diff --git a/lib/libpmc/libpmc_pmu_util.c b/lib/libpmc/libpmc_pmu_util.c index 0f9fc0391589..765196ecc8ac 100644 --- a/lib/libpmc/libpmc_pmu_util.c +++ b/lib/libpmc/libpmc_pmu_util.c @@ -1,654 +1,653 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2018, Matthew Macy * Copyright (c) 2021, The FreeBSD Foundation * * Portions of this software were developed by Mitchell Horne * under sponsorship from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * $FreeBSD$ * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "pmu-events/pmu-events.h" struct pmu_alias { const char *pa_alias; const char *pa_name; }; #if defined(__amd64__) || defined(__i386__) typedef enum { PMU_INVALID, PMU_INTEL, PMU_AMD, } pmu_mfr_t; static struct pmu_alias pmu_intel_alias_table[] = { {"UNHALTED_CORE_CYCLES", "CPU_CLK_UNHALTED.THREAD_P_ANY"}, {"UNHALTED-CORE-CYCLES", "CPU_CLK_UNHALTED.THREAD_P_ANY"}, {"LLC_MISSES", "LONGEST_LAT_CACHE.MISS"}, {"LLC-MISSES", "LONGEST_LAT_CACHE.MISS"}, {"LLC_REFERENCE", "LONGEST_LAT_CACHE.REFERENCE"}, {"LLC-REFERENCE", "LONGEST_LAT_CACHE.REFERENCE"}, {"LLC_MISS_RHITM", "mem_load_l3_miss_retired.remote_hitm"}, {"LLC-MISS-RHITM", "mem_load_l3_miss_retired.remote_hitm"}, {"RESOURCE_STALL", "RESOURCE_STALLS.ANY"}, {"RESOURCE_STALLS_ANY", "RESOURCE_STALLS.ANY"}, {"BRANCH_INSTRUCTION_RETIRED", "BR_INST_RETIRED.ALL_BRANCHES"}, {"BRANCH-INSTRUCTION-RETIRED", "BR_INST_RETIRED.ALL_BRANCHES"}, {"BRANCH_MISSES_RETIRED", "BR_MISP_RETIRED.ALL_BRANCHES"}, {"BRANCH-MISSES-RETIRED", "BR_MISP_RETIRED.ALL_BRANCHES"}, {"unhalted-cycles", "CPU_CLK_UNHALTED.THREAD_P_ANY"}, {"instructions", "inst_retired.any_p"}, {"branch-mispredicts", "br_misp_retired.all_branches"}, {"branches", "br_inst_retired.all_branches"}, {"interrupts", "hw_interrupts.received"}, {"ic-misses", "frontend_retired.l1i_miss"}, {NULL, NULL}, }; static struct pmu_alias pmu_amd_alias_table[] = { {"UNHALTED_CORE_CYCLES", "ls_not_halted_cyc"}, {"UNHALTED-CORE-CYCLES", "ls_not_halted_cyc"}, {"LLC_MISSES", "l3_comb_clstr_state.request_miss"}, {"LLC-MISSES", "l3_comb_clstr_state.request_miss"}, {"LLC_REFERENCE", "l3_request_g1.caching_l3_cache_accesses"}, {"LLC-REFERENCE", "l3_request_g1.caching_l3_cache_accesses"}, {"BRANCH_INSTRUCTION_RETIRED", "ex_ret_brn"}, {"BRANCH-INSTRUCTION-RETIRED", "ex_ret_brn"}, {"BRANCH_MISSES_RETIRED", "ex_ret_brn_misp"}, {"BRANCH-MISSES-RETIRED", "ex_ret_brn_misp"}, {"unhalted-cycles", "ls_not_halted_cyc"}, {"instructions", "ex_ret_instr",}, {"branch-mispredicts", "ex_ret_brn_misp"}, {"branches", "ex_ret_brn"}, {"interrupts", "ls_int_taken"}, /* Not on amdzen1 */ {NULL, NULL}, }; static pmu_mfr_t pmu_events_mfr(void) { char buf[PMC_CPUID_LEN]; size_t s = sizeof(buf); pmu_mfr_t mfr; if (sysctlbyname("kern.hwpmc.cpuid", buf, &s, (void *)NULL, 0) == -1) return (PMU_INVALID); if (strcasestr(buf, "AuthenticAMD") != NULL || strcasestr(buf, "HygonGenuine") != NULL) mfr = PMU_AMD; else if (strcasestr(buf, "GenuineIntel") != NULL) mfr = PMU_INTEL; else mfr = PMU_INVALID; return (mfr); } /* * The Intel fixed mode counters are: * "inst_retired.any", * "cpu_clk_unhalted.thread", * "cpu_clk_unhalted.thread_any", * "cpu_clk_unhalted.ref_tsc", * */ static const char * pmu_alias_get(const char *name) { pmu_mfr_t mfr; struct pmu_alias *pa; struct pmu_alias *pmu_alias_table; if ((mfr = pmu_events_mfr()) == PMU_INVALID) return (name); if (mfr == PMU_AMD) pmu_alias_table = pmu_amd_alias_table; else if (mfr == PMU_INTEL) pmu_alias_table = pmu_intel_alias_table; else return (name); for (pa = pmu_alias_table; pa->pa_alias != NULL; pa++) if (strcasecmp(name, pa->pa_alias) == 0) return (pa->pa_name); return (name); } #elif defined(__powerpc64__) static const char * pmu_alias_get(const char *name) { return (name); } #elif defined(__aarch64__) static struct pmu_alias pmu_armv8_alias_table[] = { {NULL, NULL}, }; static const char * pmu_alias_get(const char *name) { struct pmu_alias *pa; for (pa = pmu_armv8_alias_table; pa->pa_alias != NULL; pa++) if (strcasecmp(name, pa->pa_alias) == 0) return (pa->pa_name); return (name); } #else static const char * pmu_alias_get(const char *name) { return (name); } #endif struct pmu_event_desc { uint64_t ped_period; uint64_t ped_offcore_rsp; uint64_t ped_l3_thread; uint64_t ped_l3_slice; uint32_t ped_event; uint32_t ped_frontend; uint32_t ped_ldlat; uint32_t ped_config1; int16_t ped_umask; uint8_t ped_cmask; uint8_t ped_any; uint8_t ped_inv; uint8_t ped_edge; uint8_t ped_fc_mask; uint8_t ped_ch_mask; }; static const struct pmu_events_map * pmu_events_map_get(const char *cpuid) { regex_t re; regmatch_t pmatch[1]; char buf[PMC_CPUID_LEN]; size_t s = sizeof(buf); int match; const struct pmu_events_map *pme; if (cpuid != NULL) { strlcpy(buf, cpuid, s); } else { if (sysctlbyname("kern.hwpmc.cpuid", buf, &s, (void *)NULL, 0) == -1) return (NULL); } for (pme = pmu_events_map; pme->cpuid != NULL; pme++) { if (regcomp(&re, pme->cpuid, REG_EXTENDED) != 0) { printf("regex '%s' failed to compile, ignoring\n", pme->cpuid); continue; } match = regexec(&re, buf, 1, pmatch, 0); regfree(&re); if (match == 0) { if (pmatch[0].rm_so == 0 && (buf[pmatch[0].rm_eo] == 0 || buf[pmatch[0].rm_eo] == '-')) return (pme); } } return (NULL); } static const struct pmu_event * pmu_event_get(const char *cpuid, const char *event_name, int *idx) { const struct pmu_events_map *pme; const struct pmu_event *pe; int i; if ((pme = pmu_events_map_get(cpuid)) == NULL) return (NULL); for (i = 0, pe = pme->table; pe->name || pe->desc || pe->event; pe++, i++) { if (pe->name == NULL) continue; if (strcasecmp(pe->name, event_name) == 0) { if (idx) *idx = i; return (pe); } } return (NULL); } int pmc_pmu_idx_get_by_event(const char *cpuid, const char *event) { int idx; const char *realname; realname = pmu_alias_get(event); if (pmu_event_get(cpuid, realname, &idx) == NULL) return (-1); return (idx); } const char * pmc_pmu_event_get_by_idx(const char *cpuid, int idx) { const struct pmu_events_map *pme; if ((pme = pmu_events_map_get(cpuid)) == NULL) return (NULL); assert(pme->table[idx].name); return (pme->table[idx].name); } static int pmu_parse_event(struct pmu_event_desc *ped, const char *eventin) { char *event; char *kvp, *key, *value, *r; char *debug; if ((event = strdup(eventin)) == NULL) return (ENOMEM); r = event; bzero(ped, sizeof(*ped)); ped->ped_period = DEFAULT_SAMPLE_COUNT; ped->ped_umask = -1; while ((kvp = strsep(&event, ",")) != NULL) { key = strsep(&kvp, "="); if (key == NULL) abort(); value = kvp; if (strcmp(key, "umask") == 0) ped->ped_umask = strtol(value, NULL, 16); else if (strcmp(key, "event") == 0) ped->ped_event = strtol(value, NULL, 16); else if (strcmp(key, "period") == 0) ped->ped_period = strtol(value, NULL, 10); else if (strcmp(key, "offcore_rsp") == 0) ped->ped_offcore_rsp = strtol(value, NULL, 16); else if (strcmp(key, "any") == 0) ped->ped_any = strtol(value, NULL, 10); else if (strcmp(key, "cmask") == 0) ped->ped_cmask = strtol(value, NULL, 10); else if (strcmp(key, "inv") == 0) ped->ped_inv = strtol(value, NULL, 10); else if (strcmp(key, "edge") == 0) ped->ped_edge = strtol(value, NULL, 10); else if (strcmp(key, "frontend") == 0) ped->ped_frontend = strtol(value, NULL, 16); else if (strcmp(key, "ldlat") == 0) ped->ped_ldlat = strtol(value, NULL, 16); else if (strcmp(key, "fc_mask") == 0) ped->ped_fc_mask = strtol(value, NULL, 16); else if (strcmp(key, "ch_mask") == 0) ped->ped_ch_mask = strtol(value, NULL, 16); else if (strcmp(key, "config1") == 0) ped->ped_config1 = strtol(value, NULL, 16); else if (strcmp(key, "l3_thread_mask") == 0) ped->ped_l3_thread = strtol(value, NULL, 16); else if (strcmp(key, "l3_slice_mask") == 0) ped->ped_l3_slice = strtol(value, NULL, 16); else { debug = getenv("PMUDEBUG"); if (debug != NULL && strcmp(debug, "true") == 0 && value != NULL) printf("unrecognized kvpair: %s:%s\n", key, value); } } free(r); return (0); } uint64_t pmc_pmu_sample_rate_get(const char *event_name) { const struct pmu_event *pe; struct pmu_event_desc ped; event_name = pmu_alias_get(event_name); if ((pe = pmu_event_get(NULL, event_name, NULL)) == NULL) return (DEFAULT_SAMPLE_COUNT); if (pe->event == NULL) return (DEFAULT_SAMPLE_COUNT); if (pmu_parse_event(&ped, pe->event)) return (DEFAULT_SAMPLE_COUNT); return (ped.ped_period); } int pmc_pmu_enabled(void) { return (pmu_events_map_get(NULL) != NULL); } void pmc_pmu_print_counters(const char *event_name) { const struct pmu_events_map *pme; const struct pmu_event *pe; struct pmu_event_desc ped; char *debug; int do_debug; debug = getenv("PMUDEBUG"); do_debug = 0; if (debug != NULL && strcmp(debug, "true") == 0) do_debug = 1; if ((pme = pmu_events_map_get(NULL)) == NULL) return; for (pe = pme->table; pe->name || pe->desc || pe->event; pe++) { if (pe->name == NULL) continue; if (event_name != NULL && strcasestr(pe->name, event_name) == NULL) continue; printf("\t%s\n", pe->name); if (do_debug) pmu_parse_event(&ped, pe->event); } } void pmc_pmu_print_counter_desc(const char *ev) { const struct pmu_events_map *pme; const struct pmu_event *pe; if ((pme = pmu_events_map_get(NULL)) == NULL) return; for (pe = pme->table; pe->name || pe->desc || pe->event; pe++) { if (pe->name == NULL) continue; if (strcasestr(pe->name, ev) != NULL && pe->desc != NULL) printf("%s:\t%s\n", pe->name, pe->desc); } } void pmc_pmu_print_counter_desc_long(const char *ev) { const struct pmu_events_map *pme; const struct pmu_event *pe; if ((pme = pmu_events_map_get(NULL)) == NULL) return; for (pe = pme->table; pe->name || pe->desc || pe->event; pe++) { if (pe->name == NULL) continue; if (strcasestr(pe->name, ev) != NULL) { if (pe->long_desc != NULL) printf("%s:\n%s\n", pe->name, pe->long_desc); else if (pe->desc != NULL) printf("%s:\t%s\n", pe->name, pe->desc); } } } void pmc_pmu_print_counter_full(const char *ev) { const struct pmu_events_map *pme; const struct pmu_event *pe; if ((pme = pmu_events_map_get(NULL)) == NULL) return; for (pe = pme->table; pe->name || pe->desc || pe->event; pe++) { if (pe->name == NULL) continue; if (strcasestr(pe->name, ev) == NULL) continue; printf("name: %s\n", pe->name); if (pe->long_desc != NULL) printf("desc: %s\n", pe->long_desc); else if (pe->desc != NULL) printf("desc: %s\n", pe->desc); if (pe->event != NULL) printf("event: %s\n", pe->event); if (pe->topic != NULL) printf("topic: %s\n", pe->topic); if (pe->pmu != NULL) printf("pmu: %s\n", pe->pmu); if (pe->unit != NULL) printf("unit: %s\n", pe->unit); if (pe->perpkg != NULL) printf("perpkg: %s\n", pe->perpkg); if (pe->metric_expr != NULL) printf("metric_expr: %s\n", pe->metric_expr); if (pe->metric_name != NULL) printf("metric_name: %s\n", pe->metric_name); if (pe->metric_group != NULL) printf("metric_group: %s\n", pe->metric_group); } } #if defined(__amd64__) || defined(__i386__) static int pmc_pmu_amd_pmcallocate(const char *event_name, struct pmc_op_pmcallocate *pm, struct pmu_event_desc *ped) { struct pmc_md_amd_op_pmcallocate *amd; const struct pmu_event *pe; int idx = -1; amd = &pm->pm_md.pm_amd; if (ped->ped_umask > 0) { pm->pm_caps |= PMC_CAP_QUALIFIER; amd->pm_amd_config |= AMD_PMC_TO_UNITMASK(ped->ped_umask); } pm->pm_class = PMC_CLASS_K8; pe = pmu_event_get(NULL, event_name, &idx); if (strcmp("l3cache", pe->topic) == 0){ amd->pm_amd_config |= AMD_PMC_TO_EVENTMASK(ped->ped_event); amd->pm_amd_sub_class = PMC_AMD_SUB_CLASS_L3_CACHE; amd->pm_amd_config |= AMD_PMC_TO_L3SLICE(ped->ped_l3_slice); amd->pm_amd_config |= AMD_PMC_TO_L3CORE(ped->ped_l3_thread); } else if (strcmp("data fabric", pe->topic) == 0){ amd->pm_amd_config |= AMD_PMC_TO_EVENTMASK_DF(ped->ped_event); amd->pm_amd_sub_class = PMC_AMD_SUB_CLASS_DATA_FABRIC; } else{ amd->pm_amd_config |= AMD_PMC_TO_EVENTMASK(ped->ped_event); amd->pm_amd_sub_class = PMC_AMD_SUB_CLASS_CORE; if ((pm->pm_caps & (PMC_CAP_USER|PMC_CAP_SYSTEM)) == 0 || (pm->pm_caps & (PMC_CAP_USER|PMC_CAP_SYSTEM)) == (PMC_CAP_USER|PMC_CAP_SYSTEM)) amd->pm_amd_config |= (AMD_PMC_USR | AMD_PMC_OS); else if (pm->pm_caps & PMC_CAP_USER) amd->pm_amd_config |= AMD_PMC_USR; else if (pm->pm_caps & PMC_CAP_SYSTEM) amd->pm_amd_config |= AMD_PMC_OS; if (ped->ped_edge) amd->pm_amd_config |= AMD_PMC_EDGE; if (ped->ped_inv) amd->pm_amd_config |= AMD_PMC_EDGE; if (pm->pm_caps & PMC_CAP_INTERRUPT) amd->pm_amd_config |= AMD_PMC_INT; } return (0); } static int pmc_pmu_intel_pmcallocate(const char *event_name, struct pmc_op_pmcallocate *pm, struct pmu_event_desc *ped) { struct pmc_md_iap_op_pmcallocate *iap; iap = &pm->pm_md.pm_iap; if (strcasestr(event_name, "UNC_") == event_name || strcasestr(event_name, "uncore") != NULL) { pm->pm_class = PMC_CLASS_UCP; pm->pm_caps |= PMC_CAP_QUALIFIER; - } else if ((ped->ped_umask == -1) || - (ped->ped_event == 0x0 && ped->ped_umask == 0x3)) { + } else if (ped->ped_event == 0x0) { pm->pm_class = PMC_CLASS_IAF; } else { pm->pm_class = PMC_CLASS_IAP; pm->pm_caps |= PMC_CAP_QUALIFIER; } iap->pm_iap_config |= IAP_EVSEL(ped->ped_event); if (ped->ped_umask > 0) iap->pm_iap_config |= IAP_UMASK(ped->ped_umask); iap->pm_iap_config |= IAP_CMASK(ped->ped_cmask); iap->pm_iap_rsp = ped->ped_offcore_rsp; if ((pm->pm_caps & (PMC_CAP_USER|PMC_CAP_SYSTEM)) == 0 || (pm->pm_caps & (PMC_CAP_USER|PMC_CAP_SYSTEM)) == (PMC_CAP_USER|PMC_CAP_SYSTEM)) iap->pm_iap_config |= (IAP_USR | IAP_OS); else if (pm->pm_caps & PMC_CAP_USER) iap->pm_iap_config |= IAP_USR; else if (pm->pm_caps & PMC_CAP_SYSTEM) iap->pm_iap_config |= IAP_OS; if (ped->ped_edge) iap->pm_iap_config |= IAP_EDGE; if (ped->ped_any) iap->pm_iap_config |= IAP_ANY; if (ped->ped_inv) iap->pm_iap_config |= IAP_EDGE; if (pm->pm_caps & PMC_CAP_INTERRUPT) iap->pm_iap_config |= IAP_INT; return (0); } int pmc_pmu_pmcallocate(const char *event_name, struct pmc_op_pmcallocate *pm) { const struct pmu_event *pe; struct pmu_event_desc ped; pmu_mfr_t mfr; int idx = -1; if ((mfr = pmu_events_mfr()) == PMU_INVALID) return (ENOENT); bzero(&pm->pm_md, sizeof(pm->pm_md)); pm->pm_caps |= (PMC_CAP_READ | PMC_CAP_WRITE); event_name = pmu_alias_get(event_name); if ((pe = pmu_event_get(NULL, event_name, &idx)) == NULL) return (ENOENT); assert(idx >= 0); pm->pm_ev = idx; if (pe->event == NULL) return (ENOENT); if (pmu_parse_event(&ped, pe->event)) return (ENOENT); if (mfr == PMU_INTEL) return (pmc_pmu_intel_pmcallocate(event_name, pm, &ped)); else return (pmc_pmu_amd_pmcallocate(event_name, pm, &ped)); } #elif defined(__powerpc64__) int pmc_pmu_pmcallocate(const char *event_name, struct pmc_op_pmcallocate *pm) { const struct pmu_event *pe; struct pmu_event_desc ped; int idx = -1; bzero(&pm->pm_md, sizeof(pm->pm_md)); pm->pm_caps |= (PMC_CAP_READ | PMC_CAP_WRITE); event_name = pmu_alias_get(event_name); if ((pe = pmu_event_get(NULL, event_name, &idx)) == NULL) return (ENOENT); if (pe->event == NULL) return (ENOENT); if (pmu_parse_event(&ped, pe->event)) return (ENOENT); assert(ped.ped_event >= 0); pm->pm_ev = idx; pm->pm_md.pm_event = ped.ped_event; pm->pm_class = PMC_CLASS_POWER8; return (0); } #elif defined(__aarch64__) int pmc_pmu_pmcallocate(const char *event_name, struct pmc_op_pmcallocate *pm) { const struct pmu_event *pe; struct pmu_event_desc ped; int idx = -1; event_name = pmu_alias_get(event_name); if ((pe = pmu_event_get(NULL, event_name, &idx)) == NULL) return (ENOENT); if (pe->event == NULL) return (ENOENT); if (pmu_parse_event(&ped, pe->event)) return (ENOENT); assert(idx >= 0); pm->pm_ev = idx; pm->pm_md.pm_md_config = ped.ped_event; pm->pm_md.pm_md_flags |= PM_MD_RAW_EVENT; pm->pm_class = PMC_CLASS_ARMV8; pm->pm_caps |= (PMC_CAP_READ | PMC_CAP_WRITE); return (0); } #else int pmc_pmu_pmcallocate(const char *e __unused, struct pmc_op_pmcallocate *p __unused) { return (EOPNOTSUPP); } #endif diff --git a/lib/libpmc/pmu-events/jevents.c b/lib/libpmc/pmu-events/jevents.c index 5a296031451e..ff7d3b226932 100644 --- a/lib/libpmc/pmu-events/jevents.c +++ b/lib/libpmc/pmu-events/jevents.c @@ -1,1438 +1,1440 @@ /* Parse event JSON files */ /* * Copyright (c) 2014, Intel Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include /* getrlimit */ #include #include /* getrlimit */ #include #include #include #include #include #include #include #include #include #include #include #include #include "list.h" #include "jsmn.h" #include "json.h" #include "pmu-events.h" static int nftw_ordered(const char *path, int (*fn)(const char *, const struct stat *, int, struct FTW *), int nfds, int ftwflags); #define nftw nftw_ordered _Noreturn void _Exit(int); char *get_cpu_str(void); int verbose; static char *prog; struct json_event { char *name; char *compat; char *event; char *desc; char *long_desc; char *pmu; char *unit; char *perpkg; char *aggr_mode; char *metric_expr; char *metric_name; char *metric_group; char *deprecated; char *metric_constraint; }; static enum aggr_mode_class convert(const char *aggr_mode) { if (!strcmp(aggr_mode, "PerCore")) return PerCore; else if (!strcmp(aggr_mode, "PerChip")) return PerChip; pr_err("%s: Wrong AggregationMode value '%s'\n", prog, aggr_mode); return -1; } static LIST_HEAD(sys_event_tables); struct sys_event_table { struct list_head list; char *soc_id; }; static void free_sys_event_tables(void) { struct sys_event_table *et, *next; list_for_each_entry_safe(et, next, &sys_event_tables, list) { free(et->soc_id); free(et); } } int eprintf(int level, int var, const char *fmt, ...) { int ret; va_list args; if (var < level) return 0; va_start(args, fmt); ret = vfprintf(stderr, fmt, args); va_end(args); return ret; } static void addfield(char *map, char **dst, const char *sep, const char *a, jsmntok_t *bt) { unsigned int len = strlen(a) + 1 + strlen(sep); int olen = *dst ? strlen(*dst) : 0; int blen = bt ? json_len(bt) : 0; char *out; out = realloc(*dst, len + olen + blen); if (!out) { /* Don't add field in this case */ return; } *dst = out; if (!olen) *(*dst) = 0; else strcat(*dst, sep); strcat(*dst, a); if (bt) strncat(*dst, map + bt->start, blen); } static void fixname(char *s) { for (; *s; s++) *s = tolower(*s); } static void fixdesc(char *s) { char *e = s + strlen(s); /* Remove trailing dots that look ugly in perf list */ --e; while (e >= s && isspace(*e)) --e; if (e >= s && *e == '.') *e = 0; } /* Add escapes for '\' so they are proper C strings. */ static char *fixregex(char *s) { int len = 0; int esc_count = 0; char *fixed = NULL; char *p, *q; /* Count the number of '\' in string */ for (p = s; *p; p++) { ++len; if (*p == '\\') ++esc_count; } if (esc_count == 0) return s; /* allocate space for a new string */ fixed = (char *) malloc(len + esc_count + 1); if (!fixed) return NULL; /* copy over the characters */ q = fixed; for (p = s; *p; p++) { if (*p == '\\') { *q = '\\'; ++q; } *q = *p; ++q; } *q = '\0'; return fixed; } static struct msrmap { const char *num; const char *pname; } msrmap[] = { { "0x3F6", "ldlat=" }, { "0x1A6", "offcore_rsp=" }, { "0x1A7", "offcore_rsp=" }, { "0x3F7", "frontend=" }, { NULL, NULL } }; static void cut_comma(char *map, jsmntok_t *newval) { int i; /* Cut off everything after comma */ for (i = newval->start; i < newval->end; i++) { if (map[i] == ',') newval->end = i; } } static struct msrmap *lookup_msr(char *map, jsmntok_t *val) { jsmntok_t newval = *val; static bool warned; int i; cut_comma(map, &newval); for (i = 0; msrmap[i].num; i++) if (json_streq(map, &newval, msrmap[i].num)) return &msrmap[i]; if (!warned) { warned = true; pr_err("%s: Unknown MSR in event file %.*s\n", prog, json_len(val), map + val->start); } return NULL; } static struct map { const char *json; const char *perf; } unit_to_pmu[] = { { "CBO", "uncore_cbox" }, { "QPI LL", "uncore_qpi" }, { "SBO", "uncore_sbox" }, { "iMPH-U", "uncore_arb" }, { "CPU-M-CF", "cpum_cf" }, { "CPU-M-SF", "cpum_sf" }, { "UPI LL", "uncore_upi" }, { "hisi_sicl,cpa", "hisi_sicl,cpa"}, { "hisi_sccl,ddrc", "hisi_sccl,ddrc" }, { "hisi_sccl,hha", "hisi_sccl,hha" }, { "hisi_sccl,l3c", "hisi_sccl,l3c" }, /* it's not realistic to keep adding these, we need something more scalable ... */ { "imx8_ddr", "imx8_ddr" }, { "L3PMC", "amd_l3" }, { "DFPMC", "amd_df" }, { "cpu_core", "cpu_core" }, { "cpu_atom", "cpu_atom" }, {} }; static const char *field_to_perf(struct map *table, char *map, jsmntok_t *val) { int i; for (i = 0; table[i].json; i++) { if (json_streq(map, val, table[i].json)) return table[i].perf; } return NULL; } #define EXPECT(e, t, m) do { if (!(e)) { \ jsmntok_t *loc = (t); \ if (!(t)->start && (t) > tokens) \ loc = (t) - 1; \ pr_err("%s:%d: " m ", got %s\n", fn, \ json_line(map, loc), \ json_name(t)); \ err = -EIO; \ goto out_free; \ } } while (0) static char *topic; static char *get_topic(void) { char *tp; int i; /* tp is free'd in process_one_file() */ i = asprintf(&tp, "%s", topic); if (i < 0) { pr_info("%s: asprintf() error %s\n", prog); return NULL; } for (i = 0; i < (int) strlen(tp); i++) { char c = tp[i]; if (c == '-') tp[i] = ' '; else if (c == '.') { tp[i] = '\0'; break; } } return tp; } static int add_topic(char *bname) { free(topic); topic = strdup(bname); if (!topic) { pr_info("%s: strdup() error %s for file %s\n", prog, strerror(errno), bname); return -ENOMEM; } return 0; } struct perf_entry_data { FILE *outfp; char *topic; }; static int close_table; static void print_events_table_prefix(FILE *fp, const char *tblname) { fprintf(fp, "static const struct pmu_event %s[] = {\n", tblname); close_table = 1; } static int print_events_table_entry(void *data, struct json_event *je) { struct perf_entry_data *pd = data; FILE *outfp = pd->outfp; char *topic_local = pd->topic; /* * TODO: Remove formatting chars after debugging to reduce * string lengths. */ fprintf(outfp, "{\n"); if (je->name) fprintf(outfp, "\t.name = \"%s\",\n", je->name); if (je->event) fprintf(outfp, "\t.event = \"%s\",\n", je->event); fprintf(outfp, "\t.desc = \"%s\",\n", je->desc); if (je->compat) fprintf(outfp, "\t.compat = \"%s\",\n", je->compat); fprintf(outfp, "\t.topic = \"%s\",\n", topic_local); if (je->long_desc && je->long_desc[0]) fprintf(outfp, "\t.long_desc = \"%s\",\n", je->long_desc); if (je->pmu) fprintf(outfp, "\t.pmu = \"%s\",\n", je->pmu); if (je->unit) fprintf(outfp, "\t.unit = \"%s\",\n", je->unit); if (je->perpkg) fprintf(outfp, "\t.perpkg = \"%s\",\n", je->perpkg); if (je->aggr_mode) fprintf(outfp, "\t.aggr_mode = \"%d\",\n", convert(je->aggr_mode)); if (je->metric_expr) fprintf(outfp, "\t.metric_expr = \"%s\",\n", je->metric_expr); if (je->metric_name) fprintf(outfp, "\t.metric_name = \"%s\",\n", je->metric_name); if (je->metric_group) fprintf(outfp, "\t.metric_group = \"%s\",\n", je->metric_group); if (je->deprecated) fprintf(outfp, "\t.deprecated = \"%s\",\n", je->deprecated); if (je->metric_constraint) fprintf(outfp, "\t.metric_constraint = \"%s\",\n", je->metric_constraint); fprintf(outfp, "},\n"); return 0; } struct event_struct { struct list_head list; char *name; char *event; char *compat; char *desc; char *long_desc; char *pmu; char *unit; char *perpkg; char *aggr_mode; char *metric_expr; char *metric_name; char *metric_group; char *deprecated; char *metric_constraint; }; #define ADD_EVENT_FIELD(field) do { if (je->field) { \ es->field = strdup(je->field); \ if (!es->field) \ goto out_free; \ } } while (0) #define FREE_EVENT_FIELD(field) free(es->field) #define TRY_FIXUP_FIELD(field) do { if (es->field && !je->field) {\ je->field = strdup(es->field); \ if (!je->field) \ return -ENOMEM; \ } } while (0) #define FOR_ALL_EVENT_STRUCT_FIELDS(op) do { \ op(name); \ op(event); \ op(desc); \ op(long_desc); \ op(pmu); \ op(unit); \ op(perpkg); \ op(aggr_mode); \ op(metric_expr); \ op(metric_name); \ op(metric_group); \ op(deprecated); \ } while (0) static LIST_HEAD(arch_std_events); static void free_arch_std_events(void) { struct event_struct *es, *next; list_for_each_entry_safe(es, next, &arch_std_events, list) { FOR_ALL_EVENT_STRUCT_FIELDS(FREE_EVENT_FIELD); list_del_init(&es->list); free(es); } } static int save_arch_std_events(void *data __unused, struct json_event *je) { struct event_struct *es; es = malloc(sizeof(*es)); if (!es) return -ENOMEM; memset(es, 0, sizeof(*es)); FOR_ALL_EVENT_STRUCT_FIELDS(ADD_EVENT_FIELD); list_add_tail(&es->list, &arch_std_events); return 0; out_free: FOR_ALL_EVENT_STRUCT_FIELDS(FREE_EVENT_FIELD); free(es); return -ENOMEM; } static void print_events_table_suffix(FILE *outfp) { fprintf(outfp, "{\n"); fprintf(outfp, "\t.name = 0,\n"); fprintf(outfp, "\t.event = 0,\n"); fprintf(outfp, "\t.desc = 0,\n"); fprintf(outfp, "},\n"); fprintf(outfp, "};\n"); close_table = 0; } static struct fixed { const char *name; const char *event; } fixed[] = { +#if 0 { "inst_retired.any", "event=0xc0,period=2000003" }, { "inst_retired.any_p", "event=0xc0,period=2000003" }, { "cpu_clk_unhalted.ref", "event=0x0,umask=0x03,period=2000003" }, { "cpu_clk_unhalted.thread", "event=0x3c,period=2000003" }, { "cpu_clk_unhalted.core", "event=0x3c,period=2000003" }, { "cpu_clk_unhalted.thread_any", "event=0x3c,any=1,period=2000003" }, +#endif { NULL, NULL}, }; /* * Handle different fixed counter encodings between JSON and perf. */ static char *real_event(const char *name, char *event) { int i; if (!name) return NULL; for (i = 0; fixed[i].name; i++) if (!strcasecmp(name, fixed[i].name)) return (char *)fixed[i].event; return event; } static int try_fixup(const char *fn, char *arch_std, struct json_event *je, char **event) { /* try to find matching event from arch standard values */ struct event_struct *es; list_for_each_entry(es, &arch_std_events, list) { if (!strcmp(arch_std, es->name)) { FOR_ALL_EVENT_STRUCT_FIELDS(TRY_FIXUP_FIELD); *event = je->event; return 0; } } pr_err("%s: could not find matching %s for %s\n", prog, arch_std, fn); return -1; } /* Call func with each event in the json file */ static int json_events(const char *fn, int (*func)(void *data, struct json_event *je), void *data) { int err; size_t size; jsmntok_t *tokens, *tok; int i, j, len; char *map; char buf[128]; if (!fn) return -ENOENT; tokens = parse_json(fn, &map, &size, &len); if (!tokens) return -EIO; EXPECT(tokens->type == JSMN_ARRAY, tokens, "expected top level array"); tok = tokens + 1; for (i = 0; i < tokens->size; i++) { char *event = NULL; char *extra_desc = NULL; char *filter = NULL; struct json_event je = {}; char *arch_std = NULL; unsigned long long eventcode = 0; unsigned long long configcode = 0; struct msrmap *msr = NULL; jsmntok_t *msrval = NULL; jsmntok_t *precise = NULL; jsmntok_t *obj = tok++; bool configcode_present = false; char *umask = NULL; char *cmask = NULL; char *inv = NULL; char *any = NULL; char *edge = NULL; char *period = NULL; char *fc_mask = NULL; char *ch_mask = NULL; EXPECT(obj->type == JSMN_OBJECT, obj, "expected object"); for (j = 0; j < obj->size; j += 2) { jsmntok_t *field, *val; int nz; char *s; field = tok + j; EXPECT(field->type == JSMN_STRING, tok + j, "Expected field name"); val = tok + j + 1; EXPECT(val->type == JSMN_STRING, tok + j + 1, "Expected string value"); nz = !json_streq(map, val, "0"); /* match_field */ if (json_streq(map, field, "UMask") && nz) { addfield(map, &umask, "", "umask=", val); } else if (json_streq(map, field, "CounterMask") && nz) { addfield(map, &cmask, "", "cmask=", val); } else if (json_streq(map, field, "Invert") && nz) { addfield(map, &inv, "", "inv=", val); } else if (json_streq(map, field, "AnyThread") && nz) { addfield(map, &any, "", "any=", val); } else if (json_streq(map, field, "EdgeDetect") && nz) { addfield(map, &edge, "", "edge=", val); } else if (json_streq(map, field, "SampleAfterValue") && nz) { addfield(map, &period, "", "period=", val); } else if (json_streq(map, field, "FCMask") && nz) { addfield(map, &fc_mask, "", "fc_mask=", val); } else if (json_streq(map, field, "PortMask") && nz) { addfield(map, &ch_mask, "", "ch_mask=", val); } else if (json_streq(map, field, "EventCode")) { char *code = NULL; addfield(map, &code, "", "", val); eventcode |= strtoul(code, NULL, 0); free(code); } else if (json_streq(map, field, "ConfigCode")) { char *code = NULL; addfield(map, &code, "", "", val); configcode |= strtoul(code, NULL, 0); free(code); configcode_present = true; } else if (json_streq(map, field, "ExtSel")) { char *code = NULL; addfield(map, &code, "", "", val); eventcode |= strtoul(code, NULL, 0) << 8; free(code); } else if (json_streq(map, field, "EventName")) { addfield(map, &je.name, "", "", val); } else if (json_streq(map, field, "Compat")) { addfield(map, &je.compat, "", "", val); } else if (json_streq(map, field, "BriefDescription")) { addfield(map, &je.desc, "", "", val); fixdesc(je.desc); } else if (json_streq(map, field, "PublicDescription")) { addfield(map, &je.long_desc, "", "", val); fixdesc(je.long_desc); } else if (json_streq(map, field, "PEBS") && nz) { precise = val; } else if (json_streq(map, field, "MSRIndex") && nz) { msr = lookup_msr(map, val); } else if (json_streq(map, field, "MSRValue")) { msrval = val; } else if (json_streq(map, field, "Errata") && !json_streq(map, val, "null")) { addfield(map, &extra_desc, ". ", " Spec update: ", val); } else if (json_streq(map, field, "Data_LA") && nz) { addfield(map, &extra_desc, ". ", " Supports address when precise", NULL); } else if (json_streq(map, field, "Unit")) { const char *ppmu; ppmu = field_to_perf(unit_to_pmu, map, val); if (ppmu) { je.pmu = strdup(ppmu); } else { if (!je.pmu) je.pmu = strdup("uncore_"); addfield(map, &je.pmu, "", "", val); for (s = je.pmu; *s; s++) *s = tolower(*s); } } else if (json_streq(map, field, "Filter")) { addfield(map, &filter, "", "", val); } else if (json_streq(map, field, "ScaleUnit")) { addfield(map, &je.unit, "", "", val); } else if (json_streq(map, field, "PerPkg")) { addfield(map, &je.perpkg, "", "", val); } else if (json_streq(map, field, "AggregationMode")) { addfield(map, &je.aggr_mode, "", "", val); } else if (json_streq(map, field, "Deprecated")) { addfield(map, &je.deprecated, "", "", val); } else if (json_streq(map, field, "MetricName")) { addfield(map, &je.metric_name, "", "", val); } else if (json_streq(map, field, "MetricGroup")) { addfield(map, &je.metric_group, "", "", val); } else if (json_streq(map, field, "MetricConstraint")) { addfield(map, &je.metric_constraint, "", "", val); } else if (json_streq(map, field, "MetricExpr")) { addfield(map, &je.metric_expr, "", "", val); } else if (json_streq(map, field, "ArchStdEvent")) { addfield(map, &arch_std, "", "", val); for (s = arch_std; *s; s++) *s = tolower(*s); } /* ignore unknown fields */ } if (precise && je.desc && !strstr(je.desc, "(Precise Event)")) { if (json_streq(map, precise, "2")) addfield(map, &extra_desc, " ", "(Must be precise)", NULL); else addfield(map, &extra_desc, " ", "(Precise event)", NULL); } if (configcode_present) snprintf(buf, sizeof buf, "config=%#llx", configcode); else snprintf(buf, sizeof buf, "event=%#llx", eventcode); addfield(map, &event, ",", buf, NULL); if (any) addfield(map, &event, ",", any, NULL); if (ch_mask) addfield(map, &event, ",", ch_mask, NULL); if (cmask) addfield(map, &event, ",", cmask, NULL); if (edge) addfield(map, &event, ",", edge, NULL); if (fc_mask) addfield(map, &event, ",", fc_mask, NULL); if (inv) addfield(map, &event, ",", inv, NULL); if (period) addfield(map, &event, ",", period, NULL); if (umask) addfield(map, &event, ",", umask, NULL); if (je.desc && extra_desc) addfield(map, &je.desc, " ", extra_desc, NULL); if (je.long_desc && extra_desc) addfield(map, &je.long_desc, " ", extra_desc, NULL); if (je.pmu) { addfield(map, &je.desc, ". ", "Unit: ", NULL); addfield(map, &je.desc, "", je.pmu, NULL); addfield(map, &je.desc, "", " ", NULL); } if (filter) addfield(map, &event, ",", filter, NULL); if (msr != NULL) addfield(map, &event, ",", msr->pname, msrval); if (je.name) fixname(je.name); if (arch_std) { /* * An arch standard event is referenced, so try to * fixup any unassigned values. */ err = try_fixup(fn, arch_std, &je, &event); if (err) goto free_strings; } je.event = real_event(je.name, event); err = func(data, &je); free_strings: free(umask); free(cmask); free(inv); free(any); free(edge); free(period); free(fc_mask); free(ch_mask); free(event); free(je.desc); free(je.name); free(je.compat); free(je.long_desc); free(extra_desc); free(je.pmu); free(filter); free(je.perpkg); free(je.aggr_mode); free(je.deprecated); free(je.unit); free(je.metric_expr); free(je.metric_name); free(je.metric_group); free(je.metric_constraint); free(arch_std); if (err) break; tok += j; } EXPECT(tok - tokens == len, tok, "unexpected objects at end"); err = 0; out_free: free_json(map, size, tokens); return err; } static char *file_name_to_table_name(char *fname) { unsigned int i; int n; int c; char *tblname; /* * Ensure tablename starts with alphabetic character. * Derive rest of table name from basename of the JSON file, * replacing hyphens and stripping out .json suffix. */ n = asprintf(&tblname, "pme_%s", fname); if (n < 0) { pr_info("%s: asprintf() error %s for file %s\n", prog, strerror(errno), fname); return NULL; } for (i = 0; i < strlen(tblname); i++) { c = tblname[i]; if (c == '-' || c == '/') tblname[i] = '_'; else if (c == '.') { tblname[i] = '\0'; break; } else if (!isalnum(c) && c != '_') { pr_err("%s: Invalid character '%c' in file name '%s'\n", prog, c, fname); free(tblname); tblname = NULL; break; } } return tblname; } static bool is_sys_dir(char *fname) { size_t len = strlen(fname), len2 = strlen("/sys"); if (len2 > len) return false; return !strcmp(fname+len-len2, "/sys"); } static void print_mapping_table_prefix(FILE *outfp) { fprintf(outfp, "const struct pmu_events_map pmu_events_map[] = {\n"); } static void print_mapping_table_suffix(FILE *outfp) { /* * Print the terminating, NULL entry. */ fprintf(outfp, "{\n"); fprintf(outfp, "\t.cpuid = 0,\n"); fprintf(outfp, "\t.version = 0,\n"); fprintf(outfp, "\t.type = 0,\n"); fprintf(outfp, "\t.table = 0,\n"); fprintf(outfp, "},\n"); /* and finally, the closing curly bracket for the struct */ fprintf(outfp, "};\n"); } static void print_mapping_test_table(FILE *outfp) { /* * Print the terminating, NULL entry. */ fprintf(outfp, "{\n"); fprintf(outfp, "\t.cpuid = \"testcpu\",\n"); fprintf(outfp, "\t.version = \"v1\",\n"); fprintf(outfp, "\t.type = \"core\",\n"); fprintf(outfp, "\t.table = pme_test_soc_cpu,\n"); fprintf(outfp, "},\n"); } static void print_system_event_mapping_table_prefix(FILE *outfp) { fprintf(outfp, "\nconst struct pmu_sys_events pmu_sys_event_tables[] = {"); } static void print_system_event_mapping_table_suffix(FILE *outfp) { fprintf(outfp, "\n\t{\n\t\t.table = 0\n\t},"); fprintf(outfp, "\n};\n"); } static int process_system_event_tables(FILE *outfp) { struct sys_event_table *sys_event_table; print_system_event_mapping_table_prefix(outfp); list_for_each_entry(sys_event_table, &sys_event_tables, list) { fprintf(outfp, "\n\t{\n\t\t.table = %s,\n\t\t.name = \"%s\",\n\t},", sys_event_table->soc_id, sys_event_table->soc_id); } print_system_event_mapping_table_suffix(outfp); return 0; } static int process_mapfile(FILE *outfp, char *fpath) { int n = 16384; FILE *mapfp; char *save = NULL; char *line, *p; int line_num; char *tblname; int ret = 0; pr_info("%s: Processing mapfile %s\n", prog, fpath); line = malloc(n); if (!line) return -1; mapfp = fopen(fpath, "r"); if (!mapfp) { pr_info("%s: Error %s opening %s\n", prog, strerror(errno), fpath); free(line); return -1; } print_mapping_table_prefix(outfp); /* Skip first line (header) */ p = fgets(line, n, mapfp); if (!p) goto out; line_num = 1; while (1) { char *cpuid, *version, *type, *fname; line_num++; p = fgets(line, n, mapfp); if (!p) break; if (line[0] == '#' || line[0] == '\n') continue; if (line[strlen(line)-1] != '\n') { /* TODO Deal with lines longer than 16K */ pr_info("%s: Mapfile %s: line %d too long, aborting\n", prog, fpath, line_num); ret = -1; goto out; } line[strlen(line)-1] = '\0'; cpuid = fixregex(strtok_r(p, ",", &save)); version = strtok_r(NULL, ",", &save); fname = strtok_r(NULL, ",", &save); type = strtok_r(NULL, ",", &save); tblname = file_name_to_table_name(fname); fprintf(outfp, "{\n"); fprintf(outfp, "\t.cpuid = \"%s\",\n", cpuid); fprintf(outfp, "\t.version = \"%s\",\n", version); fprintf(outfp, "\t.type = \"%s\",\n", type); /* * CHECK: We can't use the type (eg "core") field in the * table name. For us to do that, we need to somehow tweak * the other caller of file_name_to_table(), process_json() * to determine the type. process_json() file has no way * of knowing these are "core" events unless file name has * core in it. If filename has core in it, we can safely * ignore the type field here also. */ fprintf(outfp, "\t.table = %s\n", tblname); fprintf(outfp, "},\n"); } out: print_mapping_test_table(outfp); print_mapping_table_suffix(outfp); fclose(mapfp); free(line); return ret; } /* * If we fail to locate/process JSON and map files, create a NULL mapping * table. This would at least allow perf to build even if we can't find/use * the aliases. */ static void create_empty_mapping(const char *output_file) { FILE *outfp; pr_info("%s: Creating empty pmu_events_map[] table\n", prog); /* Truncate file to clear any partial writes to it */ outfp = fopen(output_file, "w"); if (!outfp) { perror("fopen()"); _Exit(1); } fprintf(outfp, "#include \"pmu-events/pmu-events.h\"\n"); print_mapping_table_prefix(outfp); print_mapping_table_suffix(outfp); print_system_event_mapping_table_prefix(outfp); print_system_event_mapping_table_suffix(outfp); fclose(outfp); } static int get_maxfds(void) { struct rlimit rlim; if (getrlimit(RLIMIT_NOFILE, &rlim) == 0) { if (rlim.rlim_max == RLIM_INFINITY) return 512; return MIN(rlim.rlim_max / 2, 512); } return 512; } /* * nftw() doesn't let us pass an argument to the processing function, * so use a global variables. */ static FILE *eventsfp; static char *mapfile; static int is_leaf_dir(const char *fpath) { DIR *d; struct dirent *dir; int res = 1; d = opendir(fpath); if (!d) return 0; while ((dir = readdir(d)) != NULL) { if (!strcmp(dir->d_name, ".") || !strcmp(dir->d_name, "..")) continue; if (dir->d_type == DT_DIR) { res = 0; break; } else if (dir->d_type == DT_UNKNOWN) { char path[PATH_MAX]; struct stat st; snprintf(path, sizeof(path), "%s/%s", fpath, dir->d_name); if (stat(path, &st)) break; if (S_ISDIR(st.st_mode)) { res = 0; break; } } } closedir(d); return res; } static int is_json_file(const char *name) { const char *suffix; if (strlen(name) < 5) return 0; suffix = name + strlen(name) - 5; if (strncmp(suffix, ".json", 5) == 0) return 1; return 0; } static int preprocess_arch_std_files(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { int level = ftwbuf->level; int is_file = typeflag == FTW_F; if (level == 1 && is_file && is_json_file(fpath)) return json_events(fpath, save_arch_std_events, (void *)(uintptr_t)sb); return 0; } static int process_one_file(const char *fpath, const struct stat *sb, int typeflag, struct FTW *ftwbuf) { char *tblname, *bname; int is_dir = typeflag == FTW_D; int is_file = typeflag == FTW_F; int level = ftwbuf->level; int err = 0; if (level >= 2 && is_dir) { int count = 0; /* * For level 2 directory, bname will include parent name, * like vendor/platform. So search back from platform dir * to find this. * Something similar for level 3 directory, but we're a PMU * category folder, like vendor/platform/cpu. */ bname = (char *) fpath + ftwbuf->base - 2; for (;;) { if (*bname == '/') count++; if (count == level - 1) break; bname--; } bname++; } else bname = (char *) fpath + ftwbuf->base; pr_debug("%s %d %7jd %-20s %s\n", is_file ? "f" : is_dir ? "d" : "x", level, sb->st_size, bname, fpath); /* base dir or too deep */ if (level == 0 || level > 4) return 0; /* model directory, reset topic */ if ((level == 1 && is_dir && is_leaf_dir(fpath)) || (level >= 2 && is_dir && is_leaf_dir(fpath))) { if (close_table) print_events_table_suffix(eventsfp); /* * Drop file name suffix. Replace hyphens with underscores. * Fail if file name contains any alphanum characters besides * underscores. */ tblname = file_name_to_table_name(bname); if (!tblname) { pr_info("%s: Error determining table name for %s\n", prog, bname); return -1; } if (is_sys_dir(bname)) { struct sys_event_table *sys_event_table; sys_event_table = malloc(sizeof(*sys_event_table)); if (!sys_event_table) return -1; sys_event_table->soc_id = strdup(tblname); if (!sys_event_table->soc_id) { free(sys_event_table); return -1; } list_add_tail(&sys_event_table->list, &sys_event_tables); } print_events_table_prefix(eventsfp, tblname); return 0; } /* * Save the mapfile name for now. We will process mapfile * after processing all JSON files (so we can write out the * mapping table after all PMU events tables). * */ if (level == 