/* * * 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 (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static int hc_enum(topo_mod_t *, tnode_t *, const char *, topo_instance_t, topo_instance_t, void *, void *); static void hc_release(topo_mod_t *, tnode_t *); static int hc_fmri_nvl2str(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_str2nvl(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_compare(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_present(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_replaced(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_unusable(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_expand(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_retire(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_unretire(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_service_state(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_create_meth(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_prop_get(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_prop_set(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_pgrp_get(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static int hc_fmri_facility(topo_mod_t *, tnode_t *, topo_version_t, nvlist_t *, nvlist_t **); static nvlist_t *hc_fmri_create(topo_mod_t *, nvlist_t *, int, const char *, topo_instance_t inst, const nvlist_t *, const char *, const char *, const char *); const topo_method_t hc_methods[] = { { TOPO_METH_NVL2STR, TOPO_METH_NVL2STR_DESC, TOPO_METH_NVL2STR_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_nvl2str }, { TOPO_METH_STR2NVL, TOPO_METH_STR2NVL_DESC, TOPO_METH_STR2NVL_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_str2nvl }, { TOPO_METH_COMPARE, TOPO_METH_COMPARE_DESC, TOPO_METH_COMPARE_VERSION, TOPO_STABILITY_INTERNAL, hc_compare }, { TOPO_METH_PRESENT, TOPO_METH_PRESENT_DESC, TOPO_METH_PRESENT_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_present }, { TOPO_METH_REPLACED, TOPO_METH_REPLACED_DESC, TOPO_METH_REPLACED_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_replaced }, { TOPO_METH_UNUSABLE, TOPO_METH_UNUSABLE_DESC, TOPO_METH_UNUSABLE_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_unusable }, { TOPO_METH_EXPAND, TOPO_METH_EXPAND_DESC, TOPO_METH_EXPAND_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_expand }, { TOPO_METH_RETIRE, TOPO_METH_RETIRE_DESC, TOPO_METH_RETIRE_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_retire }, { TOPO_METH_UNRETIRE, TOPO_METH_UNRETIRE_DESC, TOPO_METH_UNRETIRE_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_unretire }, { TOPO_METH_SERVICE_STATE, TOPO_METH_SERVICE_STATE_DESC, TOPO_METH_SERVICE_STATE_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_service_state }, { TOPO_METH_FMRI, TOPO_METH_FMRI_DESC, TOPO_METH_FMRI_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_create_meth }, { TOPO_METH_PROP_GET, TOPO_METH_PROP_GET_DESC, TOPO_METH_PROP_GET_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_prop_get }, { TOPO_METH_PROP_SET, TOPO_METH_PROP_SET_DESC, TOPO_METH_PROP_SET_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_prop_set }, { TOPO_METH_PGRP_GET, TOPO_METH_PGRP_GET_DESC, TOPO_METH_PGRP_GET_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_pgrp_get }, { TOPO_METH_FACILITY, TOPO_METH_FACILITY_DESC, TOPO_METH_FACILITY_VERSION, TOPO_STABILITY_INTERNAL, hc_fmri_facility }, { NULL } }; static const topo_modops_t hc_ops = { hc_enum, hc_release }; static const topo_modinfo_t hc_info = { HC, FM_FMRI_SCHEME_HC, HC_VERSION, &hc_ops }; static const hcc_t hc_canon[] = { { BANK, TOPO_STABILITY_PRIVATE }, { BAY, TOPO_STABILITY_PRIVATE }, { BLADE, TOPO_STABILITY_PRIVATE }, { BRANCH, TOPO_STABILITY_PRIVATE }, { CMP, TOPO_STABILITY_PRIVATE }, { CENTERPLANE, TOPO_STABILITY_PRIVATE }, { CHASSIS, TOPO_STABILITY_PRIVATE }, { CHIP, TOPO_STABILITY_PRIVATE }, { CHIP_SELECT, TOPO_STABILITY_PRIVATE }, { CORE, TOPO_STABILITY_PRIVATE }, { CONTROLLER, TOPO_STABILITY_PRIVATE }, { CPU, TOPO_STABILITY_PRIVATE }, { CPUBOARD, TOPO_STABILITY_PRIVATE }, { DIMM, TOPO_STABILITY_PRIVATE }, { DISK, TOPO_STABILITY_PRIVATE }, { DRAM, TOPO_STABILITY_PRIVATE }, { DRAMCHANNEL, TOPO_STABILITY_PRIVATE }, { FAN, TOPO_STABILITY_PRIVATE }, { FANMODULE, TOPO_STABILITY_PRIVATE }, { HOSTBRIDGE, TOPO_STABILITY_PRIVATE }, { INTERCONNECT, TOPO_STABILITY_PRIVATE }, { IOBOARD, TOPO_STABILITY_PRIVATE }, { IPORT, TOPO_STABILITY_PRIVATE }, { MEMBOARD, TOPO_STABILITY_PRIVATE }, { MEMORYBUFFER, TOPO_STABILITY_PRIVATE }, { MEMORYCONTROL, TOPO_STABILITY_PRIVATE }, { MICROCORE, TOPO_STABILITY_PRIVATE }, { MOTHERBOARD, TOPO_STABILITY_PRIVATE }, { NIU, TOPO_STABILITY_PRIVATE }, { NIUFN, TOPO_STABILITY_PRIVATE }, { PCI_BUS, TOPO_STABILITY_PRIVATE }, { PCI_DEVICE, TOPO_STABILITY_PRIVATE }, { PCI_FUNCTION, TOPO_STABILITY_PRIVATE }, { PCIEX_BUS, TOPO_STABILITY_PRIVATE }, { PCIEX_DEVICE, TOPO_STABILITY_PRIVATE }, { PCIEX_FUNCTION, TOPO_STABILITY_PRIVATE }, { PCIEX_ROOT, TOPO_STABILITY_PRIVATE }, { PCIEX_SWUP, TOPO_STABILITY_PRIVATE }, { PCIEX_SWDWN, TOPO_STABILITY_PRIVATE }, { POWERMODULE, TOPO_STABILITY_PRIVATE }, { PSU, TOPO_STABILITY_PRIVATE }, { RANK, TOPO_STABILITY_PRIVATE }, { RECEPTACLE, TOPO_STABILITY_PRIVATE }, { RISER, TOPO_STABILITY_PRIVATE }, { SASEXPANDER, TOPO_STABILITY_PRIVATE }, { SCSI_DEVICE, TOPO_STABILITY_PRIVATE }, { SHELF, TOPO_STABILITY_PRIVATE }, { SES_ENCLOSURE, TOPO_STABILITY_PRIVATE }, { SMP_DEVICE, TOPO_STABILITY_PRIVATE }, { SP, TOPO_STABILITY_PRIVATE }, { STRAND, TOPO_STABILITY_PRIVATE }, { SUBCHASSIS, TOPO_STABILITY_PRIVATE }, { SYSTEMBOARD, TOPO_STABILITY_PRIVATE }, { XAUI, TOPO_STABILITY_PRIVATE }, { XFP, TOPO_STABILITY_PRIVATE } }; static int hc_ncanon = sizeof (hc_canon) / sizeof (hcc_t); int hc_init(topo_mod_t *mod, topo_version_t version) { /* * Turn on module debugging output */ if (getenv("TOPOHCDEBUG")) topo_mod_setdebug(mod); topo_mod_dprintf(mod, "initializing hc builtin\n"); if (version != HC_VERSION) return (topo_mod_seterrno(mod, EMOD_VER_NEW)); if (topo_mod_register(mod, &hc_info, TOPO_VERSION) != 0) { topo_mod_dprintf(mod, "failed to register hc: " "%s\n", topo_mod_errmsg(mod)); return (-1); /* mod errno already set */ } return (0); } void hc_fini(topo_mod_t *mod) { topo_mod_unregister(mod); } static const topo_pgroup_info_t sys_pgroup = { TOPO_PGROUP_SYSTEM, TOPO_STABILITY_PRIVATE, TOPO_STABILITY_PRIVATE, 1 }; static const topo_pgroup_info_t auth_pgroup = { FM_FMRI_AUTHORITY, TOPO_STABILITY_PRIVATE, TOPO_STABILITY_PRIVATE, 1 }; static void hc_prop_set(tnode_t *node, nvlist_t *auth) { int err; char isa[MAXNAMELEN]; struct utsname uts; char *prod, *psn, *csn, *server; if (auth == NULL) return; if (topo_pgroup_create(node, &auth_pgroup, &err) != 