nut/drivers/snmp-ups.c

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/* snmp-ups.c - NUT Meta SNMP driver (support different MIBS)
*
* Based on NetSNMP API (Simple Network Management Protocol V1-2)
*
* Copyright (C)
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* 2002 - 2011 Arnaud Quette <arnaud.quette@free.fr>
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* 2002 - 2006 Dmitry Frolov <frolov@riss-telecom.ru>
* J.W. Hoogervorst <jeroen@hoogervorst.net>
* Niels Baggesen <niels@baggesen.net>
* 2009 - 2010 Arjen de Korte <adkorte-guest@alioth.debian.org>
*
* Sponsored by Eaton <http://www.eaton.com>
* and originally by MGE UPS SYSTEMS <http://www.mgeups.com/>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
/* NUT SNMP common functions */
#include "main.h"
#include "snmp-ups.h"
#include "parseconf.h"
/* include all known mib2nut lookup tables */
#include "apc-mib.h"
#include "mge-mib.h"
#include "netvision-mib.h"
#include "powerware-mib.h"
#include "eaton-mib.h"
#include "raritan-pdu-mib.h"
#include "baytech-mib.h"
#include "compaq-mib.h"
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#include "bestpower-mib.h"
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#include "ietf-mib.h"
static mib2nut_info_t *mib2nut[] = {
&apc,
&mge,
&netvision,
&powerware,
&aphel_genesisII,
&aphel_revelation,
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&eaton_marlin,
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&raritan,
&baytech,
&compaq,
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&bestpower,
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/*
* Prepend vendor specific MIB mappings before IETF, so that
* if a device supports both IETF and vendor specific MIB,
* the vendor specific one takes precedence (when mib=auto)
*/
&ietf,
/* end of structure. */
NULL
};
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int input_phases, output_phases, bypass_phases;
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/* pointer to the Snmp2Nut lookup table */
mib2nut_info_t *mib2nut_info;
/* FIXME: to be trashed */
snmp_info_t *snmp_info;
const char *mibname;
const char *mibvers;
static void disable_transfer_oids(void);
#define DRIVER_NAME "Generic SNMP UPS driver"
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#define DRIVER_VERSION "0.56"
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/* driver description structure */
upsdrv_info_t upsdrv_info = {
DRIVER_NAME,
DRIVER_VERSION,
"Arnaud Quette <arnaud.quette@free.fr>\n" \
"Dmitry Frolov <frolov@riss-telecom.ru>\n" \
"J.W. Hoogervorst <jeroen@hoogervorst.net>\n" \
"Niels Baggesen <niels@baggesen.net>\n" \
"Arjen de Korte <adkorte-guest@alioth.debian.org>",
DRV_STABLE,
{ NULL }
};
/* FIXME: integrate MIBs info? do the same as for usbhid-ups! */
time_t lastpoll = 0;
/* outlet OID index start with 0 or 1,
* automatically guessed at the first pass */
int outlet_index_base = -1;
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/* sysOID location */
#define SYSOID_OID ".1.3.6.1.2.1.1.2.0"
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/* ---------------------------------------------
* driver functions implementations
* --------------------------------------------- */
void upsdrv_initinfo(void)
{
snmp_info_t *su_info_p;
char version[128];
upsdebugx(1, "SNMP UPS driver : entering upsdrv_initinfo()");
snprintf(version, sizeof version, "%s (mib: %s %s)",
DRIVER_VERSION, mibname, mibvers);
dstate_setinfo("driver.version.internal", "%s", version);
/* add instant commands to the info database.
* outlet commands are processed during initial walk */
for (su_info_p = &snmp_info[0]; su_info_p->info_type != NULL ; su_info_p++)
{
su_info_p->flags |= SU_FLAG_OK;
if ((SU_TYPE(su_info_p) == SU_TYPE_CMD)
&& !(su_info_p->flags & SU_OUTLET))
dstate_addcmd(su_info_p->info_type);
}
if (testvar("notransferoids"))
disable_transfer_oids();
/* initialize all other INFO_ fields from list */
if (snmp_ups_walk(SU_WALKMODE_INIT))
dstate_dataok();
else
dstate_datastale();
/* setup handlers for instcmd and setvar functions */
upsh.setvar = su_setvar;
upsh.instcmd = su_instcmd;
}
void upsdrv_updateinfo(void)
{
upsdebugx(1,"SNMP UPS driver : entering upsdrv_updateinfo()");
/* only update every pollfreq */
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/* FIXME: update status (SU_STATUS_*), à la usbhid-ups, in between */
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if (time(NULL) > (lastpoll + pollfreq)) {
status_init();
/* update all dynamic info fields */
if (snmp_ups_walk(SU_WALKMODE_UPDATE))
dstate_dataok();
else
dstate_datastale();
status_commit();
/* store timestamp */
lastpoll = time(NULL);
}
}
void upsdrv_shutdown(void)
{
/*
This driver will probably never support this. In order to
be any use, the driver should be called near the end of
the system halt script. By that time we in all likelyhood
we won't have network capabilities anymore, so we could
never send this command to the UPS. This is not an error,
but a limitation of the interface used.
