1*4198Seschrock /*
2*4198Seschrock * CDDL HEADER START
3*4198Seschrock *
4*4198Seschrock * The contents of this file are subject to the terms of the
5*4198Seschrock * Common Development and Distribution License (the "License").
6*4198Seschrock * You may not use this file except in compliance with the License.
7*4198Seschrock *
8*4198Seschrock * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9*4198Seschrock * or http://www.opensolaris.org/os/licensing.
10*4198Seschrock * See the License for the specific language governing permissions
11*4198Seschrock * and limitations under the License.
12*4198Seschrock *
13*4198Seschrock * When distributing Covered Code, include this CDDL HEADER in each
14*4198Seschrock * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15*4198Seschrock * If applicable, add the following below this CDDL HEADER, with the
16*4198Seschrock * fields enclosed by brackets "[]" replaced with your own identifying
17*4198Seschrock * information: Portions Copyright [yyyy] [name of copyright owner]
18*4198Seschrock *
19*4198Seschrock * CDDL HEADER END
20*4198Seschrock */
21*4198Seschrock /*
22*4198Seschrock * Copyright 2007 Sun Microsystems, Inc. All rights reserved.
23*4198Seschrock * Use is subject to license terms.
24*4198Seschrock */
25*4198Seschrock
26*4198Seschrock #pragma ident "%Z%%M% %I% %E% SMI"
27*4198Seschrock
28*4198Seschrock /*
29*4198Seschrock * Disk status library
30*4198Seschrock *
31*4198Seschrock * This library is responsible for querying health and other status information
32*4198Seschrock * from disk drives. It is intended to be a generic interface, however only
33*4198Seschrock * SCSI (and therefore SATA) disks are currently supported. The library is
34*4198Seschrock * capable of detecting the following status conditions:
35*4198Seschrock *
36*4198Seschrock * - Predictive failure
37*4198Seschrock * - Overtemp
38*4198Seschrock * - Self-test failure
39*4198Seschrock */
40*4198Seschrock
41*4198Seschrock #include <assert.h>
42*4198Seschrock #include <errno.h>
43*4198Seschrock #include <fcntl.h>
44*4198Seschrock #include <libdevinfo.h>
45*4198Seschrock #include <libdiskstatus.h>
46*4198Seschrock #include <stdlib.h>
47*4198Seschrock #include <string.h>
48*4198Seschrock #include <sys/fm/io/scsi.h>
49*4198Seschrock #include <sys/stat.h>
50*4198Seschrock #include <unistd.h>
51*4198Seschrock
52*4198Seschrock #include "ds_impl.h"
53*4198Seschrock #include "ds_scsi.h"
54*4198Seschrock
55*4198Seschrock static ds_transport_t *ds_transports[] = {
56*4198Seschrock &ds_scsi_sim_transport,
57*4198Seschrock &ds_scsi_uscsi_transport
58*4198Seschrock };
59*4198Seschrock
60*4198Seschrock #define NTRANSPORTS (sizeof (ds_transports) / sizeof (ds_transports[0]))
61*4198Seschrock
62*4198Seschrock /*
63*4198Seschrock * Open a handle to a disk. This will fail if the device cannot be opened, or
64*4198Seschrock * if no suitable transport exists for communicating with the device.
