/* * Copyright (c) 2000 Silicon Graphics, Inc. All Rights Reserved. * AUTHOR : William Roske/Richard Logan * * This program is free software; you can redistribute it and/or modify it * under the terms of version 2 of the GNU General Public License as * published by the Free Software Foundation. * * This program is distributed in the hope that it would be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * * Further, this software is distributed without any warranty that it is * free of the rightful claim of any third person regarding infringement * or the like. Any license provided herein, whether implied or * otherwise, applies only to this software file. Patent licenses, if * any, provided herein do not apply to combinations of this program with * other software, or any other product whatsoever. * * You should have received a copy of the GNU General Public License along * with this program; if not, write the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Contact information: Silicon Graphics, Inc., 1600 Amphitheatre Pkwy, * Mountain View, CA 94043, or: * * http://www.sgi.com * * For further information regarding this notice, see: * * http://oss.sgi.com/projects/GenInfo/NoticeExplan/ */ #include "config.h" #include #include #include #include #include #include #include #include #include #include "test.h" #include "ltp_priv.h" #include "usctest.h" #include "tst_clocks.h" #ifndef UNIT_TEST #define UNIT_TEST 0 #endif /* Define flags and args for standard options */ static int STD_INFINITE = 0; /* flag indciating to loop forever */ int STD_LOOP_COUNT = 1; /* number of iterations */ static float STD_LOOP_DURATION = 0.0; /* duration value in fractional seconds */ static char **STD_opt_arr = NULL; /* array of option strings */ static int STD_argind = 1; /* argv index to next argv element */ /* (first argument) */ /* To getopt users, it is like optind */ /* * The following variables are to support system testing additions. */ static int STD_TP_barrier = 0; /* flag to do barrier in TEST_PAUSE */ /* 2 - wait_barrier(), 3 - set_barrier(), * - barrier() */ static int STD_LP_barrier = 0; /* flag to do barrier in TEST_LOOPING */ /* 2 - wait_barrier(), 3 - set_barrier(), * - barrier() */ static int STD_TP_shmem_sz = 0; /* shmalloc this many words per pe in TEST_PAUSE */ static int STD_LD_shmem = 0; /* flag to do shmem_puts and shmem_gets during delay */ static int STD_LP_shmem = 0; /* flag to do shmem_puts and gets during TEST_LOOPING */ static int STD_LD_recfun = 0; /* do recressive function calls in loop delay */ static int STD_LP_recfun = 0; /* do recressive function calls in TEST_LOOPING */ static int STD_TP_sbrk = 0; /* do sbrk in TEST_PAUSE */ static int STD_LP_sbrk = 0; /* do sbrk in TEST_LOOPING */ static char *STD_start_break = 0; /* original sbrk size */ static int Debug = 0; static struct std_option_t { char *optstr; char *help; char *flag; char **arg; } std_options[] = { {"h", " -h Show this help screen\n", NULL, NULL}, {"i:", " -i n Execute test n times\n", NULL, NULL}, {"I:", " -I x Execute test for x seconds\n", NULL, NULL}, #ifdef UCLINUX {"C:", " -C ARG Run the child process with arguments ARG (for internal use)\n", NULL, NULL}, #endif {NULL, NULL, NULL, NULL} }; /* * Structure for usc_recressive_func argument */ struct usc_bigstack_t { char space[4096]; }; static struct usc_bigstack_t *STD_bigstack = NULL; /* define the string length for Mesg and Mesg2 strings */ #define STRLEN 2048 static char Mesg2[STRLEN]; /* holds possible return string */ static void usc_recressive_func(); /* * Define bits for options that might have env variable default */ #define OPT_iteration 01 #define OPT_duration 04 #define OPT_delay 010 #ifdef UCLINUX /* Allocated