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|
/*
* 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 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <strings.h>
#include <stdlib.h>
#include <netdir.h>
#include <errno.h>
#include <alloca.h>
#include <locale.h>
#include <uuid/uuid.h>
#include <sys/fm/protocol.h>
#include <fmd_adm_impl.h>
#include <fmd_rpc_adm.h>
static const uint_t _fmd_adm_bufsize = 128 * 1024;
static const char _url_fallback[] = "http://illumos.org/msg/";
fmd_adm_t *
fmd_adm_open(const char *host, uint32_t prog, int version)
{
fmd_adm_t *ap;
CLIENT *c;
rpcvers_t v;
if (version != FMD_ADM_VERSION) {
errno = ENOTSUP;
return (NULL);
}
if (host == NULL)
host = HOST_SELF;
if (prog == FMD_ADM_PROGRAM)
prog = FMD_ADM;
if ((ap = malloc(sizeof (fmd_adm_t))) == NULL)
return (NULL);
if (strcmp(host, HOST_SELF) == 0) {
c = clnt_door_create(prog, FMD_ADM_VERSION_1, _fmd_adm_bufsize);
ap->adm_maxretries = 1;
} else {
c = clnt_create_vers(host, prog, &v,
FMD_ADM_VERSION_1, FMD_ADM_VERSION_1, NULL);
ap->adm_maxretries = 0;
}
if (c == NULL) {
errno = EPROTO;
free(ap);
return (NULL);
}
ap->adm_prog = prog;
ap->adm_clnt = c;
ap->adm_version = version;
ap->adm_svcerr = 0;
ap->adm_errno = 0;
return (ap);
}
void
fmd_adm_close(fmd_adm_t *ap)
{
if (ap == NULL)
return; /* permit NULL to simply caller code */
clnt_destroy(ap->adm_clnt);
free(ap);
}
static const char *
fmd_adm_svc_errmsg(enum fmd_adm_error err)
{
switch (err) {
case FMD_ADM_ERR_NOMEM:
return ("unable to perform request due to allocation failure");
case FMD_ADM_ERR_PERM:
return ("operation requires additional privilege");
case FMD_ADM_ERR_MODSRCH:
return ("specified module is not loaded in fault manager");
case FMD_ADM_ERR_MODBUSY:
return ("module is in use and cannot be unloaded");
case FMD_ADM_ERR_MODFAIL:
return ("module failed and can no longer export statistics");
case FMD_ADM_ERR_MODNOENT:
return ("file missing or cannot be accessed by fault manager");
case FMD_ADM_ERR_MODEXIST:
return ("module using same name is already loaded");
case FMD_ADM_ERR_MODINIT:
return ("module failed to initialize (consult fmd(8) log)");
case FMD_ADM_ERR_MODLOAD:
return ("module failed to load (consult fmd(8) log)");
case FMD_ADM_ERR_RSRCSRCH:
return ("specified resource is not cached by fault manager");
case FMD_ADM_ERR_RSRCNOTF:
return ("specified resource is not known to be faulty");
case FMD_ADM_ERR_SERDSRCH:
return ("specified serd engine not present in module");
case FMD_ADM_ERR_SERDFIRED:
return ("specified serd engine has already fired");
case FMD_ADM_ERR_ROTSRCH:
return ("invalid log file name");
case FMD_ADM_ERR_ROTFAIL:
return ("failed to rotate log file (consult fmd(8) log)");
case FMD_ADM_ERR_ROTBUSY:
return ("log file is too busy to rotate (try again later)");
case FMD_ADM_ERR_CASESRCH:
return ("specified UUID is invalid or has been repaired");
case FMD_ADM_ERR_CASEOPEN:
return ("specified UUID is still being diagnosed");
case FMD_ADM_ERR_XPRTSRCH:
return ("specified transport ID is invalid or has been closed");
case FMD_ADM_ERR_CASEXPRT:
return ("specified UUID is owned by a different fault manager");
case FMD_ADM_ERR_RSRCNOTR:
return ("specified resource has not been replaced");
default:
return ("unknown fault manager error");
}
}
const char *
fmd_adm_errmsg(fmd_adm_t *ap)
{
if (ap == NULL) {
switch (errno) {
case ENOTSUP:
return ("client requires newer libfmd_adm version");
case EPROTO:
return (clnt_spcreateerror("failed to connect to fmd"));
}
}
switch (ap ? ap->adm_errno : errno) {
case EPROTO:
