/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * Copyright (c) 2013, Joyent, Inc. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static dt_provider_t * dt_provider_insert(dtrace_hdl_t *dtp, dt_provider_t *pvp, uint_t h) { dt_list_append(&dtp->dt_provlist, pvp); pvp->pv_next = dtp->dt_provs[h]; dtp->dt_provs[h] = pvp; dtp->dt_nprovs++; return (pvp); } dt_provider_t * dt_provider_lookup(dtrace_hdl_t *dtp, const char *name) { uint_t h = dt_strtab_hash(name, NULL) % dtp->dt_provbuckets; dtrace_providerdesc_t desc; dt_provider_t *pvp; for (pvp = dtp->dt_provs[h]; pvp != NULL; pvp = pvp->pv_next) { if (strcmp(pvp->pv_desc.dtvd_name, name) == 0) return (pvp); } if (strisglob(name) || name[0] == '\0') { (void) dt_set_errno(dtp, EDT_NOPROV); return (NULL); } bzero(&desc, sizeof (desc)); (void) strlcpy(desc.dtvd_name, name, DTRACE_PROVNAMELEN); if (dt_ioctl(dtp, DTRACEIOC_PROVIDER, &desc) == -1) { (void) dt_set_errno(dtp, errno == ESRCH ? EDT_NOPROV : errno); return (NULL); } if ((pvp = dt_provider_create(dtp, name)) == NULL) return (NULL); /* dt_errno is set for us */ bcopy(&desc, &pvp->pv_desc, sizeof (desc)); pvp->pv_flags |= DT_PROVIDER_IMPL; return (pvp); } dt_provider_t * dt_provider_create(dtrace_hdl_t *dtp, const char *name) { dt_provider_t *pvp; if ((pvp = dt_zalloc(dtp, sizeof (dt_provider_t))) == NULL) return (NULL); (void) strlcpy(pvp->pv_desc.dtvd_name, name, DTRACE_PROVNAMELEN); pvp->pv_probes = dt_idhash_create(pvp->pv_desc.dtvd_name, NULL, 0, 0); pvp->pv_gen = dtp->dt_gen; pvp->pv_hdl = dtp; if (pvp->pv_probes == NULL) { dt_free(dtp, pvp); (void) dt_set_errno(dtp, EDT_NOMEM); return (NULL); } pvp->pv_desc.dtvd_attr.dtpa_provider = _dtrace_prvattr; pvp->pv_desc.dtvd_attr.dtpa_mod = _dtrace_prvattr; pvp->pv_desc.dtvd_attr.dtpa_func = _dtrace_prvattr; pvp->pv_desc.dtvd_attr.dtpa_name = _dtrace_prvattr; pvp->pv_desc.dtvd_attr.dtpa_args = _dtrace_prvattr; return (dt_provider_insert(dtp, pvp, dt_strtab_hash(name, NULL) % dtp->dt_provbuckets)); } void dt_provider_destroy(dtrace_hdl_t *dtp, dt_provider_t *pvp) { dt_provider_t **pp; uint_t h; assert(pvp->pv_hdl == dtp); h = dt_strtab_hash(pvp->pv_desc.dtvd_name, NULL) % dtp->dt_provbuckets; pp = &dtp->dt_provs[h]; while (*pp != NULL && *pp != pvp) pp = &(*pp)->pv_next; assert(*pp != NULL && *pp == pvp); *pp = pvp->pv_next; dt_list_delete(&dtp->dt_provlist, pvp); dtp->dt_nprovs--; if (pvp->pv_probes != NULL) dt_idhash_destroy(pvp->pv_probes); dt_node_link_free(&pvp->pv_nodes); dt_free(dtp, pvp->pv_xrefs); dt_free(dtp, pvp); } int dt_provider_xref(dtrace_hdl_t *dtp, dt_provider_t *pvp, id_t id) { size_t oldsize = BT_SIZEOFMAP(pvp->pv_xrmax); size_t newsize = BT_SIZEOFMAP(dtp->dt_xlatorid); assert(id >= 0 && id < dtp->dt_xlatorid); if (newsize > oldsize) { ulong_t *xrefs = dt_zalloc(dtp, newsize); if (xrefs == NULL) return (-1); bcopy(pvp->pv_xrefs, xrefs, oldsize); dt_free(dtp, pvp->pv_xrefs); pvp->pv_xrefs = xrefs; pvp->pv_xrmax = dtp->dt_xlatorid; } BT_SET(pvp->pv_xrefs, id); return (0); } static