103831d35Sstevel /*
203831d35Sstevel * CDDL HEADER START
303831d35Sstevel *
403831d35Sstevel * The contents of this file are subject to the terms of the
503831d35Sstevel * Common Development and Distribution License, Version 1.0 only
603831d35Sstevel * (the "License"). You may not use this file except in compliance
703831d35Sstevel * with the License.
803831d35Sstevel *
903831d35Sstevel * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
1003831d35Sstevel * or http://www.opensolaris.org/os/licensing.
1103831d35Sstevel * See the License for the specific language governing permissions
1203831d35Sstevel * and limitations under the License.
1303831d35Sstevel *
1403831d35Sstevel * When distributing Covered Code, include this CDDL HEADER in each
1503831d35Sstevel * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
1603831d35Sstevel * If applicable, add the following below this CDDL HEADER, with the
1703831d35Sstevel * fields enclosed by brackets "[]" replaced with your own identifying
1803831d35Sstevel * information: Portions Copyright [yyyy] [name of copyright owner]
1903831d35Sstevel *
2003831d35Sstevel * CDDL HEADER END
2103831d35Sstevel */
2203831d35Sstevel /*
2303831d35Sstevel * Copyright 1999-2002 Sun Microsystems, Inc. All rights reserved.
2403831d35Sstevel * Use is subject to license terms.
25*2bcbf80cSPeter Tribble * Copyright 2020 Peter Tribble.
2603831d35Sstevel *
2703831d35Sstevel * Javelin Platform specific functions.
2803831d35Sstevel *
29aa5636e5SPeter Tribble * called when :
30aa5636e5SPeter Tribble * machine_type == MTYPE_JAVELIN
3103831d35Sstevel *
3203831d35Sstevel */
3303831d35Sstevel
3403831d35Sstevel #include <stdio.h>
3503831d35Sstevel #include <stdlib.h>
3603831d35Sstevel #include <unistd.h>
3703831d35Sstevel #include <ctype.h>
3803831d35Sstevel #include <string.h>
3903831d35Sstevel #include <kvm.h>
4003831d35Sstevel #include <varargs.h>
4103831d35Sstevel #include <errno.h>
4203831d35Sstevel #include <time.h>
4303831d35Sstevel #include <dirent.h>
4403831d35Sstevel #include <fcntl.h>
4503831d35Sstevel #include <sys/param.h>
4603831d35Sstevel #include <sys/stat.h>
4703831d35Sstevel #include <sys/types.h>
4803831d35Sstevel #include <sys/utsname.h>
4903831d35Sstevel #include <sys/openpromio.h>
5003831d35Sstevel #include <kstat.h>
5103831d35Sstevel #include <libintl.h>
5203831d35Sstevel #include <syslog.h>
5303831d35Sstevel #include <sys/dkio.h>
5403831d35Sstevel #include "pdevinfo.h"
5503831d35Sstevel #include "display.h"
5603831d35Sstevel #include "pdevinfo_sun4u.h"
5703831d35Sstevel #include "display_sun4u.h"
5803831d35Sstevel #include "libprtdiag.h"
5903831d35Sstevel
6003831d35Sstevel #if !defined(TEXT_DOMAIN)
6103831d35Sstevel #define TEXT_DOMAIN "SYS_TEST"
6203831d35Sstevel #endif
6303831d35Sstevel
6403831d35Sstevel extern int print_flag;
6503831d35Sstevel
6603831d35Sstevel /*
6703831d35Sstevel * these functions will overlay the symbol table of libprtdiag
6803831d35Sstevel * at runtime (workgroup server systems only)
6903831d35Sstevel */
7003831d35Sstevel int error_check(Sys_tree *tree, struct system_kstat_data *kstats);
71*2bcbf80cSPeter Tribble void display_memoryconf(Sys_tree *tree);
7203831d35Sstevel int disp_fail_parts(Sys_tree *tree);
7303831d35Sstevel void display_hp_fail_fault(Sys_tree *tree, struct system_kstat_data *kstats);
7403831d35Sstevel void display_diaginfo(int flag, Prom_node *root, Sys_tree *tree,
7503831d35Sstevel struct system_kstat_data *kstats);
7603831d35Sstevel void display_boardnum(int num);
77aa5636e5SPeter Tribble void display_pci(Board_node *);
7803831d35Sstevel void display_io_cards(struct io_card *list);
79aa5636e5SPeter Tribble void display_ffb(Board_node *, int);
8003831d35Sstevel void read_platform_kstats(Sys_tree *tree,
8103831d35Sstevel struct system_kstat_data *sys_kstat,
82*2bcbf80cSPeter Tribble struct envctrl_kstat_data *ep);
8303831d35Sstevel
8403831d35Sstevel /* local functions */
8503831d35Sstevel static int disp_envc_status(struct system_kstat_data *);
8603831d35Sstevel static void tazjav_disp_asic_revs(Sys_tree *);
87aa5636e5SPeter Tribble static int tazmo_physical_slot(Prom_node *, Prom_node *, int, char *);
8803831d35Sstevel static Prom_node *dev_next_node_sibling(Prom_node *root, char *name);
8903831d35Sstevel
9003831d35Sstevel
9103831d35Sstevel int
error_check(Sys_tree * tree,struct system_kstat_data * kstats)9203831d35Sstevel error_check(Sys_tree *tree, struct system_kstat_data *kstats)
9303831d35Sstevel {
9403831d35Sstevel int exit_code = 0; /* init to all OK */
9503831d35Sstevel
9603831d35Sstevel #ifdef lint
9703831d35Sstevel kstats = kstats;
9803831d35Sstevel #endif
9903831d35Sstevel /*
10003831d35Sstevel * silently check for any types of machine errors
10103831d35Sstevel */
10203831d35Sstevel print_flag = 0;
10303831d35Sstevel if (disp_fail_parts(tree) || disp_envc_status(kstats)) {
10403831d35Sstevel /* set exit_code to show failures */
10503831d35Sstevel exit_code = 1;
10603831d35Sstevel }
10703831d35Sstevel print_flag = 1;
10803831d35Sstevel
10903831d35Sstevel return (exit_code);
11003831d35Sstevel }
11103831d35Sstevel
11203831d35Sstevel /* Search for and return the node's sibling */
11303831d35Sstevel static Prom_node *
dev_next_node_sibling(Prom_node * root,char * name)11403831d35Sstevel dev_next_node_sibling(Prom_node *root, char *name)
11503831d35Sstevel {
11603831d35Sstevel if (root == NULL)
11703831d35Sstevel return (NULL);
11803831d35Sstevel
11903831d35Sstevel /* look at your siblings */
12003831d35Sstevel if (dev_find_node(root->sibling, name) != NULL)
12103831d35Sstevel return (root->sibling);
12203831d35Sstevel
12303831d35Sstevel return (NULL); /* not found */
12403831d35Sstevel }
12503831d35Sstevel
12603831d35Sstevel /*
12703831d35Sstevel * This function displays memory configurations specific to Tazmo/Javelin.
12803831d35Sstevel * The PROM device tree is read to obtain this information.
12903831d35Sstevel * Some of the information obtained is memory interleave factor,
13003831d35Sstevel * DIMM sizes, DIMM socket names.