0) { if (err != ETOPO_PROP_DEFD) return; } /* * Inherit if we can, it saves memory */ if ((topo_prop_inherit(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_PRODUCT, &err) != 0) && (err != ETOPO_PROP_DEFD)) { if (nvlist_lookup_string(auth, FM_FMRI_AUTH_PRODUCT, &prod) == 0) (void) topo_prop_set_string(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_PRODUCT, TOPO_PROP_IMMUTABLE, prod, &err); } if ((topo_prop_inherit(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_PRODUCT_SN, &err) != 0) && (err != ETOPO_PROP_DEFD)) { if (nvlist_lookup_string(auth, FM_FMRI_AUTH_PRODUCT_SN, &psn) == 0) (void) topo_prop_set_string(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_PRODUCT_SN, TOPO_PROP_IMMUTABLE, psn, &err); } if ((topo_prop_inherit(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_CHASSIS, &err) != 0) && (err != ETOPO_PROP_DEFD)) { if (nvlist_lookup_string(auth, FM_FMRI_AUTH_CHASSIS, &csn) == 0) (void) topo_prop_set_string(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_CHASSIS, TOPO_PROP_IMMUTABLE, csn, &err); } if ((topo_prop_inherit(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_SERVER, &err) != 0) && (err != ETOPO_PROP_DEFD)) { if (nvlist_lookup_string(auth, FM_FMRI_AUTH_SERVER, &server) == 0) (void) topo_prop_set_string(node, FM_FMRI_AUTHORITY, FM_FMRI_AUTH_SERVER, TOPO_PROP_IMMUTABLE, server, &err); } if (topo_pgroup_create(node, &sys_pgroup, &err) != 0) return; isa[0] = '\0'; (void) sysinfo(SI_ARCHITECTURE, isa, sizeof (isa)); (void) uname(&uts); (void) topo_prop_set_string(node, TOPO_PGROUP_SYSTEM, TOPO_PROP_ISA, TOPO_PROP_IMMUTABLE, isa, &err); (void) topo_prop_set_string(node, TOPO_PGROUP_SYSTEM, TOPO_PROP_MACHINE, TOPO_PROP_IMMUTABLE, uts.machine, &err); } /*ARGSUSED*/ int hc_enum(topo_mod_t *mod, tnode_t *pnode, const char *name, topo_instance_t min, topo_instance_t max, void *notused1, void *notused2) { nvlist_t *pfmri = NULL; nvlist_t *nvl; nvlist_t *auth; tnode_t *node; int err; /* * Register root node methods */ if (strcmp(name, HC) == 0) { (void) topo_method_register(mod, pnode, hc_methods); return (0); } if (min != max) { topo_mod_dprintf(mod, "Request to enumerate %s component with an " "ambiguous instance number, min (%d) != max (%d).\n", HC, min, max); return (topo_mod_seterrno(mod, EINVAL)); } (void) topo_node_resource(pnode, &pfmri, &err); auth = topo_mod_auth(mod, pnode); nvl = hc_fmri_create(mod, pfmri, FM_HC_SCHEME_VERSION, name, min, auth, NULL, NULL, NULL); nvlist_free(pfmri); /* callee ignores NULLs */ if (nvl == NULL) { nvlist_free(auth); return (-1); } if ((node = topo_node_bind(mod, pnode, name, min, nvl)) == NULL) { topo_mod_dprintf(mod, "topo_node_bind failed: %s\n", topo_strerror(topo_mod_errno(mod))); nvlist_free(auth); nvlist_free(nvl); return (-1); } /* * Set FRU for the motherboard node */ if (strcmp(name, MOTHERBOARD) == 0) (void) topo_node_fru_set(node, nvl, 0, &err); hc_prop_set(node, auth); nvlist_free(nvl); nvlist_free(auth); return (0); } /*ARGSUSED*/ static void hc_release(topo_mod_t *mp, tnode_t *node) { topo_method_unregister_all(mp, node); } static int fmri_compare(topo_mod_t *mod, nvlist_t *nv1, nvlist_t *nv2) { uint8_t v1, v2; nvlist_t **hcp1, **hcp2; nvlist_t *f1 = NULL, *f2 = NULL; int err, i; uint_t nhcp1, nhcp2; char *f1str, *f2str; if (nvlist_lookup_uint8(nv1, FM_VERSION, &v1) != 0 || nvlist_lookup_uint8(nv2, FM_VERSION, &v2) != 0 || v1 > FM_HC_SCHEME_VERSION || v2 > FM_HC_SCHEME_VERSION) return (topo_mod_seterrno(mod, EMOD_FMRI_VERSION)); err = nvlist_lookup_nvlist_array(nv1, FM_FMRI_HC_LIST, &hcp1, &nhcp1); err |= nvlist_lookup_nvlist_array(nv2, FM_FMRI_HC_LIST, &hcp2, &nhcp2); if (err != 0) return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); if (nhcp1 != nhcp2) return (0); for (i = 0; i < nhcp1; i++) { char *nm1 = NULL; char *nm2 = NULL; char *id1 = NULL; char *id2 = NULL; (void) nvlist_lookup_string(hcp1[i], FM_FMRI_HC_NAME, &nm1); (void) nvlist_lookup_string(hcp2[i], FM_FMRI_HC_NAME, &nm2); (void) nvlist_lookup_string(hcp1[i], FM_FMRI_HC_ID, &id1); (void) nvlist_lookup_string(hcp2[i], FM_FMRI_HC_ID, &id2); if (nm1 == NULL || nm2 == NULL || id1 == NULL || id2 == NULL) return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); if (strcmp(nm1, nm2) == 0 && strcmp(id1, id2) == 0) continue; return (0); } /* * Finally, check if the FMRI's represent a facility node. If so, then * verify that the facilty type ("sensor"|"indicator") and facility * name match. */ (void) nvlist_lookup_nvlist(nv1, FM_FMRI_FACILITY, &f1); (void) nvlist_lookup_nvlist(nv2, FM_FMRI_FACILITY, &f2); if (f1 == NULL && f2 == NULL) return (1); else if (f1 == NULL || f2 == NULL) return (0); if (nvlist_lookup_string(f1, FM_FMRI_FACILITY_NAME, &f1str) == 0 && nvlist_lookup_string(f2, FM_FMRI_FACILITY_NAME, &f2str) == 0 && strcmp(f1str, f2str) == 0 && nvlist_lookup_string(f1, FM_FMRI_FACILITY_TYPE, &f1str) == 0 && nvlist_lookup_string(f2, FM_FMRI_FACILITY_TYPE, &f2str) == 0 && strcmp(f1str, f2str) == 0) { return (1); } return (0); } /*ARGSUSED*/ static int hc_compare(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int ret; uint32_t compare; nvlist_t *nv1, *nv2; if (version > TOPO_METH_COMPARE_VERSION) return (topo_mod_seterrno(mod, EMOD_VER_NEW)); if (nvlist_lookup_nvlist(in, TOPO_METH_FMRI_ARG_NV1, &nv1) != 0 || nvlist_lookup_nvlist(in, TOPO_METH_FMRI_ARG_NV2, &nv2) != 0) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); ret = fmri_compare(mod, nv1, nv2); if (ret < 0) return (-1); compare = ret; if (topo_mod_nvalloc(mod, out, NV_UNIQUE_NAME) == 0) { if (nvlist_add_uint32(*out, TOPO_METH_COMPARE_RET, compare) == 0) return (0); else nvlist_free(*out); } return (-1); } static ssize_t fmri_nvl2str(nvlist_t *nvl, char *buf, size_t buflen) { nvlist_t **hcprs = NULL; nvlist_t *hcsp = NULL; nvlist_t *anvl = NULL; nvpair_t *apair; nvlist_t *fnvl; uint8_t version; ssize_t size = 0; uint_t hcnprs; char *serial = NULL; char *part = NULL; char *root = NULL; char *rev = NULL; char *aname, *aval; char *fname = NULL, *ftype = NULL; int err, i; if (nvlist_lookup_uint8(nvl, FM_VERSION, &version) != 0 || version > FM_HC_SCHEME_VERSION) return (0); /* Get authority, if present */ err = nvlist_lookup_nvlist(nvl, FM_FMRI_AUTHORITY, &anvl); if (err != 0 && err != ENOENT) return (0); (void) nvlist_lookup_string(nvl, FM_FMRI_HC_ROOT, &root); err = nvlist_lookup_nvlist_array(nvl, FM_FMRI_HC_LIST, &hcprs, &hcnprs); if (err != 0 || hcprs == NULL) return (0); (void) nvlist_lookup_string(nvl, FM_FMRI_HC_SERIAL_ID, &serial); (void) nvlist_lookup_string(nvl, FM_FMRI_HC_PART, &part); (void) nvlist_lookup_string(nvl, FM_FMRI_HC_REVISION, &rev); /* hc:// */ topo_fmristr_build(&size, buf, buflen, FM_FMRI_SCHEME_HC, NULL, "://"); /* authority, if