/* Copyright (C) 2021-2024 Free Software Foundation, Inc. Contributed by Oracle. This file is part of GNU Binutils. 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 3, 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, 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ /* Hardware counter profiling */ #include "hwcdrv.h" #include "hwcfuncs.h" /*---------------------------------------------------------------------------*/ /* macros */ #define IS_GLOBAL /* Mark global symbols */ #define HWCDRV_API static /* Mark functions used by hwcdrv API */ /*---------------------------------------------------------------------------*/ /* static variables */ static uint_t cpcN_npics; static char hwcfuncs_errmsg_buf[1024]; static int hwcfuncs_errmsg_enabled = 1; static int hwcfuncs_errmsg_valid; /* --- user counter selections and options */ static unsigned hwcdef_cnt; /* number of *active* hardware counters */ static Hwcentry hwcdef[MAX_PICS]; /* HWC definitions */ static Hwcentry *hwctable[MAX_PICS]; /* HWC definitions */ /* --- drivers --- */ // default driver HWCDRV_API int hwcdrv_init (hwcfuncs_abort_fn_t abort_ftn, int* tsd_sz) { return -1; } HWCDRV_API void hwcdrv_get_info ( int * cpuver, const char ** cciname, uint_t * npics, const char ** docref, uint64_t* support) { } HWCDRV_API int hwcdrv_enable_mt (hwcfuncs_tsd_get_fn_t tsd_ftn) { return -1; } HWCDRV_API int hwcdrv_get_descriptions (hwcf_hwc_cb_t *hwc_find_action, hwcf_attr_cb_t *attr_find_action, Hwcentry *hwcdef) { return 0; } HWCDRV_API int hwcdrv_assign_regnos (Hwcentry *entries[], unsigned numctrs) { return -1; } HWCDRV_API int hwcdrv_create_counters (unsigned hwcdef_cnt, Hwcentry *hwcdef) { return -1; } HWCDRV_API int hwcdrv_read_events (hwc_event_t *events, hwc_event_samples_t*samples) { return -1; } HWCDRV_API int hwcdrv_start (void) { return -1; } HWCDRV_API int hwcdrv_overflow (siginfo_t *si, hwc_event_t *s, hwc_event_t *t) { return 0; } HWCDRV_API int hwcdrv_sighlr_restart (const hwc_event_t *sample) { return -1; } HWCDRV_API int hwcdrv_lwp_suspend (void) { return -1; } HWCDRV_API int hwcdrv_lwp_resume (void) { return -1; } HWCDRV_API int hwcdrv_free_counters (void) { return 0; } HWCDRV_API int hwcdrv_lwp_init (void) { return 0; } HWCDRV_API void hwcdrv_lwp_fini (void) { } static hwcdrv_api_t hwcdrv_default = { hwcdrv_init, hwcdrv_get_info, hwcdrv_enable_mt, hwcdrv_get_descriptions, hwcdrv_assign_regnos, hwcdrv_create_counters, hwcdrv_start, hwcdrv_overflow, hwcdrv_read_events, hwcdrv_sighlr_restart, hwcdrv_lwp_suspend, hwcdrv_lwp_resume, hwcdrv_free_counters, hwcdrv_lwp_init, hwcdrv_lwp_fini, -1 // hwcdrv_init_status }; static hwcdrv_api_t *hwcdrv_driver = &hwcdrv_default; /*---------------------------------------------------------------------------*/ /* misc */ /* print a counter definition (for debugging) */ static void ctrdefprint (int dbg_lvl, const char * hdr, Hwcentry*phwcdef) { TprintfT (dbg_lvl, "%s: name='%s', int_name='%s'," " reg_num=%d, timecvt=%d, memop=%d, " "interval=%d, tag=%u\n", hdr, phwcdef->name, phwcdef->int_name, phwcdef->reg_num, phwcdef->timecvt, phwcdef->memop, phwcdef->val, phwcdef->sort_order); } /*---------------------------------------------------------------------------*/ /* errmsg buffering */ /* errmsg buffering is