*/
fatalx(EXIT_SUCCESS, "SNMP doesn't support shutdown in system halt script");
}
void upsdrv_help(void)
{
upsdebugx(1, "entering upsdrv_help");
}
/* list flags and values that you want to receive via -x */
void upsdrv_makevartable(void)
{
upsdebugx(1, "entering upsdrv_makevartable()");
addvar(VAR_VALUE, SU_VAR_MIBS,
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"Set MIB compliance (default=ietf, allowed: mge,apcc,netvision,pw,cpqpower,...)");
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addvar(VAR_VALUE | VAR_SENSITIVE, SU_VAR_COMMUNITY,
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"Set community name (default=public)");
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addvar(VAR_VALUE, SU_VAR_VERSION,
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"Set SNMP version (default=v1, allowed v2c)");
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addvar(VAR_VALUE, SU_VAR_POLLFREQ,
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"Set polling frequency in seconds, to reduce network flow (default=30)");
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addvar(VAR_FLAG, "notransferoids",
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"Disable transfer OIDs (use on APCC Symmetras)");
addvar(VAR_VALUE, SU_VAR_SECLEVEL,
"Set the securityLevel used for SNMPv3 messages (default=noAuthNoPriv, allowed: authNoPriv,authPriv)");
addvar(VAR_VALUE | VAR_SENSITIVE, SU_VAR_SECNAME,
"Set the securityName used for authenticated SNMPv3 messages (no default)");
addvar(VAR_VALUE | VAR_SENSITIVE, SU_VAR_AUTHPASSWD,
"Set the authentication pass phrase used for authenticated SNMPv3 messages (no default)");
addvar(VAR_VALUE | VAR_SENSITIVE, SU_VAR_PRIVPASSWD,
"Set the privacy pass phrase used for encrypted SNMPv3 messages (no default)");
addvar(VAR_VALUE, SU_VAR_AUTHPROT,
"Set the authentication protocol (MD5 or SHA) used for authenticated SNMPv3 messages (default=MD5)");
addvar(VAR_VALUE, SU_VAR_PRIVPROT,
"Set the privacy protocol (DES or AES) used for encrypted SNMPv3 messages (default=DES)");
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}
void upsdrv_initups(void)
{
snmp_info_t *su_info_p;
char model[SU_INFOSIZE];
bool_t status;
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const char *mibs;
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upsdebugx(1, "SNMP UPS driver : entering upsdrv_initups()");
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/* Retrieve user's parameters */
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mibs = testvar(SU_VAR_MIBS) ? getval(SU_VAR_MIBS) : "auto";
/* init SNMP library, etc... */
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nut_snmp_init(progname, device_path);
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/* FIXME: first test if the device is reachable to avoid timeouts! */
/* Load the SNMP to NUT translation data */
load_mib2nut(mibs);
/* init polling frequency */
if (getval(SU_VAR_POLLFREQ))
pollfreq = atoi(getval(SU_VAR_POLLFREQ));
else
pollfreq = DEFAULT_POLLFREQ;
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/* Get UPS Model node to see if there's a MIB */
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su_info_p = su_find_info("ups.model");
status = nut_snmp_get_str(su_info_p->OID, model, sizeof(model), NULL);
if (status == TRUE)
upslogx(0, "Detected %s on host %s (mib: %s %s)",
model, device_path, mibname, mibvers);
else
fatalx(EXIT_FAILURE, "%s MIB wasn't found on %s", mibs, g_snmp_sess.peername);
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/* FIXME: "No supported device detected" */
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}
void upsdrv_cleanup(void)
{
nut_snmp_cleanup();
}
/* -----------------------------------------------------------
* SNMP functions.