return (clnt_sperror(ap->adm_clnt, "rpc call failed"));
case EREMOTE:
return (fmd_adm_svc_errmsg(ap->adm_svcerr));
default:
return (strerror(ap->adm_errno));
}
}
static int
fmd_adm_set_svcerr(fmd_adm_t *ap, enum fmd_adm_error err)
{
if (err != 0) {
ap->adm_svcerr = err;
ap->adm_errno = EREMOTE;
return (-1);
} else {
ap->adm_svcerr = err;
ap->adm_errno = 0;
return (0);
}
}
static int
fmd_adm_set_errno(fmd_adm_t *ap, int err)
{
ap->adm_errno = err;
errno = err;
return (-1);
}
static int
fmd_adm_stats_cmp(const void *lp, const void *rp)
{
return (strcmp(((fmd_stat_t *)lp)->fmds_name,
((fmd_stat_t *)rp)->fmds_name));
}
/*
* If the server (fmd) is restarted, this will cause all future door calls to
* fail. Unfortunately, once the server comes back up, we have no way of
* reestablishing the connection. To get around this, if the error indicates
* that the RPC call failed, we reopen the client handle and try again. For
* simplicity we only deal with the door case, as it's unclear whether the
* remote case suffers from the same pathology.
*/
boolean_t
fmd_adm_retry(fmd_adm_t *ap, enum clnt_stat cs, uint_t *retries)
{
CLIENT *c;
struct rpc_err err;
if (cs == RPC_SUCCESS || *retries == ap->adm_maxretries)
return (B_FALSE);
clnt_geterr(ap->adm_clnt, &err);
if (err.re_status != RPC_CANTSEND)
return (B_FALSE);
if ((c = clnt_door_create(ap->adm_prog, FMD_ADM_VERSION_1,
_fmd_adm_bufsize)) == NULL)
return (B_FALSE);
(*retries)++;
clnt_destroy(ap->adm_clnt);
ap->adm_clnt = c;
return (B_TRUE);
}
int
fmd_adm_stats_read(fmd_adm_t *ap, const char *name, fmd_adm_stats_t *sp)
{
struct fmd_rpc_modstat rms;
enum clnt_stat cs;
uint_t retries = 0;
if (sp == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
bzero(&rms, sizeof (rms)); /* tell xdr to allocate memory for us */
do {
if (name != NULL)
cs = fmd_adm_modcstat_1((char *)name, &rms,
ap->adm_clnt);
else
cs = fmd_adm_modgstat_1(&rms, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rms.rms_err != 0) {
xdr_free(xdr_fmd_rpc_modstat, (char *)&rms);
return (fmd_adm_set_svcerr(ap, rms.rms_err));
}
sp->ams_buf = rms.rms_buf.rms_buf_val;
sp->ams_len = rms.rms_buf.rms_buf_len;
if (sp->ams_len != 0) {
qsort(sp->ams_buf, sp->ams_len,
sizeof (fmd_stat_t), fmd_adm_stats_cmp);
}
return (0);
}
int
fmd_adm_stats_free(fmd_adm_t *ap, fmd_adm_stats_t *sp)
{
struct fmd_rpc_modstat rms;
if (sp == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
rms.rms_buf.rms_buf_val = sp->ams_buf;
rms.rms_buf.rms_buf_len = sp->ams_len;
rms.rms_err = 0;
xdr_free(xdr_fmd_rpc_modstat, (char *)&rms);
bzero(sp, sizeof (fmd_adm_stats_t));
return (0);
}
static int
fmd_adm_module_cmp(const void *lp, const void *rp)
{
return (strcmp((*(struct fmd_rpc_modinfo **)lp)->rmi_name,
(*(struct fmd_rpc_modinfo **)rp)->rmi_name));
}
int
fmd_adm_module_iter(fmd_adm_t *ap, fmd_adm_module_f *func, void *arg)
{
struct fmd_rpc_modinfo *rmi, **rms, **rmp;
struct fmd_rpc_modlist rml;
fmd_adm_modinfo_t ami;
enum clnt_stat cs;
uint_t retries = 0;
bzero(&rml, sizeof (rml)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_modinfo_1(&rml, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rml.rml_err != 0 || rml.rml_len == 0) {
xdr_free(xdr_fmd_rpc_modlist, (char *)&rml);
return (fmd_adm_set_svcerr(ap, rml.rml_err));
}
if ((rms = rmp = malloc(sizeof (void *) * rml.rml_len)) == NULL) {
xdr_free(xdr_fmd_rpc_modlist, (char *)&rml);
return (fmd_adm_set_errno(ap, EAGAIN));
}
for (rmi = rml.rml_list; rmi != NULL; rmi = rmi->rmi_next)
*rmp++ = rmi; /* store copy of pointer in array for sorting */
qsort(rms, rml.rml_len, sizeof (void *), fmd_adm_module_cmp);
