/* * syst.c - example of a simple system wide monitoring program * * Copyright (c) 2002-2006 Hewlett-Packard Development Company, L.P. * Contributed by Stephane Eranian * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is furnished to do so, * subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE * OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include "detect_pmcs.h" #define NUM_PMCS PFMLIB_MAX_PMCS #define NUM_PMDS PFMLIB_MAX_PMDS #define MAX_EVT_NAME_LEN 128 static void fatal_error(char *fmt,...) __attribute__((noreturn)); static void fatal_error(char *fmt, ...) { va_list ap; va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); exit(1); } #define MAX_CPUS 2048 int pin_cpu(pid_t pid, unsigned int cpu) { cpu_set_t my_set; CPU_ZERO(&my_set); if (cpu >= MAX_CPUS) fatal_error("this program supports only up to %d CPUs\n", MAX_CPUS); CPU_SET(cpu, &my_set); return sched_setaffinity(pid, sizeof(cpu_set_t), &my_set); } int main(int argc, char **argv) { char **p; pfarg_pmc_t pc[NUM_PMCS]; pfarg_pmd_t pd[NUM_PMDS]; uint64_t pdo[NUM_PMDS]; pfarg_ctx_t ctx[1]; pfarg_load_t load_args; pfmlib_input_param_t inp; pfmlib_output_param_t outp; pfmlib_options_t pfmlib_options; unsigned int which_cpu; int ret, ctx_fd; unsigned int i, l; unsigned int num_counters; char name[MAX_EVT_NAME_LEN]; /* * pass options to library (optional) */ memset(&pfmlib_options, 0, sizeof(pfmlib_options)); pfmlib_options.pfm_debug = 0; /* set to 1 for debug */ pfm_set_options(&pfmlib_options); /* * Initialize pfm library (required before we can use it) */ ret = pfm_initialize(); if (ret != PFMLIB_SUCCESS) fatal_error("Cannot initialize library: %s\n", pfm_strerror(ret)); pfm_get_num_counters(&num_counters); memset(pc, 0, sizeof(pc)); memset(pd, 0, sizeof(pd)); memset(pdo, 0, sizeof(pdo)); memset(ctx, 0, sizeof(ctx)); memset(&inp,0, sizeof(inp)); memset(&outp,0, sizeof(outp)); memset(&load_args,0, sizeof(load_args)); /* * be nice to user! */ if (argc > 1) { p = argv+1; for (i=0; *p ; i++, p++) { if (pfm_find_full_event(*p, &inp.pfp_events[i]) != PFMLIB_SUCCESS) { fatal_error("Cannot find %s event\n", *p); } } } else { if (pfm_get_cycle_event(&inp.pfp_events[0]) != PFMLIB_SUCCESS) { fatal_error("cannot find cycle event\n"); } if (pfm_get_inst_retired_event(&inp.pfp_events[1]) != PFMLIB_SUCCESS) { fatal_error("cannot find inst retired event\n"); } i = 2; } /* * set the privilege mode: * PFM_PLM3 : user level * PFM_PLM0 : kernel level */ inp.pfp_dfl_plm = PFM_PLM3|PFM_PLM0; if (i > num_counters) { i = num_counters; printf("too many events provided (max=%d events), using first %d event(s)\n", num_counters, i); } /* * how many counters we use */ inp.pfp_event_count = i; /* * indicate we are using the monitors for a system-wide session. * This may impact the way the library sets up the PMC values. */ inp.pfp_flags = PFMLIB_PFP_SYSTEMWIDE; /* * In system wide mode, the perfmon context cannot be inherited. * Also in this mode, we cannot use the blocking form of user level notification. */ ctx[0].ctx_flags = PFM_FL_SYSTEM_WIDE; /* * pick a random CPU. Assumes CPU are numbered with no holes */ srandom(getpid()); which_cpu = random() % sysconf(_SC_NPROCESSORS_ONLN); /* * The monitored CPU is determined by the processor core * executing the PFM_LOAD_CONTEXT