uint8_t dt_probe_argmap(dt_node_t *xnp, dt_node_t *nnp) { uint8_t i; for (i = 0; nnp != NULL; i++) { if (nnp->dn_string != NULL && strcmp(nnp->dn_string, xnp->dn_string) == 0) break; else nnp = nnp->dn_list; } return (i); } static dt_node_t * dt_probe_alloc_args(dt_provider_t *pvp, int argc) { dt_node_t *args = NULL, *pnp = NULL, *dnp; int i; for (i = 0; i < argc; i++, pnp = dnp) { if ((dnp = dt_node_xalloc(pvp->pv_hdl, DT_NODE_TYPE)) == NULL) return (NULL); dnp->dn_link = pvp->pv_nodes; pvp->pv_nodes = dnp; if (args == NULL) args = dnp; else pnp->dn_list = dnp; } return (args); } static size_t dt_probe_keylen(const dtrace_probedesc_t *pdp) { return (strlen(pdp->dtpd_mod) + 1 + strlen(pdp->dtpd_func) + 1 + strlen(pdp->dtpd_name) + 1); } static char * dt_probe_key(const dtrace_probedesc_t *pdp, char *s) { (void) snprintf(s, INT_MAX, "%s:%s:%s", pdp->dtpd_mod, pdp->dtpd_func, pdp->dtpd_name); return (s); } /* * If a probe was discovered from the kernel, ask dtrace(4D) for a description * of each of its arguments, including native and translated types. */ static dt_probe_t * dt_probe_discover(dt_provider_t *pvp, const dtrace_probedesc_t *pdp) { dtrace_hdl_t *dtp = pvp->pv_hdl; char *name = dt_probe_key(pdp, alloca(dt_probe_keylen(pdp))); dt_node_t *xargs, *nargs; dt_ident_t *idp; dt_probe_t *prp; dtrace_typeinfo_t dtt; int i, nc, xc; int adc = _dtrace_argmax; dtrace_argdesc_t *adv = alloca(sizeof (dtrace_argdesc_t) * adc); dtrace_argdesc_t *adp = adv; assert(strcmp(pvp->pv_desc.dtvd_name, pdp->dtpd_provider) == 0); assert(pdp->dtpd_id != DTRACE_IDNONE); dt_dprintf("discovering probe %s:%s id=%d\n", pvp->pv_desc.dtvd_name, name, pdp->dtpd_id); for (nc = -1, i = 0; i < adc; i++, adp++) { bzero(adp, sizeof (dtrace_argdesc_t)); adp->dtargd_ndx = i; adp->dtargd_id = pdp->dtpd_id; if (dt_ioctl(dtp, DTRACEIOC_PROBEARG, adp) != 0) { (void) dt_set_errno(dtp, errno); return (NULL); } if (adp->dtargd_ndx == DTRACE_ARGNONE) break; /* all argument descs have been retrieved */ nc = MAX(nc, adp->dtargd_mapping); } xc = i; nc++; /* * The pid provider believes in giving the kernel a break. No reason to * give the kernel all the ctf containers that we're keeping ourselves * just to get it back from it. So if we're coming from a pid provider * probe and the kernel gave us no argument information we'll get some * here. If for some crazy reason the kernel knows about our userland * types then we just ignore this. */ if (xc == 0 && nc == 0 && strncmp(pvp->pv_desc.dtvd_name, "pid", 3) == 0) { nc = adc; dt_pid_get_types(dtp, pdp, adv, &nc); xc = nc; } /* * Now that we have discovered the number of native and translated * arguments from the argument descriptions, allocate a new probe ident * and corresponding dt_probe_t and hash it into the provider. */ xargs = dt_probe_alloc_args(pvp, xc); nargs = dt_probe_alloc_args(pvp, nc); if ((xc != 0 && xargs == NULL) || (nc != 0 && nargs == NULL)) return (NULL); /* dt_errno is set for us */ idp = dt_ident_create(name, DT_IDENT_PROBE, DT_IDFLG_ORPHAN, pdp->dtpd_id, _dtrace_defattr, 0, &dt_idops_probe, NULL, dtp->dt_gen); if (idp == NULL) { (void) dt_set_errno(dtp, EDT_NOMEM); return (NULL); } if ((prp = dt_probe_create(dtp, idp, 2, nargs, nc, xargs, xc)) == NULL) { dt_ident_destroy(idp); return (NULL); } dt_probe_declare(pvp, prp); /* * Once our new dt_probe_t is fully constructed, iterate over the * cached argument descriptions and assign types to prp->pr_nargv[] * and prp->pr_xargv[] and assign mappings to prp->pr_mapping[]. */ for (adp = adv, i = 0; i < xc; i++, adp++) { if (dtrace_type_strcompile(dtp, adp->dtargd_native, &dtt) != 0) { dt_dprintf("failed to resolve input type %s " "for %s:%s arg #%d: %s\n", adp->dtargd_native, pvp->pv_desc.dtvd_name, name, i + 1, dtrace_errmsg(dtp, dtrace_errno(dtp))); dtt.dtt_object = NULL; dtt.dtt_ctfp = NULL; dtt.dtt_type = CTF_ERR; } else { dt_node_type_assign(prp->pr_nargv[adp->dtargd_mapping], dtt.dtt_ctfp, dtt.dtt_type, dtt.dtt_flags & DTT_FL_USER ? B_TRUE : B_FALSE); } if (dtt.dtt_type != CTF_ERR && (adp->dtargd_xlate[0] == '\0' || strcmp(adp->dtargd_native, adp->dtargd_xlate) == 0)) { dt_node_type_propagate(prp->pr_nargv[ adp->dtargd_mapping], prp->pr_xargv[i]); } else if (dtrace_type_strcompile(dtp, adp->dtargd_xlate, &dtt) != 0) { dt_dprintf("failed to resolve output type %s " "for %s:%s arg #%d: %s\n", adp->dtargd_xlate, pvp->pv_desc.dtvd_name, name, i + 1, dtrace_errmsg(dtp, dtrace_errno(dtp))); dtt.dtt_object = NULL; dtt.dtt_ctfp = NULL; dtt.dtt_type = CTF_ERR; } else { dt_node_type_assign(prp->pr_xargv[i], dtt.dtt_ctfp, dtt.dtt_type, B_FALSE); } prp->pr_mapping[i] = adp->dtargd_mapping; prp->pr_argv[i] = dtt; } return (prp); } /* * Lookup a probe declaration based on a known provider and full or partially * specified module, function, and name. If the probe is not known to us yet, * ask dtrace(4D) to match the description and then cache any useful results. */ dt_probe_t * dt_probe_lookup(dt_provider_t *pvp, const char *s) { dtrace_hdl_t *dtp = pvp->pv_hdl; dtrace_probedesc_t pd; dt_ident_t *idp; size_t keylen; char *key; if (dtrace_str2desc(dtp, DTRACE_PROBESPEC_NAME, s, &pd) != 0) return (NULL); /* dt_errno is set for us */ keylen = dt_probe_keylen(&pd); key = dt_probe_key(&pd, alloca(keylen)); /* * If the probe is already declared, then return the dt_probe_t from * the existing identifier. This could come from a static declaration * or it could have been cached from an earlier call to this function. */ if ((idp = dt_idhash_lookup(pvp->pv_probes, key)) != NULL) return (idp->di_data); /* * If the probe isn't known, use the probe description computed above * to ask dtrace(4D) to find the first matching probe. */ if (dt_ioctl(dtp, DTRACEIOC_PROBEMATCH, &pd) == 0) return (dt_probe_discover(pvp, &pd)); if (errno == ESRCH || errno == EBADF) (void) dt_set_errno(dtp, EDT_NOPROBE); else (void) dt_set_errno(dtp, errno); return (NULL); } dt_probe_t * dt_probe_create(dtrace_hdl_t *dtp, dt_ident_t *idp, int protoc, dt_node_t *nargs, uint_t