13103831d35Sstevel */
13203831d35Sstevel void
display_memoryconf(Sys_tree * tree)133*2bcbf80cSPeter Tribble display_memoryconf(Sys_tree *tree)
13403831d35Sstevel {
13503831d35Sstevel Board_node *bnode;
13603831d35Sstevel Prom_node *memory;
13703831d35Sstevel Prom_node *bank;
13803831d35Sstevel Prom_node *dimm;
13903831d35Sstevel uint_t *preg;
14003831d35Sstevel uint_t interlv;
14103831d35Sstevel unsigned long size = 0;
14203831d35Sstevel int bank_count = 0;
14303831d35Sstevel char *sock_name;
14403831d35Sstevel char *status;
14503831d35Sstevel Prop *status_prop;
14603831d35Sstevel char interleave[8];
14703831d35Sstevel int total_size = 0;
14803831d35Sstevel
14903831d35Sstevel log_printf("\n", 0);
15003831d35Sstevel log_printf("=========================", 0);
15103831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, " Memory "), 0);
15203831d35Sstevel log_printf("=========================", 0);
15303831d35Sstevel log_printf("\n", 0);
15403831d35Sstevel log_printf("\n", 0);
15503831d35Sstevel bnode = tree->bd_list;
15603831d35Sstevel memory = dev_find_node(bnode->nodes, "memory");
15703831d35Sstevel preg = (uint_t *)(get_prop_val(find_prop(memory, "interleave")));
15803831d35Sstevel if (preg) {
15903831d35Sstevel interlv = preg[4];
16003831d35Sstevel log_printf("Memory Interleave Factor = %d-way\n\n", interlv, 0);
16103831d35Sstevel }
16203831d35Sstevel log_printf(" Interlv. Socket Size\n", 0);
16303831d35Sstevel log_printf("Bank Group Name (MB) Status\n", 0);
16403831d35Sstevel log_printf("---- ----- ------ ---- ------\n", 0);
16503831d35Sstevel
16603831d35Sstevel dimm = bnode->nodes;
16703831d35Sstevel for (bank = dev_find_node(bnode->nodes, "bank"); bank != NULL;
168aa5636e5SPeter Tribble bank = dev_next_node(bank, "bank")) {
16903831d35Sstevel int bank_size = 0;
17003831d35Sstevel uint_t *reg_prop;
17103831d35Sstevel
17203831d35Sstevel preg = (uint_t *)(get_prop_val(
173aa5636e5SPeter Tribble find_prop(bank, "bank-interleave")));
17403831d35Sstevel
17503831d35Sstevel reg_prop = (uint_t *)(get_prop_val(
176aa5636e5SPeter Tribble find_prop(bank, "reg")));
17703831d35Sstevel
17803831d35Sstevel /*
17903831d35Sstevel * Skip empty banks
18003831d35Sstevel */
18103831d35Sstevel if (((reg_prop[2]<<12) + (reg_prop[3]>>20)) == 0) {
18203831d35Sstevel bank_count++;
18303831d35Sstevel continue;
18403831d35Sstevel }
18503831d35Sstevel
18603831d35Sstevel if (preg) {
18703831d35Sstevel interlv = preg[2];
18803831d35Sstevel (void) sprintf(interleave, " %d ", interlv);
18903831d35Sstevel bank_size = (preg[0]<<12) + (preg[1]>>20);
19003831d35Sstevel } else {
19103831d35Sstevel (void) sprintf(interleave, "%s", "none");
19203831d35Sstevel preg = (uint_t *)(get_prop_val(find_prop(bank, "reg")));
19303831d35Sstevel if (preg) {
19403831d35Sstevel bank_size = (preg[2]<<12) + (preg[3]>>20);
19503831d35Sstevel }
19603831d35Sstevel }
19703831d35Sstevel for (dimm = dev_find_node(bank, "dimm"); dimm != NULL;
198aa5636e5SPeter Tribble dimm = dev_next_node_sibling(dimm, "dimm")) {
19903831d35Sstevel char dimm_status[16];
20003831d35Sstevel
20103831d35Sstevel sock_name = (char *)(get_prop_val(
202aa5636e5SPeter Tribble find_prop(dimm, "socket-name")));
20303831d35Sstevel preg = (uint_t *)(get_prop_val(find_prop(dimm, "reg")));
20403831d35Sstevel size = (preg[2]<<12) + (preg[3]>>20);
20503831d35Sstevel if ((status_prop = find_prop(dimm, "status")) == NULL) {
20603831d35Sstevel (void) sprintf(dimm_status, "%s", "OK");
20703831d35Sstevel } else {
20803831d35Sstevel status = (char *)(get_prop_val(status_prop));
20903831d35Sstevel (void) sprintf(dimm_status, "%s", status);
21003831d35Sstevel }
21103831d35Sstevel log_printf("%3d %5s %6s %4d %6s\n",
212aa5636e5SPeter Tribble bank_count, interleave, sock_name,
213aa5636e5SPeter Tribble size, dimm_status, 0);
21403831d35Sstevel }
21503831d35Sstevel total_size += bank_size;
21603831d35Sstevel bank_count++;
21703831d35Sstevel }
21803831d35Sstevel log_printf("\n", 0);
21903831d35Sstevel }
22003831d35Sstevel
22103831d35Sstevel /*
22203831d35Sstevel * disp_fail_parts
22303831d35Sstevel *
22403831d35Sstevel * Display the failed parts in the system. This function looks for
22503831d35Sstevel * the status property in all PROM nodes. On systems where
22603831d35Sstevel * the PROM does not supports passing diagnostic information
22703831d35Sstevel * thruogh the device tree, this routine will be silent.
22803831d35Sstevel */
22903831d35Sstevel int
disp_fail_parts(Sys_tree * tree)23003831d35Sstevel disp_fail_parts(Sys_tree *tree)
23103831d35Sstevel {
23203831d35Sstevel int exit_code;
23303831d35Sstevel int system_failed = 0;
23403831d35Sstevel Board_node *bnode = tree->bd_list;
23503831d35Sstevel Prom_node *pnode;
23603831d35Sstevel char *fru;
23703831d35Sstevel char *sock_name;
23803831d35Sstevel char slot_str[MAXSTRLEN];
23903831d35Sstevel
24003831d35Sstevel exit_code = 0;
24103831d35Sstevel
24203831d35Sstevel /* go through all of the boards looking for failed units. */
24303831d35Sstevel while (bnode != NULL) {
24403831d35Sstevel /* find failed chips */
24503831d35Sstevel pnode = find_failed_node(bnode->nodes);
24603831d35Sstevel if ((pnode != NULL) && !system_failed) {
24703831d35Sstevel system_failed = 1;
24803831d35Sstevel exit_code = 1;
24903831d35Sstevel if (print_flag == 0) {
25003831d35Sstevel return (exit_code);
25103831d35Sstevel }
25203831d35Sstevel log_printf("\n", 0);
25303831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "Failed Field "
254aa5636e5SPeter Tribble "Replaceable Units (FRU) in System:\n"), 0);
25503831d35Sstevel log_printf("=========================="
256aa5636e5SPeter Tribble "====================\n", 0);
25703831d35Sstevel }
25803831d35Sstevel
25903831d35Sstevel while (pnode != NULL) {
26003831d35Sstevel void *value;
26103831d35Sstevel char *name; /* node name string */
26203831d35Sstevel char *type; /* node type string */
26303831d35Sstevel
26403831d35Sstevel value = get_prop_val(find_prop(pnode, "status"));
26503831d35Sstevel name = get_node_name(pnode);
26603831d35Sstevel
26703831d35Sstevel /* sanity check of data retreived from PROM */
26803831d35Sstevel if ((value == NULL) || (name == NULL)) {
26903831d35Sstevel pnode = next_failed_node(pnode);
27003831d35Sstevel continue;
27103831d35Sstevel }
27203831d35Sstevel
27303831d35Sstevel
27403831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "%s unavailable :\n"),
275aa5636e5SPeter Tribble name, 0);
27603831d35Sstevel
27703831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "\tPROM fault "
278aa5636e5SPeter Tribble "string: %s\n"), value, 0);
27903831d35Sstevel
28003831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "\tFailed Field "
281aa5636e5SPeter Tribble "Replaceable Unit is "), 0);
28203831d35Sstevel
28303831d35Sstevel /*
28403831d35Sstevel * Determine whether FRU is CPU module, system
28503831d35Sstevel * board, or SBus card.
28603831d35Sstevel */
28703831d35Sstevel if ((name != NULL) && (strstr(name, "sbus"))) {
28803831d35Sstevel
28903831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "SBus "
290aa5636e5SPeter Tribble "Card %d\n"), get_sbus_slot(pnode), 0);
29103831d35Sstevel
29203831d35Sstevel } else if (((name = get_node_name(pnode)) !=
29303831d35Sstevel NULL) && (strstr(name, "pci"))) {
29403831d35Sstevel
29503831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "system "
296aa5636e5SPeter Tribble "board\n"), 0);
29703831d35Sstevel
29803831d35Sstevel } else if (((name = get_node_name(pnode)) !=
29903831d35Sstevel NULL) && (strstr(name, "ffb"))) {
30003831d35Sstevel
30103831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "FFB "
302aa5636e5SPeter Tribble "Card %d\n"), tazmo_physical_slot(
303aa5636e5SPeter Tribble dev_find_node(bnode->nodes, "slot2dev"),
304aa5636e5SPeter Tribble pnode, -1, slot_str), 0);
30503831d35Sstevel
30603831d35Sstevel } else if (((name = get_node_name(pnode->parent)) !=
30703831d35Sstevel NULL) && (strstr(name, "pci"))) {
30803831d35Sstevel
309aa5636e5SPeter Tribble (void) tazmo_physical_slot(NULL,
310aa5636e5SPeter Tribble pnode->parent,
311aa5636e5SPeter Tribble get_pci_device(pnode),
312aa5636e5SPeter Tribble slot_str);
31303831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "PCI Card "
314aa5636e5SPeter Tribble "in %s\n"), slot_str, 0);
31503831d35Sstevel
31603831d35Sstevel } else if (((type = get_node_type(pnode)) != NULL) &&
31703831d35Sstevel (strstr(type, "cpu"))) {
31803831d35Sstevel
31903831d35Sstevel log_printf(
320aa5636e5SPeter Tribble dgettext(TEXT_DOMAIN, "UltraSPARC "
321aa5636e5SPeter Tribble "module Module %d\n"),
322aa5636e5SPeter Tribble get_id(pnode));
32303831d35Sstevel
32403831d35Sstevel } else if (((type = get_node_type(pnode)) != NULL) &&
32503831d35Sstevel (strstr(type, "memory-module"))) {
32603831d35Sstevel
32703831d35Sstevel fru = (char *)(get_prop_val(
328aa5636e5SPeter Tribble find_prop(pnode, "fru")));
32903831d35Sstevel sock_name = (char *)(get_prop_val(
330aa5636e5SPeter Tribble find_prop(pnode, "socket-name")));
33103831d35Sstevel log_printf(
332aa5636e5SPeter Tribble dgettext(TEXT_DOMAIN, "%s in "
333aa5636e5SPeter Tribble "socket %s\n"), fru,
334aa5636e5SPeter Tribble sock_name, 0);
33503831d35Sstevel }
33603831d35Sstevel pnode = next_failed_node(pnode);
33703831d35Sstevel }
33803831d35Sstevel bnode = bnode->next;
33903831d35Sstevel }
34003831d35Sstevel
34103831d35Sstevel if (!system_failed) {
34203831d35Sstevel log_printf("\n", 0);
34303831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "No failures found "
344aa5636e5SPeter Tribble "in System\n"), 0);
34503831d35Sstevel log_printf("===========================\n", 0);
34603831d35Sstevel }
34703831d35Sstevel
34803831d35Sstevel if (system_failed)
34903831d35Sstevel return (1);
35003831d35Sstevel else
35103831d35Sstevel return (0);
35203831d35Sstevel }
35303831d35Sstevel
35403831d35Sstevel void
display_hp_fail_fault(Sys_tree * tree,struct system_kstat_data * kstats)35503831d35Sstevel display_hp_fail_fault(Sys_tree *tree, struct system_kstat_data *kstats)
35603831d35Sstevel {
35703831d35Sstevel #ifdef lint
35803831d35Sstevel kstats = kstats;
35903831d35Sstevel #endif
36003831d35Sstevel /* Display failed units */
36103831d35Sstevel (void) disp_fail_parts(tree);
36203831d35Sstevel }
36303831d35Sstevel
36403831d35Sstevel
36503831d35Sstevel void
display_diaginfo(int flag,Prom_node * root,Sys_tree * tree,struct system_kstat_data * kstats)36603831d35Sstevel display_diaginfo(int flag, Prom_node *root, Sys_tree *tree,
367aa5636e5SPeter Tribble struct system_kstat_data *kstats)
36803831d35Sstevel {
36903831d35Sstevel /*
37003831d35Sstevel * Now display the last powerfail time and the fatal hardware
37103831d35Sstevel * reset information. We do this under a couple of conditions.