65*4198Seschrock */
66*4198Seschrock disk_status_t *
disk_status_open(const char * path,int * error)67*4198Seschrock disk_status_open(const char *path, int *error)
68*4198Seschrock {
69*4198Seschrock disk_status_t *dsp;
70*4198Seschrock ds_transport_t *t;
71*4198Seschrock int i;
72*4198Seschrock
73*4198Seschrock if ((dsp = calloc(sizeof (disk_status_t), 1)) == NULL) {
74*4198Seschrock *error = EDS_NOMEM;
75*4198Seschrock return (NULL);
76*4198Seschrock }
77*4198Seschrock
78*4198Seschrock if ((dsp->ds_fd = open(path, O_RDWR)) < 0) {
79*4198Seschrock *error = EDS_CANT_OPEN;
80*4198Seschrock free(dsp);
81*4198Seschrock return (NULL);
82*4198Seschrock }
83*4198Seschrock
84*4198Seschrock if ((dsp->ds_path = strdup(path)) == NULL) {
85*4198Seschrock *error = EDS_NOMEM;
86*4198Seschrock disk_status_close(dsp);
87*4198Seschrock return (NULL);
88*4198Seschrock }
89*4198Seschrock
90*4198Seschrock for (i = 0; i < NTRANSPORTS; i++) {
91*4198Seschrock t = ds_transports[i];
92*4198Seschrock
93*4198Seschrock dsp->ds_transport = t;
94*4198Seschrock
95*4198Seschrock nvlist_free(dsp->ds_state);
96*4198Seschrock dsp->ds_state = NULL;
97*4198Seschrock if (nvlist_alloc(&dsp->ds_state, NV_UNIQUE_NAME, 0) != 0) {
98*4198Seschrock *error = EDS_NOMEM;
99*4198Seschrock disk_status_close(dsp);
100*4198Seschrock return (NULL);
101*4198Seschrock }
102*4198Seschrock
103*4198Seschrock if ((dsp->ds_data = t->dt_open(dsp)) == NULL) {
104*4198Seschrock if (dsp->ds_error != EDS_NO_TRANSPORT) {
105*4198Seschrock *error = dsp->ds_error;
106*4198Seschrock disk_status_close(dsp);
107*4198Seschrock return (NULL);
108*4198Seschrock }
109*4198Seschrock } else {
110*4198Seschrock dsp->ds_error = 0;
111*4198Seschrock break;
112*4198Seschrock }
113*4198Seschrock }
114*4198Seschrock
115*4198Seschrock if (dsp->ds_error == EDS_NO_TRANSPORT) {
116*4198Seschrock *error = dsp->ds_error;
117*4198Seschrock disk_status_close(dsp);
118*4198Seschrock return (NULL);
119*4198Seschrock }
120*4198Seschrock
121*4198Seschrock return (dsp);
122*4198Seschrock }
123*4198Seschrock
124*4198Seschrock /*
125*4198Seschrock * Close a handle to a disk.
126*4198Seschrock */
127*4198Seschrock void
disk_status_close(disk_status_t * dsp)128*4198Seschrock disk_status_close(disk_status_t *dsp)
129*4198Seschrock {
130*4198Seschrock nvlist_free(dsp->ds_state);
131*4198Seschrock nvlist_free(dsp->ds_predfail);
132*4198Seschrock nvlist_free(dsp->ds_overtemp);
133*4198Seschrock nvlist_free(dsp->ds_testfail);
134*4198Seschrock if (dsp->ds_data)
135*4198Seschrock dsp->ds_transport->dt_close(dsp->ds_data);
136*4198Seschrock (void) close(dsp->ds_fd);
137*4198Seschrock free(dsp->ds_path);
138*4198Seschrock free(dsp);
139*4198Seschrock }
140*4198Seschrock
141*4198Seschrock void
disk_status_set_debug(boolean_t value)142*4198Seschrock disk_status_set_debug(boolean_t value)
143*4198Seschrock {
144*4198Seschrock ds_debug = value;
145*4198Seschrock }
146*4198Seschrock
147*4198Seschrock /*
148*4198Seschrock * Query basic information
149*4198Seschrock */
150*4198Seschrock const char *
disk_status_path(disk_status_t * dsp)151*4198Seschrock disk_status_path(disk_status_t *dsp)
152*4198Seschrock {
153*4198Seschrock return (dsp->ds_path);
154*4198Seschrock }
155*4198Seschrock
156*4198Seschrock int
disk_status_errno(disk_status_t * dsp)157*4198Seschrock disk_status_errno(disk_status_t *dsp)
158*4198Seschrock {
159*4198Seschrock return (dsp->ds_error);
160*4198Seschrock }
161*4198Seschrock
162*4198Seschrock nvlist_t *
disk_status_get(disk_status_t * dsp)163*4198Seschrock disk_status_get(disk_status_t *dsp)
164*4198Seschrock {
165*4198Seschrock nvlist_t *nvl = NULL;
166*4198Seschrock nvlist_t *faults = NULL;
167*4198Seschrock int err;
168*4198Seschrock
169*4198Seschrock /*
170*4198Seschrock * Scan (or rescan) the current device.