nargc, dt_node_t *xargs, uint_t xargc) { dt_module_t *dmp; dt_probe_t *prp; const char *p; uint_t i; assert(idp->di_kind == DT_IDENT_PROBE); assert(idp->di_data == NULL); /* * If only a single prototype is given, set xargc/s to nargc/s to * simplify subsequent use. Note that we can have one or both of nargs * and xargs be specified but set to NULL, indicating a void prototype. */ if (protoc < 2) { assert(xargs == NULL); assert(xargc == 0); xargs = nargs; xargc = nargc; } if ((prp = dt_alloc(dtp, sizeof (dt_probe_t))) == NULL) return (NULL); prp->pr_pvp = NULL; prp->pr_ident = idp; p = strrchr(idp->di_name, ':'); assert(p != NULL); prp->pr_name = p + 1; prp->pr_nargs = nargs; prp->pr_nargv = dt_alloc(dtp, sizeof (dt_node_t *) * nargc); prp->pr_nargc = nargc; prp->pr_xargs = xargs; prp->pr_xargv = dt_alloc(dtp, sizeof (dt_node_t *) * xargc); prp->pr_xargc = xargc; prp->pr_mapping = dt_alloc(dtp, sizeof (uint8_t) * xargc); prp->pr_inst = NULL; prp->pr_argv = dt_alloc(dtp, sizeof (dtrace_typeinfo_t) * xargc); prp->pr_argc = xargc; if ((prp->pr_nargc != 0 && prp->pr_nargv == NULL) || (prp->pr_xargc != 0 && prp->pr_xargv == NULL) || (prp->pr_xargc != 0 && prp->pr_mapping == NULL) || (prp->pr_argc != 0 && prp->pr_argv == NULL)) { dt_probe_destroy(prp); return (NULL); } for (i = 0; i < xargc; i++, xargs = xargs->dn_list) { if (xargs->dn_string != NULL) prp->pr_mapping[i] = dt_probe_argmap(xargs, nargs); else prp->pr_mapping[i] = i; prp->pr_xargv[i] = xargs; if ((dmp = dt_module_lookup_by_ctf(dtp, xargs->dn_ctfp)) != NULL) prp->pr_argv[i].dtt_object = dmp->dm_name; else prp->pr_argv[i].dtt_object = NULL; prp->pr_argv[i].dtt_ctfp = xargs->dn_ctfp; prp->pr_argv[i].dtt_type = xargs->dn_type; } for (i = 0; i < nargc; i++, nargs = nargs->dn_list) prp->pr_nargv[i] = nargs; idp->di_data = prp; return (prp); } void dt_probe_declare(dt_provider_t *pvp, dt_probe_t *prp) { assert(prp->pr_ident->di_kind == DT_IDENT_PROBE); assert(prp->pr_ident->di_data == prp); assert(prp->pr_pvp == NULL); if (prp->pr_xargs != prp->pr_nargs) pvp->pv_flags &= ~DT_PROVIDER_INTF; prp->pr_pvp = pvp; dt_idhash_xinsert(pvp->pv_probes, prp->pr_ident); } void dt_probe_destroy(dt_probe_t *prp) { dt_probe_instance_t *pip, *pip_next; dtrace_hdl_t *dtp; if (prp->pr_pvp != NULL) dtp = prp->pr_pvp->pv_hdl; else dtp = yypcb->pcb_hdl; dt_node_list_free(&prp->pr_nargs); dt_node_list_free(&prp->pr_xargs); dt_free(dtp, prp->pr_nargv); dt_free(dtp, prp->pr_xargv); for (pip = prp->pr_inst; pip != NULL; pip = pip_next) { pip_next = pip->pi_next; dt_free(dtp, pip->pi_offs); dt_free(dtp, pip->pi_enoffs); dt_free(dtp, pip); } dt_free(dtp, prp->pr_mapping); dt_free(dtp, prp->pr_argv); dt_free(dtp, prp); } int dt_probe_define(dt_provider_t *pvp, dt_probe_t *prp, const char *fname, const char *rname, uint32_t offset, int isenabled) { dtrace_hdl_t *dtp = pvp->pv_hdl; dt_probe_instance_t *pip; uint32_t **offs; uint_t *noffs, *maxoffs; assert(fname != NULL); for (pip = prp->pr_inst; pip != NULL; pip = pip->pi_next) { if (strcmp(pip->pi_fname, fname) == 0 && ((rname == NULL && pip->pi_rname[0] == '\0') || (rname != NULL && strcmp(pip->pi_rname, rname)) == 0)) break; } if (pip == NULL) { if ((pip = dt_zalloc(dtp, sizeof (*pip))) == NULL) return (-1); if ((pip->pi_offs = dt_zalloc(dtp, sizeof (uint32_t))) == NULL) { dt_free(dtp, pip); return (-1); } if ((pip->pi_enoffs = dt_zalloc(dtp, sizeof (uint32_t))) == NULL) { dt_free(dtp, pip->pi_offs); dt_free(dtp, pip); return (-1); } (void) strlcpy(pip->pi_fname, fname, sizeof (pip->pi_fname)); if (rname != NULL) { if (strlen(rname) + 1 > sizeof (pip->pi_rname)) { dt_free(dtp, pip->pi_offs); dt_free(dtp, pip); return (dt_set_errno(dtp, EDT_COMPILER)); } (void) strcpy(pip->pi_rname, rname); } pip->pi_noffs = 0; pip->pi_maxoffs = 1; pip->pi_nenoffs = 0; pip->pi_maxenoffs = 1; pip->pi_next = prp->pr_inst; prp->pr_inst = pip; } if (isenabled) { offs = &pip->pi_enoffs; noffs = &pip->pi_nenoffs; maxoffs = &pip->pi_maxenoffs; } else { offs = &pip->pi_offs; noffs = &pip->pi_noffs; maxoffs = &pip->pi_maxoffs; } if (*noffs == *maxoffs) { uint_t new_max = *maxoffs * 2; uint32_t *new_offs = dt_alloc(dtp, sizeof (uint32_t) * new_max); if (new_offs == NULL) return (-1); bcopy(*offs, new_offs, sizeof (uint32_t) * *maxoffs); dt_free(dtp, *offs); *maxoffs = new_max; *offs = new_offs; } dt_dprintf("defined probe %s %s:%s %s() +0x%x (%s)\n", isenabled ? "(is-enabled)" : "", pvp->pv_desc.dtvd_name, prp->pr_ident->di_name, fname, offset, rname != NULL ? rname : fname); assert(*noffs < *maxoffs); (*offs)[(*noffs)++] = offset; return (0); } /* * Lookup the dynamic translator type tag for the specified probe argument and * assign the type to the specified node. If the type is not yet defined, add * it to the "D" module's type container as a typedef for an unknown type. */ dt_node_t * dt_probe_tag(dt_probe_t *prp, uint_t argn, dt_node_t *dnp) { dtrace_hdl_t *dtp = prp->pr_pvp->pv_hdl; dtrace_typeinfo_t dtt; size_t len; char *tag; len = snprintf(NULL, 0, "__dtrace_%s___%s_arg%u", prp->pr_pvp->pv_desc.dtvd_name, prp->pr_name, argn); tag = alloca(len + 1); (void) snprintf(tag, len + 1, "__dtrace_%s___%s_arg%u", prp->pr_pvp->pv_desc.dtvd_name, prp->pr_name, argn); if (dtrace_lookup_by_type(dtp, DTRACE_OBJ_DDEFS, tag, &dtt) != 0) { dtt.dtt_object = DTRACE_OBJ_DDEFS; dtt.dtt_ctfp = DT_DYN_CTFP(dtp); dtt.dtt_type = ctf_add_typedef(DT_DYN_CTFP(dtp), CTF_ADD_ROOT, tag, DT_DYN_TYPE(dtp)); if (dtt.dtt_type == CTF_ERR || ctf_update(dtt.dtt_ctfp) == CTF_ERR) { xyerror(D_UNKNOWN, "cannot define type %s: %s\n", tag, ctf_errmsg(ctf_errno(dtt.dtt_ctfp))); } } bzero(dnp, sizeof (dt_node_t)); dnp->dn_kind = DT_NODE_TYPE; dt_node_type_assign(dnp, dtt.dtt_ctfp, dtt.dtt_type, B_FALSE); dt_node_attr_assign(dnp, _dtrace_defattr); return (dnp); } /*ARGSUSED*/ static int dt_probe_desc(dtrace_hdl_t *dtp, const dtrace_probedesc_t *pdp, void *arg) { if (((dtrace_probedesc_t *)arg)->dtpd_id == DTRACE_IDNONE) { bcopy(pdp, arg, sizeof (dtrace_probedesc_t)); return (0); } return (1); } dt_probe_t * dt_probe_info(dtrace_hdl_t *dtp, const dtrace_probedesc_t *pdp, dtrace_probeinfo_t *pip) { int m_is_glob = pdp->dtpd_mod[0] == '\0' || strisglob(pdp->dtpd_mod); int f_is_glob = pdp->dtpd_func[0] == '\0' || strisglob(pdp->dtpd_func); int n_is_glob = pdp->dtpd_name[0] == '\0' || strisglob(pdp->dtpd_name); dt_probe_t *prp = NULL; const dtrace_pattr_t *pap; dt_provider_t *pvp; dt_ident_t *idp; /* * Attempt to lookup the probe in our existing cache for this provider. * If none is found and an explicit probe ID was specified, discover * that specific probe and cache its description and arguments. */ if ((pvp = dt_provider_lookup(dtp, pdp->dtpd_provider)) != NULL) { size_t keylen = dt_probe_keylen(pdp); char *key = dt_probe_key(pdp, alloca(keylen)); if ((idp = dt_idhash_lookup(pvp->pv_probes, key)) != NULL) prp = idp->di_data; else if (pdp->dtpd_id != DTRACE_IDNONE) prp = dt_probe_discover(pvp, pdp); } /* * If no probe was found in our cache, convert the caller's partial * probe description into a fully-formed matching probe description by * iterating over up to at most two probes that match 'pdp'. We then * call dt_probe_discover() on the resulting probe identifier. */ if (prp == NULL) { dtrace_probedesc_t pd; int m; bzero(&pd, sizeof (pd)); pd.dtpd_id = DTRACE_IDNONE; /* * Call dtrace_probe_iter() to find matching probes. Our * dt_probe_desc() callback will produce the following results: * * m < 0 dtrace_probe_iter() found zero matches (or failed). * m > 0 dtrace_probe_iter() found more than one match. * m = 0 dtrace_probe_iter() found exactly one match. */ if ((m = dtrace_probe_iter(dtp, pdp, dt_probe_desc, &pd)) < 0) return (NULL); /* dt_errno is set for us */ if ((pvp = dt_provider_lookup(dtp, pd.dtpd_provider)) == NULL) return (NULL); /* dt_errno is set for us */ /* * If more than one probe was matched, then do not report probe * information if either of the following conditions is true: * * (a) The Arguments Data stability of the matched provider is * less than Evolving. * * (b) Any description component that is at least Evolving is * empty or is specified using a globbing expression. * * These conditions imply that providers that provide Evolving * or better Arguments Data stability must guarantee that all * probes with identical field names in a field of Evolving or * better Name stability have identical argument signatures. */ if (m > 0) { if (pvp->pv_desc.dtvd_attr.dtpa_args.dtat_data < DTRACE_STABILITY_EVOLVING) { (void) dt_set_errno(dtp, EDT_UNSTABLE); return (NULL); } if (pvp->pv_desc.dtvd_attr.dtpa_mod.dtat_name >= DTRACE_STABILITY_EVOLVING && m_is_glob) { (void) dt_set_errno(dtp, EDT_UNSTABLE); return (NULL); } if (pvp->pv_desc.dtvd_attr.dtpa_func.dtat_name >= DTRACE_STABILITY_EVOLVING && f_is_glob) { (void) dt_set_errno(dtp, EDT_UNSTABLE); return (NULL); } if (pvp->pv_desc.dtvd_attr.dtpa_name.dtat_name >= DTRACE_STABILITY_EVOLVING && n_is_glob) { (void) dt_set_errno(dtp, EDT_UNSTABLE); return (NULL); } } /* * If we