37203831d35Sstevel * First if the user asks for it. The second is iof the user
37303831d35Sstevel * told us to do logging, and we found a system failure.
37403831d35Sstevel */
37503831d35Sstevel if (flag) {
37603831d35Sstevel /*
37703831d35Sstevel * display time of latest powerfail. Not all systems
37803831d35Sstevel * have this capability. For those that do not, this
37903831d35Sstevel * is just a no-op.
38003831d35Sstevel */
38103831d35Sstevel disp_powerfail(root);
38203831d35Sstevel
38303831d35Sstevel (void) disp_envc_status(kstats);
38403831d35Sstevel
38503831d35Sstevel tazjav_disp_asic_revs(tree);
38603831d35Sstevel
38703831d35Sstevel platform_disp_prom_version(tree);
38803831d35Sstevel }
38903831d35Sstevel return;
39003831d35Sstevel
39103831d35Sstevel }
39203831d35Sstevel
39303831d35Sstevel /* ARGSUSED */
39403831d35Sstevel void
display_boardnum(int num)39503831d35Sstevel display_boardnum(int num)
39603831d35Sstevel {
39703831d35Sstevel log_printf("SYS ", 0);
39803831d35Sstevel }
39903831d35Sstevel
40003831d35Sstevel
40103831d35Sstevel
40203831d35Sstevel /*
40303831d35Sstevel * display_pci
40403831d35Sstevel * Display all the PCI IO cards on this board.
40503831d35Sstevel */
40603831d35Sstevel
40703831d35Sstevel /* ARGSUSED */
40803831d35Sstevel void
display_pci(Board_node * board)40903831d35Sstevel display_pci(Board_node *board)
41003831d35Sstevel {
41103831d35Sstevel struct io_card *card_list = NULL;
41203831d35Sstevel struct io_card card;
41303831d35Sstevel void *value;
41403831d35Sstevel Prom_node *pci;
41503831d35Sstevel Prom_node *card_node;
41603831d35Sstevel
41703831d35Sstevel if (board == NULL)
41803831d35Sstevel return;
41903831d35Sstevel
42003831d35Sstevel /* Initialize all the common information */
42103831d35Sstevel card.display = 1;
42203831d35Sstevel card.board = board->board_num;
42303831d35Sstevel (void) sprintf(card.bus_type, "PCI");
42403831d35Sstevel
42503831d35Sstevel for (pci = dev_find_node(board->nodes, PCI_NAME); pci != NULL;
42603831d35Sstevel pci = dev_next_node(pci, PCI_NAME)) {
42703831d35Sstevel char *name;
42803831d35Sstevel Prom_node *prev_parent = NULL;
42903831d35Sstevel int prev_device = -1;
43003831d35Sstevel int pci_pci_bridge = 0;
43103831d35Sstevel
43203831d35Sstevel /*
43303831d35Sstevel * If we have reached a pci-to-pci bridge node,
43403831d35Sstevel * we are one level below the 'pci' nodes level
43503831d35Sstevel * in the device tree. To get back to that level,
43603831d35Sstevel * the search should continue with the sibling of
43703831d35Sstevel * the parent or else the remaining 'pci' cards
43803831d35Sstevel * will not show up in the output.
43903831d35Sstevel */
44003831d35Sstevel if (find_prop(pci, "upa-portid") == NULL) {
44103831d35Sstevel if ((pci->parent->sibling != NULL) &&
442aa5636e5SPeter Tribble (strcmp(get_prop_val(
443aa5636e5SPeter Tribble find_prop(pci->parent->sibling,
444aa5636e5SPeter Tribble "name")), PCI_NAME) == 0))
44503831d35Sstevel pci = pci->parent->sibling;
44603831d35Sstevel else {
44703831d35Sstevel pci = pci->parent->sibling;
44803831d35Sstevel continue;
44903831d35Sstevel }
45003831d35Sstevel }
45103831d35Sstevel
45203831d35Sstevel /* Skip all failed nodes for now */
45303831d35Sstevel if (node_failed(pci))
45403831d35Sstevel continue;
45503831d35Sstevel
45603831d35Sstevel /* Fill in frequency */
45703831d35Sstevel value = get_prop_val(find_prop(pci, "clock-frequency"));
45803831d35Sstevel if (value == NULL)
45903831d35Sstevel card.freq = -1;
46003831d35Sstevel else
46103831d35Sstevel card.freq = ((*(int *)value) + 500000) / 1000000;
46203831d35Sstevel
46303831d35Sstevel /* Walk through the PSYCHO children */
46403831d35Sstevel card_node = pci->child;
46503831d35Sstevel while (card_node != NULL) {
46603831d35Sstevel Prop *compat = NULL;
46703831d35Sstevel
46803831d35Sstevel /* If it doesn't have a name, skip it */
46903831d35Sstevel name = (char *)get_prop_val(
470aa5636e5SPeter Tribble find_prop(card_node, "name"));
47103831d35Sstevel if (name == NULL) {
47203831d35Sstevel card_node = card_node->sibling;
47303831d35Sstevel continue;
47403831d35Sstevel }
47503831d35Sstevel
47603831d35Sstevel /*
47703831d35Sstevel * If this is a PCI bridge, then display its
47803831d35Sstevel * children.
47903831d35Sstevel */
48003831d35Sstevel if (strcmp(name, "pci") == 0) {
48103831d35Sstevel card_node = card_node->child;
48203831d35Sstevel pci_pci_bridge = 1;
48303831d35Sstevel continue;
48403831d35Sstevel }
48503831d35Sstevel
48603831d35Sstevel /* Get the slot number for this card */
48703831d35Sstevel if (pci_pci_bridge) {
48803831d35Sstevel card.slot = tazmo_physical_slot(
489aa5636e5SPeter Tribble dev_find_node(board->nodes, "slot2dev"),
490aa5636e5SPeter Tribble pci,
491aa5636e5SPeter Tribble get_pci_to_pci_device(card_node->parent),
492aa5636e5SPeter Tribble card.slot_str);
49303831d35Sstevel } else
49403831d35Sstevel card.slot = tazmo_physical_slot(
495aa5636e5SPeter Tribble dev_find_node(board->nodes, "slot2dev"),
496aa5636e5SPeter Tribble pci,
497aa5636e5SPeter Tribble get_pci_device(card_node),
498aa5636e5SPeter Tribble card.slot_str);
49903831d35Sstevel
50003831d35Sstevel /*
50103831d35Sstevel * Check that duplicate devices are not reported
50203831d35Sstevel * on Tazmo.
50303831d35Sstevel */
50403831d35Sstevel if ((card_node->parent == prev_parent) &&
505aa5636e5SPeter Tribble (get_pci_device(card_node) == prev_device) &&
506aa5636e5SPeter Tribble (pci_pci_bridge == 0))
507aa5636e5SPeter Tribble card.slot = -1;
50803831d35Sstevel prev_parent = card_node->parent;
50903831d35Sstevel prev_device = get_pci_device(card_node);
51003831d35Sstevel
51103831d35Sstevel
51203831d35Sstevel if (card.slot == -1 || strstr(name, "ebus")) {
51303831d35Sstevel card_node = card_node->sibling;
51403831d35Sstevel continue;
51503831d35Sstevel }
51603831d35Sstevel
51703831d35Sstevel /* XXX - Don't know how to get status for PCI cards */
51803831d35Sstevel card.status[0] = '\0';
51903831d35Sstevel
52003831d35Sstevel /* Get the model of this card */
52103831d35Sstevel value = get_prop_val(find_prop(card_node, "model"));
52203831d35Sstevel if (value == NULL)
52303831d35Sstevel card.model[0] = '\0';
52403831d35Sstevel else
52503831d35Sstevel (void) sprintf(card.model, "%s",
526aa5636e5SPeter Tribble (char *)value);
52703831d35Sstevel
52803831d35Sstevel /*
52903831d35Sstevel * Check if further processing is necessary to display
53003831d35Sstevel * this card uniquely.
53103831d35Sstevel */
53203831d35Sstevel distinguish_identical_io_cards(name, card_node, &card);
53303831d35Sstevel
53403831d35Sstevel
53503831d35Sstevel /*
53603831d35Sstevel * If we haven't figured out the frequency yet,
53703831d35Sstevel * try and get it from the card.