for (rmp = rms; rmp < rms + rml.rml_len; rmp++) {
rmi = *rmp;
ami.ami_name = rmi->rmi_name;
ami.ami_desc = rmi->rmi_desc;
ami.ami_vers = rmi->rmi_vers;
ami.ami_flags = 0;
if (rmi->rmi_faulty)
ami.ami_flags |= FMD_ADM_MOD_FAILED;
if (func(&ami, arg) != 0)
break;
}
free(rms);
xdr_free(xdr_fmd_rpc_modlist, (char *)&rml);
return (0);
}
int
fmd_adm_module_load(fmd_adm_t *ap, const char *path)
{
char *str = (char *)path;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (path == NULL || path[0] != '/')
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_modload_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_module_unload(fmd_adm_t *ap, const char *name)
{
char *str = (char *)name;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (name == NULL || strchr(name, '/') != NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_modunload_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_module_reset(fmd_adm_t *ap, const char *name)
{
char *str = (char *)name;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (name == NULL || strchr(name, '/') != NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_modreset_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_module_gc(fmd_adm_t *ap, const char *name)
{
char *str = (char *)name;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (name == NULL || strchr(name, '/') != NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_modgc_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_module_stats(fmd_adm_t *ap, const char *name, fmd_adm_stats_t *sp)
{
struct fmd_rpc_modstat rms;
enum clnt_stat cs;
uint_t retries = 0;
if (name == NULL || sp == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
bzero(&rms, sizeof (rms)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_moddstat_1((char *)name, &rms, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rms.rms_err != 0) {
xdr_free(xdr_fmd_rpc_modstat, (char *)&rms);
return (fmd_adm_set_svcerr(ap, rms.rms_err));
}
sp->ams_buf = rms.rms_buf.rms_buf_val;
sp->ams_len = rms.rms_buf.rms_buf_len;
return (0);
}
int
fmd_adm_rsrc_count(fmd_adm_t *ap, int all, uint32_t *rcp)
{
struct fmd_rpc_rsrclist rrl;
enum clnt_stat cs;
uint_t retries = 0;
if (rcp == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
bzero(&rrl, sizeof (rrl)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_rsrclist_1(all, &rrl, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rrl.rrl_err != 0) {
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (fmd_adm_set_svcerr(ap, rrl.rrl_err));
}
*rcp = rrl.rrl_cnt;
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (0);
}
static int
fmd_adm_rsrc_cmp(const void *lp, const void *rp)
{
return (strcmp(*(char **)lp, *(char **)rp));
}
int
fmd_adm_rsrc_iter(fmd_adm_t *ap, int all, fmd_adm_rsrc_f *func, void *arg)
{
struct fmd_rpc_rsrclist rrl;
struct fmd_rpc_rsrcinfo rri;
fmd_adm_rsrcinfo_t ari;
char **fmris, *p;
int i, rv;
enum clnt_stat cs;
uint_t retries = 0;
bzero(&rrl, sizeof (rrl)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_rsrclist_1(all, &rrl, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rrl.rrl_err != 0) {
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (fmd_adm_set_svcerr(ap, rrl.rrl_err));
}
if ((fmris = malloc(sizeof (char *) * rrl.rrl_cnt)) == NULL) {
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (fmd_adm_set_errno(ap, EAGAIN));
}
/*
* The fmd_adm_rsrclist_1 request returns an opaque XDR buffer that is
* a string table of FMRIs (e.g. "fmriA\0fmriB\0...") where rrl_cnt is
* the number of strings in the table and rrl_buf_val is its address.
