/* * 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 2015 OmniTI Computer Consulting, Inc. All rights reserved. * Copyright 2018 Joyent, Inc. * Copyright 2023 Oxide Computer Company * Copyright 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include static const uint_t _smb_hashlen = 64; /* hash length (must be Pof2) */ static const char _smb_emptystr[] = ""; /* empty string to return */ int _smb_debug = 0; /* default debug mode */ /* * Strip out identification information for you privacy weenies. This is quite * simple using our smbios_info_common() abstraction: we just locate any serial * numbers and asset tags for each record, and then zero out those strings. * Then we must handle two special cases: SMB_TYPE_SYSTEM holds a 16-byte UUID * and SMB_TYPE_BATTERY stores a Smart Battery Data Spec 16-bit serial number. * We use a literal '0' rather than '\0' for zeroing strings because \0\0 in * the SMBIOS string table has a special meaning (denotes end-of-record). */ static void smb_strip(smbios_hdl_t *shp) { uint_t i; for (i = 0; i < shp->sh_nstructs; i++) { const smb_header_t *hp = shp->sh_structs[i].smbst_hdr; smbios_info_t info; char *p; if (hp->smbh_type == SMB_TYPE_SYSTEM && hp->smbh_len >= offsetof(smb_system_t, smbsi_wakeup)) { smb_system_t *sp = (smb_system_t *)(uintptr_t)hp; bzero(sp->smbsi_uuid, sizeof (sp->smbsi_uuid)); } if (hp->smbh_type == SMB_TYPE_BATTERY && hp->smbh_len >= offsetof(smb_battery_t, smbbat_sdate)) { smb_battery_t *bp = (smb_battery_t *)(uintptr_t)hp; bp->smbbat_ssn = 0; } if (smbios_info_common(shp, hp->smbh_hdl, &info) != SMB_ERR) { for (p = (char *)info.smbi_serial; *p != '\0'; p++) *p = '0'; for (p = (char *)info.smbi_asset; *p != '\0'; p++) *p = '0'; } } } static int smbios_bufopen_21(smbios_hdl_t *shp, const smbios_21_entry_t *ep, size_t len, int flags) { if (strncmp(ep->smbe_eanchor, SMB_ENTRY_EANCHOR, SMB_ENTRY_EANCHORLEN)) return (ESMB_HEADER); if (strncmp(ep->smbe_ianchor, SMB_ENTRY_IANCHOR, SMB_ENTRY_IANCHORLEN)) return (ESMB_HEADER); smb_dprintf(shp, "opening SMBIOS version %u.%u bcdrev 0x%x\n", ep->smbe_major, ep->smbe_minor, ep->smbe_bcdrev); if (!(flags & SMB_O_NOVERS)) { if (ep->smbe_major > SMB_MAJOR(SMB_VERSION)) return (ESMB_NEW); if (ep->smbe_major < SMB_MAJOR(SMB_VERSION_23) || ( ep->smbe_major == SMB_MAJOR(SMB_VERSION_23) && ep->smbe_minor < SMB_MINOR(SMB_VERSION_23))) return (ESMB_OLD); } if (len < sizeof (smb_header_t) || ep->smbe_stlen < sizeof (smb_header_t) || len < ep->smbe_stlen) return (ESMB_SHORT); if (!(flags & SMB_O_NOCKSUM)) { uint8_t esum = 0, isum = 0; const uchar_t *p, *q; q = (uchar_t *)ep; for (p = q; p < q + ep->smbe_elen; p++) esum += *p; for (p = (uchar_t *)ep->smbe_ianchor; p < q + sizeof (*ep); p++) isum += *p; if (esum != 0 || isum != 0) { smb_dprintf(shp, "bad cksum: e=%x i=%x\n", esum, isum); return (ESMB_CKSUM); } } /* * Copy the entry point into our handle. The underlying entry point * may be larger than our structure definition, so reset smbe_elen * to our internal size and recompute good checksums for our copy. */ shp->sh_ent_type = SMBIOS_ENTRY_POINT_21; bcopy(ep, &shp->sh_ent, sizeof (smbios_entry_t)); shp->sh_ent.ep21.smbe_elen = sizeof (smbios_entry_t); smbios_checksum(shp, &shp->sh_ent); shp->sh_ent_stnum = ep->smbe_stnum; shp->sh_smbvers = SMB_MAJMIN(ep->smbe_major, ep->smbe_minor); return (0); } static int smbios_bufopen_30(smbios_hdl_t *shp, const smbios_30_entry_t *ep, size_t len, int flags) { if (strncmp(ep->smbe_eanchor, SMB3_ENTRY_EANCHOR, SMB3_ENTRY_EANCHORLEN)) return (ESMB_HEADER); smb_dprintf(shp, "opening SMBIOS version %u.%u\n", ep->smbe_major, ep->smbe_minor); if (!(flags & SMB_O_NOVERS)) { if (ep->smbe_major > SMB_MAJOR(SMB_VERSION)) return (ESMB_NEW); if (ep->smbe_major < SMB_MAJOR(SMB_VERSION_23) || ( ep->smbe_major == SMB_MAJOR(SMB_VERSION_23) && ep->smbe_minor < SMB_MINOR(SMB_VERSION_23))) return (ESMB_OLD); } if (len < sizeof (smb_header_t) || ep->smbe_stlen < sizeof (smb_header_t) || len < ep->smbe_stlen) return (ESMB_SHORT); if (!(flags & SMB_O_NOCKSUM)) { uint8_t esum = 0; const uchar_t *p, *q; q = (uchar_t *)ep; for (p = q; p < q + ep->smbe_elen; p++) esum += *p; if (esum != 0) { smb_dprintf(shp, "bad cksum: e=%x\n", esum); return (ESMB_CKSUM); } } /* * Copy the entry point into our handle. The underlying entry point * may be larger than our structure definition, so reset smbe_elen * to our internal size and recompute good checksums for our copy. */ shp->sh_ent_type = SMBIOS_ENTRY_POINT_30; bcopy(ep, &shp->sh_ent, sizeof (smbios_entry_t)); shp->sh_ent.ep30.smbe_elen = sizeof (smbios_entry_t); smbios_checksum(shp, &shp->sh_ent); shp->sh_smbvers = SMB_MAJMIN(ep->smbe_major, ep->smbe_minor); return (0); } static uint_t smbios_table_nentries(const char *smbe_staddr, uint32_t smbe_stlen) { uint_t i = 0; char *dmi; smb_header_t *hdr; if (smbe_staddr == NULL) return (i); for (dmi = (char *)smbe_staddr; dmi < smbe_staddr + smbe_stlen; i++) { hdr = (smb_header_t *)dmi; dmi += hdr->smbh_len; /* * Search for the end of the string area. */ while (dmi + 1 < smbe_staddr + smbe_stlen && dmi[0] != '\0' && dmi[1] != '\0') { dmi++; } dmi += 2; } return (i); } smbios_hdl_t * smbios_bufopen(const smbios_entry_t *ep, const void *buf, size_t len, int version, int flags, int *errp) { smbios_hdl_t *shp = smb_zalloc(sizeof (smbios_hdl_t)); const smb_header_t *hp, *nhp; const uchar_t *p, *q, *s; uint_t i, h; int err; switch (version) { case SMB_VERSION_23: case SMB_VERSION_24: case SMB_VERSION_25: case SMB_VERSION_26: case SMB_VERSION_27: case SMB_VERSION_28: case SMB_VERSION_30: case SMB_VERSION_31: case SMB_VERSION_32: case SMB_VERSION_33: case SMB_VERSION_34: case SMB_VERSION_35: case SMB_VERSION_36: case SMB_VERSION_37: break; default: return (smb_open_error(shp, errp, ESMB_VERSION)); } if (ep == NULL || buf == NULL || len == 0 || (flags & ~SMB_O_MASK)) return (smb_open_error(shp, errp, ESMB_INVAL)); if (shp == NULL) return (smb_open_error(shp, errp, ESMB_NOMEM)); if (_smb_debug) shp->sh_flags |= SMB_FL_DEBUG; err = smbios_bufopen_21(shp, &ep->ep21, len, flags); if (err != 0) { err = smbios_bufopen_30(shp, &ep->ep30, len, flags); if (err != 0) return (smb_open_error(shp, errp, err)); shp->sh_ent_stnum = smbios_table_nentries(buf, ep->ep30.smbe_stlen); } shp->sh_buf = buf; shp->sh_buflen = len; shp->sh_structs = smb_alloc(sizeof (smb_struct_t) * shp->sh_ent_stnum); shp->sh_nstructs = 0; shp->sh_hashlen = _smb_hashlen; shp->sh_hash = smb_zalloc(sizeof (smb_struct_t *) * shp->sh_hashlen); shp->sh_libvers = version; if (shp->sh_structs == NULL || shp->sh_hash == NULL) return (smb_open_error(shp, errp, ESMB_NOMEM)); hp = shp->sh_buf; switch (shp->sh_ent_type) { case SMBIOS_ENTRY_POINT_21: q = (const uchar_t *)buf + MIN(ep->ep21.smbe_stlen, len); break; case SMBIOS_ENTRY_POINT_30: q = (const uchar_t *)buf + MIN(ep->ep30.smbe_stlen, len); break; default: return (smb_open_error(shp, errp, ESMB_VERSION)); } for (i = 0; i < shp->sh_ent_stnum; i++, hp = nhp) { smb_struct_t *stp = &shp->sh_structs[i]; uint_t n = 0; if ((const uchar_t *)hp + sizeof (smb_header_t) > q) { shp->sh_flags |= SMB_FL_TRUNC; break; } smb_dprintf(shp, "struct [%u] type %u len %u hdl %u at %p\n", i, hp->smbh_type, hp->smbh_len, hp->smbh_hdl, (void *)hp); if (hp->smbh_type == SMB_TYPE_EOT) break; /* ignore any entries beyond end-of-table */ if ((const uchar_t *)hp + hp->smbh_len > q - 2) { shp->sh_flags |= SMB_FL_TRUNC; break; } h = hp->smbh_hdl & (shp->sh_hashlen - 1); p = s = (const uchar_t *)hp + hp->smbh_len; while (p <= q - 2 && (p[0] != '\0' || p[1] != '\0')) { if (*p++ == '\0') n++; /* count strings until \0\0 delimiter */ } if (p > q - 2) { shp->sh_flags |= SMB_FL_TRUNC; break; } if (p > s) n++; /* add one for final string in string table */ stp->smbst_hdr = hp; stp->smbst_str = s; stp->smbst_end = p; stp->smbst_next = shp->sh_hash[h]; stp->smbst_strtab = smb_alloc(sizeof (uint16_t) * n); stp->smbst_strtablen = n; if (n != 0 && stp->smbst_strtab == NULL) return (smb_open_error(shp, errp, ESMB_NOMEM)); shp->sh_hash[h] = stp; nhp = (void *)(p + 2); shp->sh_nstructs++; for (n = 0, p = s; n < stp->smbst_strtablen; p++) { if (*p == '\0') { stp->smbst_strtab[n++] = (uint16_t)(s - stp->smbst_str); s = p + 1; } } } /* error out if we couldn't find any complete entries in the table */ if ((shp->sh_flags & SMB_FL_TRUNC) && i == 0) return (smb_open_error(shp, errp, ESMB_CORRUPT)); if (flags & SMB_O_ZIDS) smb_strip(shp); return (shp); } void smbios_close(smbios_hdl_t *shp) { uint_t i; for (i = 0; i < shp->sh_nstructs; i++) { smb_free(shp->sh_structs[i].smbst_strtab, sizeof (uint16_t) * shp->sh_structs[i].smbst_strtablen); } smb_free(shp->sh_structs, sizeof (smb_struct_t) * shp->sh_ent_stnum); smb_free(shp->sh_hash, sizeof (smb_struct_t *) * shp->sh_hashlen); if (shp->sh_flags & SMB_FL_BUFALLOC) smb_free((void *)shp->sh_buf, shp->sh_buflen); smb_free(shp, sizeof (smbios_hdl_t)); } /* * Recompute the values of the entry point checksums based upon the content * of the specified SMBIOS entry point. We don't need 'shp' but require it * anyway in case future versioning requires variations in the algorithm. */ /*ARGSUSED*/ void smbios_checksum(smbios_hdl_t *shp, smbios_entry_t *ep) { uchar_t *p, *q = (uchar_t *)ep; uint8_t esum = 0, isum = 0; switch (shp->sh_ent_type) { case SMBIOS_ENTRY_POINT_21: ep->ep21.smbe_ecksum = ep->ep21.smbe_icksum = 0; for (p = (uchar_t *)ep->ep21.smbe_ianchor; p < q + sizeof (*ep); p++) { isum += *p; } ep->ep21.smbe_icksum = -isum; for (p = q; p < q + ep->ep21.smbe_elen; p++) esum += *p; ep->ep21.smbe_ecksum = -esum; break; case SMBIOS_ENTRY_POINT_30: ep->ep30.smbe_ecksum = 0; for (p = q; p < q + ep->ep30.smbe_elen; p++) esum += *p; ep->ep30.smbe_ecksum = -esum; break; default: break; } } const void * smbios_buf(smbios_hdl_t *shp) { return (shp->sh_buf); } size_t smbios_buflen(smbios_hdl_t *shp) { return (shp->sh_buflen); } static smbios_struct_t * smb_export(const smb_struct_t *stp, smbios_struct_t *sp) { const smb_header_t *hdr = stp->smbst_hdr; sp->smbstr_id = hdr->smbh_hdl; sp->smbstr_type = hdr->smbh_type; sp->smbstr_data = hdr; sp->smbstr_size = (size_t)(stp->smbst_end - (uchar_t *)hdr); return (sp); } int smbios_lookup_id(smbios_hdl_t *shp, id_t id, smbios_struct_t *sp) { const smb_struct_t *stp = smb_lookup_id(shp, id); if (stp == NULL) return (-1); /* errno is set for us */ if (sp != NULL) (void) smb_export(stp, sp); return (0); } int smbios_lookup_type(smbios_hdl_t *shp, uint_t type, smbios_struct_t *sp) { const smb_struct_t *stp = smb_lookup_type(shp, type); if (stp == NULL) return (-1); /* errno is set for us */ if (sp != NULL) (void) smb_export(stp, sp); return (0); } int smbios_iter(smbios_hdl_t *shp, smbios_struct_f *func, void *data) { const smb_struct_t *sp = shp->sh_structs; smbios_struct_t s; int i, rv = 0; for (i = 0; i < shp->sh_nstructs; i++, sp++) { if (sp->smbst_hdr->smbh_type != SMB_TYPE_INACTIVE && (rv = func(shp, smb_export(sp, &s), data)) != 0) break; } return (rv); } const smb_struct_t * smb_lookup_type(smbios_hdl_t *shp, uint_t type) { uint_t i; for (i = 0; i < shp->sh_nstructs; i++) { if (shp->sh_structs[i].smbst_hdr->smbh_type == type) return (&shp->sh_structs[i]); } (void) smb_set_errno(shp, ESMB_NOENT); return (NULL); } const smb_struct_t * smb_lookup_id(smbios_hdl_t *shp, uint_t id) { const smb_struct_t *stp = shp->sh_hash[id & (shp->sh_hashlen - 1)]; switch (id) { case SMB_ID_NOTSUP: (void) smb_set_errno(shp, ESMB_NOTSUP); return (NULL); case SMB_ID_NONE: (void) smb_set_errno(shp, ESMB_NOENT); return (NULL); } for (; stp != NULL; stp = stp->smbst_next) { if (stp->smbst_hdr->smbh_hdl == id) break; } if (stp == NULL) (void) smb_set_errno(shp, ESMB_NOENT); return (stp); } const char * smb_strptr(const smb_struct_t *stp, uint_t i) { if (i == 0 || i > stp->smbst_strtablen) return (_smb_emptystr); else return ((char *)stp->smbst_str + stp->smbst_strtab[i - 1]); } boolean_t smb_libgteq(smbios_hdl_t *shp, int version) { return (SMB_MAJOR(shp->sh_libvers) > SMB_MAJOR(version) || ( SMB_MAJOR(shp->sh_libvers) == SMB_MAJOR(version) && SMB_MINOR(shp->sh_libvers) >= SMB_MINOR(version))); } boolean_t smb_gteq(smbios_hdl_t *shp, int version) { return (SMB_MAJOR(shp->sh_smbvers) > SMB_MAJOR(version) || ( SMB_MAJOR(shp->sh_smbvers) == SMB_MAJOR(version) && SMB_MINOR(shp->sh_smbvers) >= SMB_MINOR(version))); } boolean_t smbios_truncated(smbios_hdl_t *shp) { return ((shp->sh_flags & SMB_FL_TRUNC) != 0); }