) { hrtime.hrt_secs = 0; hrtime.hrt_rem = tqntm; hrtime.hrt_res = res; if (_hrtnewres(&hrtime, NANOSEC, HRT_RNDUP) == -1) fatalerr("%s: Can't convert resolution.\n", basenm); ADDKEYVAL(argsp, RT_KY_TQSECS, hrtime.hrt_secs); ADDKEYVAL(argsp, RT_KY_TQNSECS, hrtime.hrt_rem); } if ((cflags & RT_DOSIG) != 0) ADDKEYVAL(argsp, RT_KY_TQSIG, rtqsig); *argsp = 0; if (idtype == P_ALL) { if (rt_priocntl(P_ALL, 0, PC_SETXPARMS, "RT", args) == -1) { if (errno == EPERM) { (void) fprintf(stderr, "Permissions error encountered" " on one or more processes.\n"); error = 1; } else { fatalerr("%s: Can't reset real time parameters" "\npriocntl system call failed with" " errno %d\n", basenm, errno); } } } else if (idargc == 0) { if (rt_priocntl(idtype, P_MYID, PC_SETXPARMS, "RT", args) == -1) { if (errno == EPERM) { (void) idtyp2str(idtype, idtypnm); (void) fprintf(stderr, "Permissions error" " encountered on current %s.\n", idtypnm); error = 1; } else { fatalerr("%s: Can't reset real time parameters" "\npriocntl system call failed with" " errno %d\n", basenm, errno); } } } else { (void) idtyp2str(idtype, idtypnm); for (i = 0; i < idargc; i++) { if (idtype == P_CID) { (void) strcpy(pcinfo.pc_clname, idargv[i]); if (priocntl(0, 0, PC_GETCID, (caddr_t)&pcinfo) == -1) fatalerr("%s: Invalid or unconfigured" " class %s, priocntl system call" " failed with errno %d\n", basenm, pcinfo.pc_clname, errno); id = pcinfo.pc_cid; } else { id = (id_t)str2num(idargv[i], INT_MIN, INT_MAX); if (errno) fatalerr("%s: Invalid id \"%s\"\n", basenm, idargv[i]); } if (rt_priocntl(idtype, id, PC_SETXPARMS, "RT", args) == -1) { if (errno == EPERM) { (void) fprintf(stderr, "Permissions error encountered on" " %s %s.\n", idtypnm, idargv[i]); error = 1; } else { fatalerr("%s: Can't reset real time" " parameters\npriocntl system call" " failed with errno %d\n", basenm, errno); } } } } return (error); } /* * Execute the command pointed to by cmdargv as a real-time process * with real time priority rtpri, quantum tqntm/res and quantum signal rtqsig. */ static void exec_rtcmd(char **cmdargv, uint_t cflags, pri_t rtpri, long tqntm, long res, int rtqsig) { pcinfo_t pcinfo; uintptr_t args[2*RT_KEYCNT+1]; uintptr_t *argsp = &args[0]; pri_t maxrtpri; hrtimer_t hrtime; /* * Get the real time class ID and max configured RT priority. */ (void) strcpy(pcinfo.pc_clname, "RT"); if (priocntl(0, 0, PC_GETCID, (caddr_t)&pcinfo) == -1) fatalerr("%s: Can't get RT class ID, priocntl system call" " failed with errno %d\n", basenm, errno); maxrtpri = ((rtinfo_t *)pcinfo.pc_clinfo)->rt_maxpri; if ((cflags & RT_DOPRI) != 0) { if (rtpri > maxrtpri || rtpri < 0) fatalerr("%s: Specified real time priority %d out of" " configured range\n", basenm, rtpri); ADDKEYVAL(argsp, RT_KY_PRI, rtpri); } if ((cflags & RT_DOTQ) != 0) { hrtime.hrt_secs = 0; hrtime.hrt_rem = tqntm; hrtime.hrt_res = res; if (_hrtnewres(&hrtime, NANOSEC, HRT_RNDUP) == -1) fatalerr("%s: Can't convert resolution.\n", basenm); ADDKEYVAL(argsp, RT_KY_TQSECS, hrtime.hrt_secs); ADDKEYVAL(argsp, RT_KY_TQNSECS, hrtime.hrt_rem); } if ((cflags & RT_DOSIG) != 0) ADDKEYVAL(argsp, RT_KY_TQSIG, rtqsig); *argsp = 0; if (rt_priocntl(P_PID, P_MYID, PC_SETXPARMS, "RT", args) == -1) fatalerr("%s: Can't reset real time parameters\n" "priocntl system call failed with errno %d\n", basenm, errno); (void) execvp(cmdargv[0], cmdargv); fatalerr("%s: Can't execute %s, exec failed with errno %d\n", basenm, cmdargv[0], errno); }