* We construct an array of pointers into the string table and sort it.
*/
p = rrl.rrl_buf.rrl_buf_val;
for (i = 0; i < rrl.rrl_cnt; i++, p += strlen(p) + 1)
fmris[i] = p; /* store fmri pointer in array for sorting */
qsort(fmris, rrl.rrl_cnt, sizeof (char *), fmd_adm_rsrc_cmp);
/*
* For each FMRI in the resource cache snapshot, use fmd_adm_rsrcinfo_1
* to get more information and the invoke the callback function. If
* FMD_ADM_ERR_RSRCSRCH is returned, the FMRI has been purged from the
* cache since our snapshot: this error is therefore silently ignored.
*/
for (i = 0; i < rrl.rrl_cnt; i++) {
bzero(&rri, sizeof (rri));
retries = 0;
do {
cs = fmd_adm_rsrcinfo_1(fmris[i], &rri, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS) {
free(fmris);
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (fmd_adm_set_errno(ap, EPROTO));
}
if (rri.rri_err != 0 && rri.rri_err != FMD_ADM_ERR_RSRCSRCH) {
xdr_free(xdr_fmd_rpc_rsrcinfo, (char *)&rri);
free(fmris);
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (fmd_adm_set_svcerr(ap, rri.rri_err));
}
if (rri.rri_err == FMD_ADM_ERR_RSRCSRCH) {
xdr_free(xdr_fmd_rpc_rsrcinfo, (char *)&rri);
continue;
}
ari.ari_fmri = rri.rri_fmri;
ari.ari_uuid = rri.rri_uuid;
ari.ari_case = rri.rri_case;
ari.ari_flags = 0;
if (rri.rri_faulty)
ari.ari_flags |= FMD_ADM_RSRC_FAULTY;
if (rri.rri_unusable)
ari.ari_flags |= FMD_ADM_RSRC_UNUSABLE;
if (rri.rri_invisible)
ari.ari_flags |= FMD_ADM_RSRC_INVISIBLE;
rv = func(&ari, arg);
xdr_free(xdr_fmd_rpc_rsrcinfo, (char *)&rri);
if (rv != 0)
break;
}
free(fmris);
xdr_free(xdr_fmd_rpc_rsrclist, (char *)&rrl);
return (0);
}
int
fmd_adm_rsrc_flush(fmd_adm_t *ap, const char *fmri)
{
char *str = (char *)fmri;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (fmri == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_rsrcflush_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_rsrc_repaired(fmd_adm_t *ap, const char *fmri)
{
char *str = (char *)fmri;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (fmri == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_rsrcrepaired_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_rsrc_replaced(fmd_adm_t *ap, const char *fmri)
{
char *str = (char *)fmri;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (fmri == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_rsrcreplaced_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_rsrc_acquit(fmd_adm_t *ap, const char *fmri, const char *uuid)
{
char *str = (char *)fmri;
char *str2 = (char *)uuid;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (fmri == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_rsrcacquit_1(str, str2, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_case_repair(fmd_adm_t *ap, const char *uuid)
{
char *str = (char *)uuid;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (uuid == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_caserepair_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_case_acquit(fmd_adm_t *ap, const char *uuid)