any */ if (anvl != NULL) { for (apair = nvlist_next_nvpair(anvl, NULL); apair != NULL; apair = nvlist_next_nvpair(anvl, apair)) { if (nvpair_type(apair) != DATA_TYPE_STRING || nvpair_value_string(apair, &aval) != 0) continue; aname = nvpair_name(apair); topo_fmristr_build(&size, buf, buflen, ":", NULL, NULL); topo_fmristr_build(&size, buf, buflen, "=", aname, aval); } } /* hardware-id part */ topo_fmristr_build(&size, buf, buflen, serial, ":" FM_FMRI_HC_SERIAL_ID "=", NULL); topo_fmristr_build(&size, buf, buflen, part, ":" FM_FMRI_HC_PART "=", NULL); topo_fmristr_build(&size, buf, buflen, rev, ":" FM_FMRI_HC_REVISION "=", NULL); /* separating slash */ topo_fmristr_build(&size, buf, buflen, "/", NULL, NULL); /* hc-root */ if (root) topo_fmristr_build(&size, buf, buflen, root, NULL, NULL); /* all the pairs */ for (i = 0; i < hcnprs; i++) { char *nm = NULL; char *id = NULL; if (i > 0) topo_fmristr_build(&size, buf, buflen, "/", NULL, NULL); (void) nvlist_lookup_string(hcprs[i], FM_FMRI_HC_NAME, &nm); (void) nvlist_lookup_string(hcprs[i], FM_FMRI_HC_ID, &id); if (nm == NULL || id == NULL) return (0); topo_fmristr_build(&size, buf, buflen, nm, NULL, "="); topo_fmristr_build(&size, buf, buflen, id, NULL, NULL); } /* append offset/physaddr if it exists in hc-specific */ if (nvlist_lookup_nvlist(nvl, FM_FMRI_HC_SPECIFIC, &hcsp) == 0) { char *hcsn = NULL; char hexstr[17]; uint64_t val; if (nvlist_lookup_uint64(hcsp, FM_FMRI_HC_SPECIFIC_OFFSET, &val) == 0 || nvlist_lookup_uint64(hcsp, "asru-" FM_FMRI_HC_SPECIFIC_OFFSET, &val) == 0) hcsn = FM_FMRI_HC_SPECIFIC_OFFSET; else if (nvlist_lookup_uint64(hcsp, FM_FMRI_HC_SPECIFIC_PHYSADDR, &val) == 0 || nvlist_lookup_uint64(hcsp, "asru-" FM_FMRI_HC_SPECIFIC_PHYSADDR, &val) == 0) hcsn = FM_FMRI_HC_SPECIFIC_PHYSADDR; if (hcsn != NULL) { (void) snprintf(hexstr, sizeof (hexstr), "%llx", val); topo_fmristr_build(&size, buf, buflen, "/", NULL, NULL); topo_fmristr_build(&size, buf, buflen, "=", hcsn, hexstr); } } /* * If the nvlist represents a facility node, then we append the * facility type and name to the end of the string representation using * the format below: * * ?= */ if (nvlist_lookup_nvlist(nvl, FM_FMRI_FACILITY, &fnvl) == 0) { if (nvlist_lookup_string(fnvl, FM_FMRI_FACILITY_NAME, &fname) != 0 || nvlist_lookup_string(fnvl, FM_FMRI_FACILITY_TYPE, &ftype) != 0) return (0); topo_fmristr_build(&size, buf, buflen, "?", NULL, NULL); topo_fmristr_build(&size, buf, buflen, "=", ftype, fname); } return (size); } /*ARGSUSED*/ static int hc_fmri_nvl2str(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *nvl, nvlist_t **out) { ssize_t len; char *name = NULL; nvlist_t *fmristr; if (version > TOPO_METH_NVL2STR_VERSION) return (topo_mod_seterrno(mod, EMOD_VER_NEW)); if ((len = fmri_nvl2str(nvl, NULL, 0)) == 0 || (name = topo_mod_alloc(mod, len + 1)) == NULL || fmri_nvl2str(nvl, name, len + 1) == 0) { if (name != NULL) topo_mod_free(mod, name, len + 1); return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); } if (topo_mod_nvalloc(mod, &fmristr, NV_UNIQUE_NAME) != 0) { topo_mod_free(mod, name, len + 1); return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); } if (nvlist_add_string(fmristr, "fmri-string", name) != 0) { topo_mod_free(mod, name, len + 1); nvlist_free(fmristr); return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); } topo_mod_free(mod, name, len + 1); *out = fmristr; return (0); } static nvlist_t * hc_base_fmri_create(topo_mod_t *mod, const nvlist_t *auth, const char *part, const char *rev, const char *serial) { nvlist_t *fmri; int err = 0; /* * Create base HC nvlist */ if (topo_mod_nvalloc(mod, &fmri, NV_UNIQUE_NAME) != 0) return (NULL); err = nvlist_add_uint8(fmri, FM_VERSION, FM_HC_SCHEME_VERSION); err |= nvlist_add_string(fmri, FM_FMRI_SCHEME, FM_FMRI_SCHEME_HC); err |= nvlist_add_string(fmri, FM_FMRI_HC_ROOT, ""); if (err != 0) { nvlist_free(fmri); return (NULL); } /* * Add optional payload members */ if (serial != NULL) (void) nvlist_add_string(fmri, FM_FMRI_HC_SERIAL_ID, serial); if (part != NULL) (void) nvlist_add_string(fmri, FM_FMRI_HC_PART, part); if (rev != NULL) (void) nvlist_add_string(fmri, FM_FMRI_HC_REVISION, rev); if (auth != NULL) (void) nvlist_add_nvlist(fmri, FM_FMRI_AUTHORITY, (nvlist_t *)auth); return (fmri); } static nvlist_t ** make_hc_pairs(topo_mod_t *mod, char *fmri, int *num) { nvlist_t **pa; char *hc, *fromstr; char *starti, *startn, *endi, *endi2; char *ne, *ns; char *cname = NULL; char *find; char *cid = NULL; int nslashes = 0; int npairs = 0; int i, hclen; if ((hc = topo_mod_strdup(mod, fmri + 5)) == NULL) return (NULL); hclen = strlen(hc) + 1; /* * Count equal signs and slashes to determine how many * hc-pairs will be present in the final FMRI. There should * be at least as many slashes as equal signs. There can be * more, though if the string after an = includes them. */ if ((fromstr = strchr(hc, '/')) == NULL) return (NULL); find = fromstr; while ((ne = strchr(find, '=')) != NULL) { find = ne + 1; npairs++; } find = fromstr; while ((ns = strchr(find, '/')) != NULL) { find = ns + 1; nslashes++; } /* * Do we appear to have a well-formed string version of the FMRI? */ if (nslashes < npairs || npairs == 0) { topo_mod_free(mod, hc, hclen); return (NULL); } *num = npairs; find = fromstr; if ((pa = topo_mod_zalloc(mod, npairs * sizeof (nvlist_t *))) == NULL) { topo_mod_free(mod, hc, hclen); return (NULL); } /* * We go through a pretty complicated procedure to find the * name and id for each pair. That's because, unfortunately, * we have some ids that can have slashes within them. So * we can't just search for the next slash after the equal sign * and decide that starts a new pair. Instead we have to find * an equal sign for the next pair and work our way back to the * slash from there. */ for (i = 0; i < npairs; i++) { startn = strchr(find, '/'); if (startn == NULL) break; startn++; starti = strchr(find, '='); if (starti == NULL) break; *starti = '\0'; if ((cname = topo_mod_strdup(mod, startn)) == NULL) break; *starti++ = '='; endi = strchr(starti, '='); if (endi != NULL) { *endi = '\0'; endi2 = strrchr(starti, '/'); if (endi2 == NULL) break; *endi = '='; *endi2 = '\0'; if ((cid = topo_mod_strdup(mod, starti)) == NULL) break; *endi2 = '/'; find = endi2; } else { if ((cid = topo_mod_strdup(mod, starti)) == NULL) break; find = starti + strlen(starti); } if (topo_mod_nvalloc(mod, &pa[i], NV_UNIQUE_NAME) < 0) break; if (nvlist_add_string(pa[i], FM_FMRI_HC_NAME, cname) || nvlist_add_string(pa[i], FM_FMRI_HC_ID, cid)) break; topo_mod_strfree(mod, cname); topo_mod_strfree(mod, cid); cname = NULL; cid = NULL; } topo_mod_strfree(mod, cname); topo_mod_strfree(mod, cid); if (i < npairs) { for (i = 0; i < npairs; i++) nvlist_free(pa[i]); topo_mod_free(mod, pa, npairs * sizeof (nvlist_t *)); topo_mod_free(mod, hc, hclen); return (NULL); } topo_mod_free(mod, hc, hclen); return (pa); } int make_hc_auth(topo_mod_t *mod, char *fmri, char **serial, char **part, char **rev, nvlist_t **auth) { char *starti, *startn, *endi, *copy; char *aname = NULL, *aid = NULL, *fs; nvlist_t *na = NULL; size_t len; if ((copy = topo_mod_strdup(mod, fmri + 5)) == NULL) return (-1); len = strlen(copy); /* * Make sure there are a valid authority members */ startn = strchr(copy, ':'); fs = strchr(copy, '/'); if (startn == NULL || fs == NULL) { topo_mod_strfree(mod, copy); return (0); } /* * The first colon we encounter must occur before the * first slash */ if (startn > fs) goto hcabail; do { if (++startn >= copy + len) break; if ((starti = strchr(startn, '=')) == NULL) goto hcabail; *starti = '\0'; if (++starti > copy + len) goto hcabail; if ((aname = topo_mod_strdup(mod, startn)) == NULL) goto hcabail; startn = endi = strchr(starti, ':'); if (endi == NULL) if ((endi = strchr(starti, '/')) == NULL) break; *endi = '\0'; if ((aid = topo_mod_strdup(mod, starti)) == NULL) goto hcabail; /* * Return possible serial, part and revision */ if (strcmp(aname, FM_FMRI_HC_SERIAL_ID) == 0) { *serial = topo_mod_strdup(mod, aid); } else if (strcmp(aname, FM_FMRI_HC_PART) == 0) { *part = topo_mod_strdup(mod, aid); } else if (strcmp(aname, FM_FMRI_HC_REVISION) == 0) { *rev = topo_mod_strdup(mod, aid); } else { if (na == NULL) { if (topo_mod_nvalloc(mod, &na, NV_UNIQUE_NAME) == 0) { (void) nvlist_add_string(na, aname, aid); } } else { (void) nvlist_add_string(na, aname, aid); } } topo_mod_strfree(mod, aname); topo_mod_strfree(mod, aid); aname = aid = NULL; } while (startn != NULL); *auth = na; topo_mod_free(mod, copy, len + 1); return (0); hcabail: topo_mod_free(mod, copy, len + 1); topo_mod_strfree(mod, aname); topo_mod_strfree(mod, aid); nvlist_free(na); return (-1); } /* * This function creates an nvlist to represent the facility portion of an * hc-scheme node, given a string representation of the fmri. This is called by * hc_fmri_str2nvl. If the string does not contain a facility component * (e.g. ?=) then it bails early and returns 0. * * On failure it returns -1 and sets the topo mod errno */ int make_facility(topo_mod_t *mod, char *str, nvlist_t **nvl) { char *fac, *copy, *fname, *ftype; nvlist_t *nf = NULL; size_t len; if ((fac = strchr(str, '?')) == NULL) return (0); ++fac; if ((copy = topo_mod_strdup(mod, fac)) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); fac = copy; len = strlen(fac); if ((fname = strchr(fac, '=')) == NULL) { topo_mod_free(mod, copy, len + 1); return (topo_mod_seterrno(mod, EMOD_FMRI_MALFORM)); } fname[0] = '\0'; ++fname; ftype = fac; if (topo_mod_nvalloc(mod, &nf, NV_UNIQUE_NAME) != 0) { topo_mod_free(mod, copy, len + 1); return (topo_mod_seterrno(mod, EMOD_NOMEM)); } if (nvlist_add_string(nf, FM_FMRI_FACILITY_NAME, fname) != 0 || nvlist_add_string(nf, FM_FMRI_FACILITY_TYPE, ftype) != 0) { topo_mod_free(mod, copy, len + 1); return (topo_mod_seterrno(mod, EMOD_FMRI_NVL)); } topo_mod_free(mod, copy, len + 1); *nvl = nf; return (0); } /*ARGSUSED*/ static int hc_fmri_str2nvl(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { nvlist_t **pa = NULL; nvlist_t *nf = NULL; nvlist_t *auth = NULL; nvlist_t *fac = NULL; char *str; char *serial = NULL, *part = NULL, *rev = NULL, *hcsn = NULL; int npairs, n; int i, e; if (version > TOPO_METH_STR2NVL_VERSION) return (topo_mod_seterrno(mod, EMOD_VER_NEW)); if (nvlist_lookup_string(in, "fmri-string", &str) != 0) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); /* We're expecting a string version of an hc scheme FMRI */ if (strncmp(str, "hc://", 5) != 0) return (topo_mod_seterrno(mod, EMOD_FMRI_MALFORM)); if ((pa = make_hc_pairs(mod, str, &npairs)) == NULL) return (topo_mod_seterrno(mod, EMOD_FMRI_MALFORM)); if (make_hc_auth(mod, str, &serial, &part, &rev, &auth) < 0) goto hcfmbail; if ((nf = hc_base_fmri_create(mod, auth, part, rev, serial)) == NULL) goto hcfmbail; n = npairs; /* * If the last pair in hc-list is offset or physaddr, we move * it to hc-specific. */ (void) nvlist_lookup_string(pa[npairs - 1], FM_FMRI_HC_NAME, &hcsn); if (strcmp(hcsn, FM_FMRI_HC_SPECIFIC_OFFSET) == 0 || strcmp(hcsn, FM_FMRI_HC_SPECIFIC_PHYSADDR) == 0) { char *hcid; nvlist_t *hcsp; uint64_t val; (void) nvlist_lookup_string(pa[npairs - 1], FM_FMRI_HC_ID, &hcid); val = strtoull(hcid, NULL, 16); if (topo_mod_nvalloc(mod, &hcsp, NV_UNIQUE_NAME) != 0) goto hcfmbail; if (nvlist_add_uint64(hcsp, hcsn, val) != 0 || nvlist_add_nvlist(nf, FM_FMRI_HC_SPECIFIC, hcsp) != 0) { nvlist_free(hcsp); goto hcfmbail; } nvlist_free(hcsp); n--; } if ((e = nvlist_add_uint32(nf, FM_FMRI_HC_LIST_SZ, n)) == 0) e = nvlist_add_nvlist_array(nf, FM_FMRI_HC_LIST, pa, n); if (e != 0) { topo_mod_dprintf(mod, "construction of new hc nvl failed"); goto hcfmbail; } /* * Clean-up */ for (i = 0; i < npairs; i++) nvlist_free(pa[i]); topo_mod_free(mod, pa, npairs * sizeof (nvlist_t *)); topo_mod_strfree(mod, serial); topo_mod_strfree(mod, part); topo_mod_strfree(mod, rev); nvlist_free(auth); if (make_facility(mod, str, &fac) == -1) goto hcfmbail; if (fac != NULL) { if (nvlist_add_nvlist(nf, FM_FMRI_FACILITY, fac) != 0) goto hcfmbail; } *out = nf; return (0); hcfmbail: if (nf != NULL) nvlist_free(nf); for (i = 0; i < npairs; i++) nvlist_free(pa[i]); topo_mod_free(mod, pa, npairs * sizeof (nvlist_t *)); topo_mod_strfree(mod, serial); topo_mod_strfree(mod, part); topo_mod_strfree(mod, rev); nvlist_free(auth); nvlist_free(nf); return (topo_mod_seterrno(mod, EMOD_FMRI_MALFORM)); } static nvlist_t * hc_list_create(topo_mod_t *mod, const char *name, char *inst) { int err; nvlist_t *hc; if (topo_mod_nvalloc(mod, &hc, NV_UNIQUE_NAME) != 0) return (NULL); err = nvlist_add_string(hc, FM_FMRI_HC_NAME, name); err |= nvlist_add_string(hc, FM_FMRI_HC_ID, inst); if (err != 0) { nvlist_free(hc); return (NULL); } return (hc); } static nvlist_t * hc_create_seterror(topo_mod_t *mod, nvlist_t **hcl, int n, nvlist_t *fmri, int err) { int i; if (hcl != NULL) { for (i = 0; i < n + 1; ++i) nvlist_free(hcl[i]); topo_mod_free(mod, hcl, sizeof (nvlist_t *) * (n + 1)); } nvlist_free(fmri); (void) topo_mod_seterrno(mod, err); topo_mod_dprintf(mod, "unable to create hc FMRI: %s\n", topo_mod_errmsg(mod)); return (NULL); } static int hc_name_canonical(topo_mod_t *mod, const char *name) { int i; if (getenv("NOHCCHECK") != NULL) return (1); /* * Only enumerate elements with correct canonical names */ for (i = 0; i < hc_ncanon; i++) { if (strcmp(name, hc_canon[i].hcc_name) == 