and used in self_exec.c: */ extern char *child_args; /* Arguments to child when -C is used */ #endif static void print_help(void (*user_help)(void)) { int i; for (i = 0; std_options[i].optstr; ++i) { if (std_options[i].help) printf("%s", std_options[i].help); } if (user_help) user_help(); } /********************************************************************** * parse_opts: **********************************************************************/ const char *parse_opts(int ac, char **av, const option_t * user_optarr, void (*uhf)(void)) { int found; /* flag to indicate that an option specified was */ /* found in the user's list */ int k; /* scratch integer for returns and short time usage */ float ftmp; /* tmp float for parsing env variables */ char *ptr; /* used in getting env variables */ int options = 0; /* no options specified */ int optstrlen, i; char *optionstr; int opt; /* * If not the first time this function is called, release the old STD_opt_arr * vector. */ if (STD_opt_arr != NULL) { free(STD_opt_arr); STD_opt_arr = NULL; } /* Calculate how much space we need for the option string */ optstrlen = 0; for (i = 0; std_options[i].optstr; ++i) optstrlen += strlen(std_options[i].optstr); if (user_optarr) for (i = 0; user_optarr[i].option; ++i) { if (strlen(user_optarr[i].option) > 2) return "parse_opts: ERROR - Only short options are allowed"; optstrlen += strlen(user_optarr[i].option); } optstrlen += 1; /* Create the option string for getopt */ optionstr = malloc(optstrlen); if (!optionstr) return "parse_opts: ERROR - Could not allocate memory for optionstr"; optionstr[0] = '\0'; for (i = 0; std_options[i].optstr; ++i) strcat(optionstr, std_options[i].optstr); if (user_optarr) for (i = 0; user_optarr[i].option; ++i) /* only add the option if it wasn't there already */ if (strchr(optionstr, user_optarr[i].option[0]) == NULL) strcat(optionstr, user_optarr[i].option); /* * Loop through av parsing options. */ while ((opt = getopt(ac, av, optionstr)) > 0) { STD_argind = optind; switch (opt) { case '?': /* Unknown option */ return "Unknown option"; break; case ':': /* Missing Arg */ return "Missing argument"; break; case 'i': /* Iterations */ options |= OPT_iteration; STD_LOOP_COUNT = atoi(optarg); if (STD_LOOP_COUNT == 0) STD_INFINITE = 1; break; case 'I': /* Time duration */ options |= OPT_duration; STD_LOOP_DURATION = atof(optarg); if (STD_LOOP_DURATION == 0.0) STD_INFINITE = 1; break; case 'h': /* Help */ print_help(uhf); exit(0); break; #ifdef UCLINUX case 'C': /* Run child */ child_args = optarg; break; #endif default: /* Check all the user specified options */ found = 0; for (i = 0; user_optarr[i].option; ++i) { if (opt == user_optarr[i].option[0]) { /* Yup, This is a user option, set the flag and look for argument */ if (user_optarr[i].flag) { *user_optarr[i].flag = 1; } found++; /* save the argument at the user's location */ if (user_optarr[i]. option[strlen(user_optarr[i].option) - 1] == ':') { *user_optarr[i].arg = optarg; } break; /* option found - break out of the for loop */ } } /* This condition "should never happen". SO CHECK FOR IT!!!! */ if (!found) { sprintf(Mesg2, "parse_opts: ERROR - option:\"%c\" NOT FOUND... INTERNAL " "ERROR", opt); return (Mesg2); } } } free(optionstr); STD_argind = optind; /* * Turn on debug */ if (getenv("USC_DEBUG") != NULL) { Debug = 1; printf("env USC_DEBUG is defined, turning on debug\n"); } if (getenv("USC_VERBOSE") != NULL) { Debug = 1; printf("env USC_VERBOSE is defined, turning on debug\n"); } /* * If the USC_ITERATION_ENV environmental variable is set to * a number, use that number as iteration count (same as -c option). * The -c option with arg will be used even if this env var is set. */ if (!