{
char *str = (char *)uuid;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (uuid == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_caseacquit_1(str, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
static int
fmd_adm_case_cmp(const void *lp, const void *rp)
{
return (strcmp(*(char **)lp, *(char **)rp));
}
static int
fmd_adm_case_one(fmd_adm_caseinfo_t *acp, const char *url_token,
fmd_adm_case_f *func, void *arg)
{
char *p, *urlcode, *dict, *olang;
const char *url;
size_t len;
if ((p = strchr(acp->aci_code, '-')) == NULL ||
p == acp->aci_code) {
acp->aci_url = NULL;
} else {
dict = alloca((size_t)(p - acp->aci_code) + 1);
(void) strncpy(dict, acp->aci_code,
(size_t)(p - acp->aci_code));
dict[(size_t)(p - acp->aci_code)] = '\0';
/*
* If we're given a token to use in looking up the URL, try
* to use it. Otherwise, or if we don't find it that way,
* use the fallback.
*/
if (url_token == NULL) {
url = _url_fallback;
} else if ((url = dgettext(dict, url_token)) == url_token) {
/*
* We didn't find a translation in the
* dictionary for the current language. Fall
* back to C and try again.
*/
olang = setlocale(LC_MESSAGES, NULL);
(void) setlocale(LC_MESSAGES, "C");
if ((url = dgettext(dict, url_token)) == url_token)
url = _url_fallback;
(void) setlocale(LC_MESSAGES, olang);
}
len = strlen(url);
if (url[len - 1] == '/') {
len += strlen(acp->aci_code) + 1;
urlcode = alloca(len);
(void) snprintf(urlcode, len, "%s%s", url,
acp->aci_code);
} else {
urlcode = (char *)url;
}
acp->aci_url = urlcode;
}
return (func(acp, arg));
}
/*
* Our approach to cases is the same as for resources: we first obtain a
* list of UUIDs, sort them, then obtain the case information for each.
*/
int
fmd_adm_case_iter(fmd_adm_t *ap, const char *url_token, fmd_adm_case_f *func,
void *arg)
{
struct fmd_rpc_caselist rcl;
struct fmd_rpc_caseinfo rci;
fmd_adm_caseinfo_t aci;
char **uuids, *p;
int i, rv;
enum clnt_stat cs;
uint_t retries = 0;
bzero(&rcl, sizeof (rcl)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_caselist_1(&rcl, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rcl.rcl_err != 0) {
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (fmd_adm_set_svcerr(ap, rcl.rcl_err));
}
if ((uuids = malloc(sizeof (char *) * rcl.rcl_cnt)) == NULL) {
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (fmd_adm_set_errno(ap, EAGAIN));
}
p = rcl.rcl_buf.rcl_buf_val;
for (i = 0; i < rcl.rcl_cnt; i++, p += strlen(p) + 1)
uuids[i] = p;
qsort(uuids, rcl.rcl_cnt, sizeof (char *), fmd_adm_case_cmp);
for (i = 0; i < rcl.rcl_cnt; i++) {
bzero(&rci, sizeof (rci));
retries = 0;
do {
cs = fmd_adm_caseinfo_1(uuids[i], &rci, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS) {
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (fmd_adm_set_errno(ap, EPROTO));
}
if (rci.rci_err != 0 && rci.rci_err != FMD_ADM_ERR_CASESRCH) {