command. To ensure, we * measure the right core, we pin the thread before making * the call. */ ret = pin_cpu(getpid(), which_cpu); if (ret == -1) fatal_error("cannot set affinity to CPU%d: %s\n", which_cpu, strerror(errno)); /* * after the call the task is pinned to which_cpu */ /* * now create the context for self monitoring/per-task */ ctx_fd = pfm_create_context(ctx, NULL, NULL, 0); if (ctx_fd == -1) { if (errno == ENOSYS) { fatal_error("Your kernel does not have performance monitoring support!\n"); } fatal_error("Can't create PFM context %s\n", strerror(errno)); } /* * build the pfp_unavail_pmcs bitmask by looking * at what perfmon has available. It is not always * the case that all PMU registers are actually available * to applications. For instance, on IA-32 platforms, some * registers may be reserved for the NMI watchdog timer. * * With this bitmap, the library knows which registers NOT to * use. Of source, it is possible that no valid assignement may * be possible if certina PMU registers are not available. */ detect_unavail_pmcs(ctx_fd, &inp.pfp_unavail_pmcs); /* * let the library figure out the values for the PMCS */ if ((ret=pfm_dispatch_events(&inp, NULL, &outp, NULL)) != PFMLIB_SUCCESS) fatal_error("cannot configure events: %s\n", pfm_strerror(ret)); /* * Now prepare the argument to initialize the PMDs and PMCS. * We use pfp_pmc_count to determine the number of PMC to intialize. * We use pfp_pmd_count to determine the number of PMD to initialize. * Some events/features may cause extra PMCs to be used, leading to: * - pfp_pmc_count may be >= pfp_event_count * - pfp_pmd_count may be >= pfp_event_count */ for (i=0; i < outp.pfp_pmc_count; i++) { pc[i].reg_num = outp.pfp_pmcs[i].reg_num; pc[i].reg_value = outp.pfp_pmcs[i].reg_value; } for (i=0; i < outp.pfp_pmd_count; i++) pd[i].reg_num = outp.pfp_pmds[i].reg_num; /* * Now program the registers */ if (pfm_write_pmcs(ctx_fd, pc, outp.pfp_pmc_count) == -1) fatal_error("pfm_write_pmcs error errno %d\n",errno); if (pfm_write_pmds(ctx_fd, pd, outp.pfp_pmd_count) == -1) fatal_error("pfm_write_pmds error errno %d\n",errno); /* * in system-wide mode, this field must provide the CPU the caller wants * to monitor. The kernel checks and if calling from the wrong CPU, the * call fails. The affinity is not affected. */ load_args.load_pid = which_cpu; if (pfm_load_context(ctx_fd, &load_args) == -1) fatal_error("pfm_load_context error errno %d\n",errno); printf("\n", which_cpu); for(l=0; l < 10; l++) { /* * start monitoring */ if (pfm_start(ctx_fd, NULL) == -1) fatal_error("pfm_start error errno %d\n",errno); sleep(2); /* * stop monitoring. * changed at the user level. */ if (pfm_stop(ctx_fd) == -1) fatal_error("pfm_stop error errno %d\n",errno); /* * read the results */ if (pfm_read_pmds(ctx_fd, pd, inp.pfp_event_count) == -1) fatal_error( "pfm_read_pmds error errno %d\n",errno); /* * print the results */ puts("------------------------"); for (i=0; i < inp.pfp_event_count; i++) { pfm_get_full_event_name(&inp.pfp_events[i], name, MAX_EVT_NAME_LEN); printf("CPU%-2d PMD%-3u raw=%-20"PRIu64" delta=%-20"PRIu64" %s\n", which_cpu, pd[i].reg_num, pd[i].reg_value, pd[i].reg_value - pdo[i], name); pdo[i] = pd[i].reg_value; } } /* * destroy everything */ close(ctx_fd); return 0; }