/* * Copyright (c) International Business Machines Corp., 2001 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See * the GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /*---------------------------------------------------------------------+ | sched_driver | | ==================================================================== | | | | Description: This program uses system calls to change the | | priorities of the throughput measurement testcases. | | When real-time is in effect, priorities 50 through 64 | | are used. (MAX_PRI and MIN_PRI) When user-time | | (normal) is in effect, 0-14 (corresponding to nice() | | calls) is used. The driver only keeps track of | | values from 50 to 64, and the testcases will scale | | them down to 0 to 14 when needed, to change the | | priority of a user-time process. | | | | Algorithm: o Parse command line arguments | | o Set current priority | | o Calcucations (process slots, short/long term slots) | | o Perform throughput tests with high priority | | o Start long-term testcases | | o While time remains | | - Start short-term tests | | - Perform throughput tests with new priority | | - Kill short-term tests | | - Increase priority | | | | Usage: sched_driver [-s n] [-p n] [-t n] [-d] [-v] | | | | where: | | -s n stress percentage | | -p n process slots | | -t n execution time in hours | | -d enable debugging messages | | -v Turn on verbose mode | | | | Last update: Ver. 1.15, 4/10/94 23:04:23 | | | | Change Activity | | | | Version Date Name Reason | | 0.1 072889 GEB Initial draft | | 1.2 120793 JAT Changes for AIX 4.1 | | 1.3 041094 DJK Rewrote protions... | | 1.4 010402 Manoj Iyer Ported to Linux | | | +---------------------------------------------------------------------*/ #include #include #include #include #include #include #include #include #include #include "sched.h" /* * Defines: * * MAXPROCS: maximum number of processes * * PRIINC: priority step value * * MAX_PRI: highest priority to use * * MIN_PRI: lowest priority to use * * DEFAULT_STRESS_PERCENTAGE: stress percentage (process slot multiplier) * * DEFAULT_PROCESS_SLOTS: number of processes test driver will try and create * * DEFAULT_TIME: time (hours) for which this test driver will run * * USAGE: usage statement */ #define MAXPROCS 100 #define PRIINC 2 #define MAX_PRI 55 /* was 50 */ #define MIN_PRI 75 /* was 64 */ #define DEFAULT_STRESS_PERCENTAGE 0.5 #define DEFAULT_PROCESS_SLOTS 16 #define DEFAULT_TIME 1.00 #define USAGE "Usage: %s [-s n] [-p n] [-t n] [-d] [-v] \n" \ " -s n stress percentage [0.0 MIN_PRI) current_priority = MAX_PRI; else current_priority += PRIINC; } /* * Exit with success... */ finishup(start_time); printf("\nsuccessful!\n"); fflush(stdout); return (0); } /*------------------------------ startup() ------------------------------*/ /* This procedure opens the , and then outputs some starting * * information to the screen and . It also initializes the * * process id list and other global variables. * *-----------------------------------------------------------------------*/ void startup(long start_time) { char tempbuffer[50]; /* temporary buffer to hold names */ /* * Now output some diagnostic information */ printf("start time = %s\n", ctime(&start_time)); gethostname(tempbuffer, 40); printf("host name = %s\n", tempbuffer); printf("user name = %s\n", getpwuid(geteuid())->pw_name); printf("test duration = %4.2f (hours)\n", execution_time); printf("test stress = %4.2f%%%%\n\n", 100 * stress_percent); /* * Initialize the global variables */ numprocs = 0; long_running = 0; short_running = 0; e4user = 0.0; e4real = 0.0; e5user = 0.0; e5real = 0.0; e6user0 = 0.0; e6real0 = 0.0; e6user1 = 0.0; e6child = 0.0; } /*--------------------------- start_testcase() --------------------------*/ /* This procedure will run a specified testcase by forking a process, and* * then running the testcase with it. It will also store the process id * * number in the