needed only because the most descriptive error messages from CPC are delivered using a callback mechanism. hwcfuncs_errmsg_get() should only be used during initialization, and ideally, only to provide feedback to an end user when his counters can't be bound to HW. */ IS_GLOBAL char * hwcfuncs_errmsg_get (char *buf, size_t bufsize, int enable) { hwcfuncs_errmsg_enabled = 0; if (buf && bufsize) { if (hwcfuncs_errmsg_valid) { strncpy (buf, hwcfuncs_errmsg_buf, bufsize); buf[bufsize - 1] = 0; } else *buf = 0; } hwcfuncs_errmsg_buf[0] = 0; hwcfuncs_errmsg_valid = 0; hwcfuncs_errmsg_enabled = enable; return buf; } /* used by cpc to log an error */ static void hwcfuncs_int_capture_errmsg (const char *fn, int subcode, const char *fmt, va_list ap) { if (hwcfuncs_errmsg_enabled && !hwcfuncs_errmsg_valid) { vsnprintf (hwcfuncs_errmsg_buf, sizeof (hwcfuncs_errmsg_buf), fmt, ap); TprintfT (DBG_LT0, "hwcfuncs: cpcN_capture_errmsg(): %s\n", hwcfuncs_errmsg_buf); hwcfuncs_errmsg_valid = 1; } return; } /* Log an internal error to the CPC error buffer. * Note: only call this during init functions. * Note: when most cpc calls fail, they will call cpcN_capture_errmsg() * directly, so only call logerr() when a non-cpc function fails. */ IS_GLOBAL void hwcfuncs_int_logerr (const char *format, ...) { va_list va; va_start (va, format); hwcfuncs_int_capture_errmsg ("logerr", 0, format, va); va_end (va); } /* utils to parse counter strings */ static void clear_hwcdefs () { for (unsigned idx = 0; idx < MAX_PICS; idx++) { static Hwcentry empty; hwcdef[idx] = empty; // leaks strings and reg_list array hwcdef[idx].reg_num = REGNO_ANY; hwcdef[idx].val = -1; hwcdef[idx].sort_order = -1; } } /* initialize hwcdef[] based on user's counter definitions */ static int process_data_descriptor (const char *defstring) { /* * format should be of format * :%s:%s:0x%x:%d:%lld:%d:%d:0x%x[,%s...repeat for each ctr] * where the counter fields are: * ::::[:m]::: * See Coll_Ctrl::build_data_desc(). */ int err = 0; char *ds = NULL; char *dsp = NULL; unsigned idx; clear_hwcdefs (); if (!defstring || !strlen (defstring)) return HWCFUNCS_ERROR_HWCARGS; ds = strdup (defstring); if (!ds) return HWCFUNCS_ERROR_HWCINIT; dsp = ds; for (idx = 0; idx < MAX_PICS && *dsp; idx++) { char *name = NULL; char *int_name = NULL; regno_t reg = REGNO_ANY; ABST_type memop = ABST_NONE; int interval = 0; int timecvt = 0; unsigned sort_order = (unsigned) - 1; // Read use_perf_event_type, type, config hwcdef[idx].use_perf_event_type = (int) strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].type = (int) strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].config = strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].config1 = strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } /* name */ name = dsp; dsp = strchr (dsp, ':'); if (dsp == NULL) { err = HWCFUNCS_ERROR_HWCARGS; break; } *dsp++ = (char) 0; /* int_name */ int_name = dsp; dsp = strchr (dsp, ':'); if (dsp == NULL) { err = HWCFUNCS_ERROR_HWCARGS; break; } *dsp++ = (char) 0; /* reg_num */ reg = (int) strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } if (reg < 0 && reg != -1) { err = HWCFUNCS_ERROR_HWCARGS; break; } if (reg >= 0) hwcdef[idx].reg_num = reg; /* val */ interval = (int) strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } if (interval < 0) { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].val = interval; /* min_time */ if (*dsp == 'm') { long long tmp_ll = 0; dsp++; tmp_ll = strtoll (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } if (tmp_ll < 0) { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].min_time = tmp_ll; } else hwcdef[idx].min_time = 0; /* sort_order */ sort_order = (int) strtoul (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].sort_order = sort_order; /* timecvt */ timecvt = (int) strtol (dsp, &dsp, 0); if (*dsp++ != ':') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].timecvt = timecvt; /* memop */ memop = (ABST_type) strtol (dsp, &dsp, 0); if (*dsp != 0 && *dsp++ != ',') { err = HWCFUNCS_ERROR_HWCARGS; break; } hwcdef[idx].memop = memop; if (*name) hwcdef[idx].name = strdup (name); else hwcdef[idx].name = strdup (int_name); if (*int_name) hwcdef[idx].int_name = strdup (int_name); else hwcdef[idx].int_name = strdup (name); ctrdefprint (DBG_LT1, "hwcfuncs: process_data_descriptor", &hwcdef[idx]); } if (*dsp) err = HWCFUNCS_ERROR_HWCARGS; if (err != 0) logerr (GTXT ("Data descriptor syntax error near `%s'\n"), dsp); else hwcdef_cnt = idx; free (ds); return err; } /* initialize hwcdef[] based on user's counter definitions */ static int process_hwcentrylist (const Hwcentry* entries[], unsigned numctrs) { int err = 0; clear_hwcdefs (); if (numctrs > cpcN_npics) { logerr (GTXT ("More than %d counters were specified\n"), cpcN_npics); /*!*/ return HWCFUNCS_ERROR_HWCARGS; } for (unsigned idx = 0; idx < numctrs; idx++) { Hwcentry *phwcdef = &hwcdef[idx]; *phwcdef = *entries[idx]; if (phwcdef->name) phwcdef->name = strdup (phwcdef->name); else phwcdef->name = "NULL"; if (phwcdef->int_name) phwcdef->int_name = strdup (phwcdef->int_name); else phwcdef->int_name = "NULL"; if (phwcdef->val < 0) { logerr (GTXT ("Negative interval specified for HW counter `%s'\n"), /*!*/ phwcdef->name); err = HWCFUNCS_ERROR_HWCARGS; break; } ctrdefprint (DBG_LT1, "hwcfuncs: process_hwcentrylist", phwcdef); } if (!err) hwcdef_cnt = numctrs; return err; } /* see hwcfuncs.h */ IS_GLOBAL void * hwcfuncs_parse_attrs (const char *countername, hwcfuncs_attr_t attrs[], unsigned max_attrs, uint_t *pnum_attrs, char**errstring) { char *head = NULL; char *tail = NULL; uint_t nattrs = 0; char *counter_copy; int success = 0; char errbuf[512]; errbuf[0] = 0; counter_copy = strdup (countername); /* advance pointer to first attribute */ tail = strchr (counter_copy, HWCFUNCS_PARSE_ATTR); if (tail) *tail = 0; /* remove regno and value, if supplied */ { char *tmp = strchr (counter_copy, HWCFUNCS_PARSE_REGNUM); if (tmp) *tmp = 0; tmp = strchr (counter_copy, HWCFUNCS_PARSE_VALUE); if (tmp) *tmp = 0; } while (tail) { char *pch; if (nattrs >= max_attrs) { snprintf (errbuf, sizeof (errbuf), GTXT ("Too many attributes defined in `%s'"), countername); goto mycpc2_parse_attrs_end; } /* get attribute name */ head = tail + 1; tail = strchr (head, HWCFUNCS_PARSE_EQUAL); if (!tail) { snprintf (errbuf, sizeof (errbuf), GTXT ("Missing value for attribute `%s' in `%s'"), head, countername); goto mycpc2_parse_attrs_end; } *tail = 0; /* null terminate current component */ attrs[nattrs].ca_name = head; /* get attribute value */ head = tail + 1; tail = strchr (head, HWCFUNCS_PARSE_ATTR); if (tail) *tail = 0; /* null terminate current component */ attrs[nattrs].ca_val = strtoull (head, &pch, 0); if (pch == head) { snprintf (errbuf, sizeof (errbuf), GTXT ("Illegal value for attribute `%s' in `%s'"), attrs[nattrs].ca_name, countername); goto mycpc2_parse_attrs_end; } TprintfT (DBG_LT0, "hwcfuncs: pic_: '%s', attribute[%u]" " '%s' = 0x%llx\n", counter_copy, nattrs, attrs[nattrs].ca_name, (long long unsigned int) attrs[nattrs].ca_val); nattrs++; } success = 1; mycpc2_parse_attrs_end: *pnum_attrs = nattrs; if (success) { if (errstring) *errstring = NULL; } else { if (errstring) *errstring = strdup (errbuf); free (counter_copy); counter_copy = NULL; } return counter_copy; } IS_GLOBAL void hwcfuncs_parse_ctr (const char *counter_def, int *pplus, char **pnameOnly, char **pattrs, char **pregstr, regno_t *pregno) { char *nameptr, *copy, *slash, *attr_delim; int plus; regno_t regno; nameptr = copy = strdup (counter_def); /* plus */ plus = 0; if (nameptr[0] == HWCFUNCS_PARSE_BACKTRACK) { plus = 1; nameptr++; } else if (nameptr[0] == HWCFUNCS_PARSE_BACKTRACK_OFF) { plus = -1; nameptr++; } if (pplus) *pplus = plus; /* regno */ regno = REGNO_ANY; if (pregstr) *pregstr = NULL; slash = strchr (nameptr, HWCFUNCS_PARSE_REGNUM); if (slash != NULL) { /* the remaining string should be a number > 0 */ if (pregstr) *pregstr = strdup (slash); char *endchar = NULL; regno = (regno_t) strtol (slash + 1, &endchar, 0); if (*endchar != 0) regno = -2; if (*(slash + 1) == '-') regno = -2; /* terminate previous element up to slash */ *slash = 0; } if (pregno) *pregno = regno; /* attrs */ if (pattrs) *pattrs = NULL; attr_delim = strchr (nameptr, HWCFUNCS_PARSE_ATTR); if (attr_delim != NULL) { if (pattrs) *pattrs = strdup (attr_delim); /* terminate previous element up to attr_delim */ *attr_delim++ = 0; } if (pnameOnly) *pnameOnly = strdup (nameptr); free (copy); } /* create counters */ IS_GLOBAL int hwcfuncs_bind_descriptor (const char *defstring) { int err = process_data_descriptor (defstring); if (err) { TprintfT (DBG_LT0, "hwcfuncs: ERROR: hwcfuncs_bind_descriptor failed\n"); return err; } err = hwcdrv_driver->hwcdrv_create_counters (hwcdef_cnt, hwcdef); return err; } /* see hwcfuncs.h */ IS_GLOBAL int hwcfuncs_bind_hwcentry (const Hwcentry* entries[], unsigned numctrs) { int err = -1; err = process_hwcentrylist (entries, numctrs); if (err) { TprintfT (DBG_LT0, "hwcfuncs: ERROR: hwcfuncs_bind_hwcentry\n"); return err; } err = hwcdrv_driver->hwcdrv_create_counters (hwcdef_cnt, hwcdef); return err; } /* see hwcfuncs.h */ IS_GLOBAL Hwcentry ** hwcfuncs_get_ctrs (unsigned *defcnt) { if (defcnt) *defcnt = hwcdef_cnt; return hwctable; } extern hwcdrv_api_t hwcdrv_pcl_api; static int hwcdrv_driver_inited = 0; hwcdrv_api_t * get_hwcdrv () { if (hwcdrv_driver_inited) return hwcdrv_driver; hwcdrv_driver_inited = 1; cpcN_npics = 0; for (int i = 0; i < MAX_PICS; i++) hwctable[i] = &hwcdef[i]; hwcdrv_driver = &hwcdrv_pcl_api; hwcdrv_driver->hwcdrv_init_status = hwcdrv_driver->hwcdrv_init (NULL, NULL); if (hwcdrv_driver->hwcdrv_init_status == 0) { hwcdrv_driver->hwcdrv_get_info (NULL, NULL, &cpcN_npics, NULL, NULL); return hwcdrv_driver; } hwcdrv_driver = &hwcdrv_default; return hwcdrv_driver; }