/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Routines to capture processor-dependencies in event specification. */ #include #include #include #include #include #include #include #include #include "libcpc.h" #include "libcpc_impl.h" /* * Event specifications for UltraSPARC performance counters are based * on the content of a getsubopt-like string. * The string should contain something that looks like this: * * pic0=,pic1= * [,nouser][,sys] * * For example: * pic1=0x4,pic0=Instr_cnt * or * pic0=Instr_cnt,pic1=Cycle_cnt,nouser,sys * * The two events must be named. The names can be ascii or * a decimal, octal or hexadecimal number as parsed by strtol(3C). * * By default, user event counting is enabled, system event counting * is disabled. * * The routine counts the number of errors encountered while parsing * the string, if no errors are encountered, the event handle is * returned. */ const char * cpc_getusage(int cpuver) { switch (cpuver) { case CPC_ULTRA1: case CPC_ULTRA2: case CPC_ULTRA3: case CPC_ULTRA3_PLUS: case CPC_ULTRA3_I: return ("pic0=,pic1= " "[,sys] " "[,nouser]"); default: return (NULL); } } /* * This private structure is used to build tables that correspond * to the bit patterns in the control registers of the processor. */ struct keyval { char *kv_token; int (*kv_action)(const char *, const struct keyval *, int, char *, uint64_t *); uint64_t kv_mask; int kv_shift; }; static int picbits(const char *fn, const struct keyval *kv, int cpuver, char *value, uint64_t *bits) { uint8_t val8; uint_t regno; regno = strcmp(kv->kv_token, "pic0") == 0 ? 0 : 1; if (value == NULL) { __cpc_error(fn, gettext("missing '%s' value\n"), kv->kv_token); return (-1); } if (__cpc_name_to_reg(cpuver, regno, value, &val8) != 0) { __cpc_error(fn, gettext("%%pic%d cannot measure " "event '%s' on this cpu\n"), regno, value); return (-1); } *bits |= (((uint64_t)val8 & kv->kv_mask) << kv->kv_shift); return (0); } /*ARGSUSED*/ static int bitclr(const char *fn, const struct keyval *kv, int cpuver, char *value, uint64_t *bits) { if (value != NULL) { __cpc_error(fn, gettext("bad arg to '%s'\n"), kv->kv_token); return (-1); } *bits &= ~(kv->kv_mask << kv->kv_shift); return (0); } /*ARGSUSED*/ static int bitset(const char *fn, const struct keyval *kv, int cpuver, char *value, uint64_t *bits) { if (value != NULL) { __cpc_error(fn, gettext("bad arg to '%s'\n"), kv->kv_token); return (-1); } *bits |= (kv->kv_mask << kv->kv_shift); return (0); } /* * This token table must match the keyval tables below. */ static char * const tokens[] = { #define D_pic0 0 "pic0", /* takes a valid event name */ #define D_pic1 1 "pic1", /* takes a valid event name */ #define D_nouser 2 "nouser", /* disables user counts */ #define D_sys 3 "sys", /* enables system counts */ NULL }; static const struct keyval us2_keyvals[] = { { "pic0", picbits, CPC_ULTRA2_PCR_PIC0_MASK, CPC_ULTRA_PCR_PIC0_SHIFT }, { "pic1", picbits, CPC_ULTRA2_PCR_PIC1_MASK, CPC_ULTRA_PCR_PIC1_SHIFT }, { "nouser", bitclr, UINT64_C(1), CPC_ULTRA_PCR_USR }, { "sys", bitset, UINT64_C(1), CPC_ULTRA_PCR_SYS }, }; static const struct keyval us3_keyvals[] = { { "pic0", picbits, CPC_ULTRA3_PCR_PIC0_MASK, CPC_ULTRA_PCR_PIC0_SHIFT }, { "pic1", picbits, CPC_ULTRA3_PCR_PIC1_MASK, CPC_ULTRA_PCR_PIC1_SHIFT }, { "nouser", bitclr, UINT64_C(1), CPC_ULTRA_PCR_USR }, { "sys", bitset, UINT64_C(1), CPC_ULTRA_PCR_SYS }, }; #if !defined(NDEBUG) #pragma init(__tablecheck) static void __tablecheck(void) { uint_t ntokens = sizeof (tokens) / sizeof (tokens[0]) - 1; uint_t us3_nkeys = sizeof (us3_keyvals) / sizeof (us3_keyvals[0]); uint_t us2_nkeys = sizeof (us2_keyvals) / sizeof (us2_keyvals[0]); uint_t n; assert(ntokens == us3_nkeys); for (n = 0; n < ntokens; n++) assert(strcmp(tokens[n], us3_keyvals[n].kv_token) == 0); assert(us3_nkeys >= us2_nkeys); for (n = 0; n < us2_nkeys; n++) assert(strcmp(tokens[n], us2_keyvals[n].kv_token) == 0); } #endif /* !NDEBUG */ int cpc_strtoevent(int cpuver, const char *spec, cpc_event_t *event) { static const char fn[] = "strtoevent"; char *value; char *pic[2]; char *opts; int errcnt = 0; uint_t ntokens; const struct keyval *keyvals; uint64_t *bits; if (spec == NULL) return (errcnt = 1); bzero(event, sizeof (*event)); switch (event->ce_cpuver = cpuver) { case CPC_ULTRA1: case CPC_ULTRA2: keyvals = us2_keyvals; ntokens = sizeof (us2_keyvals) / sizeof (us2_keyvals[0]); bits = &event->ce_pcr; *bits = UINT64_C(1) << CPC_ULTRA_PCR_USR; break; case CPC_ULTRA3: case CPC_ULTRA3_PLUS: case CPC_ULTRA3_I: keyvals = us3_keyvals; ntokens = sizeof (us3_keyvals) / sizeof (us3_keyvals[0]); bits = &event->ce_pcr; *bits = UINT64_C(1) << CPC_ULTRA_PCR_USR; break; default: return (errcnt = 1); } pic[0] = pic[1] = NULL; opts = strcpy(alloca(strlen(spec) + 1), spec); while (*opts != '\0') { const struct keyval *kv; int idx = getsubopt(&opts, tokens, &value); if (idx >= 0 && idx < ntokens) { kv = &keyvals[idx]; if (kv->kv_action(fn, kv, cpuver, value, bits) != 0) { errcnt++; break; } if (idx == D_pic0) { if (pic[0] != NULL) { __cpc_error(fn, "repeated '%s' token\n", tokens[idx]); errcnt++; break; } pic[0] = value; } else if (idx == D_pic1) { if (pic[1] != NULL) { __cpc_error(fn, "repeated '%s' token\n", tokens[idx]); errcnt++; break; } pic[1] = value; } } else if (idx == -1) { /* * The token given wasn't recognized. * See if it was an implicit pic specification.. */ if (pic[0] == NULL) { kv = &keyvals[D_pic0]; if (kv->kv_action(fn, kv, cpuver, value, bits) != 0) { errcnt++; break; } pic[0] = value; } else if (pic[1] == NULL) { kv = &keyvals[D_pic1]; if (kv->kv_action(fn, kv, cpuver, value, bits) != 0) { errcnt++; break; } pic[1] = value; } else { __cpc_error(fn, gettext("bad token '%s'\n"), value); errcnt++; break; } } else { if (idx >= 0 && idx < sizeof (tokens) / sizeof (tokens[0])) __cpc_error(fn, gettext("bad token '%s'\n"), tokens[idx]); else __cpc_error(fn, gettext("bad token\n")); errcnt++; break; } } if (pic[0] == NULL || pic[1] == NULL) { __cpc_error(fn, gettext("two events must be specified\n")); errcnt++; } return (errcnt); } /* * Return a printable description of the control registers. * * This routine should always succeed (notwithstanding heap problems), * but may not be able to correctly decode the registers, if, for * example, a new processor is under test. * * The caller is responsible for free(3c)ing the string returned. */ static char * val8tostr(uint8_t bits) { char buf[2 + 2 + 1]; /* 0x %2x \0 */ (void) snprintf(buf, sizeof (buf), "0x%x", bits); return (strdup(buf)); } static char * regtostr(int cpuver, int regno, uint8_t