process id table. The process id of the child process * * is returned to the calling program. * * name1 pathname of testcase to run * * name2 filename of testcase to run * * param1 parameters to pass to the testcase * * param2 * * param3 * * param4 if sched_tc6: fork flag: 0=false, 1=true * *-----------------------------------------------------------------------*/ int start_testcase(char *name1, char *name2, char *param1, char *param2, char *param3, char *param4) { int pid, /* pid of currently running process */ pid_save; /* saved pid of process */ /* * Fork a process that will run testcase and save the pid */ if (debug) printf("test: %s %s p1[%s] p2[%s] p3[%s] p4[%s]\n", name1, name2, param1, param2, param3, param4); pid_save = pid = fork(); /* * If the pid returned is -1, fork failed. If the pid returned is * 0, then the process running is the child process, and we need * to do an 'execl' to run the testcase. If the pid returned is * anything else, then the parent is running, and we return. */ switch (pid) { case -1: exit(-1); case 0: execl(name1, name2, param1, param2, param3, param4, NULL); printf("ERROR: start_testcase(): execl failed.\n"); exit(-1); default: break; } if (debug) printf("testcase %s started -- pid is %d\n", name2, pid_save); /* * If the process just forked is for a short-term testcase, then * add the process id to the table. */ if (debug) printf("new process: %s ", name2); if (strstr(name2, "tc1") || strstr(name2, "tc3")) { procs[numprocs] = pid_save; numprocs++; short_running++; if (debug) printf("(%d short term)", short_running); } if (strstr(name2, "tc0") || strstr(name2, "tc2")) { long_running++; if (debug) printf("(%d long term)", long_running); } if (debug) printf("\n"); return (pid_save); } /*------------------------- process_slots_in_use() ----------------------*/ /* This function will return the number of process slots currently in use* * by executing the 'ps' command. * *-----------------------------------------------------------------------*/ int process_slots_in_use() { FILE *psfile; /* temporary file to hold output of 'ps' command */ int usedslots; /* holds the number of used process slots */ /* * Call the 'ps' command and write the number of process slots to a file */ if (system("ps -e | wc -l > ps.out") < 0) sys_error("system failed", __FILE__, __LINE__); /* * Open the output file */ if ((psfile = fopen("ps.out", "r")) == NULL) { exit(-1); } /* * Read the number of process slots in use from the file */ fscanf(psfile, "%d", &usedslots); /* * Close the output file */ if (fclose(psfile) == -1) { exit(-1); } /* * Remove the output file */ if (system("/bin/rm ps.out") < 0) sys_error("system failed", __FILE__, __LINE__); return (usedslots - 1); } /*----------------------- available_user_process_slots() ----------------*/ /* This function returns the total number of available user process slots* * by subtracting the process slots currently in use from the maximum * * possible process slots. * *-----------------------------------------------------------------------*/ int available_user_process_slots() { int num = process_slots_in_use(); return ((process_slots < num) ? process_slots : process_slots - num); } /*---------------------------- measure_test() ---------------------------*/ /* This function executes a throughput measurement process and waits for * * that process to finish. When finished, it reads the result from a * * file and returns that result to the caller. The file is then deleted.