53803831d35Sstevel */
53903831d35Sstevel value = get_prop_val(find_prop(pci, "clock-frequency"));
54003831d35Sstevel if (value != NULL && card.freq == -1)
54103831d35Sstevel card.freq = ((*(int *)value) + 500000)
542aa5636e5SPeter Tribble / 1000000;
54303831d35Sstevel
54403831d35Sstevel
54503831d35Sstevel value = get_prop_val(find_prop(card_node,
546aa5636e5SPeter Tribble "compatible"));
54703831d35Sstevel
54803831d35Sstevel /*
54903831d35Sstevel * On Tazmo, we would like to print out the last
55003831d35Sstevel * string of the "compatible" property if it exists.
55103831d35Sstevel * The IEEE 1275 spec. states that this last string
55203831d35Sstevel * will be the classcode name.
55303831d35Sstevel */
55403831d35Sstevel if (value != NULL) {
55503831d35Sstevel char *tval;
55603831d35Sstevel int index;
55703831d35Sstevel const int always = 1;
55803831d35Sstevel
55903831d35Sstevel tval = (char *)value;
56003831d35Sstevel index = 0;
56103831d35Sstevel compat = find_prop(card_node, "compatible");
56203831d35Sstevel while (always) {
56303831d35Sstevel if ((strlen(tval) + 1) ==
564aa5636e5SPeter Tribble (compat->size - index))
56503831d35Sstevel break;
56603831d35Sstevel index += strlen(tval) + 1;
56703831d35Sstevel tval += strlen(tval) + 1;
56803831d35Sstevel }
56903831d35Sstevel value = (void *)tval;
57003831d35Sstevel }
57103831d35Sstevel
57203831d35Sstevel if (value != NULL)
57303831d35Sstevel (void) sprintf(card.name, "%s-%s",
574aa5636e5SPeter Tribble (char *)name, (char *)value);
57503831d35Sstevel else
57603831d35Sstevel (void) sprintf(card.name, "%s",
577aa5636e5SPeter Tribble (char *)name);
57803831d35Sstevel
57903831d35Sstevel if (card.freq != -1)
58003831d35Sstevel card_list = insert_io_card(card_list, &card);
58103831d35Sstevel
58203831d35Sstevel /*
58303831d35Sstevel * If we are done with the children of the pci bridge,
58403831d35Sstevel * we must continue with the remaining siblings of
58503831d35Sstevel * the pci-to-pci bridge.
58603831d35Sstevel */
58703831d35Sstevel if ((card_node->sibling == NULL) && pci_pci_bridge) {
58803831d35Sstevel card_node = card_node->parent->sibling;
58903831d35Sstevel pci_pci_bridge = 0;
59003831d35Sstevel } else
59103831d35Sstevel card_node = card_node->sibling;
59203831d35Sstevel }
59303831d35Sstevel }
59403831d35Sstevel
59503831d35Sstevel display_io_cards(card_list);
59603831d35Sstevel free_io_cards(card_list);
59703831d35Sstevel }
59803831d35Sstevel
59903831d35Sstevel
60003831d35Sstevel /*
60103831d35Sstevel * Print out all the io cards in the list. Also print the column
60203831d35Sstevel * headers if told to do so.
60303831d35Sstevel */
60403831d35Sstevel void
display_io_cards(struct io_card * list)60503831d35Sstevel display_io_cards(struct io_card *list)
60603831d35Sstevel {
60703831d35Sstevel static int banner = 0; /* Have we printed the column headings? */
60803831d35Sstevel struct io_card *p;
60903831d35Sstevel
61003831d35Sstevel if (list == NULL)
61103831d35Sstevel return;
61203831d35Sstevel
61303831d35Sstevel if (banner == 0) {
61403831d35Sstevel log_printf(" Bus Freq\n", 0);
61503831d35Sstevel log_printf("Brd Type MHz Slot "
616aa5636e5SPeter Tribble "Name "
617aa5636e5SPeter Tribble "Model", 0);
61803831d35Sstevel log_printf("\n", 0);
61903831d35Sstevel log_printf("--- ---- ---- ---- "
620aa5636e5SPeter Tribble "-------------------------------- "
621aa5636e5SPeter Tribble "----------------------", 0);
62203831d35Sstevel log_printf("\n", 0);
62303831d35Sstevel banner = 1;
62403831d35Sstevel }
62503831d35Sstevel
62603831d35Sstevel for (p = list; p != NULL; p = p -> next) {
62703831d35Sstevel log_printf("SYS ", p->board, 0);
62803831d35Sstevel log_printf("%-4s ", p->bus_type, 0);
62903831d35Sstevel log_printf("%3d ", p->freq, 0);
63003831d35Sstevel log_printf("%3d ", p->slot, 0);
63103831d35Sstevel log_printf("%-32.32s", p->name, 0);
63203831d35Sstevel if (strlen(p->name) > 32)
63303831d35Sstevel log_printf("+ ", 0);
63403831d35Sstevel else
63503831d35Sstevel log_printf(" ", 0);
63603831d35Sstevel log_printf("%-22.22s", p->model, 0);
63703831d35Sstevel if (strlen(p->model) > 22)
63803831d35Sstevel log_printf("+", 0);
63903831d35Sstevel log_printf("\n", 0);
64003831d35Sstevel }
64103831d35Sstevel }
64203831d35Sstevel
64303831d35Sstevel /*
64403831d35Sstevel * display_ffb
64503831d35Sstevel * Display all FFBs on this board. It can either be in tabular format,
64603831d35Sstevel * or a more verbose format.
64703831d35Sstevel */
64803831d35Sstevel void
display_ffb(Board_node * board,int table)64903831d35Sstevel display_ffb(Board_node *board, int table)
65003831d35Sstevel {
65103831d35Sstevel Prom_node *ffb;
65203831d35Sstevel void *value;
65303831d35Sstevel struct io_card *card_list = NULL;
65403831d35Sstevel struct io_card card;
65503831d35Sstevel
65603831d35Sstevel if (board == NULL)
65703831d35Sstevel return;
65803831d35Sstevel
65903831d35Sstevel /* Fill in common information */
66003831d35Sstevel card.display = 1;
66103831d35Sstevel card.board = board->board_num;
66203831d35Sstevel (void) sprintf(card.bus_type, "UPA");
66303831d35Sstevel card.freq = sys_clk;
66403831d35Sstevel
66503831d35Sstevel for (ffb = dev_find_node(board->nodes, FFB_NAME); ffb != NULL;
66603831d35Sstevel ffb = dev_next_node(ffb, FFB_NAME)) {
66703831d35Sstevel if (table == 1) {
66803831d35Sstevel /* Print out in table format */
66903831d35Sstevel
67003831d35Sstevel /* XXX - Get the slot number (hack) */
67103831d35Sstevel card.slot = tazmo_physical_slot(
672aa5636e5SPeter Tribble dev_find_node(board->nodes, "slot2dev"),
673aa5636e5SPeter Tribble ffb,
674aa5636e5SPeter Tribble -1,
675aa5636e5SPeter Tribble card.slot_str);
67603831d35Sstevel
67703831d35Sstevel /* Find out if it's single or double buffered */
67803831d35Sstevel (void) sprintf(card.name, "FFB");
67903831d35Sstevel value = get_prop_val(find_prop(ffb, "board_type"));
68003831d35Sstevel if (value != NULL)
68103831d35Sstevel if ((*(int *)value) & FFB_B_BUFF)
68203831d35Sstevel (void) sprintf(card.name,
683aa5636e5SPeter Tribble "FFB, Double Buffered");
68403831d35Sstevel else
68503831d35Sstevel (void) sprintf(card.name,
686aa5636e5SPeter Tribble "FFB, Single Buffered");
68703831d35Sstevel
68803831d35Sstevel /* Print model number */
68903831d35Sstevel card.model[0] = '\0';
69003831d35Sstevel value = get_prop_val(find_prop(ffb, "model"));
69103831d35Sstevel if (value != NULL)
69203831d35Sstevel (void) sprintf(card.model, "%s",
693aa5636e5SPeter Tribble (char *)value);
69403831d35Sstevel
69503831d35Sstevel card_list = insert_io_card(card_list, &card);
69603831d35Sstevel } else {
69703831d35Sstevel /* print in long format */
69803831d35Sstevel char device[MAXSTRLEN];
69903831d35Sstevel int fd = -1;
70003831d35Sstevel struct dirent *direntp;
70103831d35Sstevel DIR *dirp;
70203831d35Sstevel union strap_un strap;
70303831d35Sstevel struct ffb_sys_info fsi;
70403831d35Sstevel
70503831d35Sstevel /* Find the device node using upa address */
70603831d35Sstevel value = get_prop_val(find_prop(ffb, "upa-portid"));
70703831d35Sstevel if (value == NULL)
708aa5636e5SPeter Tribble continue;
70903831d35Sstevel
71003831d35Sstevel (void) sprintf(device, "%s@%x", FFB_NAME,
711aa5636e5SPeter Tribble *(int *)value);
71203831d35Sstevel if ((dirp = opendir("/devices")) == NULL)
71303831d35Sstevel continue;
71403831d35Sstevel
71503831d35Sstevel while ((direntp = readdir(dirp)) != NULL) {
71603831d35Sstevel if (strstr(direntp->d_name, device) != NULL) {
71703831d35Sstevel (void) sprintf(device, "/devices/%s",
718aa5636e5SPeter Tribble direntp->d_name);
71903831d35Sstevel fd = open(device, O_RDWR, 0666);
72003831d35Sstevel break;
72103831d35Sstevel }
72203831d35Sstevel }
72303831d35Sstevel (void) closedir(dirp);
72403831d35Sstevel
72503831d35Sstevel if (fd == -1)
72603831d35Sstevel continue;
72703831d35Sstevel
72803831d35Sstevel if (ioctl(fd, FFB_SYS_INFO, &fsi) < 0)
72903831d35Sstevel continue;
73003831d35Sstevel
73103831d35Sstevel log_printf("FFB Hardware Configuration:\n", 0);
73203831d35Sstevel log_printf("-----------------------------------\n", 0);
73303831d35Sstevel
73403831d35Sstevel strap.ffb_strap_bits = fsi.ffb_strap_bits;
73503831d35Sstevel log_printf("\tBoard rev: %d\n",
736aa5636e5SPeter Tribble (int)strap.fld.board_rev, 0);
73703831d35Sstevel log_printf("\tFBC version: "
738aa5636e5SPeter Tribble "0x%x\n", fsi.fbc_version, 0);
73903831d35Sstevel log_printf("\tDAC: %s\n",
740aa5636e5SPeter Tribble fmt_manf_id(fsi.dac_version, device), 0);
74103831d35Sstevel log_printf("\t3DRAM: %s\n",
742aa5636e5SPeter Tribble fmt_manf_id(fsi.fbram_version, device), 0);
74303831d35Sstevel log_printf("\n", 0);
74403831d35Sstevel }
74503831d35Sstevel }
74603831d35Sstevel
74703831d35Sstevel display_io_cards(card_list);
74803831d35Sstevel free_io_cards(card_list);
74903831d35Sstevel }
75003831d35Sstevel
75103831d35Sstevel /*
75203831d35Sstevel * This module does the reading and interpreting of javelin system
753*2bcbf80cSPeter Tribble * kstats. These kstats are created by the envctrl drivers.
