/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include "ipmi_impl.h" typedef struct ipmi_sdr_cache_ent { char *isc_name; struct ipmi_sdr *isc_sdr; ipmi_hash_link_t isc_link; } ipmi_sdr_cache_ent_t; typedef struct ipmi_cmd_get_sdr { uint16_t ic_gs_resid; uint16_t ic_gs_recid; uint8_t ic_gs_offset; uint8_t ic_gs_len; } ipmi_cmd_get_sdr_t; typedef struct ipmi_rsp_get_sdr { uint16_t ir_gs_next; uint8_t ir_gs_record[1]; } ipmi_rsp_get_sdr_t; /* * "Get SDR Repostiory Info" command. */ ipmi_sdr_info_t * ipmi_sdr_get_info(ipmi_handle_t *ihp) { ipmi_cmd_t cmd, *rsp; ipmi_sdr_info_t *sip; uint16_t tmp16; uint32_t tmp32; cmd.ic_netfn = IPMI_NETFN_STORAGE; cmd.ic_lun = 0; cmd.ic_cmd = IPMI_CMD_GET_SDR_INFO; cmd.ic_dlen = 0; cmd.ic_data = NULL; if ((rsp = ipmi_send(ihp, &cmd)) == NULL) return (NULL); sip = rsp->ic_data; tmp16 = LE_IN16(&sip->isi_record_count); (void) memcpy(&sip->isi_record_count, &tmp16, sizeof (tmp16)); tmp16 = LE_IN16(&sip->isi_free_space); (void) memcpy(&sip->isi_free_space, &tmp16, sizeof (tmp16)); tmp32 = LE_IN32(&sip->isi_add_ts); (void) memcpy(&sip->isi_add_ts, &tmp32, sizeof (tmp32)); tmp32 = LE_IN32(&sip->isi_erase_ts); (void) memcpy(&sip->isi_erase_ts, &tmp32, sizeof (tmp32)); return (sip); } /* * Issue the "Reserve SDR Repository" command. */ static int ipmi_sdr_reserve_repository(ipmi_handle_t *ihp) { ipmi_cmd_t cmd, *rsp; cmd.ic_netfn = IPMI_NETFN_STORAGE; cmd.ic_lun = 0; cmd.ic_cmd = IPMI_CMD_RESERVE_SDR_REPOSITORY; cmd.ic_dlen = 0; cmd.ic_data = NULL; if ((rsp = ipmi_send(ihp, &cmd)) == NULL) return (-1); ihp->ih_reservation = *((uint16_t *)rsp->ic_data); return (0); } /* * Returns B_TRUE if the repository has changed since the cached copy was last * referenced. */ boolean_t ipmi_sdr_changed(ipmi_handle_t *ihp) { ipmi_sdr_info_t *sip; if ((sip = ipmi_sdr_get_info(ihp)) == NULL) return (B_TRUE); return (sip->isi_add_ts > ihp->ih_sdr_ts || sip->isi_erase_ts > ihp->ih_sdr_ts || ipmi_hash_first(ihp->ih_sdr_cache) == NULL); } /* * Refresh the cache of sensor data records. */ int ipmi_sdr_refresh(ipmi_handle_t *ihp) { uint16_t id; ipmi_sdr_t *sdr; ipmi_sdr_cache_ent_t *ent; size_t namelen, len; uint8_t type; char *name; ipmi_sdr_info_t *sip; if ((sip = ipmi_sdr_get_info(ihp)) == NULL) return (-1); if (sip->isi_add_ts <= ihp->ih_sdr_ts && sip->isi_erase_ts <= ihp->ih_sdr_ts && ipmi_hash_first(ihp->ih_sdr_cache) != NULL) return (0); ipmi_sdr_clear(ihp); ipmi_entity_clear(ihp); ihp->ih_sdr_ts = MAX(sip->isi_add_ts, sip->isi_erase_ts); /* * Iterate over all existing SDRs and add them to the cache. */ id = IPMI_SDR_FIRST; while (id != IPMI_SDR_LAST) { if ((sdr = ipmi_sdr_get(ihp, id, &id)) == NULL) return (-1); /* * Extract the name from the record-specific data. */ switch (sdr->is_type) { case IPMI_SDR_TYPE_GENERIC_LOCATOR: { ipmi_sdr_generic_locator_t *glp = (ipmi_sdr_generic_locator_t *) sdr->is_record; namelen = glp->is_gl_idlen; type = glp->is_gl_idtype; name = glp->is_gl_idstring; break; } case IPMI_SDR_TYPE_FRU_LOCATOR: { ipmi_sdr_fru_locator_t *flp = (ipmi_sdr_fru_locator_t *) sdr->is_record; namelen = flp->is_fl_idlen; name = flp->is_fl_idstring; type = flp->is_fl_idtype; break; } case IPMI_SDR_TYPE_COMPACT_SENSOR: { ipmi_sdr_compact_sensor_t *csp = (ipmi_sdr_compact_sensor_t *) sdr->is_record; uint16_t tmp; namelen = csp->is_cs_idlen; type = csp->is_cs_idtype; name = csp->is_cs_idstring; tmp = LE_IN16(&csp->is_cs_assert_mask); (void) memcpy(&csp->is_cs_assert_mask, &tmp, sizeof (tmp)); tmp = LE_IN16(&csp->is_cs_deassert_mask); (void) memcpy(&csp->is_cs_deassert_mask, &tmp, sizeof (tmp)); tmp = LE_IN16(&csp->is_cs_reading_mask); (void) memcpy(&csp->is_cs_reading_mask, &tmp, sizeof (tmp)); break; } case IPMI_SDR_TYPE_FULL_SENSOR: { ipmi_sdr_full_sensor_t *fsp = (ipmi_sdr_full_sensor_t *) sdr->is_record; uint16_t tmp; namelen = fsp->is_fs_idlen; type = fsp->is_fs_idtype; name = fsp->is_fs_idstring; tmp = LE_IN16(&fsp->is_fs_assert_mask); (void) memcpy(&fsp->is_fs_assert_mask, &tmp, sizeof (tmp)); tmp = LE_IN16(&fsp->is_fs_deassert_mask); (void) memcpy(&fsp->is_fs_deassert_mask, &tmp, sizeof (tmp)); tmp = LE_IN16(&fsp->is_fs_reading_mask); (void) memcpy(&fsp->is_fs_reading_mask, &tmp, sizeof (tmp)); break; } case IPMI_SDR_TYPE_EVENT_ONLY: { ipmi_sdr_event_only_t *esp = (ipmi_sdr_event_only_t *) sdr->is_record; namelen = esp->is_eo_idlen; type = esp->is_eo_idtype; name = esp->is_eo_idstring; break; } case IPMI_SDR_TYPE_MANAGEMENT_LOCATOR: { ipmi_sdr_management_locator_t *msp = (ipmi_sdr_management_locator_t *) sdr->is_record; namelen = msp->is_ml_idlen; type = msp->is_ml_idtype; name = msp->is_ml_idstring; break; } case IPMI_SDR_TYPE_MANAGEMENT_CONFIRMATION: { ipmi_sdr_management_confirmation_t *mcp = (ipmi_sdr_management_confirmation_t *) sdr->is_record; uint16_t tmp; name = NULL; tmp = LE_IN16(&mcp->is_mc_product); (void) memcpy(&mcp->is_mc_product, &tmp, sizeof (tmp)); break; } default: name = NULL; } if ((ent = ipmi_zalloc(ihp, sizeof (ipmi_sdr_cache_ent_t))) == NULL) return (-1); len = sdr->is_length + offsetof(ipmi_sdr_t, is_record); if ((ent->isc_sdr = ipmi_alloc(ihp, len)) == NULL) { ipmi_free(ihp, ent); return (-1); } bcopy(sdr, ent->isc_sdr, len); if (name != NULL) { if ((ent->isc_name = ipmi_alloc(ihp, namelen + 1)) == NULL) { ipmi_free(ihp, ent->isc_sdr); ipmi_free(ihp, ent); return (-1); } ipmi_decode_string(type, namelen, name, ent->isc_name); } /* * This should never happen. It means that the SP has returned * a SDR record twice, with the same name and ID. This has * been observed on service processors that don't correctly * return SDR_LAST during iteration, so assume we've looped in * the SDR and return gracefully. */ if (ipmi_hash_lookup(ihp->ih_sdr_cache, ent) != NULL) { ipmi_free(ihp, ent->isc_sdr); ipmi_free(ihp, ent->isc_name); ipmi_free(ihp, ent); break; } ipmi_hash_insert(ihp->ih_sdr_cache, ent); } return (0); } /* * Hash routines. We allow lookup by name, but since not all entries have * names, we fall back to the entry pointer, which is guaranteed to be unique. * The end result is that entities without names cannot be looked up, but will * show up during iteration. */ static const void * ipmi_sdr_hash_convert(const void *p) { return (p); } static ulong_t ipmi_sdr_hash_compute(const void *p) { const ipmi_sdr_cache_ent_t *ep = p; if (ep->isc_name) return (ipmi_hash_strhash(ep->isc_name)); else return (ipmi_hash_ptrhash(ep)); } static int ipmi_sdr_hash_compare(const void *a, const void *b) { const ipmi_sdr_cache_ent_t *ap = a; const ipmi_sdr_cache_ent_t *bp = b; if (ap->isc_name == NULL || bp->isc_name == NULL) return (-1); if (strcmp(ap->isc_name, bp->isc_name) != 0) return (-1); /* * While it is strange for a service processor to report multiple * entries with the same name, we allow it by treating the (name, id) * as the unique identifier. When looking up by name, the SDR pointer * is NULL, and we return the first matching name. */ if (ap->isc_sdr == NULL || bp->isc_sdr == NULL) return (0); if (ap->isc_sdr->is_id == bp->isc_sdr->is_id) return (0); else return (-1); } int ipmi_sdr_init(ipmi_handle_t *ihp) { if ((ihp->ih_sdr_cache = ipmi_hash_create(ihp, offsetof(ipmi_sdr_cache_ent_t, isc_link), ipmi_sdr_hash_convert, ipmi_sdr_hash_compute, ipmi_sdr_hash_compare)) == NULL) return (-1); return (0); } void ipmi_sdr_clear(ipmi_handle_t *ihp) { ipmi_sdr_cache_ent_t *ent; while ((ent = ipmi_hash_first(ihp->ih_sdr_cache)) != NULL) { ipmi_hash_remove(ihp->ih_sdr_cache, ent); ipmi_free(ihp, ent->isc_sdr); ipmi_free(ihp, ent->isc_name); ipmi_free(ihp, ent); } } void ipmi_sdr_fini(ipmi_handle_t *ihp) { if (ihp->ih_sdr_cache != NULL) { ipmi_sdr_clear(ihp); ipmi_hash_destroy(ihp->ih_sdr_cache); } } ipmi_sdr_t * ipmi_sdr_get(ipmi_handle_t *ihp, uint16_t id, uint16_t *next) { ipmi_cmd_t cmd, *rsp; ipmi_cmd_get_sdr_t req; ipmi_rsp_get_sdr_t *sdr; int i; req.ic_gs_resid = ihp->ih_reservation; req.ic_gs_recid = id; req.ic_gs_offset = 0; req.ic_gs_len = 0xFF; cmd.ic_netfn = IPMI_NETFN_STORAGE; cmd.ic_lun = 0; cmd.ic_cmd = IPMI_CMD_GET_SDR; cmd.ic_dlen = sizeof (req); cmd.ic_data = &req; for (i = 0; i < ihp->ih_retries; i++) { if ((rsp = ipmi_send(ihp, &cmd)) != NULL) break; if (ipmi_errno(ihp) != EIPMI_INVALID_RESERVATION) return (NULL); if (ipmi_sdr_reserve_repository(ihp) != 0) return (NULL); req.ic_gs_resid = ihp->ih_reservation; } if (rsp == NULL) return (NULL); if (rsp->ic_dlen < sizeof (uint16_t) + sizeof (ipmi_sdr_t)) { (void) ipmi_set_error(ihp, EIPMI_BAD_RESPONSE_LENGTH, NULL); return (NULL); } sdr = rsp->ic_data; *next = sdr->ir_gs_next; return ((ipmi_sdr_t *)sdr->ir_gs_record); } int ipmi_sdr_iter(ipmi_handle_t *ihp, int (*func)(ipmi_handle_t *, const char *, ipmi_sdr_t *, void *), void *data) { ipmi_sdr_cache_ent_t *ent; int ret; if (ipmi_hash_first(ihp->ih_sdr_cache) == NULL && ipmi_sdr_refresh(ihp) != 0) return (-1); for (ent = ipmi_hash_first(ihp->ih_sdr_cache); ent != NULL; ent = ipmi_hash_next(ihp->ih_sdr_cache, ent)) { if ((ret = func(ihp, ent->isc_name, ent->isc_sdr, data)) != 0) return (ret); } return (0); } ipmi_sdr_t * ipmi_sdr_lookup(ipmi_handle_t *ihp, const char *idstr) { ipmi_sdr_cache_ent_t *ent, search; if (ipmi_hash_first(ihp->ih_sdr_cache) == NULL && ipmi_sdr_refresh(ihp) != 0) return (NULL); search.isc_name = (char *)idstr; search.isc_sdr = NULL; if ((ent = ipmi_hash_lookup(ihp->ih_sdr_cache, &search)) == NULL) { (void) ipmi_set_error(ihp, EIPMI_NOT_PRESENT, NULL); return (NULL); } return (ent->isc_sdr); } static void * ipmi_sdr_lookup_common(ipmi_handle_t *ihp, const char *idstr, uint8_t type) { ipmi_sdr_t *sdrp; if ((sdrp = ipmi_sdr_lookup(ihp, idstr)) == NULL) return (NULL); if (sdrp->is_type != type) { (void) ipmi_set_error(ihp, EIPMI_NOT_PRESENT, NULL); return (NULL); } return (sdrp->is_record); } ipmi_sdr_fru_locator_t * ipmi_sdr_lookup_fru(ipmi_handle_t *ihp, const char *idstr) { return (ipmi_sdr_lookup_common(ihp, idstr, IPMI_SDR_TYPE_FRU_LOCATOR)); } ipmi_sdr_generic_locator_t * ipmi_sdr_lookup_generic(ipmi_handle_t *ihp, const char *idstr) { return (ipmi_sdr_lookup_common(ihp, idstr, IPMI_SDR_TYPE_GENERIC_LOCATOR)); } ipmi_sdr_compact_sensor_t * ipmi_sdr_lookup_compact_sensor(ipmi_handle_t *ihp, const char *idstr) { return (ipmi_sdr_lookup_common(ihp, idstr, IPMI_SDR_TYPE_COMPACT_SENSOR)); } ipmi_sdr_full_sensor_t * ipmi_sdr_lookup_full_sensor(ipmi_handle_t *ihp, const char *idstr) { return (ipmi_sdr_lookup_common(ihp, idstr, IPMI_SDR_TYPE_FULL_SENSOR)); }