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (fmd_adm_set_svcerr(ap, rci.rci_err));
}
if (rci.rci_err == FMD_ADM_ERR_CASESRCH) {
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
continue;
}
bzero(&aci, sizeof (aci));
if ((rv = nvlist_unpack(rci.rci_evbuf.rci_evbuf_val,
rci.rci_evbuf.rci_evbuf_len, &aci.aci_event, 0)) != 0) {
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (fmd_adm_set_errno(ap, rv));
}
if ((rv = nvlist_lookup_string(aci.aci_event, FM_SUSPECT_UUID,
(char **)&aci.aci_uuid)) != 0) {
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
nvlist_free(aci.aci_event);
return (fmd_adm_set_errno(ap, rv));
}
if ((rv = nvlist_lookup_string(aci.aci_event,
FM_SUSPECT_DIAG_CODE, (char **)&aci.aci_code)) != 0) {
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
nvlist_free(aci.aci_event);
return (fmd_adm_set_errno(ap, rv));
}
rv = fmd_adm_case_one(&aci, url_token, func, arg);
xdr_free(xdr_fmd_rpc_caseinfo, (char *)&rci);
nvlist_free(aci.aci_event);
if (rv != 0)
break;
}
free(uuids);
xdr_free(xdr_fmd_rpc_caselist, (char *)&rcl);
return (0);
}
static int
fmd_adm_serd_cmp(const void *lp, const void *rp)
{
return (strcmp(*(char **)lp, *(char **)rp));
}
int
fmd_adm_serd_iter(fmd_adm_t *ap, const char *name,
fmd_adm_serd_f *func, void *arg)
{
struct fmd_rpc_serdlist rsl;
struct fmd_rpc_serdinfo rsi;
char **serds, *p;
fmd_adm_serdinfo_t asi;
enum clnt_stat cs;
uint_t retries = 0;
int i, rv;
bzero(&rsl, sizeof (rsl)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_serdlist_1((char *)name, &rsl, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rsl.rsl_err != 0 || rsl.rsl_len == 0) {
xdr_free(xdr_fmd_rpc_serdlist, (char *)&rsl);
return (fmd_adm_set_svcerr(ap, rsl.rsl_err));
}
if ((serds = malloc(sizeof (char *) * rsl.rsl_cnt)) == NULL) {
xdr_free(xdr_fmd_rpc_serdlist, (char *)&rsl);
return (fmd_adm_set_errno(ap, EAGAIN));
}
p = rsl.rsl_buf.rsl_buf_val;
for (i = 0; i < rsl.rsl_cnt; i++, p += strlen(p) + 1)
serds[i] = p;
qsort(serds, rsl.rsl_cnt, sizeof (char *), fmd_adm_serd_cmp);
for (i = 0; i < rsl.rsl_cnt; i++) {
bzero(&rsi, sizeof (rsi));
retries = 0;
do {
cs = fmd_adm_serdinfo_1((char *)name, serds[i], &rsi,
ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS) {
free(serds);
xdr_free(xdr_fmd_rpc_serdlist, (char *)&rsl);
return (fmd_adm_set_errno(ap, EPROTO));
}
if (rsi.rsi_err != 0 && rsi.rsi_err != FMD_ADM_ERR_SERDSRCH) {
free(serds);
xdr_free(xdr_fmd_rpc_serdinfo, (char *)&rsi);
xdr_free(xdr_fmd_rpc_serdlist, (char *)&rsl);
return (fmd_adm_set_svcerr(ap, rsi.rsi_err));
}
if (rsi.rsi_err == FMD_ADM_ERR_SERDSRCH) {
xdr_free(xdr_fmd_rpc_serdinfo, (char *)&rsi);
continue;
}
bzero(&asi, sizeof (asi));
asi.asi_name = rsi.rsi_name;
asi.asi_delta = rsi.rsi_delta;
asi.asi_n = rsi.rsi_n;
asi.asi_t = rsi.rsi_t;
asi.asi_count = rsi.rsi_count;
asi.asi_flags = 0;
if (rsi.rsi_fired)
asi.asi_flags |= FMD_ADM_SERD_FIRED;
rv = func(&asi, arg);
xdr_free(xdr_fmd_rpc_serdinfo, (char *)&rsi);
if (rv != 0)
break;