* * If sched_tc6 is called, then the second time is also read from the * * results file and returned to the caller. * *-----------------------------------------------------------------------*/ float measure_test(name, param1, param2, param3, t2) char *name, /* filename of testcase to run */ *param1, /* user flag: 0=user, 1=real time */ *param2, /* priority to run the throughput test at */ *param3; /* if sched_tc6: fork flag, 0=false, 1=true */ float *t2; /* if sched_tc6: second time returned from testcase */ { char temp[PATH_MAX], /* holds pathname and returned floating number */ t2asc[50]; /* holds second returned floating number */ int saved_pid; /* process id of forked process */ FILE *datafile; /* file pointer for temporary file */ /* * Create the path name to be passed to the start_testcase() function */ sprintf(temp, "./%s", name); /* * Send all the parameters, and start the testcase */ saved_pid = start_testcase(temp, name, param1, "-lsch.measure", param2, param3); /* * Wait for the testcase to finish */ if (debug) printf("waiting on child %d\n", saved_pid); while (wait(NULL) != saved_pid) ; /* * Open the temporary file to get the returned number of seconds */ if ((datafile = fopen("sch.measure", "r")) == NULL) { sys_error("cannot open sch.measure", __FILE__, __LINE__); } /* * Read the number of seconds */ fgets(temp, 50, datafile); /*added by mpt printf("sched+driver: measure_test: number of seconds=%s\n",temp) *********** */ /* * If this is sched_tc6, then there is another number we must return */ if (strcmp(name, "sched_tc6") == 0) { fgets(t2asc, 50, datafile); *t2 = atof(t2asc); } /* * Close the temporary file */ if (fclose(datafile) != 0) { exit(-1); } /* * Now try to remove the temporary file */ /*added by MPT printf("measure_test: REMOVING sch.measure\n"); fflush(stdout); if (system ("rm sch.measure") < 0) sys_error ("system failed", __FILE__, __LINE__); */ return (atof(temp)); } /*------------------------- display_line() ------------------------------*/ /* This procedure displays a line of output given the results of a * * throughput test. It displays the testcase name, the current priority * * level, the user/real time flag, and the elapsed time in seconds, as * * well as the percent change between the current and previous times. * * It then updates the previous elapsed time to be the current one. * *-----------------------------------------------------------------------*/ void display_line(char *tcname, int pri, int f, float et, float *pet, int ff) { static int display_header = 0; float pc; /* holds percent change */ /* * Print header every eight lines... */ if (display_header-- == 0) { printf("\n Test Processes " " Time Notes\n" "--------- --------------------------- " "--------------- -------\n" "name long short priority mode " "elapsed %%%%delta\n\n"); display_header = 6; } /* * Calculate the percent change in time */ pc = (*pet == 0.0) ? 0.0 : 100.0 * ((et - *pet) / *pet) + 0.05; printf("%-12s %2d %2d %2d %4s %06.4f %+06.4f %s\n", tcname, long_running, short_running, pri, (f == 0) ? "user" : "real", et, pc, (ff) ? "forked child" : " "); fflush(stdout); *pet = et; } /*------------------------- perform_throughput_tests() ------------------*/ /* This procedure is called each time throughput tests are to be * * performed. This procedure executes each of the throughput tests, and * * records the results of each to the . * *-----------------------------------------------------------------------*/ void perform_throughput_tests(int current_priority) { float esecs, /* elapsed seconds returned from each testcase */ esecs2, /* elapsed seconds (second part) for sched_tc6 */ pc; /* percent change for sched_tc6 */ char pristr[10]; /* holds ascii value of priority as parameter */ sprintf(pristr, "-p%d", current_priority); #if defined(_IA64) && !defined(__64BIT__) esecs = measure_test("sched_tc4.32", "-tvariable", pristr, NULL, &esecs2); display_line("sched_tc4.32", current_priority, 0, esecs, &e4user, 2); esecs = measure_test("sched_tc4.32", "-tfixed", pristr, NULL, &esecs2); display_line("sched_tc4.32", current_priority, 1, esecs, &e4real, 2); esecs = measure_test("sched_tc5.32", "-tvariable", pristr, NULL, &esecs2); display_line("sched_tc5.32", current_priority, 0, esecs, &e5user, 2); esecs = measure_test("sched_tc5.32", "-tfixed", pristr, NULL, &esecs2); display_line("sched_tc5.32", current_priority, 