75403831d35Sstevel */
75503831d35Sstevel void
read_platform_kstats(Sys_tree * tree,struct system_kstat_data * sys_kstat,struct envctrl_kstat_data * ep)75603831d35Sstevel read_platform_kstats(Sys_tree *tree, struct system_kstat_data *sys_kstat,
757*2bcbf80cSPeter Tribble struct envctrl_kstat_data *ep)
75803831d35Sstevel {
75903831d35Sstevel kstat_ctl_t *kc;
76003831d35Sstevel struct envctrltwo_kstat_data *ecp;
76103831d35Sstevel kstat_t *ksp;
76203831d35Sstevel
76303831d35Sstevel if ((kc = kstat_open()) == NULL) {
76403831d35Sstevel return;
76503831d35Sstevel }
76603831d35Sstevel
76703831d35Sstevel /* read the envctrltwo kstats */
76803831d35Sstevel ecp = &sys_kstat->envc_data;
76903831d35Sstevel
77003831d35Sstevel /* Read the power supply kstats */
77103831d35Sstevel ksp = kstat_lookup(kc, ENVCTRL_MODULE_NAME, INSTANCE_0,
772aa5636e5SPeter Tribble ENVCTRL_KSTAT_PSNAME2);
77303831d35Sstevel
77403831d35Sstevel if (ksp != NULL && (kstat_read(kc, ksp, NULL) != -1)) {
77503831d35Sstevel (void) memcpy(ecp->ps_kstats, ksp->ks_data,
776aa5636e5SPeter Tribble ksp->ks_ndata * sizeof (envctrl_ps2_t));
77703831d35Sstevel } else {
77803831d35Sstevel sys_kstat->envctrltwo_kstat_ok = B_FALSE;
77903831d35Sstevel return;
78003831d35Sstevel }
78103831d35Sstevel
78203831d35Sstevel ecp->num_ps_kstats = ksp->ks_ndata;
78303831d35Sstevel
78403831d35Sstevel /* Read the fan status kstats */
78503831d35Sstevel ksp = kstat_lookup(kc, ENVCTRL_MODULE_NAME, INSTANCE_0,
786aa5636e5SPeter Tribble ENVCTRL_KSTAT_FANSTAT);
78703831d35Sstevel
78803831d35Sstevel if (ksp != NULL && (kstat_read(kc, ksp, NULL) != -1)) {
78903831d35Sstevel (void) memcpy(ecp->fan_kstats, ksp->ks_data,
790aa5636e5SPeter Tribble ksp->ks_ndata * sizeof (envctrl_fan_t));
79103831d35Sstevel } else {
79203831d35Sstevel sys_kstat->envctrltwo_kstat_ok = B_FALSE;
79303831d35Sstevel return;
79403831d35Sstevel }
79503831d35Sstevel
79603831d35Sstevel ecp->num_fan_kstats = ksp->ks_ndata;
79703831d35Sstevel
79803831d35Sstevel /* Read the enclosure kstats */
79903831d35Sstevel ksp = kstat_lookup(kc, ENVCTRL_MODULE_NAME, INSTANCE_0,
800aa5636e5SPeter Tribble ENVCTRL_KSTAT_ENCL);
80103831d35Sstevel
80203831d35Sstevel if (ksp != NULL && (kstat_read(kc, ksp, NULL) != -1)) {
80303831d35Sstevel (void) memcpy(ecp->encl_kstats, ksp->ks_data,
804aa5636e5SPeter Tribble ksp->ks_ndata * sizeof (envctrl_encl_t));
80503831d35Sstevel } else {
80603831d35Sstevel sys_kstat->envctrltwo_kstat_ok = B_FALSE;
80703831d35Sstevel return;
80803831d35Sstevel }
80903831d35Sstevel
81003831d35Sstevel ecp->num_encl_kstats = ksp->ks_ndata;
81103831d35Sstevel
81203831d35Sstevel /* Read the temperature kstats */
81303831d35Sstevel ksp = kstat_lookup(kc, ENVCTRL_MODULE_NAME, INSTANCE_0,
814aa5636e5SPeter Tribble ENVCTRL_KSTAT_TEMPERATURE);
81503831d35Sstevel
81603831d35Sstevel if (ksp != NULL && (kstat_read(kc, ksp, NULL) != -1)) {
81703831d35Sstevel (void) memcpy(ecp->temp_kstats, ksp->ks_data,
818aa5636e5SPeter Tribble ksp->ks_ndata * sizeof (envctrl_temp_t));
81903831d35Sstevel } else {
82003831d35Sstevel sys_kstat->envctrltwo_kstat_ok = B_FALSE;
82103831d35Sstevel return;
82203831d35Sstevel }
82303831d35Sstevel
82403831d35Sstevel ecp->num_temp_kstats = ksp->ks_ndata;
82503831d35Sstevel
82603831d35Sstevel /* Read the disk kstats */
82703831d35Sstevel ksp = kstat_lookup(kc, ENVCTRL_MODULE_NAME, INSTANCE_0,
828aa5636e5SPeter Tribble ENVCTRL_KSTAT_DISK);
82903831d35Sstevel
83003831d35Sstevel if (ksp != NULL && (kstat_read(kc, ksp, NULL) != -1)) {
83103831d35Sstevel (void) memcpy(ecp->disk_kstats, ksp->ks_data,
832aa5636e5SPeter Tribble ksp->ks_ndata * sizeof (envctrl_disk_t));
83303831d35Sstevel } else {
83403831d35Sstevel sys_kstat->envctrltwo_kstat_ok = B_FALSE;
83503831d35Sstevel return;
83603831d35Sstevel }
83703831d35Sstevel
83803831d35Sstevel ecp->num_disk_kstats = ksp->ks_ndata;
83903831d35Sstevel
84003831d35Sstevel sys_kstat->envctrltwo_kstat_ok = 1;
84103831d35Sstevel return;
84203831d35Sstevel
84303831d35Sstevel }
84403831d35Sstevel
84503831d35Sstevel /*
84603831d35Sstevel * Walk the PROM device tree and build the system tree and root tree.
84703831d35Sstevel * Nodes that have a board number property are placed in the board
84803831d35Sstevel * structures for easier processing later. Child nodes are placed
84903831d35Sstevel * under their parents. ffb (Fusion Frame Buffer) nodes are handled
85003831d35Sstevel * specially, because they do not contain board number properties.
85103831d35Sstevel * This was requested from OBP, but was not granted. So this code
85203831d35Sstevel * must parse the MID of the FFB to find the board#.
85303831d35Sstevel */
85403831d35Sstevel Prom_node *
walk(Sys_tree * tree,Prom_node * root,int id)85503831d35Sstevel walk(Sys_tree *tree, Prom_node *root, int id)
85603831d35Sstevel {
85703831d35Sstevel register int curnode;
85803831d35Sstevel Prom_node *pnode;
85903831d35Sstevel char *name;
86003831d35Sstevel char *type;
86103831d35Sstevel char *model;
86203831d35Sstevel int board_node = 0;
86303831d35Sstevel
86403831d35Sstevel /* allocate a node for this level */
86503831d35Sstevel if ((pnode = (Prom_node *) malloc(sizeof (struct prom_node))) ==
86603831d35Sstevel NULL) {
86703831d35Sstevel perror("malloc");
86803831d35Sstevel exit(2); /* program errors cause exit 2 */
86903831d35Sstevel }
87003831d35Sstevel
87103831d35Sstevel /* assign parent Prom_node */
87203831d35Sstevel pnode->parent = root;
87303831d35Sstevel pnode->sibling = NULL;
87403831d35Sstevel pnode->child = NULL;
87503831d35Sstevel
87603831d35Sstevel /* read properties for this node */
87703831d35Sstevel dump_node(pnode);
87803831d35Sstevel
87903831d35Sstevel /*
88003831d35Sstevel * Place a node in a 'board' if it has 'board'-ness. The definition
88103831d35Sstevel * is that all nodes that are children of root should have a
88203831d35Sstevel * board# property. But the PROM tree does not exactly follow
88303831d35Sstevel * this. This is where we start hacking. The name 'ffb' can
88403831d35Sstevel * change, so watch out for this.
