/* * Copyright (c) 2011 Ken McDonell. All Rights Reserved. * * exercise multi-threaded multiple host contexts with instance domain * functions */ #include #include #include #include #include #ifndef HAVE_PTHREAD_BARRIER_T #include "pthread_barrier.h" #endif #define NMETRIC 5 static char *namelist[NMETRIC] = { "sample.colour", "pmcd.control.register", "sampledso.bin", "sample.ulonglong.ten", "pmcd.buf.alloc", }; static pmID pmidlist[NMETRIC]; static pmDesc desclist[NMETRIC]; static pthread_barrier_t barrier; static int ctx1; static int ctx2; static int ctx3; static void foo(FILE *f, char *fn, int i) { int sts; int j; int numinst; int *inst; char **name; char *tmp; if (desclist[i].indom == PM_INDOM_NULL) { fprintf(f, "%s: %s: singular\n", fn, namelist[i]); return; } if ((sts = pmGetInDom(desclist[i].indom, &inst, &name)) < 0) { fprintf(f, "%s: %s: pmGetInDom Error: %s\n", fn, namelist[i], pmErrStr(sts)); pthread_exit("botch"); } numinst = sts; fprintf(f, "%s: %s: indom contains %d instances: ", fn, namelist[i], numinst); for (j = 0; j < numinst; j++) { if ((sts = pmNameInDom(desclist[i].indom, inst[j], &tmp)) < 0) { fprintf(f, "\n%s: inst %d: pmNameInDom Error: %s\n", fn, inst[j], pmErrStr(sts)); pthread_exit("botch"); } if (strcmp(tmp, name[j]) != 0) { fprintf(f, "\n%s: inst %d: expecting \"%s\", got \"%s\"\n", fn, inst[j], name[j], tmp); pthread_exit("botch"); } fputc('i', f); free(tmp); } fputc(' ', f); for (j = 0; j < numinst; j++) { if ((sts = pmLookupInDom(desclist[i].indom, name[j])) < 0) { fprintf(f, "\n%s: inst \"%s\": pmLookupInDom Error: %s\n", fn, name[j], pmErrStr(sts)); pthread_exit("botch"); } if (sts != inst[j]) { fprintf(f, "\n%s: inst \"%s\": expecting %d, got %d\n", fn, name[j], inst[j], sts); pthread_exit("botch"); } fputc('n', f); } fputc('\n', f); free(inst); free(name); } static void * func1(void *arg) { char *fn = "func1"; int i; int j; FILE *f; if ((f = fopen("/tmp/func1.out", "w")) == NULL) { perror("func1 fopen"); pthread_exit("botch"); } j = pmUseContext(ctx1); if ( j < 0) { fprintf(f, "Error: %s: pmUseContext(%d) -> %s\n", fn, ctx1, pmErrStr(j)); fclose(f); pthread_exit("botch"); } pthread_barrier_wait(&barrier); for (j = 0; j < 100; j++) { for (i = 0; i < NMETRIC; i++) { foo(f, fn, i); } } fclose(f); pthread_exit(NULL); } static void * func2(void *arg) { char *fn = "func2"; int i; int j; FILE *f; if ((f = fopen("/tmp/func2.out", "w")) == NULL) { perror("func2 fopen"); pthread_exit("botch"); } j = pmUseContext(ctx2); if ( j < 0) { fprintf(f, "Error: %s: pmUseContext(%d) -> %s\n", fn, ctx2, pmErrStr(j)); fclose(f); pthread_exit("botch"); } pthread_barrier_wait(&barrier); for (j = 0; j < 100; j++) { for (i = NMETRIC-1; i >= 0; i--) { foo(f, fn, i); } } fclose(f); pthread_exit(NULL); } static void * func3(void *arg) { char *fn = "func3"; int i; int j; FILE *f; if ((f = fopen("/tmp/func3.out", "w")) == NULL) { perror("func3 fopen"); pthread_exit("botch"); } j = pmUseContext(ctx3); if ( j < 0) { fprintf(f, "Error: %s: pmUseContext(%d) -> %s\n", fn, ctx3, pmErrStr(j)); fclose(f); pthread_exit("botch"); } pthread_barrier_wait(&barrier); for (j = 0; j < 100; j++) { for (i = 0; i < NMETRIC; i += 2) foo(f, fn, i); for (i = 1; i < NMETRIC; i += 2) foo(f, fn, i); } fclose(f); pthread_exit(NULL); } int main(int argc, char **argv) { pthread_t tid1; pthread_t tid2; pthread_t tid3; int sts; char *msg; int errflag = 0; int c; int i; __pmSetProgname(argv[0]); while ((c = getopt(argc, argv, "D:")) != EOF) { switch (c) { case 'D': /* debug flag */ sts = __pmParseDebug(optarg); if (sts < 0) { fprintf(stderr, "%s: unrecognized debug flag specification (%s)\n", pmProgname, optarg); errflag++; } else pmDebug |= sts; break; case '?': default: errflag++; break; } } if (errflag || optind == argc || argc-optind > 3) { fprintf(stderr, "Usage: %s [-D...] host1 [host2 [host3]]\n", pmProgname); exit(1); } ctx1 = pmNewContext(PM_CONTEXT_HOST, argv[optind]); if (ctx1 < 0) { printf("Error: pmNewContext(%s) -> %s\n", argv[optind], pmErrStr(ctx1)); exit(1); } optind++; if (optind < argc) { ctx2 = pmNewContext(PM_CONTEXT_HOST, argv[optind]); if (ctx2 < 0) { printf("Error: pmNewContext(%s) -> %s\n", argv[optind], pmErrStr(ctx2)); exit(1); } optind++; } else ctx2 = ctx1; if (optind < argc) { ctx3 = pmNewContext(PM_CONTEXT_HOST, argv[optind]); if (ctx3 < 0) { printf("Error: pmNewContext(%s) -> %s\n", argv[optind], pmErrStr(ctx2)); exit(1); } optind++; } else ctx3 = ctx2; sts = pmLookupName(NMETRIC, namelist, pmidlist); if (sts != NMETRIC) { printf("Error: pmLookupName -> %s\n", pmErrStr(sts)); for (i = 0; i < NMETRIC; i++) { printf(" %s -> %s\n", namelist[i], pmIDStr(pmidlist[i])); } exit(1); } for (i = 0; i < NMETRIC; i++) { if ((sts = pmLookupDesc(pmidlist[i], &desclist[i])) < 0) { printf("Error: pmLookupDesc(%s) -> %s\n", namelist[i], pmErrStr(sts)); exit(1); } } sts = pthread_barrier_init(&barrier, NULL, 3); if (sts != 0) { printf("pthread_barrier_init: sts=%d\n", sts); exit(1); } sts = pthread_create(&tid1, NULL, func1, NULL); if (sts != 0) { printf("thread_create: tid1: sts=%d\n", sts); exit(1); } sts = pthread_create(&tid2, NULL, func2, NULL); if (sts != 0) { printf("thread_create: tid2: sts=%d\n", sts); exit(1); } sts = pthread_create(&tid3, NULL, func3, NULL); if (sts != 0) { printf("thread_create: tid3: sts=%d\n", sts); exit(1); } pthread_join(tid1, (void *)&msg); if (msg != NULL) printf("tid1: %s\n", msg); pthread_join(tid2, (void *)&msg); if (msg != NULL) printf("tid2: %s\n", msg); pthread_join(tid3, (void *)&msg); if (msg != NULL) printf("tid3: %s\n", msg); exit(0); }