1, esecs, &e5real, 2); esecs = measure_test("sched_tc6.32", "-tvariable", pristr, " -d ", &esecs2); display_line("sched_tc6.32", current_priority, 0, esecs, &e6user0, 0); esecs = measure_test("sched_tc6.32", "-tfixed", pristr, " -d ", &esecs2); display_line("sched_tc6.32", current_priority, 1, esecs, &e6real0, 0); esecs = measure_test("sched_tc6.32", "-tvariable", pristr, " -df ", &esecs2); display_line("sched_tc6.32", current_priority, 0, esecs, &e6user1, 1); #else esecs = measure_test("sched_tc4", "-tvariable", pristr, NULL, &esecs2); display_line("sched_tc4", current_priority, 0, esecs, &e4user, 2); esecs = measure_test("sched_tc4", "-tfixed", pristr, NULL, &esecs2); display_line("sched_tc4", current_priority, 1, esecs, &e4real, 2); esecs = measure_test("sched_tc5", "-tvariable", pristr, NULL, &esecs2); display_line("sched_tc5", current_priority, 0, esecs, &e5user, 2); esecs = measure_test("sched_tc5", "-tfixed", pristr, NULL, &esecs2); display_line("sched_tc5", current_priority, 1, esecs, &e5real, 2); esecs = measure_test("sched_tc6", "-tvariable", pristr, " -d ", &esecs2); display_line("sched_tc6", current_priority, 0, esecs, &e6user0, 0); esecs = measure_test("sched_tc6", "-tfixed", pristr, " -d ", &esecs2); display_line("sched_tc6", current_priority, 1, esecs, &e6real0, 0); esecs = measure_test("sched_tc6", "-tvariable", pristr, " -df ", &esecs2); display_line("sched_tc6", current_priority, 0, esecs, &e6user1, 1); #endif /* * Manually build the display line for the second part of sched_tc6 */ /* * Calculate the percent change in time */ pc = (e6child == 0.0) ? 0.0 : 100 * ((esecs2 - e6child) / e6child) + 0.05; printf("%-12s forked child %4s %06.4f %+06.4f\n", "sched_tc6", "real", esecs2, pc); e6child = esecs2; } /*------------------------ start_long_term_testcases() ------------------*/ /* This procedure takes the number of long-term process slots available, * * and executes the long term testcases. * *-----------------------------------------------------------------------*/ void start_long_term_testcases(long_term_slot_total, execution_time) int long_term_slot_total; /* total number of long-term slots */ char *execution_time; /* runtime hours to pass to each testcase */ { int i; /* * Now use up the long_term_slot_total by starting testcases call * half with real-time flag '1' set, other half user flag '0' */ if (debug) printf("long-term slots available: %d\n", long_term_slot_total); for (i = 0; i < (long_term_slot_total / 4); i++) { #if defined(_IA64) && !defined(__64BIT__) start_testcase("./sched_tc0.32", "sched_tc0 -t", execution_time, " -p1", NULL, NULL); start_testcase("./sched_tc2.32", "sched_tc2", execution_time, "1", NULL, NULL); start_testcase("./sched_tc0.32", "sched_tc0 -t", execution_time, " -p0", NULL, NULL); start_testcase("./sched_tc2.32", "sched_tc2", execution_time, "0", NULL, NULL); #else start_testcase("./sched_tc0", "sched_tc0 -t", execution_time, " -p1", NULL, NULL); start_testcase("./sched_tc2", "sched_tc2", execution_time, "1", NULL, NULL); start_testcase("./sched_tc0", "sched_tc0 -t", execution_time, " -p0", NULL, NULL); start_testcase("./sched_tc2", "sched_tc2", execution_time, "0", NULL, NULL); #endif } } /*---------------------------------------------------------------------+ | start_short_term_testcases () | | ==================================================================== | | | | Function: Starts short term testcases (one for each process slot) | | | +---------------------------------------------------------------------*/ void start_short_term_testcases(int short_term_slot_total, double stress_percent, int pri) { int i; int short_term_slots; /* number of slots to use */ /* * Set up the short_term_slot_total by starting testcases call * half with real-time flag '1' set, other half user flag '0' */ if (available_user_process_slots() < short_term_slot_total) short_term_slots = available_user_process_slots() * stress_percent / 2; else