1 && is_file) { if (!strcmp(bname, "mapfile.csv")) { mapfile = strdup(fpath); return 0; } if (is_json_file(bname)) pr_debug("%s: ArchStd json is preprocessed %s\n", prog, fpath); else pr_info("%s: Ignoring file %s\n", prog, fpath); return 0; } /* * If the file name does not have a .json extension, * ignore it. It could be a readme.txt for instance. */ if (is_file) { if (!is_json_file(bname)) { pr_info("%s: Ignoring file without .json suffix %s\n", prog, fpath); return 0; } } if (level > 1 && add_topic(bname)) return -ENOMEM; /* * Assume all other files are JSON files. * * If mapfile refers to 'power7_core.json', we create a table * named 'power7_core'. Any inconsistencies between the mapfile * and directory tree could result in build failure due to table * names not being found. * * At least for now, be strict with processing JSON file names. * i.e. if JSON file name cannot be mapped to C-style table name, * fail. */ if (is_file) { struct perf_entry_data data = { .topic = get_topic(), .outfp = eventsfp, }; err = json_events(fpath, print_events_table_entry, &data); free(data.topic); } return err; } #ifndef PATH_MAX #define PATH_MAX 4096 #endif /* * Starting in directory 'start_dirname', find the "mapfile.csv" and * the set of JSON files for the architecture 'arch'. * * From each JSON file, create a C-style "PMU events table" from the * JSON file (see struct pmu_event). * * From the mapfile, create a mapping between the CPU revisions and * PMU event tables (see struct pmu_events_map). * * Write out the PMU events tables and the mapping table to pmu-event.c. */ int main(int argc, char *argv[]) { int rc, ret = 0, empty_map = 0; int maxfds; char ldirname[PATH_MAX]; const char *arch; const char *output_file; const char *start_dirname; const char *err_string_ext = ""; struct stat stbuf; prog = basename(argv[0]); if (argc < 4) { pr_err("Usage: %s \n", prog); return 1; } arch = argv[1]; start_dirname = argv[2]; output_file = argv[3]; if (argc > 4) verbose = atoi(argv[4]); eventsfp = fopen(output_file, "w"); if (!eventsfp) { pr_err("%s Unable to create required file %s (%s)\n", prog, output_file, strerror(errno)); return 2; } snprintf(ldirname, sizeof(ldirname), "%s/%s", start_dirname, arch); /* If architecture does not have any event lists, bail out */ if (stat(ldirname, &stbuf) < 0) { pr_info("%s: Arch %s has no PMU event lists\n", prog, arch); empty_map = 1; goto err_close_eventsfp; } /* Include pmu-events.h first */ fprintf(eventsfp, "#include \"pmu-events/pmu-events.h\"\n"); /* * The mapfile allows multiple CPUids to point to the same JSON file, * so, not sure if there is a need for symlinks within the pmu-events * directory. * * For now, treat symlinks of JSON files as regular files and create * separate tables for each symlink (presumably, each symlink refers * to specific version of the CPU). */ maxfds = get_maxfds(); rc = nftw(ldirname, preprocess_arch_std_files, maxfds, 0); if (rc) goto err_processing_std_arch_event_dir; rc = nftw(ldirname, process_one_file, maxfds, 0); if (rc) goto err_processing_dir; sprintf(ldirname, "%s/test", start_dirname); rc = nftw(ldirname, preprocess_arch_std_files, maxfds, 0); if (rc) goto err_processing_std_arch_event_dir; rc = nftw(ldirname, process_one_file, maxfds, 0); if (rc) goto err_processing_dir; if (close_table) print_events_table_suffix(eventsfp); if (!mapfile) { pr_info("%s: No CPU->JSON mapping?\n", prog); empty_map = 1; goto err_close_eventsfp; } rc = process_mapfile(eventsfp, mapfile); if (rc) { pr_info("%s: Error processing mapfile %s\n", prog, mapfile); /* Make build fail */ ret = 1; goto err_close_eventsfp; } rc = process_system_event_tables(eventsfp); fclose(eventsfp); if (rc) { ret = 1; goto err_out; } free_arch_std_events(); free_sys_event_tables(); free(mapfile); return 0; err_processing_std_arch_event_dir: err_string_ext = " for std arch event"; err_processing_dir: if (verbose) { pr_info("%s: Error walking file tree %s%s\n", prog, ldirname, err_string_ext); empty_map = 1; } else if (rc < 0) { ret = 1; } else { empty_map = 1; } err_close_eventsfp: fclose(eventsfp); if (empty_map) create_empty_mapping(output_file); err_out: free_arch_std_events(); free_sys_event_tables(); free(mapfile); return ret; } #include static int fts_compare(const FTSENT * const *a, const FTSENT * const *b) { return (strcmp((*a)->fts_name, (*b)->fts_name)); } static int nftw_ordered(const char *path, int (*fn)(const char *, const struct stat *, int, struct FTW *), int nfds, int ftwflags) { char * const paths[2] = { (char *)path, NULL }; struct FTW ftw; FTSENT *cur; FTS *ftsp; int error = 0, ftsflags, fnflag, postorder, sverrno; /* XXX - nfds is currently unused */ if (nfds < 1) { errno = EINVAL; return (-1); } ftsflags = FTS_COMFOLLOW; if (!(ftwflags & FTW_CHDIR)) ftsflags |= FTS_NOCHDIR; if (ftwflags & FTW_MOUNT) ftsflags |= FTS_XDEV; if (ftwflags & FTW_PHYS) ftsflags |= FTS_PHYSICAL; else ftsflags |= FTS_LOGICAL; postorder = (ftwflags & FTW_DEPTH) != 0; ftsp = fts_open(paths, ftsflags, fts_compare); if (ftsp == NULL) return (-1); while ((cur = fts_read(ftsp)) != NULL) { switch (cur->fts_info) { case FTS_D: if (postorder) continue; fnflag = FTW_D; break; case FTS_DC: continue; case FTS_DNR: fnflag = FTW_DNR; break; case FTS_DP: if (!postorder) continue; fnflag = FTW_DP; break; case FTS_F: case FTS_DEFAULT: fnflag = FTW_F; break; case FTS_NS: case FTS_NSOK: fnflag = FTW_NS; break; case FTS_SL: fnflag = FTW_SL; break; case FTS_SLNONE: fnflag = FTW_SLN; break; default: error = -1; goto done; } ftw.base = cur->fts_pathlen - cur->fts_namelen; ftw.level = cur->fts_level; error = fn(cur->fts_path, cur->fts_statp, fnflag, &ftw); if (error != 0) break; } done: sverrno = errno; if (fts_close(ftsp) != 0 && error == 0) error = -1; else errno = sverrno; return (error); }