/* * 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 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define SMBIOS_SUCCESS 0 #define SMBIOS_ERROR 1 #define SMBIOS_USAGE 2 static const char *g_pname; static int g_hdr; static int opt_e; static int opt_i = -1; static int opt_O; static int opt_s; static int opt_t = -1; static int opt_x; /*PRINTFLIKE2*/ static void oprintf(FILE *fp, const char *format, ...) { va_list ap; va_start(ap, format); (void) vfprintf(fp, format, ap); va_end(ap); } /*PRINTFLIKE3*/ static void desc_printf(const char *d, FILE *fp, const char *format, ...) { va_list ap; va_start(ap, format); (void) vfprintf(fp, format, ap); va_end(ap); if (d != NULL) (void) fprintf(fp, " (%s)\n", d); else (void) fprintf(fp, "\n"); } static void flag_printf(FILE *fp, const char *s, uint_t flags, size_t bits, const char *(*flag_name)(uint_t), const char *(*flag_desc)(uint_t)) { size_t i; oprintf(fp, " %s: 0x%x\n", s, flags); for (i = 0; i < bits; i++) { uint_t f = 1 << i; const char *n; if (!(flags & f)) continue; if ((n = flag_name(f)) != NULL) desc_printf(flag_desc(f), fp, "\t%s", n); else desc_printf(flag_desc(f), fp, "\t0x%x", f); } } static void flag64_printf(FILE *fp, const char *s, uint64_t flags, size_t bits, const char *(*flag_name)(uint64_t), const char *(*flag_desc)(uint64_t)) { size_t i; oprintf(fp, " %s: 0x%llx\n", s, (u_longlong_t)flags); for (i = 0; i < bits; i++) { u_longlong_t f = 1ULL << i; const char *n; if (!(flags & f)) continue; if ((n = flag_name(f)) != NULL) desc_printf(flag_desc(f), fp, "\t%s", n); else desc_printf(flag_desc(f), fp, "\t0x%llx", f); } } static void id_printf(FILE *fp, const char *s, id_t id) { switch (id) { case SMB_ID_NONE: oprintf(fp, "%sNone\n", s); break; case SMB_ID_NOTSUP: oprintf(fp, "%sNot Supported\n", s); break; default: oprintf(fp, "%s%u\n", s, (uint_t)id); } } static int check_oem(smbios_hdl_t *shp) { int i; int cnt; int rv; id_t oem_id; smbios_struct_t s; const char **oem_str; rv = smbios_lookup_type(shp, SMB_TYPE_OEMSTR, &s); if (rv != 0) { return (-1); } oem_id = s.smbstr_id; cnt = smbios_info_strtab(shp, oem_id, 0, NULL); if (cnt > 0) { oem_str = alloca(sizeof (char *) * cnt); (void) smbios_info_strtab(shp, oem_id, cnt, oem_str); for (i = 0; i < cnt; i++) { if (strncmp(oem_str[i], SMB_PRMS1, strlen(SMB_PRMS1) + 1) == 0) { return (0); } } } return (-1); } static void print_smbios(smbios_hdl_t *shp, FILE *fp) { smbios_entry_t ep; int i; smbios_info_smbios(shp, &ep); oprintf(fp, "Entry Point Anchor Tag: %*.*s\n", (int)sizeof (ep.smbe_eanchor), (int)sizeof (ep.smbe_eanchor), ep.smbe_eanchor); oprintf(fp, "Entry Point Checksum: 0x%x\n", ep.smbe_ecksum); oprintf(fp, "Entry Point Length: %u\n", ep.smbe_elen); oprintf(fp, "Entry Point Version: %u.%u\n", ep.smbe_major, ep.smbe_minor); oprintf(fp, "Max Structure Size: %u\n", ep.smbe_maxssize); oprintf(fp, "Entry Point Revision: 0x%x\n", ep.smbe_revision); oprintf(fp, "Entry Point Revision Data:"); for (i = 0; i < sizeof (ep.smbe_format); i++) oprintf(fp, " 0x%02x", ep.smbe_format[i]); oprintf(fp, "\n"); oprintf(fp, "Intermediate Anchor Tag: %*.*s\n", (int)sizeof (ep.smbe_ianchor), (int)sizeof (ep.smbe_ianchor), ep.smbe_ianchor); oprintf(fp, "Intermediate Checksum: 0x%x\n", ep.smbe_icksum); oprintf(fp, "Structure Table Length: %u\n", ep.smbe_stlen); oprintf(fp, "Structure Table Address: 0x%x\n", ep.smbe_staddr); oprintf(fp, "Structure Table Entries: %u\n", ep.smbe_stnum); oprintf(fp, "DMI BCD Revision: 0x%x\n", ep.smbe_bcdrev); } static void print_common(const smbios_info_t *ip, FILE *fp) { if (ip->smbi_manufacturer[0] != '\0') oprintf(fp, " Manufacturer: %s\n", ip->smbi_manufacturer); if (ip->smbi_product[0] != '\0') oprintf(fp, " Product: %s\n", ip->smbi_product); if (ip->smbi_version[0] != '\0') oprintf(fp, " Version: %s\n", ip->smbi_version); if (ip->smbi_serial[0] != '\0') oprintf(fp, " Serial