}
free(serds);
xdr_free(xdr_fmd_rpc_serdlist, (char *)&rsl);
return (0);
}
int
fmd_adm_serd_reset(fmd_adm_t *ap, const char *mod, const char *name)
{
char *s1 = (char *)mod, *s2 = (char *)name;
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (mod == NULL || name == NULL || strchr(mod, '/') != NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_serdreset_1(s1, s2, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
int
fmd_adm_xprt_iter(fmd_adm_t *ap, fmd_adm_xprt_f *func, void *arg)
{
struct fmd_rpc_xprtlist rxl;
uint_t i;
enum clnt_stat cs;
uint_t retries = 0;
bzero(&rxl, sizeof (rxl)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_xprtlist_1(&rxl, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rxl.rxl_err != 0) {
xdr_free(xdr_fmd_rpc_xprtlist, (char *)&rxl);
return (fmd_adm_set_svcerr(ap, rxl.rxl_err));
}
for (i = 0; i < rxl.rxl_len; i++)
func(rxl.rxl_buf.rxl_buf_val[i], arg);
xdr_free(xdr_fmd_rpc_xprtlist, (char *)&rxl);
return (0);
}
int
fmd_adm_xprt_stats(fmd_adm_t *ap, id_t id, fmd_adm_stats_t *sp)
{
struct fmd_rpc_modstat rms;
enum clnt_stat cs;
uint_t retries = 0;
if (sp == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
bzero(&rms, sizeof (rms)); /* tell xdr to allocate memory for us */
do {
cs = fmd_adm_xprtstat_1(id, &rms, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
if (rms.rms_err != 0) {
xdr_free(xdr_fmd_rpc_modstat, (char *)&rms);
return (fmd_adm_set_svcerr(ap, rms.rms_err));
}
sp->ams_buf = rms.rms_buf.rms_buf_val;
sp->ams_len = rms.rms_buf.rms_buf_len;
return (0);
}
int
fmd_adm_log_rotate(fmd_adm_t *ap, const char *log)
{
int err;
enum clnt_stat cs;
uint_t retries = 0;
if (log == NULL)
return (fmd_adm_set_errno(ap, EINVAL));
do {
cs = fmd_adm_logrotate_1((char *)log, &err, ap->adm_clnt);
} while (fmd_adm_retry(ap, cs, &retries));
if (cs != RPC_SUCCESS)
return (fmd_adm_set_errno(ap, EPROTO));
return (fmd_adm_set_svcerr(ap, err));
}
/*
* Custom XDR routine for our API structure fmd_stat_t. This function must
* match the definition of fmd_stat_t in <fm/fmd_api.h> and must also match
* the corresponding routine in usr/src/cmd/fm/fmd/common/fmd_rpc_adm.c.
*/
bool_t
xdr_fmd_stat(XDR *xp, fmd_stat_t *sp)
{
bool_t rv = TRUE;
rv &= xdr_opaque(xp, sp->fmds_name, sizeof (sp->fmds_name));
rv &= xdr_u_int(xp, &sp->fmds_type);
rv &= xdr_opaque(xp, sp->fmds_desc, sizeof (sp->fmds_desc));
switch (sp->fmds_type) {
case FMD_TYPE_BOOL:
rv &= xdr_int(xp, &sp->fmds_value.bool);
break;
case FMD_TYPE_INT32:
rv &= xdr_int32_t(xp, &sp->fmds_value.i32);
break;
case FMD_TYPE_UINT32:
rv &= xdr_uint32_t(xp, &sp->fmds_value.ui32);
break;
case FMD_TYPE_INT64:
rv &= xdr_int64_t(xp, &sp->fmds_value.i64);
break;
case FMD_TYPE_UINT64:
case FMD_TYPE_TIME:
case FMD_TYPE_SIZE:
rv &= xdr_uint64_t(xp, &sp->fmds_value.ui64);
break;
case FMD_TYPE_STRING:
rv &= xdr_string(xp, &sp->fmds_value.str, ~0);
break;
}
return (rv);
}
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