(options & OPT_iteration) && (ptr = getenv(USC_ITERATION_ENV)) != NULL) { if (sscanf(ptr, "%i", &k) == 1) { if (k == 0) { /* if arg is 0, set infinite loop flag */ STD_INFINITE = 1; if (Debug) printf ("Using env %s, set STD_INFINITE to 1\n", USC_ITERATION_ENV); } else { /* else, set the loop count to the arguement */ STD_LOOP_COUNT = k; if (Debug) printf ("Using env %s, set STD_LOOP_COUNT to %d\n", USC_ITERATION_ENV, k); } } } /* * If the USC_LOOP_WALLTIME environmental variable is set, * use that number as duration (same as -I option). * The -I option with arg will be used even if this env var is set. */ if (!(options & OPT_duration) && (ptr = getenv(USC_LOOP_WALLTIME)) != NULL) { if (sscanf(ptr, "%f", &ftmp) == 1 && ftmp >= 0.0) { STD_LOOP_DURATION = ftmp; if (Debug) printf ("Using env %s, set STD_LOOP_DURATION to %f\n", USC_LOOP_WALLTIME, ftmp); if (STD_LOOP_DURATION == 0.0) { /* if arg is 0, set infinite loop flag */ STD_INFINITE = 1; if (Debug) printf ("Using env %s, set STD_INFINITE to 1\n", USC_LOOP_WALLTIME); } } } if (!(options & OPT_duration) && (ptr = getenv("USC_DURATION")) != NULL) { if (sscanf(ptr, "%f", &ftmp) == 1 && ftmp >= 0.0) { STD_LOOP_DURATION = ftmp; if (Debug) printf ("Using env USC_DURATION, set STD_LOOP_DURATION to %f\n", ftmp); if (STD_LOOP_DURATION == 0.0) { /* if arg is 0, set infinite loop flag */ STD_INFINITE = 1; if (Debug) printf ("Using env USC_DURATION, set STD_INFINITE to 1\n"); } } } /* * The following are special system testing envs to turn on special * hooks in the code. */ if ((ptr = getenv("USC_TP_BARRIER")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) STD_TP_barrier = k; else STD_TP_barrier = 1; if (Debug) printf ("using env USC_TP_BARRIER, Set STD_TP_barrier to %d\n", STD_TP_barrier); } if ((ptr = getenv("USC_LP_BARRIER")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) STD_LP_barrier = k; else STD_LP_barrier = 1; if (Debug) printf ("using env USC_LP_BARRIER, Set STD_LP_barrier to %d\n", STD_LP_barrier); } if ((ptr = getenv("USC_TP_SHMEM")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_TP_shmem_sz = k; if (Debug) printf ("Using env USC_TP_SHMEM, Set STD_TP_shmem_sz to %d\n", STD_TP_shmem_sz); } } if ((ptr = getenv("USC_LP_SHMEM")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_LP_shmem = k; if (Debug) printf ("Using env USC_LP_SHMEM, Set STD_LP_shmem to %d\n", STD_LP_shmem); } } if ((ptr = getenv("USC_LD_SHMEM")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_LD_shmem = k; if (Debug) printf ("Using env USC_LD_SHMEM, Set STD_LD_shmem to %d\n", STD_LD_shmem); } } if ((ptr = getenv("USC_TP_SBRK")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_TP_sbrk = k; if (Debug) printf ("Using env USC_TP_SBRK, Set STD_TP_sbrk to %d\n", STD_TP_sbrk); } } #if !defined(UCLINUX) if ((ptr = getenv("USC_LP_SBRK")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_LP_sbrk = k; if (Debug) printf ("Using env USC_LP_SBRK, Set STD_LP_sbrk to %d\n", STD_LP_sbrk); } } #endif /* if !defined(UCLINUX) */ if ((ptr = getenv("USC_LP_RECFUN")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_LP_recfun = k; if (STD_bigstack != NULL) STD_bigstack = malloc(sizeof(struct usc_bigstack_t)); if (Debug) printf ("Using env USC_LP_RECFUN, Set STD_LP_recfun to %d\n", STD_LP_recfun); } } if ((ptr = getenv("USC_LD_RECFUN")) != NULL) { if (sscanf(ptr, "%i", &k) == 1 && k >= 0) { STD_LD_recfun = k; if (STD_bigstack != NULL) STD_bigstack = malloc(sizeof(struct usc_bigstack_t)); if (Debug) printf ("Using env USC_LD_RECFUN, Set STD_LD_recfun to %d\n", STD_LD_recfun); } } #if UNIT_TEST printf("The following variables after option and env parsing:\n"); printf("STD_LOOP_DURATION = %f\n", STD_LOOP_DURATION); printf("STD_LOOP_COUNT = %d\n", STD_LOOP_COUNT); printf("STD_INFINITE = %d\n", STD_INFINITE); #endif return NULL; } /*********************************************************************** * This function will do desired end of global setup test * hooks. ***********************************************************************/ int usc_global_setup_hook(void) { #ifndef UCLINUX if (STD_TP_sbrk || STD_LP_sbrk) STD_start_break = sbrk(0); /* get original sbreak size */ if (STD_TP_sbrk) { sbrk(STD_TP_sbrk); if (Debug) printf("after sbrk(%d)\n", STD_TP_sbrk); } #endif return 0; } #define USECS_PER_SEC 1000000 /* microseconds per second */ static uint64_t get_current_time(void) { struct timespec ts; tst_clock_gettime(CLOCK_MONOTONIC, &ts); return (((uint64_t) ts.tv_sec) * USECS_PER_SEC) + ts.tv_nsec / 1000; } /*********************************************************************** * * This function will determine if test should continue iterating * If the STD_INFINITE flag is set, return 1. * If the STD_LOOP_COUNT variable is set, compare it against * the counter. * If the STD_LOOP_DURATION variable is set, compare current time against * calculated stop_time. * This function will return 1 until all desired looping methods * have been met. * * counter integer is supplied by the user program. ***********************************************************************/ int usc_test_looping(int counter) { static int first_time = 1; static uint64_t stop_time = 0; int keepgoing = 0; /* * If this is the first iteration and we are looping for * duration of STD_LOOP_DURATION seconds (fractional) or * doing loop delays, get the clocks per second. */ if (first_time) { first_time = 0; /* * If looping for duration, calculate stop time in * clocks. */ if (STD_LOOP_DURATION) { stop_time = (uint64_t) (USECS_PER_SEC * STD_LOOP_DURATION) + get_current_time(); } } if (STD_INFINITE) keepgoing++; if (STD_LOOP_COUNT && counter < STD_LOOP_COUNT) keepgoing++; if (STD_LOOP_DURATION != 0.0 && get_current_time() < stop_time) keepgoing++; if (keepgoing == 0) return 0; /* * The following code allows special system testing hooks. */ if (STD_LP_recfun) { if (Debug) printf ("calling usc_recressive_func(0, %d, *STD_bigstack)\n", STD_LP_recfun); usc_recressive_func(0, STD_LP_recfun, *STD_bigstack); } #if !defined(UCLINUX) if (STD_LP_sbrk) { if (Debug) printf("about to do sbrk(%d)\n", STD_LP_sbrk); sbrk(STD_LP_sbrk); } #endif if (keepgoing) return 1; else return 0; } /* * This function recressively calls itself max times. */ static void usc_recressive_func(int cnt, int max, struct usc_bigstack_t bstack) { if (cnt < max) usc_recressive_func(cnt + 1, max, bstack); } #if UNIT_TEST /****************************************************************************** * UNIT TEST CODE * UNIT TEST CODE * * this following code is provide so that unit testing can * be done fairly easily. ******************************************************************************/ int Help = 0; int Help2 = 0; char *ptr; long TEST_RETURN; int TEST_ERRNO; /* for test specific parse_opts options */ option_t Options[] = { {"help", &Help2, NULL}, /* -help option */ {"h", &Help, NULL}, /* -h option */ #if INVALID_TEST_CASES {"missingflag", NULL, &ptr}, /* error */ {"missingarg:", &Help, NULL}, /* error */ #endif /* INVALID_TEST_CASES */ {NULL, NULL, NULL} }; int main(int argc, char **argv) { int lc; char *msg; struct timeval t; int cnt; if ((msg = parse_opts(argc, argv, Options, NULL)) != NULL) { printf("ERROR: %s\n", msg); exit(1); } TEST_PAUSE; for (lc = 0; TEST_LOOPING(lc); lc++) { TEST(gettimeofday(&t, NULL)); printf("iter=%d: sec:%d, usec:%6.6d %s", lc + 1, t.tv_sec, t.tv_usec, ctime(&t.tv_sec)); } TEST_CLEANUP; exit(0); } #endif /* UNIT_TEST */