Number: %s\n", ip->smbi_serial); if (ip->smbi_asset[0] != '\0') oprintf(fp, " Asset Tag: %s\n", ip->smbi_asset); if (ip->smbi_location[0] != '\0') oprintf(fp, " Location Tag: %s\n", ip->smbi_location); if (ip->smbi_part[0] != '\0') oprintf(fp, " Part Number: %s\n", ip->smbi_part); } static void print_bios(smbios_hdl_t *shp, FILE *fp) { smbios_bios_t b; (void) smbios_info_bios(shp, &b); oprintf(fp, " Vendor: %s\n", b.smbb_vendor); oprintf(fp, " Version String: %s\n", b.smbb_version); oprintf(fp, " Release Date: %s\n", b.smbb_reldate); oprintf(fp, " Address Segment: 0x%x\n", b.smbb_segment); oprintf(fp, " ROM Size: %u bytes\n", b.smbb_romsize); oprintf(fp, " Image Size: %u bytes\n", b.smbb_runsize); flag64_printf(fp, "Characteristics", b.smbb_cflags, sizeof (b.smbb_cflags) * NBBY, smbios_bios_flag_name, smbios_bios_flag_desc); if (b.smbb_nxcflags > SMB_BIOSXB_1) { flag_printf(fp, "Characteristics Extension Byte 1", b.smbb_xcflags[SMB_BIOSXB_1], sizeof (b.smbb_xcflags[SMB_BIOSXB_1]) * NBBY, smbios_bios_xb1_name, smbios_bios_xb1_desc); } if (b.smbb_nxcflags > SMB_BIOSXB_2) { flag_printf(fp, "Characteristics Extension Byte 2", b.smbb_xcflags[SMB_BIOSXB_2], sizeof (b.smbb_xcflags[SMB_BIOSXB_2]) * NBBY, smbios_bios_xb2_name, smbios_bios_xb2_desc); } if (b.smbb_nxcflags > SMB_BIOSXB_BIOS_MIN) { oprintf(fp, " Version Number: %u.%u\n", b.smbb_biosv.smbv_major, b.smbb_biosv.smbv_minor); } if (b.smbb_nxcflags > SMB_BIOSXB_ECFW_MIN) { oprintf(fp, " Embedded Ctlr Firmware Version Number: %u.%u\n", b.smbb_ecfwv.smbv_major, b.smbb_ecfwv.smbv_minor); } } static void print_system(smbios_hdl_t *shp, FILE *fp) { smbios_system_t s; uint_t i; (void) smbios_info_system(shp, &s); oprintf(fp, " UUID: "); for (i = 0; i < s.smbs_uuidlen; i++) { oprintf(fp, "%02x", s.smbs_uuid[i]); if (i == 3 || i == 5 || i == 7 || i == 9) oprintf(fp, "-"); } oprintf(fp, "\n"); desc_printf(smbios_system_wakeup_desc(s.smbs_wakeup), fp, " Wake-Up Event: 0x%x", s.smbs_wakeup); oprintf(fp, " SKU Number: %s\n", s.smbs_sku); oprintf(fp, " Family: %s\n", s.smbs_family); } static void print_bboard(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_bboard_t b; int chdl_cnt; (void) smbios_info_bboard(shp, id, &b); oprintf(fp, " Chassis: %u\n", (uint_t)b.smbb_chassis); flag_printf(fp, "Flags", b.smbb_flags, sizeof (b.smbb_flags) * NBBY, smbios_bboard_flag_name, smbios_bboard_flag_desc); desc_printf(smbios_bboard_type_desc(b.smbb_type), fp, " Board Type: 0x%x", b.smbb_type); chdl_cnt = b.smbb_contn; if (chdl_cnt != 0) { id_t *chdl; uint16_t hdl; int i, n, cnt; chdl = alloca(chdl_cnt * sizeof (id_t)); cnt = smbios_info_contains(shp, id, chdl_cnt, chdl); if (cnt > SMB_CONT_MAX) return; n = MIN(chdl_cnt, cnt); oprintf(fp, "\n"); for (i = 0; i < n; i++) { hdl = (uint16_t)chdl[i]; oprintf(fp, " Contained Handle: %u\n", hdl); } } } static void print_chassis(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_chassis_t c; int elem_cnt; (void) smbios_info_chassis(shp, id, &c); oprintf(fp, " OEM Data: 0x%x\n", c.smbc_oemdata); oprintf(fp, " SKU number: %s\n", c.smbc_sku == NULL ? "" : c.smbc_sku); oprintf(fp, " Lock Present: %s\n", c.smbc_lock ? "Y" : "N"); desc_printf(smbios_chassis_type_desc(c.smbc_type), fp, " Chassis Type: 0x%x", c.smbc_type); desc_printf(smbios_chassis_state_desc(c.smbc_bustate), fp, " Boot-Up State: 0x%x", c.smbc_bustate); desc_printf(smbios_chassis_state_desc(c.smbc_psstate), fp, " Power Supply State: 0x%x", c.smbc_psstate); desc_printf(smbios_chassis_state_desc(c.smbc_thstate), fp, " Thermal State: 0x%x", c.smbc_thstate); oprintf(fp, " Chassis Height: %uu\n", c.smbc_uheight); oprintf(fp, " Power Cords: %u\n", c.smbc_cords); elem_cnt = c.smbc_elems; oprintf(fp, " Element Records: %u\n", elem_cnt); if (elem_cnt > 0) { id_t *elems; uint8_t type; int i, n, cnt; elems = alloca(c.smbc_elems * sizeof (id_t)); cnt = smbios_info_contains(shp, id, elem_cnt, elems); if (cnt > SMB_CONT_MAX) return; n = MIN(elem_cnt, cnt); oprintf(fp, "\n"); for (i = 0; i < n; i++) { type = (uint8_t)elems[i]; if (type & 0x80) { /* SMBIOS structrure Type */ desc_printf(smbios_type_name(type & 0x7f), fp, " Contained SMBIOS structure Type: %u", type & 0x80); } else { /* SMBIOS Base Board Type */ desc_printf(smbios_bboard_type_desc(type), fp, " Contained SMBIOS Base Board Type: 0x%x", type); } } } } static void print_processor(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_processor_t p; uint_t status; (void) smbios_info_processor(shp, id, &p); status = SMB_PRSTATUS_STATUS(p.smbp_status); desc_printf(smbios_processor_family_desc(p.smbp_family), fp, " Family: %u", p.smbp_family); if (p.smbp_family2 != 0) desc_printf(smbios_processor_family_desc(p.smbp_family2), fp, " Family Ext: %u", p.smbp_family2); oprintf(fp, " CPUID: 0x%llx\n", (u_longlong_t)p.smbp_cpuid); desc_printf(smbios_processor_type_desc(p.smbp_type), fp, " Type: %u", p.smbp_type); desc_printf(smbios_processor_upgrade_desc(p.smbp_upgrade), fp, " Socket Upgrade: %u", p.smbp_upgrade); oprintf(fp, " Socket Status: %s\n", SMB_PRSTATUS_PRESENT(p.smbp_status) ? "Populated" : "Not Populated"); desc_printf(smbios_processor_status_desc(status), fp, " Processor Status: %u", status); if (SMB_PRV_LEGACY(p.smbp_voltage)) { oprintf(fp, " Supported Voltages:"); switch (p.smbp_voltage) { case SMB_PRV_5V: oprintf(fp, " 5.0V"); break; case SMB_PRV_33V: oprintf(fp, " 3.3V"); break; case SMB_PRV_29V: oprintf(fp, " 2.9V"); break; } oprintf(fp, "\n"); } else { oprintf(fp, " Supported Voltages: %.1fV\n", (float)SMB_PRV_VOLTAGE(p.smbp_voltage) / 10); } if (p.smbp_corecount != 0) oprintf(fp, " Core Count: %u\n", p.smbp_corecount); else oprintf(fp, " Core Count: Unknown\n"); if (p.smbp_coresenabled != 0) oprintf(fp, " Cores Enabled: %u\n", p.smbp_coresenabled); else oprintf(fp, " Cores Enabled: Unknown\n"); if (p.smbp_threadcount != 0) oprintf(fp, " Thread Count: %u\n", p.smbp_threadcount); else oprintf(fp, " Thread Count: Unknown\n"); if (p.smbp_cflags) { flag_printf(fp, "Processor Characteristics", p.smbp_cflags, sizeof (p.smbp_cflags) * NBBY, smbios_processor_core_flag_name, smbios_processor_core_flag_desc); } if (p.smbp_clkspeed != 0) oprintf(fp, " External Clock Speed: %uMHz\n", p.smbp_clkspeed); else oprintf(fp, " External Clock Speed: Unknown\n"); if (p.smbp_maxspeed != 0) oprintf(fp, " Maximum Speed: %uMHz\n", p.smbp_maxspeed); else oprintf(fp, " Maximum Speed: Unknown\n"); if (p.smbp_curspeed != 0) oprintf(fp, " Current Speed: %uMHz\n", p.smbp_curspeed); else oprintf(fp, " Current Speed: Unknown\n"); id_printf(fp, " L1 Cache: ", p.smbp_l1cache); id_printf(fp, " L2 Cache: ", p.smbp_l2cache); id_printf(fp, " L3 Cache: ", p.smbp_l3cache); } static void print_cache(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_cache_t c; (void) smbios_info_cache(shp, id, &c); oprintf(fp, " Level: %u\n", c.smba_level); oprintf(fp, " Maximum Installed Size: %u bytes\n", c.smba_maxsize); if (c.smba_size != 0) oprintf(fp, " Installed Size: %u bytes\n", c.smba_size); else oprintf(fp, " Installed Size: Not Installed\n"); if (c.smba_speed != 0) oprintf(fp, " Speed: %uns\n", c.smba_speed); else oprintf(fp, " Speed: Unknown\n"); flag_printf(fp, "Supported SRAM Types", c.smba_stype, sizeof (c.smba_stype) * NBBY, smbios_cache_ctype_name, smbios_cache_ctype_desc); desc_printf(smbios_cache_ctype_desc(c.smba_ctype), fp, " Current SRAM Type: 0x%x", c.smba_ctype); desc_printf(smbios_cache_ecc_desc(c.smba_etype), fp, " Error Correction Type: %u", c.smba_etype); desc_printf(smbios_cache_logical_desc(c.smba_ltype), fp, " Logical Cache Type: %u", c.smba_ltype); desc_printf(smbios_cache_assoc_desc(c.smba_assoc), fp, " Associativity: %u", c.smba_assoc); desc_printf(smbios_cache_mode_desc(c.smba_mode), fp, " Mode: %u", c.smba_mode); desc_printf(smbios_cache_loc_desc(c.smba_location), fp, " Location: %u", c.smba_location); flag_printf(fp, "Flags", c.smba_flags, sizeof (c.smba_flags) * NBBY, smbios_cache_flag_name, smbios_cache_flag_desc); } static void print_port(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_port_t p; (void) smbios_info_port(shp, id, &p); oprintf(fp, " Internal Reference Designator: %s\n", p.smbo_iref); oprintf(fp, " External Reference Designator: %s\n", p.smbo_eref); desc_printf(smbios_port_conn_desc(p.smbo_itype), fp, " Internal Connector Type: %u", p.smbo_itype); desc_printf(smbios_port_conn_desc(p.smbo_etype), fp, " External Connector Type: %u", p.smbo_etype); desc_printf(smbios_port_type_desc(p.smbo_ptype), fp, " Port Type: %u", p.smbo_ptype); } static void print_slot(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_slot_t s; smbios_entry_t e; (void) smbios_info_slot(shp, id, &s); (void) smbios_info_smbios(shp, &e); oprintf(fp, " Reference Designator: %s\n", s.smbl_name); oprintf(fp, " Slot ID: 0x%x\n", s.smbl_id); desc_printf(smbios_slot_type_desc(s.smbl_type), fp, " Type: 0x%x", s.smbl_type); desc_printf(smbios_slot_width_desc(s.smbl_width), fp, " Width: 0x%x", s.smbl_width); desc_printf(smbios_slot_usage_desc(s.smbl_usage), fp, " Usage: 0x%x", s.smbl_usage); desc_printf(smbios_slot_length_desc(s.smbl_length), fp, " Length: 0x%x", s.smbl_length); flag_printf(fp, "Slot Characteristics 1", s.smbl_ch1, sizeof (s.smbl_ch1) * NBBY, smbios_slot_ch1_name, smbios_slot_ch1_desc); flag_printf(fp, "Slot Characteristics 2", s.smbl_ch2, sizeof (s.smbl_ch2) * NBBY, smbios_slot_ch2_name, smbios_slot_ch2_desc); if (check_oem(shp) != 0 && (e.smbe_major < 2 || e.smbe_minor < 6)) return; oprintf(fp, " Segment Group: %u\n", s.smbl_sg); oprintf(fp, " Bus Number: %u\n", s.smbl_bus); oprintf(fp, " Device/Function Number: %u\n", s.smbl_df); } static void print_obdevs_ext(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_obdev_ext_t oe; (void) smbios_info_obdevs_ext(shp, id, &oe); oprintf(fp, " Reference Designator: %s\n", oe.smboe_name); oprintf(fp, " Device Type: %u\n", oe.smboe_dtype); oprintf(fp, " Device Type Instance: %u\n", oe.smboe_dti); oprintf(fp, " Segment Group Number: %u\n", oe.smboe_sg); oprintf(fp, " Bus Number: %u\n", oe.smboe_bus); oprintf(fp, " Device/Function Number: %u\n", oe.smboe_df); } static void print_obdevs(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_obdev_t *argv; int i, argc; if ((argc = smbios_info_obdevs(shp, id, 0, NULL)) > 0) { argv = alloca(sizeof (smbios_obdev_t) * argc); (void) smbios_info_obdevs(shp, id, argc, argv); for (i = 0; i < argc; i++) oprintf(fp, " %s\n", argv[i].smbd_name); } } static void print_strtab(smbios_hdl_t *shp, id_t id, FILE *fp) { const char **argv; int i, argc; if ((argc = smbios_info_strtab(shp, id, 0, NULL)) > 0) { argv = alloca(sizeof (char *) * argc); (void) smbios_info_strtab(shp, id, argc, argv); for (i = 0; i < argc; i++) oprintf(fp, " %s\n", argv[i]); } } static void print_lang(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_lang_t l; (void) smbios_info_lang(shp, &l); oprintf(fp, " Current Language: %s\n", l.smbla_cur); oprintf(fp, " Language String Format: %u\n", l.smbla_fmt); oprintf(fp, " Number of Installed Languages: %u\n", l.smbla_num); oprintf(fp, " Installed Languages:\n"); print_strtab(shp, id, fp); } /*ARGSUSED*/ static void print_evlog(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_evlog_t ev; uint32_t i; (void) smbios_info_eventlog(shp, &ev); oprintf(fp, " Log Area Size: %lu bytes\n", (ulong_t)ev.smbev_size); oprintf(fp, " Header Offset: %lu\n", (ulong_t)ev.smbev_hdr); oprintf(fp, " Data Offset: %lu\n", (ulong_t)ev.smbev_data); desc_printf(smbios_evlog_method_desc(ev.smbev_method), fp, " Data Access Method: %u", ev.smbev_method); flag_printf(fp, "Log Flags", ev.smbev_flags, sizeof (ev.smbev_flags) * NBBY, smbios_evlog_flag_name, smbios_evlog_flag_desc); desc_printf(smbios_evlog_format_desc(ev.smbev_format), fp, " Log Header Format: %u", ev.smbev_format); oprintf(fp, " Update Token: 0x%x\n", ev.smbev_token); oprintf(fp, " Data Access Address: "); switch (ev.smbev_method) { case SMB_EVM_1x1i_1x1d: case SMB_EVM_2x1i_1x1d: case SMB_EVM_1x2i_1x1d: oprintf(fp, "Index Address 0x%x, Data Address 0x%x\n", ev.smbev_addr.eva_io.evi_iaddr, ev.smbev_addr.eva_io.evi_daddr); break; case SMB_EVM_GPNV: oprintf(fp, "0x%x\n", ev.smbev_addr.eva_gpnv); break; default: oprintf(fp, "0x%x\n", ev.smbev_addr.eva_addr); } oprintf(fp, " Type Descriptors:\n"); for (i = 0; i < ev.smbev_typec; i++) { oprintf(fp, " %u: Log Type 0x%x, Data Type 0x%x\n", i, ev.smbev_typev[i].smbevt_ltype, ev.smbev_typev[i].smbevt_dtype); } } static void print_bytes(const uint8_t *data, size_t size, FILE *fp) { size_t row, rows = P2ROUNDUP(size, 16) / 16; size_t col, cols; char buf[17]; uint8_t x; oprintf(fp, "\n offset: 0 1 2 3 4 5 6 7 8 9 a b c d e f " "0123456789abcdef\n"); for (row = 0; row < rows; row++) { oprintf(fp, " %#4lx: ", (ulong_t)row * 16); cols = MIN(size - row * 16, 16); for (col = 0; col < cols; col++) { if (col % 4 == 0) oprintf(fp, " "); x = *data++; oprintf(fp, "%02x", x); buf[col] = x <= ' ' || x > '~' ? '.' : x; } for (; col < 16; col++) { if (col % 4 == 0) oprintf(fp, " "); oprintf(fp, " "); buf[col] = ' '; } buf[col] = '\0'; oprintf(fp, " %s\n", buf); } oprintf(fp, "\n"); } static void print_memarray(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_memarray_t ma; (void) smbios_info_memarray(shp, id, &ma); desc_printf(smbios_memarray_loc_desc(ma.smbma_location), fp, " Location: %u", ma.smbma_location); desc_printf(smbios_memarray_use_desc(ma.smbma_use), fp, " Use: %u", ma.smbma_use); desc_printf(smbios_memarray_ecc_desc(ma.smbma_ecc), fp, " ECC: %u", ma.smbma_ecc); oprintf(fp, " Number of Slots/Sockets: %u\n", ma.smbma_ndevs); id_printf(fp, " Memory Error Data: ", ma.smbma_err); oprintf(fp, " Max Capacity: %llu bytes\n", (u_longlong_t)ma.smbma_size); } static void print_memdevice(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_memdevice_t md; (void) smbios_info_memdevice(shp, id, &md); id_printf(fp, " Physical Memory Array: ", md.smbmd_array); id_printf(fp, " Memory Error Data: ", md.smbmd_error); if (md.smbmd_twidth != -1u) oprintf(fp, " Total Width: %u bits\n", md.smbmd_twidth); else oprintf(fp, " Total Width: Unknown\n"); if (md.smbmd_dwidth != -1u) oprintf(fp, " Data Width: %u bits\n", md.smbmd_dwidth); else oprintf(fp, " Data Width: Unknown\n"); switch (md.smbmd_size) { case -1ull: oprintf(fp, " Size: Unknown\n"); break; case 0: oprintf(fp, " Size: Not Populated\n"); break; default: oprintf(fp, " Size: %llu bytes\n", (u_longlong_t)md.smbmd_size); } desc_printf(smbios_memdevice_form_desc(md.smbmd_form), fp, " Form Factor: %u", md.smbmd_form); if (md.smbmd_set == 0) oprintf(fp, " Set: None\n"); else if (md.smbmd_set == (uint8_t)-1u) oprintf(fp, " Set: Unknown\n"); else oprintf(fp, " Set: %u\n", md.smbmd_set); if (md.smbmd_rank != 0) { desc_printf(smbios_memdevice_rank_desc(md.smbmd_rank), fp, " Rank: %u", md.smbmd_rank); } else { oprintf(fp, " Rank: Unknown\n"); } desc_printf(smbios_memdevice_type_desc(md.smbmd_type), fp, " Memory Type: %u", md.smbmd_type); flag_printf(fp, "Flags", md.smbmd_flags, sizeof (md.smbmd_flags) * NBBY, smbios_memdevice_flag_name, smbios_memdevice_flag_desc); if (md.smbmd_speed != 0) oprintf(fp, " Speed: %u MHz\n", md.smbmd_speed); else oprintf(fp, " Speed: Unknown\n"); if (md.smbmd_clkspeed != 0) oprintf(fp, " Configured Speed: %u MHz\n", md.smbmd_clkspeed); else oprintf(fp, " Configured Speed: Unknown\n"); oprintf(fp, " Device Locator: %s\n", md.smbmd_dloc); oprintf(fp, " Bank Locator: %s\n", md.smbmd_bloc); if (md.smbmd_minvolt != 0) { oprintf(fp, " Minimum Voltage: %.2fV\n", md.smbmd_minvolt / 1000.0); } else { oprintf(fp, " Minimum