88503831d35Sstevel *
88603831d35Sstevel * The UltraSPARC, sbus, pci and ffb nodes will exit in
88703831d35Sstevel * the desktops and will not have board# properties. These
88803831d35Sstevel * cases must be handled here.
88903831d35Sstevel *
89003831d35Sstevel * PCI to PCI bridges also have the name "pci", but with different
89103831d35Sstevel * model property values. They should not be put under 'board'.
89203831d35Sstevel */
89303831d35Sstevel name = get_node_name(pnode);
89403831d35Sstevel type = get_node_type(pnode);
89503831d35Sstevel model = (char *)get_prop_val(find_prop(pnode, "model"));
89603831d35Sstevel #ifdef DEBUG
89703831d35Sstevel if (name != NULL)
89803831d35Sstevel printf("name=%s ", name);
89903831d35Sstevel if (type != NULL)
90003831d35Sstevel printf("type=%s ", type);
90103831d35Sstevel if (model != NULL)
90203831d35Sstevel printf("model=%s", model);
90303831d35Sstevel printf("\n");
90403831d35Sstevel
90503831d35Sstevel if (model == NULL)
90603831d35Sstevel model = "";
90703831d35Sstevel #endif
90803831d35Sstevel if (type == NULL)
90903831d35Sstevel type = "";
91003831d35Sstevel if (name != NULL) {
91103831d35Sstevel if (has_board_num(pnode)) {
91203831d35Sstevel add_node(tree, pnode);
91303831d35Sstevel board_node = 1;
91403831d35Sstevel #ifdef DEBUG
91503831d35Sstevel printf("ADDED BOARD name=%s type=%s model=%s\n",
916aa5636e5SPeter Tribble name, type, model);
91703831d35Sstevel #endif
91803831d35Sstevel } else if ((strcmp(name, FFB_NAME) == 0) ||
91903831d35Sstevel (strcmp(type, "cpu") == 0) ||
92003831d35Sstevel
92103831d35Sstevel ((strcmp(name, "pci") == 0) && (model != NULL) &&
922aa5636e5SPeter Tribble (strcmp(model, "SUNW,psycho") == 0)) ||
92303831d35Sstevel
92403831d35Sstevel ((strcmp(name, "pci") == 0) && (model != NULL) &&
925aa5636e5SPeter Tribble (strcmp(model, "SUNW,sabre") == 0)) ||
92603831d35Sstevel
92703831d35Sstevel (strcmp(name, "counter-timer") == 0) ||
92803831d35Sstevel (strcmp(name, "sbus") == 0) ||
92903831d35Sstevel (strcmp(name, "memory") == 0) ||
93003831d35Sstevel (strcmp(name, "mc") == 0) ||
93103831d35Sstevel (strcmp(name, "associations") == 0)) {
93203831d35Sstevel add_node(tree, pnode);
93303831d35Sstevel board_node = 1;
93403831d35Sstevel #ifdef DEBUG
93503831d35Sstevel printf("ADDED BOARD name=%s type=%s model=%s\n",
936aa5636e5SPeter Tribble name, type, model);
93703831d35Sstevel #endif
93803831d35Sstevel }
93903831d35Sstevel #ifdef DEBUG
94003831d35Sstevel else
94103831d35Sstevel printf("node not added: name=%s type=%s\n", name, type);
94203831d35Sstevel #endif
94303831d35Sstevel }
94403831d35Sstevel
94503831d35Sstevel if (curnode = child(id)) {
94603831d35Sstevel pnode->child = walk(tree, pnode, curnode);
94703831d35Sstevel }
94803831d35Sstevel
94903831d35Sstevel if (curnode = next(id)) {
95003831d35Sstevel if (board_node) {
95103831d35Sstevel return (walk(tree, root, curnode));
95203831d35Sstevel } else {
95303831d35Sstevel pnode->sibling = walk(tree, root, curnode);
95403831d35Sstevel }
95503831d35Sstevel }
95603831d35Sstevel
95703831d35Sstevel if (board_node) {
95803831d35Sstevel return (NULL);
95903831d35Sstevel } else {
96003831d35Sstevel return (pnode);
96103831d35Sstevel }
96203831d35Sstevel }
96303831d35Sstevel
96403831d35Sstevel /*
96503831d35Sstevel * local functions
96603831d35Sstevel */
96703831d35Sstevel
96803831d35Sstevel /*
96903831d35Sstevel * disp_envc_status
97003831d35Sstevel *
97103831d35Sstevel * This routine displays the environmental status passed up from
97203831d35Sstevel * device drivers via kstats. The kstat names are defined in
97303831d35Sstevel * kernel header files included by this module.
97403831d35Sstevel * This is a Javelin specific environmental information display routine.
97503831d35Sstevel */
97603831d35Sstevel static int
disp_envc_status(struct system_kstat_data * sys_kstats)97703831d35Sstevel disp_envc_status(struct system_kstat_data *sys_kstats)
97803831d35Sstevel {
97903831d35Sstevel struct envctrltwo_kstat_data *ecp;
98003831d35Sstevel envctrl_ps2_t ps_ks;
98103831d35Sstevel envctrl_fan_t fans_ks;
98203831d35Sstevel envctrl_encl_t encl_ks;
98303831d35Sstevel envctrl_temp_t temp_ks;
98403831d35Sstevel envctrl_disk_t disk_ks;
98503831d35Sstevel char state[48];
98603831d35Sstevel uchar_t val, fsp_value;
98703831d35Sstevel uchar_t disk_pr, disk_fl;
98803831d35Sstevel int i;
98903831d35Sstevel int exit_code = 0;
99003831d35Sstevel
99103831d35Sstevel if (sys_kstats->envctrltwo_kstat_ok == 0) {
99203831d35Sstevel log_printf("\n", 0);
99303831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "Environmental information "
994aa5636e5SPeter Tribble "is not available\n"), 0);
99503831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, "Environmental driver may "
996aa5636e5SPeter Tribble "not be installed\n"), 0);
99703831d35Sstevel log_printf("\n", 0);
99803831d35Sstevel return (1);
99903831d35Sstevel }
100003831d35Sstevel
100103831d35Sstevel ecp = &sys_kstats->envc_data;
100203831d35Sstevel
100303831d35Sstevel log_printf("\n", 0);
100403831d35Sstevel log_printf("=========================", 0);
100503831d35Sstevel log_printf(dgettext(TEXT_DOMAIN, " Environmental Status "), 0);
100603831d35Sstevel log_printf("=========================", 0);
100703831d35Sstevel log_printf("\n", 0);
100803831d35Sstevel log_printf("\n", 0);
100903831d35Sstevel
101003831d35Sstevel log_printf("System Temperatures (Celsius):\n", 0);
101103831d35Sstevel log_printf("------------------------------\n", 0);
101203831d35Sstevel
101303831d35Sstevel for (i = 0; i < ecp->num_temp_kstats; i++) {
101403831d35Sstevel temp_ks = ecp->temp_kstats[i];
101503831d35Sstevel log_printf("%10s %d", temp_ks.label, temp_ks.value);
101603831d35Sstevel if (temp_ks.value >= temp_ks.shutdown_threshold) {
101703831d35Sstevel log_printf(" CRITICAL\n", 0);
101803831d35Sstevel exit_code = 1;
101903831d35Sstevel } else if (temp_ks.value >= temp_ks.warning_threshold) {
102003831d35Sstevel log_printf(" WARNING\n", 0);
102103831d35Sstevel exit_code = 1;
102203831d35Sstevel } else if (temp_ks.value < temp_ks.min) {
102303831d35Sstevel log_printf(" WARNING\n", 0);
102403831d35Sstevel exit_code = 1;
102503831d35Sstevel } else
102603831d35Sstevel log_printf("\n", 0);
102703831d35Sstevel }
102803831d35Sstevel
102903831d35Sstevel log_printf("\n", 0);
103003831d35Sstevel log_printf("=================================\n", 0);
103103831d35Sstevel log_printf("\n", 0);
103203831d35Sstevel encl_ks = ecp->encl_kstats[0];
103303831d35Sstevel val = encl_ks.value & ENVCTRL_UE250_FSP_KEYMASK;
103403831d35Sstevel fsp_value = encl_ks.value;
103503831d35Sstevel switch (val) {
103603831d35Sstevel case ENVCTRL_UE250_FSP_KEYOFF:
103703831d35Sstevel (void) sprintf(state, "%s", "Off");
103803831d35Sstevel break;
103903831d35Sstevel case ENVCTRL_UE250_FSP_KEYON:
104003831d35Sstevel (void) sprintf(state, "%s", "On");
104103831d35Sstevel break;
104203831d35Sstevel case ENVCTRL_UE250_FSP_KEYDIAG:
104303831d35Sstevel (void) sprintf(state, "%s", "Diagnostic");
104403831d35Sstevel break;
104503831d35Sstevel case ENVCTRL_UE250_FSP_KEYLOCKED:
104603831d35Sstevel (void) sprintf(state, "%s", "Secure");
104703831d35Sstevel break;
104803831d35Sstevel default:
104903831d35Sstevel (void) sprintf(state, "%s", "Broken!");
105003831d35Sstevel exit_code = 1;
105103831d35Sstevel break;
105203831d35Sstevel }
105303831d35Sstevel log_printf("Front Status Panel:\n", 0);
105403831d35Sstevel log_printf("-------------------\n", 0);
105503831d35Sstevel log_printf("Keyswitch position is in %s mode.\n", state);