171*4198Seschrock */
172*4198Seschrock nvlist_free(dsp->ds_testfail);
173*4198Seschrock nvlist_free(dsp->ds_predfail);
174*4198Seschrock nvlist_free(dsp->ds_overtemp);
175*4198Seschrock dsp->ds_testfail = dsp->ds_overtemp = dsp->ds_predfail = NULL;
176*4198Seschrock dsp->ds_faults = 0;
177*4198Seschrock
178*4198Seschrock /*
179*4198Seschrock * Even if there is an I/O failure when trying to scan the device, we
180*4198Seschrock * can still return the current state.
181*4198Seschrock */
182*4198Seschrock if (dsp->ds_transport->dt_scan(dsp->ds_data) != 0 &&
183*4198Seschrock dsp->ds_error != EDS_IO)
184*4198Seschrock return (NULL);
185*4198Seschrock
186*4198Seschrock if ((err = nvlist_alloc(&nvl, NV_UNIQUE_NAME, 0)) != 0)
187*4198Seschrock goto nverror;
188*4198Seschrock
189*4198Seschrock if ((err = nvlist_add_string(nvl, "protocol", "scsi")) != 0 ||
190*4198Seschrock (err = nvlist_add_nvlist(nvl, "status", dsp->ds_state)) != 0)
191*4198Seschrock goto nverror;
192*4198Seschrock
193*4198Seschrock /*
194*4198Seschrock * Construct the list of faults.
195*4198Seschrock */
196*4198Seschrock if ((err = nvlist_alloc(&faults, NV_UNIQUE_NAME, 0)) != 0)
197*4198Seschrock goto nverror;
198*4198Seschrock
199*4198Seschrock if (dsp->ds_predfail != NULL) {
200*4198Seschrock if ((err = nvlist_add_boolean_value(faults,
201*4198Seschrock FM_EREPORT_SCSI_PREDFAIL,
202*4198Seschrock (dsp->ds_faults & DS_FAULT_PREDFAIL) != 0)) != 0 ||
203*4198Seschrock (err = nvlist_add_nvlist(nvl, FM_EREPORT_SCSI_PREDFAIL,
204*4198Seschrock dsp->ds_predfail)) != 0)
205*4198Seschrock goto nverror;
206*4198Seschrock }
207*4198Seschrock
208*4198Seschrock if (dsp->ds_testfail != NULL) {
209*4198Seschrock if ((err = nvlist_add_boolean_value(faults,
210*4198Seschrock FM_EREPORT_SCSI_TESTFAIL,
211*4198Seschrock (dsp->ds_faults & DS_FAULT_TESTFAIL) != 0)) != 0 ||
212*4198Seschrock (err = nvlist_add_nvlist(nvl, FM_EREPORT_SCSI_TESTFAIL,
213*4198Seschrock dsp->ds_testfail)) != 0)
214*4198Seschrock goto nverror;
215*4198Seschrock }
216*4198Seschrock
217*4198Seschrock if (dsp->ds_overtemp != NULL) {
218*4198Seschrock if ((err = nvlist_add_boolean_value(faults,
219*4198Seschrock FM_EREPORT_SCSI_OVERTEMP,
220*4198Seschrock (dsp->ds_faults & DS_FAULT_OVERTEMP) != 0)) != 0 ||
221*4198Seschrock (err = nvlist_add_nvlist(nvl, FM_EREPORT_SCSI_OVERTEMP,
222*4198Seschrock dsp->ds_overtemp)) != 0)
223*4198Seschrock goto nverror;
224*4198Seschrock }
225*4198Seschrock
226*4198Seschrock if ((err = nvlist_add_nvlist(nvl, "faults", faults)) != 0)
227*4198Seschrock goto nverror;
228*4198Seschrock
229*4198Seschrock nvlist_free(faults);
230*4198Seschrock return (nvl);
231*4198Seschrock
232*4198Seschrock nverror:
233*4198Seschrock assert(err == ENOMEM);
234*4198Seschrock nvlist_free(nvl);
235*4198Seschrock nvlist_free(faults);
236*4198Seschrock (void) ds_set_errno(dsp, EDS_NOMEM);
237*4198Seschrock return (NULL);
238*4198Seschrock }
239