bits) { const char *sname; if ((sname = __cpc_reg_to_name(cpuver, regno, bits)) != NULL) return (strdup(sname)); return (val8tostr(bits)); } struct xpcr { uint8_t pic[2]; int usr, sys; }; static void unmake_pcr(uint64_t pcr, int cpuver, struct xpcr *xpcr) { const struct keyval *kv; switch (cpuver) { case CPC_ULTRA1: case CPC_ULTRA2: default: kv = us2_keyvals; break; case CPC_ULTRA3: case CPC_ULTRA3_PLUS: case CPC_ULTRA3_I: kv = us3_keyvals; break; } xpcr->pic[0] = (uint8_t)((pcr >> kv[D_pic0].kv_shift) & kv[D_pic0].kv_mask); xpcr->pic[1] = (uint8_t)((pcr >> kv[D_pic1].kv_shift) & kv[D_pic1].kv_mask); xpcr->usr = (pcr >> kv[D_nouser].kv_shift) & kv[D_nouser].kv_mask; xpcr->sys = (pcr >> kv[D_sys].kv_shift) & kv[D_sys].kv_mask; } char * cpc_eventtostr(cpc_event_t *event) { struct xpcr xpcr; char *pic[2]; char buffer[1024]; switch (event->ce_cpuver) { case CPC_ULTRA1: case CPC_ULTRA2: case CPC_ULTRA3: case CPC_ULTRA3_PLUS: case CPC_ULTRA3_I: break; default: return (NULL); } unmake_pcr(event->ce_pcr, event->ce_cpuver, &xpcr); if ((pic[0] = regtostr(event->ce_cpuver, 0, xpcr.pic[0])) == NULL) return (NULL); if ((pic[1] = regtostr(event->ce_cpuver, 1, xpcr.pic[1])) == NULL) { free(pic[0]); return (NULL); } (void) snprintf(buffer, sizeof (buffer), "%s=%s,%s=%s", tokens[D_pic0], pic[0], tokens[D_pic1], pic[1]); free(pic[1]); free(pic[0]); if (!xpcr.usr) (void) strcat(strcat(buffer, ","), tokens[D_nouser]); if (xpcr.sys) (void) strcat(strcat(buffer, ","), tokens[D_sys]); return (strdup(buffer)); } /* * Utility operations on events */ void cpc_event_accum(cpc_event_t *accum, cpc_event_t *event) { if (accum->ce_hrt < event->ce_hrt) accum->ce_hrt = event->ce_hrt; accum->ce_tick += event->ce_tick; accum->ce_pic[0] += event->ce_pic[0]; accum->ce_pic[1] += event->ce_pic[1]; } void cpc_event_diff(cpc_event_t *diff, cpc_event_t *left, cpc_event_t *right) { diff->ce_hrt = left->ce_hrt; diff->ce_tick = left->ce_tick - right->ce_tick; diff->ce_pic[0] = left->ce_pic[0] - right->ce_pic[0]; diff->ce_pic[1] = left->ce_pic[1] - right->ce_pic[1]; } /* * Given a cpc_event_t and cpc_bind_event() flags, translate the event into the * cpc_set_t format. * * Returns NULL on failure. */ cpc_set_t * __cpc_eventtoset(cpc_t *cpc, cpc_event_t *event, int iflags) { cpc_set_t *set = NULL; struct xpcr xpcr; char *pic[2]; uint32_t flag = 0; cpc_attr_t attr = { "picnum", 0 }; switch (event->ce_cpuver) { case CPC_ULTRA1: case CPC_ULTRA2: case CPC_ULTRA3: case CPC_ULTRA3_PLUS: case CPC_ULTRA3_I: break; default: return (NULL); } unmake_pcr(event->ce_pcr, event->ce_cpuver, &xpcr); if ((pic[0] = regtostr(event->ce_cpuver, 0, xpcr.pic[0])) == NULL) return (NULL); if ((pic[1] = regtostr(event->ce_cpuver, 1, xpcr.pic[1])) == NULL) { free(pic[0]); return (NULL); } if (xpcr.usr) flag |= CPC_COUNT_USER; if (xpcr.sys) flag |= CPC_COUNT_SYSTEM; if (iflags & CPC_BIND_EMT_OVF) flag |= CPC_OVF_NOTIFY_EMT; if ((set = cpc_set_create(cpc)) == NULL) goto bad; if (cpc_set_add_request(cpc, set, pic[0], event->ce_pic[0], flag, 1, &attr) != 0) goto bad; attr.ca_val = 1; if (cpc_set_add_request(cpc, set, pic[1], event->ce_pic[1], flag, 1, &attr) != 1) goto bad; free(pic[0]); free(pic[1]); return (set); bad: if (set != NULL) (void) cpc_set_destroy(cpc, set); free(pic[0]); free(pic[1]); return (NULL); }