105603831d35Sstevel log_printf("\n", 0);
105703831d35Sstevel val = fsp_value & (ENVCTRL_UE250_FSP_DISK_ERR |
1058aa5636e5SPeter Tribble ENVCTRL_UE250_FSP_PS_ERR | ENVCTRL_UE250_FSP_TEMP_ERR |
1059aa5636e5SPeter Tribble ENVCTRL_UE250_FSP_GEN_ERR | ENVCTRL_UE250_FSP_ACTIVE);
106003831d35Sstevel log_printf("System LED Status: DISK ERROR POWER \n", 0);
106103831d35Sstevel log_printf(" [%3s] [ ON] \n",
1062aa5636e5SPeter Tribble val & ENVCTRL_UE250_FSP_DISK_ERR ? "ON" : "OFF");
106303831d35Sstevel log_printf(" POWER SUPPLY ERROR ACTIVITY \n", 0);
106403831d35Sstevel log_printf(" [%3s] [%3s] \n",
1065aa5636e5SPeter Tribble val & ENVCTRL_UE250_FSP_PS_ERR ? "ON" : "OFF",
1066aa5636e5SPeter Tribble val & ENVCTRL_UE250_FSP_ACTIVE ? "ON" : "OFF");
106703831d35Sstevel log_printf(" GENERAL ERROR THERMAL ERROR \n", 0);
106803831d35Sstevel log_printf(" [%3s] [%3s] \n",
1069aa5636e5SPeter Tribble val & ENVCTRL_UE250_FSP_GEN_ERR ? "ON" : "OFF",
1070aa5636e5SPeter Tribble val & ENVCTRL_UE250_FSP_TEMP_ERR ? "ON" : "OFF");
107103831d35Sstevel if (val & (ENVCTRL_UE250_FSP_DISK_ERR | ENVCTRL_UE250_FSP_PS_ERR |
1072aa5636e5SPeter Tribble ENVCTRL_UE250_FSP_GEN_ERR | ENVCTRL_UE250_FSP_TEMP_ERR)) {
107303831d35Sstevel exit_code = 1;
107403831d35Sstevel }
107503831d35Sstevel
107603831d35Sstevel log_printf("\n", 0);
107703831d35Sstevel log_printf("=================================\n", 0);
107803831d35Sstevel log_printf("\n", 0);
107903831d35Sstevel disk_pr = disk_fl = 0;
108003831d35Sstevel for (i = 0; i < ecp->num_disk_kstats; i++) {
108103831d35Sstevel disk_ks = ecp->disk_kstats[i];
108203831d35Sstevel if (disk_ks.slot == -1)
108303831d35Sstevel continue;
108403831d35Sstevel disk_pr |= 1 << disk_ks.slot;
108503831d35Sstevel if (disk_ks.disk_ok == 0)
108603831d35Sstevel disk_fl |= 1 << disk_ks.slot;
108703831d35Sstevel }
108803831d35Sstevel
108903831d35Sstevel log_printf("Disk LED Status: OK = GREEN ERROR = YELLOW\n", 0);
109003831d35Sstevel log_printf(" DISK 5: %7s DISK 3: %7s DISK 1: %7s\n",
1091aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_5 ?
1092aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_5 ? "[ERROR]" : "[OK]" : "[EMPTY]",
1093aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_3 ?
1094aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_3 ? "[ERROR]" : "[OK]" : "[EMPTY]",
1095aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_1 ?
1096aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_1 ? "[ERROR]" : "[OK]" : "[EMPTY]");
109703831d35Sstevel log_printf(" DISK 4: %7s DISK 2: %7s DISK 0: %7s\n",
1098aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_4 ?
1099aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_4 ? "[ERROR]" : "[OK]" : "[EMPTY]",
1100aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_2 ?
1101aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_2 ? "[ERROR]" : "[OK]" : "[EMPTY]",
1102aa5636e5SPeter Tribble disk_pr & ENVCTRL_DISK_0 ?
1103aa5636e5SPeter Tribble disk_fl & ENVCTRL_DISK_0 ? "[ERROR]" : "[OK]" : "[EMPTY]");
110403831d35Sstevel
110503831d35Sstevel log_printf("\n", 0);
110603831d35Sstevel log_printf("=================================\n", 0);
110703831d35Sstevel log_printf("\n", 0);
110803831d35Sstevel log_printf("Fan Bank :\n", 0);
110903831d35Sstevel log_printf("----------\n", 0);
111003831d35Sstevel log_printf("\n", 0);
111103831d35Sstevel
111203831d35Sstevel fans_ks = ecp->fan_kstats[0];
111303831d35Sstevel log_printf("Bank Speed Status\n", 0);
111403831d35Sstevel log_printf(" (0-255) \n", 0);
111503831d35Sstevel log_printf("---- ----- ------\n", 0);
111603831d35Sstevel if (fans_ks.fans_ok == B_TRUE)
111703831d35Sstevel log_printf(" SYS %5d OK\n", fans_ks.fanspeed);
111803831d35Sstevel else if (fans_ks.fans_ok != B_TRUE) {
111903831d35Sstevel log_printf(" SYS %5d FAILED\n", fans_ks.fanspeed);
112003831d35Sstevel exit_code = 1;
112103831d35Sstevel }
112203831d35Sstevel
112303831d35Sstevel log_printf("\n", 0);
112403831d35Sstevel log_printf("=================================\n", 0);
112503831d35Sstevel log_printf("\n", 0);
112603831d35Sstevel log_printf("Power Supplies:\n", 0);
112703831d35Sstevel log_printf("---------------\n", 0);
112803831d35Sstevel log_printf("\n", 0);
112903831d35Sstevel log_printf("Supply Status\n", 0);
113003831d35Sstevel log_printf("------ ------\n", 0);
113103831d35Sstevel
113203831d35Sstevel for (i = 0; i < ecp->num_ps_kstats; i++) {
113303831d35Sstevel ps_ks = ecp->ps_kstats[i];
113403831d35Sstevel if (ps_ks.ps_ok == B_TRUE)
113503831d35Sstevel (void) sprintf(state, "%s", " OK ");
113603831d35Sstevel else if (ps_ks.ps_ok != B_TRUE) {
113703831d35Sstevel (void) sprintf(state, "%s", "FAILED: DC "
1138aa5636e5SPeter Tribble "Power Failure");
113903831d35Sstevel exit_code = 1;
114003831d35Sstevel }
114103831d35Sstevel
114203831d35Sstevel log_printf(" %2d %s\n", ps_ks.slot, state);
114303831d35Sstevel }
114403831d35Sstevel
114503831d35Sstevel return (exit_code);
114603831d35Sstevel }
114703831d35Sstevel
114803831d35Sstevel void
tazjav_disp_asic_revs(Sys_tree * tree)114903831d35Sstevel tazjav_disp_asic_revs(Sys_tree *tree)
115003831d35Sstevel {
115103831d35Sstevel Board_node *bnode;
115203831d35Sstevel Prom_node *pnode;
115303831d35Sstevel char *name;
115403831d35Sstevel int *version;
115503831d35Sstevel char *model;
115603831d35Sstevel
115703831d35Sstevel /* Print the header */
115803831d35Sstevel log_printf("\n", 0);
115903831d35Sstevel log_printf("=========================", 0);
116003831d35Sstevel log_printf(" HW Revisions ", 0);
116103831d35Sstevel log_printf("=========================", 0);
116203831d35Sstevel log_printf("\n", 0);
116303831d35Sstevel log_printf("\n", 0);
116403831d35Sstevel
116503831d35Sstevel bnode = tree->bd_list;
116603831d35Sstevel
116703831d35Sstevel log_printf("ASIC Revisions:\n", 0);
116803831d35Sstevel log_printf("---------------\n", 0);
116903831d35Sstevel
117003831d35Sstevel /* Find sysio and print rev */
117103831d35Sstevel for (pnode = dev_find_node(bnode->nodes, "sbus"); pnode != NULL;
117203831d35Sstevel pnode = dev_next_node(pnode, "sbus")) {
117303831d35Sstevel version = (int *)get_prop_val(find_prop(pnode, "version#"));
117403831d35Sstevel name = get_prop_val(find_prop(pnode, "name"));
117503831d35Sstevel
117603831d35Sstevel if ((version != NULL) && (name != NULL)) {
117703831d35Sstevel log_printf("SBus: %s Rev %d\n", name, *version, 0);
117803831d35Sstevel }
117903831d35Sstevel }
118003831d35Sstevel
118103831d35Sstevel /* Find Psycho and print rev */
118203831d35Sstevel for (pnode = dev_find_node(bnode->nodes, "pci"); pnode != NULL;
118303831d35Sstevel pnode = dev_next_node(pnode, "pci")) {
118403831d35Sstevel Prom_node *parsib = pnode->parent->sibling;
118503831d35Sstevel
118603831d35Sstevel if (find_prop(pnode, "upa-portid") == NULL) {
118703831d35Sstevel if ((parsib != NULL) &&
1188aa5636e5SPeter Tribble (strcmp(get_prop_val(
1189aa5636e5SPeter Tribble find_prop(parsib, "name")),
1190aa5636e5SPeter Tribble PCI_NAME) == 0))
119103831d35Sstevel pnode = parsib;
119203831d35Sstevel else {
119303831d35Sstevel pnode = parsib;
119403831d35Sstevel continue;
119503831d35Sstevel }
119603831d35Sstevel }
119703831d35Sstevel
119803831d35Sstevel version = (int *)get_prop_val(find_prop(pnode, "version#"));
119903831d35Sstevel name = get_prop_val(find_prop(pnode, "name"));
120003831d35Sstevel
120103831d35Sstevel if ((version != NULL) && (name != NULL))
120203831d35Sstevel if (get_pci_bus(pnode) == 0)
120303831d35Sstevel log_printf("STP2223BGA: Rev %d\n", *version, 0);