short_term_slots = short_term_slot_total; printf("\n<< Starting %d short-term testcases>> \n\n", short_term_slots); if (debug) printf("short-term slots available: %d\n", short_term_slots); for (i = 0; i < (short_term_slots / 4); i++) { #if defined(_IA64) && !defined(__64BIT__) start_testcase("./sched_tc1.32", "sched_tc1", "1", NULL, NULL, NULL); start_testcase("./sched_tc3.32", "sched_tc3", "1", NULL, NULL, NULL); start_testcase("./sched_tc1.32", "sched_tc1", "0", NULL, NULL, NULL); start_testcase("./sched_tc3.32", "sched_tc3", "0", NULL, NULL, NULL); #else start_testcase("./sched_tc1", "sched_tc1", "1", NULL, NULL, NULL); start_testcase("./sched_tc3", "sched_tc3", "1", NULL, NULL, NULL); start_testcase("./sched_tc1", "sched_tc1", "0", NULL, NULL, NULL); start_testcase("./sched_tc3", "sched_tc3", "0", NULL, NULL, NULL); #endif #if 0 perform_throughput_tests(pri); #endif } } /*------------------------ kill_short_term_testcases() ------------------*/ /* This procedure goes through the process id table, and sends each * * process id number found in the table a signal in order to terminate * * it. The signal sent is SIGUSR1. It also re-initializes the table. * *-----------------------------------------------------------------------*/ void kill_short_term_testcases() { int i; /* loop counter to step through the list of process id's */ /* * Loop through the array of process id's one at a time, and * attempt to kill each one. If kill fails, report error and * continue. */ if (debug) printf("killing short-term processes...\n"); for (i = 0; i < numprocs; i++) { if (debug) printf("killing process [%d]\n", procs[i]); kill(procs[i], SIGUSR1); } /* * Adjust the number of short_term_testcases */ short_running -= numprocs; /* * Clear the table by setting number of entries to zero */ numprocs = 0; } /*----------------------------- finishup() ------------------------------*/ /* This procedure closing information to the about ending * * times, elapsed times, etc. This procedure then closes the file* *-----------------------------------------------------------------------*/ void finishup(start_time) long start_time; /* starting time to calculate elapsed time */ { long end_time; /* time when program finished */ /* * Get the end time and calculate elapsed time; write all this out */ end_time = time(NULL); printf("\nend time = %s\n", ctime(&end_time)); printf("elapsed time = %4.2f hours\n", ((end_time - start_time) / 3600.0)); } /*---------------------------------------------------------------------+ | parse_args () | | ==================================================================== | | | | Function: Parse the command line arguments & initialize global | | variables. | | | | Updates: (command line options) | | | | [-s] size: shared memory segment size | | | +---------------------------------------------------------------------*/ void parse_args(int argc, char **argv) { int opt; int sflg = 0, pflg = 0, tflg = 0; int errflag = 0; char *program_name = *argv; extern char *optarg; /* Command line option */ /* * Parse command line options. */ while ((opt = getopt(argc, argv, "vs:p:t:l:d")) != EOF) { switch (opt) { case 's': /* stress percentage */ sflg++; stress_percent = atof(optarg); break; case 'p': /* process slots */ pflg++; process_slots = atof(optarg); break; case 't': /* time (hours) */ tflg++; execution_time = atof(optarg); break; case 'd': /* Enable debugging messages */ debug++; break; case 'v': /* Enable verbose mode=debug mode */ debug++; break; default: errflag++; break; } } /* * Check percentage, execution time and process slots... */ if (sflg) { if (stress_percent < 0.0 || stress_percent > 1.0) errflag++; } if (pflg) { if (process_slots < 0 || process_slots > MAXPROCS) errflag++; } if (tflg) { if (execution_time < 0.0 || execution_time > 100.0) errflag++; } if (debug) printf("\n(debugging messages enabled)\n\n"); if (errflag) { fprintf(stderr, USAGE, program_name); exit(2); } }