/* * pfmlib_arm.c : support for ARM chips * * Copyright (c) 2010 University of Tennessee * Contributed by Vince Weaver * * 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 /* private headers */ #include "pfmlib_priv.h" /* library private */ #include "pfmlib_arm_priv.h" const pfmlib_attr_desc_t arm_mods[]={ PFM_ATTR_B("k", "monitor at kernel level"), PFM_ATTR_B("u", "monitor at user level"), PFM_ATTR_B("hv", "monitor in hypervisor"), PFM_ATTR_NULL /* end-marker to avoid exporting number of entries */ }; pfm_arm_config_t pfm_arm_cfg; #ifdef CONFIG_PFMLIB_OS_LINUX /* * helper function to retrieve one value from /proc/cpuinfo * for internal libpfm use only * attr: the attribute (line) to look for * ret_buf: a buffer to store the value of the attribute (as a string) * maxlen : number of bytes of capacity in ret_buf * * ret_buf is null terminated. * * Return: * 0 : attribute found, ret_buf populated * -1: attribute not found */ static int pfmlib_getcpuinfo_attr(const char *attr, char *ret_buf, size_t maxlen) { FILE *fp = NULL; int ret = -1; size_t attr_len, buf_len = 0; char *p, *value = NULL; char *buffer = NULL; if (attr == NULL || ret_buf == NULL || maxlen < 1) return -1; attr_len = strlen(attr); fp = fopen("/proc/cpuinfo", "r"); if (fp == NULL) return -1; while(pfmlib_getl(&buffer, &buf_len, fp) != -1){ /* skip blank lines */ if (*buffer == '\n') continue; p = strchr(buffer, ':'); if (p == NULL) goto error; /* * p+2: +1 = space, +2= firt character * strlen()-1 gets rid of \n */ *p = '\0'; value = p+2; value[strlen(value)-1] = '\0'; if (!strncmp(attr, buffer, attr_len)) break; } strncpy(ret_buf, value, maxlen-1); ret_buf[maxlen-1] = '\0'; ret = 0; error: free(buffer); fclose(fp); return ret; } #else static int pfmlib_getcpuinfo_attr(const char *attr, char *ret_buf, size_t maxlen) { return -1; } #endif static int arm_num_mods(void *this, int idx) { const arm_entry_t *pe = this_pe(this); unsigned int mask; mask = pe[idx].modmsk; return pfmlib_popcnt(mask); } static inline int arm_attr2mod(void *this, int pidx, int attr_idx) { const arm_entry_t *pe = this_pe(this); size_t x; int n; n = attr_idx; pfmlib_for_each_bit(x, pe[pidx].modmsk) { if (n == 0) break; n--; } return x; } static void pfm_arm_display_reg(void *this, pfmlib_event_desc_t *e, pfm_arm_reg_t reg) { __pfm_vbprintf("[0x%x] %s\n", reg.val, e->fstr); } int pfm_arm_detect(void *this) { int ret; char buffer[128]; ret = pfmlib_getcpuinfo_attr("CPU implementer", buffer, sizeof(buffer)); if (ret == -1) return PFM_ERR_NOTSUPP; pfm_arm_cfg.implementer = strtol(buffer, NULL, 16); ret = pfmlib_getcpuinfo_attr("CPU part", buffer, sizeof(buffer)); if (ret == -1) return PFM_ERR_NOTSUPP; pfm_arm_cfg.part = strtol(buffer, NULL, 16); ret = pfmlib_getcpuinfo_attr("CPU architecture", buffer, sizeof(buffer)); if (ret == -1) return PFM_ERR_NOTSUPP; pfm_arm_cfg.architecture = strtol(buffer, NULL, 16); return PFM_SUCCESS; } int pfm_arm_get_encoding(void *this, pfmlib_event_desc_t *e) { const arm_entry_t *pe = this_pe(this); pfmlib_event_attr_info_t *a; pfm_arm_reg_t reg; unsigned int plm = 0; int i, idx, has_plm = 0; reg.val = pe[e->event].code; for (i = 0; i < e->nattrs; i++) { a = attr(e, i); if (a->ctrl != PFM_ATTR_CTRL_PMU) continue; if (a->type > PFM_ATTR_UMASK) { uint64_t ival = e->attrs[i].ival; switch(a->idx) { case ARM_ATTR_U: /* USR */ if (ival) plm |= PFM_PLM3; has_plm = 1; break; case ARM_ATTR_K: /* OS */ if (ival) plm |= PFM_PLM0; has_plm = 1; break; case ARM_ATTR_HV: /* HYPERVISOR */ if (ival) plm |= PFM_PLMH; has_plm = 1; break; default: return PFM_ERR_ATTR; } } } if (arm_has_plm(this, e)) { if (!has_plm) plm = e->dfl_plm; reg.evtsel.excl_pl1 = !