120403831d35Sstevel }
120503831d35Sstevel
120603831d35Sstevel /* Find Cheerio and print rev */
120703831d35Sstevel for (pnode = dev_find_node(bnode->nodes, "ebus"); pnode != NULL;
120803831d35Sstevel pnode = dev_next_node(pnode, "ebus")) {
120903831d35Sstevel version = (int *)get_prop_val(find_prop(pnode, "revision-id"));
121003831d35Sstevel name = get_prop_val(find_prop(pnode, "name"));
121103831d35Sstevel
121203831d35Sstevel if ((version != NULL) && (name != NULL))
121303831d35Sstevel log_printf("STP2003QFP: Rev %d\n", *version, 0);
121403831d35Sstevel }
121503831d35Sstevel
121603831d35Sstevel /* Find System Controller and print rev */
121703831d35Sstevel for (pnode = dev_find_node(bnode->nodes, "sc"); pnode != NULL;
121803831d35Sstevel pnode = dev_next_node(pnode, "sc")) {
121903831d35Sstevel version = (int *)get_prop_val(find_prop(pnode, "version#"));
122003831d35Sstevel model = (char *)get_prop_val(find_prop(pnode, "model"));
122103831d35Sstevel name = get_prop_val(find_prop(pnode, "name"));
122203831d35Sstevel
122303831d35Sstevel if ((version != NULL) && (name != NULL)) {
122403831d35Sstevel if ((strcmp(model, "SUNW,sc-marvin") == 0))
122503831d35Sstevel log_printf("STP2205BGA: Rev %d\n", *version, 0);
122603831d35Sstevel }
122703831d35Sstevel }
122803831d35Sstevel
122903831d35Sstevel /* Find the FEPS and print rev */
123003831d35Sstevel for (pnode = dev_find_node(bnode->nodes, "SUNW,hme"); pnode != NULL;
123103831d35Sstevel pnode = dev_next_node(pnode, "SUNW,hme")) {
123203831d35Sstevel version = (int *)get_prop_val(find_prop(pnode, "hm-rev"));
123303831d35Sstevel name = get_prop_val(find_prop(pnode, "name"));
123403831d35Sstevel
123503831d35Sstevel if ((version != NULL) && (name != NULL)) {
123603831d35Sstevel log_printf("FEPS: %s Rev ", name);
123703831d35Sstevel if (*version == 0xa0) {
123803831d35Sstevel log_printf("2.0\n", 0);
123903831d35Sstevel } else if (*version == 0x20) {
124003831d35Sstevel log_printf("2.1\n", 0);
124103831d35Sstevel } else {
124203831d35Sstevel log_printf("%x\n", *version, 0);
124303831d35Sstevel }
124403831d35Sstevel }
124503831d35Sstevel }
124603831d35Sstevel log_printf("\n", 0);
124703831d35Sstevel
124803831d35Sstevel if (dev_find_node(bnode->nodes, FFB_NAME) != NULL) {
124903831d35Sstevel display_ffb(bnode, 0);
125003831d35Sstevel }
125103831d35Sstevel }
125203831d35Sstevel
125303831d35Sstevel
125403831d35Sstevel /*
125503831d35Sstevel * Determine the physical PCI slot based on which Psycho is the parent
125603831d35Sstevel * of the PCI card.
125703831d35Sstevel */
125803831d35Sstevel static int
tazmo_physical_slot(Prom_node * slotd,Prom_node * parent,int device,char * str)125903831d35Sstevel tazmo_physical_slot(Prom_node *slotd, Prom_node *parent, int device, char *str)
126003831d35Sstevel {
126103831d35Sstevel int *upa_id = NULL;
126203831d35Sstevel int *reg = NULL;
126303831d35Sstevel int offset;
126403831d35Sstevel char controller[MAXSTRLEN];
126503831d35Sstevel char *name;
126603831d35Sstevel Prop *prop;
126703831d35Sstevel char *devpath_p;
126803831d35Sstevel char slotx[16] = "";
126903831d35Sstevel int *slot_names_mask;
127003831d35Sstevel char *slot_names;
127103831d35Sstevel int shift = 0;
127203831d35Sstevel int slot;
127303831d35Sstevel int slots, start_slot;
127403831d35Sstevel
127503831d35Sstevel /*
127603831d35Sstevel * If slotd != NULL, then we must return the physical PCI slot
127703831d35Sstevel * number based on the information in the slot2dev associations
127803831d35Sstevel * node. This routine is called from display_pci() with slotd
127903831d35Sstevel * != NULL. If so, we return without obtaining the slot name.
128003831d35Sstevel * If slotd == NULL, we look for the slot name through the
128103831d35Sstevel * slot-names property in the bus node.
128203831d35Sstevel */
128303831d35Sstevel
128403831d35Sstevel if (slotd != NULL) {
128503831d35Sstevel (void) strcpy(str, "");
128603831d35Sstevel if ((prop = find_prop(parent, "upa-portid")) != NULL)
128703831d35Sstevel upa_id = (int *)(get_prop_val(prop));
128803831d35Sstevel if ((prop = find_prop(parent, "reg")) != NULL)
128903831d35Sstevel reg = (int *)(get_prop_val(prop));
129003831d35Sstevel if ((prop = find_prop(parent, "name")) != NULL)
129103831d35Sstevel name = (char *)(get_prop_val(prop));
129203831d35Sstevel if ((upa_id == NULL) || (reg == NULL)) {
129303831d35Sstevel return (-1);
129403831d35Sstevel }
129503831d35Sstevel offset = reg[1];
129603831d35Sstevel if (strcmp(name, "pci") == 0) {
129703831d35Sstevel (void) sprintf(controller, "/pci@%x,%x/*@%x,*",
1298aa5636e5SPeter Tribble *upa_id, offset, device);
129903831d35Sstevel slots = 20;
130003831d35Sstevel } else if (strcmp(name, "SUNW,ffb") == 0) {
130103831d35Sstevel (void) sprintf(controller, "/*@%x,0", *upa_id);
130203831d35Sstevel slots = 2;
130303831d35Sstevel }
130403831d35Sstevel
130503831d35Sstevel /*
130603831d35Sstevel * Javelin and future projects will use 0 based
130703831d35Sstevel * numbering for slots.
130803831d35Sstevel */
130903831d35Sstevel start_slot = 0;
131003831d35Sstevel slots = slots - 1;
131103831d35Sstevel for (slot = start_slot; slot <= slots; slot++) {
131203831d35Sstevel if (strcmp(name, "pci") == 0)
131303831d35Sstevel (void) sprintf(slotx, "pci-slot#%d", slot);
131403831d35Sstevel else if (strcmp(name, "SUNW,ffb") == 0)
131503831d35Sstevel (void) sprintf(slotx, "graphics#%d", slot);
131603831d35Sstevel if ((prop = find_prop(slotd, slotx)) != NULL)
131703831d35Sstevel if ((devpath_p = (char *)(get_prop_val
1318aa5636e5SPeter Tribble (prop))) != NULL)
1319aa5636e5SPeter Tribble if (strcmp(devpath_p, controller) == 0)
132003831d35Sstevel return (slot);
132103831d35Sstevel }
132203831d35Sstevel return (-1);
132303831d35Sstevel }
132403831d35Sstevel
132503831d35Sstevel /*
132603831d35Sstevel * Get slot-names property from parent node.
132703831d35Sstevel * This property consists of a 32 bit mask indicating which
132803831d35Sstevel * devices are relevant to this bus node. Following are a
132903831d35Sstevel * number of strings depending on how many bits are set in the
133003831d35Sstevel * bit mask; the first string gives the label that is printed
133103831d35Sstevel * on the chassis for the smallest device number, and so on.
133203831d35Sstevel */
133303831d35Sstevel
133403831d35Sstevel prop = find_prop(parent, "slot-names");
133503831d35Sstevel if (prop == NULL) {
133603831d35Sstevel (void) strcpy(str, "");
133703831d35Sstevel return (-1);
133803831d35Sstevel }
133903831d35Sstevel slot_names_mask = (int *)(get_prop_val(prop));
134003831d35Sstevel slot_names = (char *)slot_names_mask;
134103831d35Sstevel
134203831d35Sstevel slot = 1;
134303831d35Sstevel slot_names += 4; /* Skip the 4 byte bitmask */
134403831d35Sstevel
134503831d35Sstevel while (shift < 32) {
134603831d35Sstevel /*
134703831d35Sstevel * Shift through the bitmask looking to see if the
134803831d35Sstevel * bit corresponding to "device" is set. If so, copy
134903831d35Sstevel * the correcsponding string to the provided pointer.
135003831d35Sstevel */
135103831d35Sstevel if (*slot_names_mask & slot) {
135203831d35Sstevel if (shift == device) {
135303831d35Sstevel (void) strcpy(str, slot_names);
135403831d35Sstevel return (0);
135503831d35Sstevel }
135603831d35Sstevel slot_names += strlen(slot_names)+1;
135703831d35Sstevel }
135803831d35Sstevel shift++;
135903831d35Sstevel slot = slot << 1;
136003831d35Sstevel }
136103831d35Sstevel return (-1);
136203831d35Sstevel }
1363