matched a probe exported by dtrace(4D), then discover * the real attributes. Otherwise grab the static declaration. */ if (pd.dtpd_id != DTRACE_IDNONE) prp = dt_probe_discover(pvp, &pd); else prp = dt_probe_lookup(pvp, pd.dtpd_name); if (prp == NULL) return (NULL); /* dt_errno is set for us */ } assert(pvp != NULL && prp != NULL); /* * Compute the probe description attributes by taking the minimum of * the attributes of the specified fields. If no provider is specified * or a glob pattern is used for the provider, use Unstable attributes. */ if (pdp->dtpd_provider[0] == '\0' || strisglob(pdp->dtpd_provider)) pap = &_dtrace_prvdesc; else pap = &pvp->pv_desc.dtvd_attr; pip->dtp_attr = pap->dtpa_provider; if (!m_is_glob) pip->dtp_attr = dt_attr_min(pip->dtp_attr, pap->dtpa_mod); if (!f_is_glob) pip->dtp_attr = dt_attr_min(pip->dtp_attr, pap->dtpa_func); if (!n_is_glob) pip->dtp_attr = dt_attr_min(pip->dtp_attr, pap->dtpa_name); pip->dtp_arga = pap->dtpa_args; pip->dtp_argv = prp->pr_argv; pip->dtp_argc = prp->pr_argc; return (prp); } int dtrace_probe_info(dtrace_hdl_t *dtp, const dtrace_probedesc_t *pdp, dtrace_probeinfo_t *pip) { return (dt_probe_info(dtp, pdp, pip) != NULL ? 0 : -1); } /*ARGSUSED*/ static int dt_probe_iter(dt_idhash_t *ihp, dt_ident_t *idp, dt_probe_iter_t *pit) { const dt_probe_t *prp = idp->di_data; if (!dt_gmatch(prp->pr_name, pit->pit_pat)) return (0); /* continue on and examine next probe in hash */ (void) strlcpy(pit->pit_desc.dtpd_name, prp->pr_name, DTRACE_NAMELEN); pit->pit_desc.dtpd_id = idp->di_id; pit->pit_matches++; return (pit->pit_func(pit->pit_hdl, &pit->pit_desc, pit->pit_arg)); } int dtrace_probe_iter(dtrace_hdl_t *dtp, const dtrace_probedesc_t *pdp, dtrace_probe_f *func, void *arg) { const char *provider = pdp ? pdp->dtpd_provider : NULL; dtrace_id_t id = DTRACE_IDNONE; dtrace_probedesc_t pd; dt_probe_iter_t pit; int cmd, rv; bzero(&pit, sizeof (pit)); pit.pit_hdl = dtp; pit.pit_func = func; pit.pit_arg = arg; pit.pit_pat = pdp ? pdp->dtpd_name : NULL; for (pit.pit_pvp = dt_list_next(&dtp->dt_provlist); pit.pit_pvp != NULL; pit.pit_pvp = dt_list_next(pit.pit_pvp)) { if (pit.pit_pvp->pv_flags & DT_PROVIDER_IMPL) continue; /* we'll get these later using dt_ioctl() */ if (!dt_gmatch(pit.pit_pvp->pv_desc.dtvd_name, provider)) continue; (void) strlcpy(pit.pit_desc.dtpd_provider, pit.pit_pvp->pv_desc.dtvd_name, DTRACE_PROVNAMELEN); if ((rv = dt_idhash_iter(pit.pit_pvp->pv_probes, (dt_idhash_f *)dt_probe_iter, &pit)) != 0) return (rv); } if (pdp != NULL) cmd = DTRACEIOC_PROBEMATCH; else cmd = DTRACEIOC_PROBES; for (;;) { if (pdp != NULL) bcopy(pdp, &pd, sizeof (pd)); pd.dtpd_id = id; if (dt_ioctl(dtp, cmd, &pd) != 0) break; else if ((rv = func(dtp, &pd, arg)) != 0) return (rv); pit.pit_matches++; id = pd.dtpd_id + 1; } switch (errno) { case ESRCH: case EBADF: return (pit.pit_matches ? 0 : dt_set_errno(dtp, EDT_NOPROBE)); case EINVAL: return (dt_set_errno(dtp, EDT_BADPGLOB)); default: return (dt_set_errno(dtp, errno)); } }