(plm & PFM_PLM0); reg.evtsel.excl_usr = !(plm & PFM_PLM3); reg.evtsel.excl_hyp = !(plm & PFM_PLMH); } evt_strcat(e->fstr, "%s", pe[e->event].name); e->codes[0] = reg.val; e->count = 1; for (i = 0; i < e->npattrs; i++) { if (e->pattrs[i].ctrl != PFM_ATTR_CTRL_PMU) continue; if (e->pattrs[i].type == PFM_ATTR_UMASK) continue; idx = e->pattrs[i].idx; switch(idx) { case ARM_ATTR_K: evt_strcat(e->fstr, ":%s=%lu", arm_mods[idx].name, !reg.evtsel.excl_pl1); break; case ARM_ATTR_U: evt_strcat(e->fstr, ":%s=%lu", arm_mods[idx].name, !reg.evtsel.excl_usr); break; case ARM_ATTR_HV: evt_strcat(e->fstr, ":%s=%lu", arm_mods[idx].name, !reg.evtsel.excl_hyp); break; } } pfm_arm_display_reg(this, e, reg); return PFM_SUCCESS; } int pfm_arm_get_event_first(void *this) { return 0; } int pfm_arm_get_event_next(void *this, int idx) { pfmlib_pmu_t *p = this; if (idx >= (p->pme_count-1)) return -1; return idx+1; } int pfm_arm_event_is_valid(void *this, int pidx) { pfmlib_pmu_t *p = this; return pidx >= 0 && pidx < p->pme_count; } int pfm_arm_validate_table(void *this, FILE *fp) { pfmlib_pmu_t *pmu = this; const arm_entry_t *pe = this_pe(this); int i, j, error = 0; for(i=0; i < pmu->pme_count; i++) { if (!pe[i].name) { fprintf(fp, "pmu: %s event%d: :: no name (prev event was %s)\n", pmu->name, i, i > 1 ? pe[i-1].name : "??"); error++; } if (!pe[i].desc) { fprintf(fp, "pmu: %s event%d: %s :: no description\n", pmu->name, i, pe[i].name); error++; } for(j = i+1; j < pmu->pme_count; j++) { if (pe[i].code == pe[j].code && !(pe[j].equiv || pe[i].equiv)) { fprintf(fp, "pmu: %s events %s and %s have the same code 0x%x\n", pmu->name, pe[i].name, pe[j].name, pe[i].code); error++; } } } return error ? PFM_ERR_INVAL : PFM_SUCCESS; } int pfm_arm_get_event_attr_info(void *this, int pidx, int attr_idx, pfmlib_event_attr_info_t *info) { int idx; idx = arm_attr2mod(this, pidx, attr_idx); info->name = arm_mods[idx].name; info->desc = arm_mods[idx].desc; info->type = arm_mods[idx].type; info->code = idx; info->is_dfl = 0; info->equiv = NULL; info->ctrl = PFM_ATTR_CTRL_PMU; info->idx = idx; /* namespace specific index */ info->dfl_val64 = 0; info->is_precise = 0; info->support_hw_smpl = 0; return PFM_SUCCESS; } unsigned int pfm_arm_get_event_nattrs(void *this, int pidx) { return arm_num_mods(this, pidx); } int pfm_arm_get_event_info(void *this, int idx, pfm_event_info_t *info) { pfmlib_pmu_t *pmu = this; const arm_entry_t *pe = this_pe(this); info->name = pe[idx].name; info->desc = pe[idx].desc; info->code = pe[idx].code; info->equiv = pe[idx].equiv; info->idx = idx; /* private index */ info->pmu = pmu->pmu; info->is_precise = 0; info->support_hw_smpl = 0; /* no attributes defined for ARM yet */ info->nattrs = 0; return PFM_SUCCESS; }