0) break; } if (i >= hc_ncanon) { topo_mod_dprintf(mod, "non-canonical name %s\n", name); return (0); } else { return (1); } } static nvlist_t * hc_fmri_create(topo_mod_t *mod, nvlist_t *pfmri, int version, const char *name, topo_instance_t inst, const nvlist_t *auth, const char *part, const char *rev, const char *serial) { int i; char str[21]; /* sizeof (UINT64_MAX) + '\0' */ uint_t pelems = 0; nvlist_t **phcl = NULL; nvlist_t **hcl = NULL; nvlist_t *fmri = NULL; if (version > FM_HC_SCHEME_VERSION) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_VER_OLD)); else if (version < FM_HC_SCHEME_VERSION) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_VER_NEW)); /* * Check that the requested name is in our canonical list */ if (hc_name_canonical(mod, name) == 0) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_NONCANON)); /* * Copy the parent's HC_LIST */ if (pfmri != NULL) { if (nvlist_lookup_nvlist_array(pfmri, FM_FMRI_HC_LIST, &phcl, &pelems) != 0) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_FMRI_MALFORM)); } hcl = topo_mod_zalloc(mod, sizeof (nvlist_t *) * (pelems + 1)); if (hcl == NULL) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_NOMEM)); for (i = 0; i < pelems; ++i) if (topo_mod_nvdup(mod, phcl[i], &hcl[i]) != 0) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_FMRI_NVL)); (void) snprintf(str, sizeof (str), "%d", inst); if ((hcl[i] = hc_list_create(mod, name, str)) == NULL) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_FMRI_NVL)); if ((fmri = hc_base_fmri_create(mod, auth, part, rev, serial)) == NULL) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_FMRI_NVL)); if (nvlist_add_nvlist_array(fmri, FM_FMRI_HC_LIST, hcl, pelems + 1) != 0) return (hc_create_seterror(mod, hcl, pelems, fmri, EMOD_FMRI_NVL)); if (hcl != NULL) { for (i = 0; i < pelems + 1; ++i) { if (hcl[i] != NULL) nvlist_free(hcl[i]); } topo_mod_free(mod, hcl, sizeof (nvlist_t *) * (pelems + 1)); } return (fmri); } /*ARGSUSED*/ static int hc_fmri_create_meth(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int ret; nvlist_t *args, *pfmri = NULL; nvlist_t *auth; uint32_t inst; char *name, *serial, *rev, *part; if (version > TOPO_METH_FMRI_VERSION) return (topo_mod_seterrno(mod, EMOD_VER_NEW)); /* First the must-have fields */ if (nvlist_lookup_string(in, TOPO_METH_FMRI_ARG_NAME, &name) != 0) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); if (nvlist_lookup_uint32(in, TOPO_METH_FMRI_ARG_INST, &inst) != 0) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); /* * args is optional */ pfmri = NULL; auth = NULL; serial = rev = part = NULL; if ((ret = nvlist_lookup_nvlist(in, TOPO_METH_FMRI_ARG_NVL, &args)) != 0) { if (ret != ENOENT) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } else { /* And then optional arguments */ (void) nvlist_lookup_nvlist(args, TOPO_METH_FMRI_ARG_PARENT, &pfmri); (void) nvlist_lookup_nvlist(args, TOPO_METH_FMRI_ARG_AUTH, &auth); (void) nvlist_lookup_string(args, TOPO_METH_FMRI_ARG_PART, &part); (void) nvlist_lookup_string(args, TOPO_METH_FMRI_ARG_REV, &rev); (void) nvlist_lookup_string(args, TOPO_METH_FMRI_ARG_SER, &serial); } *out = hc_fmri_create(mod, pfmri, version, name, inst, auth, part, rev, serial); if (*out == NULL) return (-1); return (0); } struct hc_walk { topo_mod_walk_cb_t hcw_cb; void *hcw_priv; topo_walk_t *hcw_wp; nvlist_t **hcw_list; nvlist_t *hcw_fmri; nvlist_t *hcw_fac; uint_t hcw_index; uint_t hcw_end; }; /* * Returns true if the given node is beneath the specified FMRI. This uses * the TOPO_METH_CONTAINS method, because some enumerators (such as external * enclosures) may want to do a comparison based on chassis WWN instead of the * instance ID. If this comparison function fails or is not supported, then we * fall back to a direct name/instance comparison. */ static int hc_match(topo_mod_t *mod, tnode_t *node, nvlist_t *fmri, const char *name, topo_instance_t inst, boolean_t *result) { nvlist_t *rsrc; nvlist_t *arg, *nvl; uint32_t match = 0; int err; if (topo_node_resource(node, &rsrc, &err) != 0) return (-1); if (topo_mod_nvalloc(mod, &arg, NV_UNIQUE_NAME) != 0 || nvlist_add_nvlist(arg, TOPO_METH_FMRI_ARG_FMRI, rsrc) != 0 || nvlist_add_nvlist(arg, TOPO_METH_FMRI_ARG_SUBFMRI, fmri) != 0) { nvlist_free(rsrc); (void) topo_mod_seterrno(mod, EMOD_NOMEM); return (-1); } nvlist_free(rsrc); if (topo_method_invoke(node, TOPO_METH_CONTAINS, TOPO_METH_CONTAINS_VERSION, arg, &nvl, &err) != 0) { nvlist_free(arg); if (err == ETOPO_METHOD_NOTSUP) { match = (strcmp(name, topo_node_name(node)) == 0 && inst == topo_node_instance(node)); } else { return (-1); } } else { nvlist_free(arg); if (nvlist_lookup_uint32(nvl, TOPO_METH_CONTAINS_RET, &match) != 0) { nvlist_free(nvl); (void) topo_mod_seterrno(mod, EMOD_NVL_INVAL); return (-1); } nvlist_free(nvl); } *result = (match != 0); return (0); } /* * Ideally, we should just be able to call topo_walk_bysibling(). But that * code assumes that the name/instance pair will match, so we need to * explicitly iterate over children of the parent looking for a matching value. */ static int hc_walk_sibling(topo_mod_t *mod, tnode_t *node, struct hc_walk *hwp, const char *name, topo_instance_t inst) { tnode_t *pnp = topo_node_parent(node); topo_walk_t *wp = hwp->hcw_wp; tnode_t *np; boolean_t matched; int status; for (np = topo_child_first(pnp); np != NULL; np = topo_child_next(pnp, np)) { topo_node_hold(np); if (hc_match(mod, np, hwp->hcw_fmri, name, inst, &matched) == 0 && matched) { wp->tw_node = np; if (wp->tw_mod != NULL) status = wp->tw_cb(mod, np, hwp); else status = wp->tw_cb(wp->tw_thp, np, hwp); topo_node_rele(np); wp->tw_node = node; return (status); } topo_node_rele(np); } return (TOPO_WALK_TERMINATE); } /* * Generic walker for the hc-scheme topo tree. This function uses the * hierachical nature of the hc-scheme to efficiently step through * the topo hc tree. Node lookups are done by topo_walk_byid() and * topo_walk_bysibling() at each component level to avoid unnecessary * traversal of the tree. hc_walker() never returns TOPO_WALK_NEXT, so * whether TOPO_WALK_CHILD or TOPO_WALK_SIBLING is specified by * topo_walk_step() doesn't affect the traversal. */ static int hc_walker(topo_mod_t *mod, tnode_t *node, void *pdata) { int i, err; struct hc_walk *hwp = (struct hc_walk *)pdata; char *name, *id; char *fname, *ftype; topo_instance_t inst; boolean_t match; i = hwp->hcw_index; if (i > hwp->hcw_end) { if (hwp->hcw_fac != NULL) { if ((err = hwp->hcw_cb(mod, node, hwp->hcw_priv)) != 0) { (void) topo_mod_seterrno(mod, err); topo_mod_dprintf(mod, "hc_walker: callback " "failed: %s\n ", topo_mod_errmsg(mod)); return (TOPO_WALK_ERR); } topo_mod_dprintf(mod, "hc_walker: callback " "complete: terminate walk\n"); return (TOPO_WALK_TERMINATE); } else { topo_mod_dprintf(mod, "hc_walker: node not found\n"); return (TOPO_WALK_TERMINATE); } } err = nvlist_lookup_string(hwp->hcw_list[i], FM_FMRI_HC_NAME, &name); err |= nvlist_lookup_string(hwp->hcw_list[i], FM_FMRI_HC_ID, &id); if (err != 0) { (void) topo_mod_seterrno(mod, EMOD_NVL_INVAL); return (TOPO_WALK_ERR); } inst = atoi(id); /* * Check to see if our node matches the requested FMRI. If it doesn't * (because the enumerator determines matching based on something other * than name/instance, or because we're at the first level below the * root), then iterate over siblings to find the matching node. */ if (hc_match(mod, node, hwp->hcw_fmri, name, inst, &match) != 0) return (TOPO_WALK_ERR); if (!match) return (hc_walk_sibling(mod, node, hwp, name, inst)); topo_mod_dprintf(mod, "hc_walker: walking node:%s=%d for hc:" "%s=%d at %d, end at %d \n", topo_node_name(node), topo_node_instance(node), name, inst, i, hwp->hcw_end); if (i == hwp->hcw_end) { /* * We are at the end of the hc-list. Now, check for * a facility leaf and walk one more time. */ if (hwp->hcw_fac != NULL) { err = nvlist_lookup_string(hwp->hcw_fac, FM_FMRI_FACILITY_NAME, &fname); err |= nvlist_lookup_string(hwp->hcw_fac, FM_FMRI_FACILITY_TYPE, &ftype); if (err != 0) { (void) topo_mod_seterrno(mod, EMOD_NVL_INVAL); return (TOPO_WALK_ERR); } hwp->hcw_index++; topo_mod_dprintf(mod, "hc_walker: walk to facility " "node:%s=%s\n", fname, ftype); return (topo_walk_byid(hwp->hcw_wp, fname, 0)); } /* * Otherwise, this is the node we're looking for. */ if ((err = hwp->hcw_cb(mod, node, hwp->hcw_priv)) != 0) { (void) topo_mod_seterrno(mod, err); topo_mod_dprintf(mod, "hc_walker: callback " "failed: %s\n ", topo_mod_errmsg(mod)); return (TOPO_WALK_ERR); } else { topo_mod_dprintf(mod, "hc_walker: callback " "complete: terminate walk\n"); return (TOPO_WALK_TERMINATE); } } /* * Move on to the next component in the hc-list */ hwp->hcw_index = ++i; err = nvlist_lookup_string(hwp->hcw_list[i], FM_FMRI_HC_NAME, &name); err |= nvlist_lookup_string(hwp->hcw_list[i], FM_FMRI_HC_ID, &id); if (err != 0) { (void) topo_mod_seterrno(mod, err); return (TOPO_WALK_ERR); } inst = atoi(id); return (topo_walk_byid(hwp->hcw_wp, name, inst)); } static struct hc_walk * hc_walk_init(topo_mod_t *mod, tnode_t *node, nvlist_t *rsrc, topo_mod_walk_cb_t cb, void *pdata) { int err, ret; uint_t sz; struct hc_walk *hwp; topo_walk_t *wp; if ((hwp = topo_mod_alloc(mod, sizeof (struct hc_walk))) == NULL) { (void) topo_mod_seterrno(mod, EMOD_NOMEM); return (NULL); } if (nvlist_lookup_nvlist_array(rsrc, FM_FMRI_HC_LIST, &hwp->hcw_list, &sz) != 0) { topo_mod_dprintf(mod, "hc_walk_init: failed to lookup %s " "nvlist\n", FM_FMRI_HC_LIST); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); (void) topo_mod_seterrno(mod, EMOD_METHOD_INVAL); return (NULL); } if ((ret = nvlist_lookup_nvlist(rsrc, FM_FMRI_FACILITY, &hwp->hcw_fac)) != 0) { if (ret != ENOENT) { topo_mod_dprintf(mod, "hc_walk_init: unexpected error " "looking up %s nvlist", FM_FMRI_FACILITY); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); (void) topo_mod_seterrno(mod, EMOD_METHOD_INVAL); return (NULL); } else { hwp->hcw_fac = NULL; } } hwp->hcw_fmri = rsrc; hwp->hcw_end = sz - 1; hwp->hcw_index = 0; hwp->hcw_priv = pdata; hwp->hcw_cb = cb; if ((wp = topo_mod_walk_init(mod, node, hc_walker, (void *)hwp, &err)) == NULL) { topo_mod_dprintf(mod, "hc_walk_init: topo_mod_walk_init failed " "(%s)\n", topo_strerror(err)); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); (void) topo_mod_seterrno(mod, err); return (NULL); } hwp->hcw_wp = wp; return (hwp); } struct prop_lookup { const char *pl_pgroup; const char *pl_pname; int pl_flag; nvlist_t *pl_args; nvlist_t *pl_rsrc; nvlist_t *pl_prop; }; /*ARGSUSED*/ static int hc_prop_get(topo_mod_t *mod, tnode_t *node, void *pdata) { int err = 0; struct prop_lookup *plp = (struct prop_lookup *)pdata; (void) topo_prop_getprop(node, plp->pl_pgroup, plp->pl_pname, plp->pl_args, &plp->pl_prop, &err); return (err); } static int hc_fmri_prop_get(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct prop_lookup *plp; if (version > TOPO_METH_PROP_GET_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((plp = topo_mod_alloc(mod, sizeof (struct prop_lookup))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); err = nvlist_lookup_string(in, TOPO_PROP_GROUP, (char **)&plp->pl_pgroup); err |= nvlist_lookup_string(in, TOPO_PROP_VAL_NAME, (char **)&plp->pl_pname); err |= nvlist_lookup_nvlist(in, TOPO_PROP_RESOURCE, &plp->pl_rsrc); if (err != 0) { topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } /* * Private args to prop method are optional */ if ((err = nvlist_lookup_nvlist(in, TOPO_PROP_PARGS, &plp->pl_args)) != 0) { if (err != ENOENT) { topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } else { plp->pl_args = NULL; } } plp->pl_prop = NULL; if ((hwp = hc_walk_init(mod, node, plp->pl_rsrc, hc_prop_get, (void *)plp)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } if (plp->pl_prop != NULL) *out = plp->pl_prop; topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (err); } /*ARGSUSED*/ static int hc_pgrp_get(topo_mod_t *mod, tnode_t *node, void *pdata) { int err = 0; struct prop_lookup *plp = (struct prop_lookup *)pdata; (void) topo_prop_getpgrp(node, plp->pl_pgroup, &plp->pl_prop, &err); return (err); } static int hc_fmri_pgrp_get(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct prop_lookup *plp; if (version > TOPO_METH_PGRP_GET_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((plp = topo_mod_alloc(mod, sizeof (struct prop_lookup))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); err = nvlist_lookup_string(in, TOPO_PROP_GROUP, (char **)&plp->pl_pgroup); err |= nvlist_lookup_nvlist(in, TOPO_PROP_RESOURCE, &plp->pl_rsrc); if (err != 0) { topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } plp->pl_prop = NULL; if ((hwp = hc_walk_init(mod, node, plp->pl_rsrc, hc_pgrp_get, (void *)plp)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } if (plp->pl_prop != NULL) *out = plp->pl_prop; topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (err); } /*ARGSUSED*/ static int hc_prop_setprop(topo_mod_t *mod, tnode_t *node, void *pdata) { int err = 0; struct prop_lookup *plp = (struct prop_lookup *)pdata; (void) topo_prop_setprop(node, plp->pl_pgroup, plp->pl_prop, plp->pl_flag, plp->pl_args, &err); return (err); } /*ARGSUSED*/ static int hc_fmri_prop_set(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct prop_lookup *plp; if (version > TOPO_METH_PROP_SET_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((plp = topo_mod_alloc(mod, sizeof (struct prop_lookup))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); err = nvlist_lookup_string(in, TOPO_PROP_GROUP, (char **)&plp->pl_pgroup); err |= nvlist_lookup_nvlist(in, TOPO_PROP_RESOURCE, &plp->pl_rsrc); err |= nvlist_lookup_nvlist(in, TOPO_PROP_VAL, &plp->pl_prop); err |= nvlist_lookup_int32(in, TOPO_PROP_FLAG, &plp->pl_flag); if (err != 0) { topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } /* * Private args to prop method are optional */ if ((err = nvlist_lookup_nvlist(in, TOPO_PROP_PARGS, &plp->pl_args)) != 0) { if (err != ENOENT) return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); else plp->pl_args = NULL; } if ((hwp = hc_walk_init(mod, node, plp->pl_rsrc, hc_prop_setprop, (void *)plp)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } topo_mod_free(mod, plp, sizeof (struct prop_lookup)); return (err); } struct hc_args { nvlist_t *ha_fmri; nvlist_t *ha_nvl; char *ha_method_name; topo_version_t ha_method_ver; }; static int hc_auth_changed(nvlist_t *nva, nvlist_t *nvb, const char *propname) { char *stra, *strb; if (nvlist_lookup_string(nva, propname, &stra) != 0 || nvlist_lookup_string(nvb, propname, &strb) != 0) return (FMD_OBJ_STATE_UNKNOWN); if (strcmp(stra, strb) != 0) return (FMD_OBJ_STATE_REPLACED); else return (FMD_OBJ_STATE_STILL_PRESENT); } static int hc_is_present(topo_mod_t *mod, tnode_t *node, void *pdata) { int err; struct hc_args *hap = (struct hc_args *)pdata; nvlist_t *rsrc; boolean_t present; /* * check with the enumerator that created this FMRI * (topo node) */ if (topo_method_invoke(node, TOPO_METH_PRESENT, TOPO_METH_PRESENT_VERSION, hap->ha_fmri, &hap->ha_nvl, &err) < 0) { /* * If the method exists but failed for some other reason, * propagate the error as making any decision over presence is * impossible. */ if (err != ETOPO_METHOD_NOTSUP) return (err); /* * Check the authority information. If the part id or serial * number doesn't match, then it isn't the same FMRI. * Otherwise, assume presence. */ if (topo_node_resource(node, &rsrc, &err) != 0) return (err); present = B_TRUE; if (hc_auth_changed(hap->ha_fmri, rsrc, FM_FMRI_HC_SERIAL_ID) == FMD_OBJ_STATE_REPLACED || hc_auth_changed(hap->ha_fmri, rsrc, FM_FMRI_HC_PART) == FMD_OBJ_STATE_REPLACED) { present = B_FALSE; } nvlist_free(rsrc); if (topo_mod_nvalloc(mod, &hap->ha_nvl, NV_UNIQUE_NAME) != 0) return (EMOD_NOMEM); if (nvlist_add_uint32(hap->ha_nvl, TOPO_METH_PRESENT_RET, present) != 0) { nvlist_free(hap->ha_nvl); hap->ha_nvl = NULL; return (EMOD_NOMEM); } } return (0); } static int hc_fmri_present(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct hc_args *hap; if (version > TOPO_METH_PRESENT_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((hap = topo_mod_alloc(mod, sizeof (struct hc_args))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); hap->ha_fmri = in; hap->ha_nvl = NULL; if ((hwp = hc_walk_init(mod, node, hap->ha_fmri, hc_is_present, (void *)hap)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } if (hap->ha_nvl != NULL) *out = hap->ha_nvl; topo_mod_free(mod, hap, sizeof (struct hc_args)); return (err); } static int hc_is_replaced(topo_mod_t *mod, tnode_t *node, void *pdata) { int err; struct hc_args *hap = (struct hc_args *)pdata; uint32_t present = 0; nvlist_t *rsrc; uint32_t rval = FMD_OBJ_STATE_UNKNOWN; /* * check with the enumerator that created this FMRI * (topo node) */ if (topo_method_invoke(node, TOPO_METH_REPLACED, TOPO_METH_REPLACED_VERSION, hap->ha_fmri, &hap->ha_nvl, &err) < 0) { /* * If the method exists but failed for some other * reason, propagate the error as making any decision * over presence is impossible. */ if (err != ETOPO_METHOD_NOTSUP) return (err); /* * Enumerator didn't provide "replaced" method - * try "present" method */ if (topo_method_invoke(node, TOPO_METH_PRESENT, TOPO_METH_PRESENT_VERSION, hap->ha_fmri, &hap->ha_nvl, &err) < 0) { /* * If the method exists but failed for some other * reason, propagate the error as making any decision * over presence is impossible. */ if (err != ETOPO_METHOD_NOTSUP) return (err); /* * Enumerator didn't provide "present" method either - * so check the authority information. If the part id * or serial number doesn't match, then it isn't the * same FMRI. Otherwise, if we have a serial number and * it hasn't changed, then assume it is the same FMRI. */ if (topo_node_resource(node, &rsrc, &err) != 0) return (err); rval = hc_auth_changed(hap->ha_fmri, rsrc, FM_FMRI_HC_PART); if (rval != FMD_OBJ_STATE_REPLACED) rval = hc_auth_changed(hap->ha_fmri, rsrc, FM_FMRI_HC_SERIAL_ID); nvlist_free(rsrc); if (topo_mod_nvalloc(mod, &hap->ha_nvl, NV_UNIQUE_NAME) != 0) return (EMOD_NOMEM); if (nvlist_add_uint32(hap->ha_nvl, TOPO_METH_REPLACED_RET, rval) != 0) { nvlist_free(hap->ha_nvl); hap->ha_nvl = NULL; return (ETOPO_PROP_NVL); } } else { (void) nvlist_lookup_uint32(hap->ha_nvl, TOPO_METH_PRESENT_RET, &present); (void) nvlist_remove(hap->ha_nvl, TOPO_METH_PRESENT_RET, DATA_TYPE_UINT32); if (nvlist_add_uint32(hap->ha_nvl, TOPO_METH_REPLACED_RET, present ? FMD_OBJ_STATE_UNKNOWN : FMD_OBJ_STATE_NOT_PRESENT) != 0) { nvlist_free(hap->ha_nvl); hap->ha_nvl = NULL; return (ETOPO_PROP_NVL); } } } return (0); } static int hc_fmri_replaced(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct hc_args *hap; if (version > TOPO_METH_REPLACED_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((hap = topo_mod_alloc(mod, sizeof (struct hc_args))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); hap->ha_fmri = in; hap->ha_nvl = NULL; if ((hwp = hc_walk_init(mod, node, hap->ha_fmri, hc_is_replaced, (void *)hap)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } if (hap->ha_nvl != NULL) *out = hap->ha_nvl; topo_mod_free(mod, hap, sizeof (struct hc_args)); return (err); } static int hc_unusable(topo_mod_t *mod, tnode_t *node, void *pdata) { int err; struct hc_args *hap = (struct hc_args *)pdata; /* * check with the enumerator that created this FMRI * (topo node) */ if (topo_method_invoke(node, TOPO_METH_UNUSABLE, TOPO_METH_UNUSABLE_VERSION, hap->ha_fmri, &hap->ha_nvl, &err) < 0) { /* * Err on the side of caution and return usable */ if (topo_mod_nvalloc(mod, &hap->ha_nvl, NV_UNIQUE_NAME) == 0) if (nvlist_add_uint32(hap->ha_nvl, TOPO_METH_UNUSABLE_RET, 0) == 0) return (0); return (ETOPO_PROP_NVL); } return (0); } static int hc_fmri_unusable(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct hc_args *hap; if (version > TOPO_METH_UNUSABLE_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((hap = topo_mod_alloc(mod, sizeof (struct hc_args))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); hap->ha_fmri = in; hap->ha_nvl = NULL; if ((hwp = hc_walk_init(mod, node, hap->ha_fmri, hc_unusable, (void *)hap)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { err = -1; } if (hap->ha_nvl != NULL) *out = hap->ha_nvl; topo_mod_free(mod, hap, sizeof (struct hc_args)); return (err); } struct fac_lookup { const char *fl_fac_type; uint32_t fl_fac_subtype; #ifdef _LP64 uint64_t fl_callback; uint64_t fl_callback_args; #else uint32_t fl_callback; uint32_t fl_callback_args; #endif nvlist_t *fl_rsrc; nvlist_t *fl_fac_rsrc; }; static int hc_fac_get(topo_mod_t *mod, tnode_t *node, void *pdata) { struct fac_lookup *flp = (struct fac_lookup *)pdata; topo_walk_cb_t cb = (topo_walk_cb_t)flp->fl_callback; topo_faclist_t faclist, *tmp; int err, ret = 0; /* * Lookup the specified facility node. Return with an error if we can't * find it. */ if (topo_node_facility(mod->tm_hdl, node, flp->fl_fac_type, flp->fl_fac_subtype, &faclist, &err) != 0) { topo_mod_dprintf(mod, "hc_fac_get: topo_node_facility " "failed\n"); return (TOPO_WALK_ERR); } /* * Invoke user's callback for each facility node in the topo list, * passing in a pointer to the facility node */ for (tmp = topo_list_next(&faclist.tf_list); tmp != NULL; tmp = topo_list_next(tmp)) { if ((err = cb(mod->tm_hdl, tmp->tf_node, (void *)flp->fl_callback_args)) != 0) { (void) topo_mod_seterrno(mod, err); topo_mod_dprintf(mod, "hc_fac_get: callback failed: " "%s\n ", topo_mod_errmsg(mod)); ret = TOPO_WALK_ERR; break; } } while ((tmp = topo_list_next(&faclist.tf_list)) != NULL) { topo_list_delete(&faclist.tf_list, tmp); topo_mod_free(mod, tmp, sizeof (topo_faclist_t)); } return (ret); } static int hc_fmri_facility(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err = 0; struct hc_walk *hwp; struct fac_lookup *flp; if (version > TOPO_METH_FACILITY_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((flp = topo_mod_alloc(mod, sizeof (struct fac_lookup))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); /* * lookup arguments: hw resource, facility type, facility subtype, * callback and callback args */ err = nvlist_lookup_nvlist(in, TOPO_PROP_RESOURCE, &flp->fl_rsrc); err |= nvlist_lookup_string(in, FM_FMRI_FACILITY_TYPE, (char **)&flp->fl_fac_type); err |= nvlist_lookup_uint32(in, "type", &flp->fl_fac_subtype); #ifdef _LP64 err |= nvlist_lookup_uint64(in, "callback", &flp->fl_callback); err |= nvlist_lookup_uint64(in, "callback-args", &flp->fl_callback_args); #else err |= nvlist_lookup_uint32(in, "callback", &flp->fl_callback); err |= nvlist_lookup_uint32(in, "callback-args", &flp->fl_callback_args); #endif if (err != 0) { topo_mod_dprintf(mod, "hc_fmri_facility: failed to construct " "walker arg nvlist\n"); topo_mod_free(mod, flp, sizeof (struct fac_lookup)); return (topo_mod_seterrno(mod, EMOD_METHOD_INVAL)); } flp->fl_fac_rsrc = NULL; if ((hwp = hc_walk_init(mod, node, flp->fl_rsrc, hc_fac_get, (void *)flp)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); topo_mod_free(mod, hwp, sizeof (struct hc_walk)); } else { topo_mod_dprintf(mod, "hc_fmri_facility: failed to initialize " "hc walker\n"); err = -1; } if (flp->fl_fac_rsrc != NULL) *out = flp->fl_fac_rsrc; topo_mod_free(mod, flp, sizeof (struct fac_lookup)); return (err); } /* ARGSUSED */ static int hc_expand(topo_mod_t *mod, tnode_t *node, void *pdata) { int err; nvlist_t *nvl; const char **namep; struct hc_args *hap = (struct hc_args *)pdata; const char *names[] = { FM_FMRI_HC_SERIAL_ID, FM_FMRI_HC_PART, FM_FMRI_HC_REVISION, NULL }; if (topo_node_resource(node, &nvl, &err) != 0) return (ETOPO_METHOD_FAIL); for (namep = names; *namep != NULL; namep++) { char *in_val, *node_val; if (nvlist_lookup_string(nvl, *namep, &node_val) != 0) continue; if (nvlist_lookup_string(hap->ha_fmri, *namep, &in_val) == 0) { if (strcmp(in_val, node_val) == 0) continue; (void) nvlist_remove(hap->ha_fmri, *namep, DATA_TYPE_STRING); } if (nvlist_add_string(hap->ha_fmri, *namep, node_val) != 0) { nvlist_free(nvl); return (ETOPO_PROP_NVL); } } nvlist_free(nvl); return (0); } /* ARGSUSED */ static int hc_fmri_expand(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct hc_args *hap; if (version > TOPO_METH_EXPAND_VERSION) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((hap = topo_mod_alloc(mod, sizeof (struct hc_args))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); hap->ha_fmri = in; hap->ha_nvl = NULL; if ((hwp = hc_walk_init(mod, node, hap->ha_fmri, hc_expand, (void *)hap)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); } else { err = -1; } topo_mod_free(mod, hwp, sizeof (struct hc_walk)); /* expand method should not return out nvlist */ assert(hap->ha_nvl == NULL); topo_mod_free(mod, hap, sizeof (struct hc_args)); return (err); } static int hc_retire_subr(topo_mod_t *mod, tnode_t *node, void *pdata) { int err, rc; struct hc_args *hap = (struct hc_args *)pdata; topo_mod_dprintf(mod, "hc_retire_subr: invoking method %s\n", hap->ha_method_name); /* * check with the enumerator that created this FMRI * (topo node) */ rc = topo_method_invoke(node, hap->ha_method_name, hap->ha_method_ver, hap->ha_fmri, &hap->ha_nvl, &err); topo_mod_dprintf(mod, "hc_retire_subr: invoking method %s " "returned %d\n", hap->ha_method_name, rc); return (rc < 0 ? err : 0); } static int hc_fmri_retire_subr(topo_mod_t *mod, tnode_t *node, char *method_name, topo_version_t builtin_version, topo_version_t version, nvlist_t *in, nvlist_t **out) { int err; struct hc_walk *hwp; struct hc_args *hap; if (version > builtin_version) return (topo_mod_seterrno(mod, ETOPO_METHOD_VERNEW)); if ((hap = topo_mod_alloc(mod, sizeof (struct hc_args))) == NULL) return (topo_mod_seterrno(mod, EMOD_NOMEM)); hap->ha_fmri = in; hap->ha_nvl = NULL; hap->ha_method_name = method_name; hap->ha_method_ver = version; if ((hwp = hc_walk_init(mod, node, hap->ha_fmri, hc_retire_subr, (void *)hap)) != NULL) { if (topo_walk_step(hwp->hcw_wp, TOPO_WALK_CHILD) == TOPO_WALK_ERR) err = -1; else err = 0; topo_walk_fini(hwp->hcw_wp); } else { err = -1; } topo_mod_free(mod, hwp, sizeof (struct hc_walk)); if (hap->ha_nvl != NULL) *out = hap->ha_nvl; topo_mod_free(mod, hap, sizeof (struct hc_args)); return (err); } static int hc_fmri_retire(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { return (hc_fmri_retire_subr(mod, node, TOPO_METH_RETIRE, TOPO_METH_RETIRE_VERSION, version, in, out)); } static int hc_fmri_unretire(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { return (hc_fmri_retire_subr(mod, node, TOPO_METH_UNRETIRE, TOPO_METH_UNRETIRE_VERSION, version, in, out)); } static int hc_fmri_service_state(topo_mod_t *mod, tnode_t *node, topo_version_t version, nvlist_t *in, nvlist_t **out) { return (hc_fmri_retire_subr(mod, node, TOPO_METH_SERVICE_STATE, TOPO_METH_SERVICE_STATE_VERSION, version, in, out)); }