Voltage: Unknown\n"); } if (md.smbmd_maxvolt != 0) { oprintf(fp, " Maximum Voltage: %.2fV\n", md.smbmd_maxvolt / 1000.0); } else { oprintf(fp, " Maximum Voltage: Unknown\n"); } if (md.smbmd_confvolt != 0) { oprintf(fp, " Configured Voltage: %.2fV\n", md.smbmd_confvolt / 1000.0); } else { oprintf(fp, " Configured Voltage: Unknown\n"); } } static void print_memarrmap(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_memarrmap_t ma; (void) smbios_info_memarrmap(shp, id, &ma); id_printf(fp, " Physical Memory Array: ", ma.smbmam_array); oprintf(fp, " Devices per Row: %u\n", ma.smbmam_width); oprintf(fp, " Physical Address: 0x%llx\n Size: %llu bytes\n", (u_longlong_t)ma.smbmam_addr, (u_longlong_t)ma.smbmam_size); } static void print_memdevmap(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_memdevmap_t md; (void) smbios_info_memdevmap(shp, id, &md); id_printf(fp, " Memory Device: ", md.smbmdm_device); id_printf(fp, " Memory Array Mapped Address: ", md.smbmdm_arrmap); oprintf(fp, " Physical Address: 0x%llx\n Size: %llu bytes\n", (u_longlong_t)md.smbmdm_addr, (u_longlong_t)md.smbmdm_size); oprintf(fp, " Partition Row Position: %u\n", md.smbmdm_rpos); oprintf(fp, " Interleave Position: %u\n", md.smbmdm_ipos); oprintf(fp, " Interleave Data Depth: %u\n", md.smbmdm_idepth); } static void print_hwsec(smbios_hdl_t *shp, FILE *fp) { smbios_hwsec_t h; (void) smbios_info_hwsec(shp, &h); desc_printf(smbios_hwsec_desc(h.smbh_pwr_ps), fp, " Power-On Password Status: %u", h.smbh_pwr_ps); desc_printf(smbios_hwsec_desc(h.smbh_kbd_ps), fp, " Keyboard Password Status: %u", h.smbh_kbd_ps); desc_printf(smbios_hwsec_desc(h.smbh_adm_ps), fp, " Administrator Password Status: %u", h.smbh_adm_ps); desc_printf(smbios_hwsec_desc(h.smbh_pan_ps), fp, " Front Panel Reset Status: %u", h.smbh_pan_ps); } static void print_boot(smbios_hdl_t *shp, FILE *fp) { smbios_boot_t b; (void) smbios_info_boot(shp, &b); desc_printf(smbios_boot_desc(b.smbt_status), fp, " Boot Status Code: 0x%x", b.smbt_status); if (b.smbt_size != 0) { oprintf(fp, " Boot Data (%lu bytes):\n", (ulong_t)b.smbt_size); print_bytes(b.smbt_data, b.smbt_size, fp); } } static void print_ipmi(smbios_hdl_t *shp, FILE *fp) { smbios_ipmi_t i; (void) smbios_info_ipmi(shp, &i); desc_printf(smbios_ipmi_type_desc(i.smbip_type), fp, " Type: %u", i.smbip_type); oprintf(fp, " BMC IPMI Version: %u.%u\n", i.smbip_vers.smbv_major, i.smbip_vers.smbv_minor); oprintf(fp, " i2c Bus Slave Address: 0x%x\n", i.smbip_i2c); oprintf(fp, " NV Storage Device Bus ID: 0x%x\n", i.smbip_bus); oprintf(fp, " BMC Base Address: 0x%llx\n", (u_longlong_t)i.smbip_addr); oprintf(fp, " Interrupt Number: %u\n", i.smbip_intr); oprintf(fp, " Register Spacing: %u\n", i.smbip_regspacing); flag_printf(fp, "Flags", i.smbip_flags, sizeof (i.smbip_flags) * NBBY, smbios_ipmi_flag_name, smbios_ipmi_flag_desc); } static void print_extprocessor(smbios_hdl_t *shp, id_t id, FILE *fp) { int i; smbios_processor_ext_t ep; if (check_oem(shp) != 0) return; (void) smbios_info_extprocessor(shp, id, &ep); oprintf(fp, " Processor: %u\n", ep.smbpe_processor); oprintf(fp, " FRU: %u\n", ep.smbpe_fru); oprintf(fp, " Initial APIC ID count: %u\n\n", ep.smbpe_n); for (i = 0; i < ep.smbpe_n; i++) { oprintf(fp, " Logical Strand %u: Initial APIC ID: %u\n", i, ep.smbpe_apicid[i]); } } static void print_extport(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_port_ext_t epo; if (check_oem(shp) != 0) return; (void) smbios_info_extport(shp, id, &epo); oprintf(fp, " Chassis Handle: %u\n", epo.smbporte_chassis); oprintf(fp, " Port Connector Handle: %u\n", epo.smbporte_port); oprintf(fp, " Device Type: %u\n", epo.smbporte_dtype); oprintf(fp, " Device Handle: %u\n", epo.smbporte_devhdl); oprintf(fp, " PHY: %u\n", epo.smbporte_phy); } static void print_pciexrc(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_pciexrc_t pcie; if (check_oem(shp) != 0) return; (void) smbios_info_pciexrc(shp, id, &pcie); oprintf(fp, " Component ID: %u\n", pcie.smbpcie_bb); oprintf(fp, " BDF: 0x%x\n", pcie.smbpcie_bdf); } static void print_extmemarray(smbios_hdl_t *shp, id_t id, FILE *fp) { smbios_memarray_ext_t em; if (check_oem(shp) != 0) return; (void) smbios_info_extmemarray(shp, id, &em); oprintf(fp, " Physical Memory Array Handle: %u\n", em.smbmae_ma); oprintf(fp, " Component Parent Handle: %u\n", em.smbmae_comp); oprintf(fp, " BDF: 0x%x\n", em.smbmae_bdf); } static void print_extmemdevice(smbios_hdl_t *shp, id_t id, FILE *fp) { int i; smbios_memdevice_ext_t emd; if (check_oem(shp) != 0) return; (void) smbios_info_extmemdevice(shp, id, &emd); oprintf(fp, " Memory Device Handle: %u\n", emd.smbmdeve_md); oprintf(fp, " DRAM Channel: %u\n", emd.smbmdeve_drch); oprintf(fp, " Number of Chip Selects: %u\n", emd.smbmdeve_ncs); for (i = 0; i < emd.smbmdeve_ncs; i++) { oprintf(fp, " Chip Select: %u\n", emd.smbmdeve_cs[i]); } } static int print_struct(smbios_hdl_t *shp, const smbios_struct_t *sp, void *fp) { smbios_info_t info; int hex = opt_x; const char *s; if (opt_t != -1 && opt_t != sp->smbstr_type) return (0); /* skip struct if type doesn't match -t */ if (!opt_O && (sp->smbstr_type == SMB_TYPE_MEMCTL || sp->smbstr_type == SMB_TYPE_MEMMOD)) return (0); /* skip struct if type is obsolete */ if (g_hdr++ == 0 || !opt_s) oprintf(fp, "%-5s %-4s %s\n", "ID", "SIZE", "TYPE"); oprintf(fp, "%-5u %-4lu", (uint_t)sp->smbstr_id, (ulong_t)sp->smbstr_size); if ((s = smbios_type_name(sp->smbstr_type)) != NULL) oprintf(fp, " %s (type %u)", s, sp->smbstr_type); else if (sp->smbstr_type > SMB_TYPE_OEM_LO && sp->smbstr_type < SMB_TYPE_OEM_HI) oprintf(fp, " %s+%u (type %u)", "SMB_TYPE_OEM_LO", sp->smbstr_type - SMB_TYPE_OEM_LO, sp->smbstr_type); else oprintf(fp, " %u", sp->smbstr_type); if ((s = smbios_type_desc(sp->smbstr_type)) != NULL) oprintf(fp, " (%s)\n", s); else oprintf(fp, "\n"); if (opt_s) return (0); /* only print header line if -s specified */ if (smbios_info_common(shp, sp->smbstr_id, &info) == 0) { oprintf(fp, "\n"); print_common(&info, fp); } switch (sp->smbstr_type) { case SMB_TYPE_BIOS: oprintf(fp, "\n"); print_bios(shp, fp); break; case SMB_TYPE_SYSTEM: oprintf(fp, "\n"); print_system(shp, fp); break; case SMB_TYPE_BASEBOARD: oprintf(fp, "\n"); print_bboard(shp, sp->smbstr_id, fp); break; case SMB_TYPE_CHASSIS: oprintf(fp, "\n"); print_chassis(shp, sp->smbstr_id, fp); break; case SMB_TYPE_PROCESSOR: oprintf(fp, "\n"); print_processor(shp, sp->smbstr_id, fp); break; case SMB_TYPE_CACHE: oprintf(fp, "\n"); print_cache(shp, sp->smbstr_id, fp); break; case SMB_TYPE_PORT: oprintf(fp, "\n"); print_port(shp, sp->smbstr_id, fp); break; case SMB_TYPE_SLOT: oprintf(fp, "\n"); print_slot(shp, sp->smbstr_id, fp); break; case SMB_TYPE_OBDEVS: oprintf(fp, "\n"); print_obdevs(shp, sp->smbstr_id, fp); break; case SMB_TYPE_OEMSTR: case SMB_TYPE_SYSCONFSTR: oprintf(fp, "\n"); print_strtab(shp, sp->smbstr_id, fp); break; case SMB_TYPE_LANG: oprintf(fp, "\n"); print_lang(shp, sp->smbstr_id, fp); break; case SMB_TYPE_EVENTLOG: oprintf(fp, "\n"); print_evlog(shp, sp->smbstr_id, fp); break; case SMB_TYPE_MEMARRAY: oprintf(fp, "\n"); print_memarray(shp, sp->smbstr_id, fp); break; case SMB_TYPE_MEMDEVICE: oprintf(fp, "\n"); print_memdevice(shp, sp->smbstr_id, fp); break; case SMB_TYPE_MEMARRAYMAP: oprintf(fp, "\n"); print_memarrmap(shp, sp->smbstr_id, fp); break; case SMB_TYPE_MEMDEVICEMAP: oprintf(fp, "\n"); print_memdevmap(shp, sp->smbstr_id, fp); break; case SMB_TYPE_SECURITY: oprintf(fp, "\n"); print_hwsec(shp, fp); break; case SMB_TYPE_BOOT: oprintf(fp, "\n"); print_boot(shp, fp); break; case SMB_TYPE_IPMIDEV: oprintf(fp, "\n"); print_ipmi(shp, fp); break; case SMB_TYPE_OBDEVEXT: oprintf(fp, "\n"); print_obdevs_ext(shp, sp->smbstr_id, fp); break; case SUN_OEM_EXT_PROCESSOR: oprintf(fp, "\n"); print_extprocessor(shp, sp->smbstr_id, fp); break; case SUN_OEM_EXT_PORT: oprintf(fp, "\n"); print_extport(shp, sp->smbstr_id, fp); break; case SUN_OEM_PCIEXRC: oprintf(fp, "\n"); print_pciexrc(shp, sp->smbstr_id, fp); break; case SUN_OEM_EXT_MEMARRAY: oprintf(fp, "\n"); print_extmemarray(shp, sp->smbstr_id, fp); break; case SUN_OEM_EXT_MEMDEVICE: oprintf(fp, "\n"); print_extmemdevice(shp, sp->smbstr_id, fp); break; default: hex++; } if (hex) print_bytes(sp->smbstr_data, sp->smbstr_size, fp); else oprintf(fp, "\n"); return (0); } static uint16_t getu16(const char *name, const char *s) { u_longlong_t val; char *p; errno = 0; val = strtoull(s, &p, 0); if (errno != 0 || p == s || *p != '\0' || val > UINT16_MAX) { (void) fprintf(stderr, "%s: invalid %s argument -- %s\n", g_pname, name, s); exit(SMBIOS_USAGE); } return ((uint16_t)val); } static uint16_t getstype(const char *name, const char *s) { const char *ts; uint16_t t; for (t = 0; t < SMB_TYPE_OEM_LO; t++) { if ((ts = smbios_type_name(t)) != NULL && strcmp(s, ts) == 0) return (t); } (void) fprintf(stderr, "%s: invalid %s argument -- %s\n", g_pname, name, s); exit(SMBIOS_USAGE); /*NOTREACHED*/ } static int usage(FILE *fp) { (void) fprintf(fp, "Usage: %s " "[-BeOsx] [-i id] [-t type] [-w file] [file]\n\n", g_pname); (void) fprintf(fp, "\t-B disable header validation for broken BIOSes\n" "\t-e display SMBIOS entry point information\n" "\t-i display only the specified structure\n" "\t-O display obsolete structure types\n" "\t-s display only a summary of structure identifiers and types\n" "\t-t display only the specified structure type\n" "\t-w write the raw data to the specified file\n" "\t-x display raw data for structures\n"); return (SMBIOS_USAGE); } int main(int argc, char *argv[]) { const char *ifile = NULL; const char *ofile = NULL; int oflags = 0; smbios_hdl_t *shp; smbios_struct_t s; int err, fd, c; char *p; if ((p = strrchr(argv[0], '/')) == NULL) g_pname = argv[0]; else g_pname = p + 1; while (optind < argc) { while ((c = getopt(argc, argv, "Bei:Ost:w:xZ")) != EOF) { switch (c) { case 'B': oflags |= SMB_O_NOCKSUM | SMB_O_NOVERS; break; case 'e': opt_e++; break; case 'i': opt_i = getu16("struct ID", optarg); break; case 'O': opt_O++; break; case 's': opt_s++; break; case 't': if (isdigit(optarg[0])) opt_t = getu16("struct type", optarg); else opt_t = getstype("struct type", optarg); break; case 'w': ofile = optarg; break; case 'x': opt_x++; break; case 'Z': oflags |= SMB_O_ZIDS; /* undocumented */ break; default: return (usage(stderr)); } } if (optind < argc) { if (ifile != NULL) { (void) fprintf(stderr, "%s: illegal " "argument -- %s\n", g_pname, argv[optind]); return (SMBIOS_USAGE); } ifile = argv[optind++]; } } if ((shp = smbios_open(ifile, SMB_VERSION, oflags, &err)) == NULL) { (void) fprintf(stderr, "%s: failed to load SMBIOS: %s\n", g_pname, smbios_errmsg(err)); return (SMBIOS_ERROR); } if (ofile != NULL) { if ((fd = open(ofile, O_WRONLY|O_CREAT|O_TRUNC, 0666)) == -1) { (void) fprintf(stderr, "%s: failed to open %s: %s\n", g_pname, ofile, strerror(errno)); err = SMBIOS_ERROR; } else if (smbios_write(shp, fd) != 0) { (void) fprintf(stderr, "%s: failed to write %s: %s\n", g_pname, ofile, smbios_errmsg(smbios_errno(shp))); err = SMBIOS_ERROR; } smbios_close(shp); return (err); } if (opt_e) { print_smbios(shp, stdout); smbios_close(shp); return (SMBIOS_SUCCESS); } if (opt_O && (opt_i != -1 || opt_t != -1)) opt_O++; /* -i or -t imply displaying obsolete records */ if (opt_i != -1) err = smbios_lookup_id(shp, opt_i, &s); else err = smbios_iter(shp, print_struct, stdout); if (err != 0) { (void) fprintf(stderr, "%s: failed to access SMBIOS: %s\n", g_pname, smbios_errmsg(smbios_errno(shp))); smbios_close(shp); return (SMBIOS_ERROR); } if (opt_i != -1) (void) print_struct(shp, &s, stdout); smbios_close(shp); return (SMBIOS_SUCCESS); }