* ----------------------------------------------------------- */
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void nut_snmp_init(const char *type, const char *hostname)
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{
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char *ns_options = NULL;
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const char *community, *version;
const char *secLevel = NULL, *authPassword, *privPassword;
const char *authProtocol, *privProtocol;
upsdebugx(2, "SNMP UPS driver : entering nut_snmp_init(%s)", type);
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/* Force numeric OIDs resolution (ie, do not resolve to textual names)
* This is mostly for the convenience of debug output */
ns_options = snmp_out_toggle_options("n");
if (ns_options != NULL) {
upsdebugx(2, "Failed to enable numeric OIDs resolution");
}
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/* Initialize the SNMP library */
init_snmp(type);
/* Initialize session */
snmp_sess_init(&g_snmp_sess);
g_snmp_sess.peername = xstrdup(hostname);
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/* Retrieve user parameters */
version = testvar(SU_VAR_VERSION) ? getval(SU_VAR_VERSION) : "v1";
if ((strcmp(version, "v1") == 0) || (strcmp(version, "v2c") == 0)) {
g_snmp_sess.version = (strcmp(version, "v1") == 0) ? SNMP_VERSION_1 : SNMP_VERSION_2c;
community = testvar(SU_VAR_COMMUNITY) ? getval(SU_VAR_COMMUNITY) : "public";
g_snmp_sess.community = (unsigned char *)xstrdup(community);
g_snmp_sess.community_len = strlen(community);
}
else if (strcmp(version, "v3") == 0) {
/* SNMP v3 related init */
g_snmp_sess.version = SNMP_VERSION_3;
/* Security level */
if (testvar(SU_VAR_SECLEVEL)) {
secLevel = getval(SU_VAR_SECLEVEL);
if (strcmp(secLevel, "noAuthNoPriv") == 0)
g_snmp_sess.securityLevel = SNMP_SEC_LEVEL_NOAUTH;
else if (strcmp(secLevel, "authNoPriv") == 0)
g_snmp_sess.securityLevel = SNMP_SEC_LEVEL_AUTHNOPRIV;
else if (strcmp(secLevel, "authPriv") == 0)
g_snmp_sess.securityLevel = SNMP_SEC_LEVEL_AUTHPRIV;
else
fatalx(EXIT_FAILURE, "Bad SNMPv3 securityLevel: %s", secLevel);
}
else
g_snmp_sess.securityLevel = SNMP_SEC_LEVEL_NOAUTH;
/* Security name */
if (testvar(SU_VAR_SECNAME)) {
g_snmp_sess.securityName = xstrdup(getval(SU_VAR_SECNAME));
g_snmp_sess.securityNameLen = strlen(g_snmp_sess.securityName);
}
else
fatalx(EXIT_FAILURE, "securityName is required for SNMPv3");
/* Process mandatory fields, based on the security level */
authPassword = testvar(SU_VAR_AUTHPASSWD) ? getval(SU_VAR_AUTHPASSWD) : NULL;
privPassword = testvar(SU_VAR_PRIVPASSWD) ? getval(SU_VAR_PRIVPASSWD) : NULL;
switch (g_snmp_sess.securityLevel) {
case SNMP_SEC_LEVEL_AUTHNOPRIV:
if (authPassword == NULL)
fatalx(EXIT_FAILURE, "authPassword is required for SNMPv3 in %s mode", secLevel);
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break;
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case SNMP_SEC_LEVEL_AUTHPRIV:
if ((authPassword == NULL) || (privPassword == NULL))
fatalx(EXIT_FAILURE, "authPassword and privPassword are required for SNMPv3 in %s mode", secLevel);
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break;
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default:
case SNMP_SEC_LEVEL_NOAUTH:
/* nothing else needed */
break;
}
/* Process authentication protocol and key */
g_snmp_sess.securityAuthKeyLen = USM_AUTH_KU_LEN;
authProtocol = testvar(SU_VAR_AUTHPROT) ? getval(SU_VAR_AUTHPROT) : "MD5";
if (strcmp(authProtocol, "MD5") == 0) {
g_snmp_sess.securityAuthProto = usmHMACMD5AuthProtocol;
g_snmp_sess.securityAuthProtoLen = sizeof(usmHMACMD5AuthProtocol)/sizeof(oid);
}
else if (strcmp(authProtocol, "SHA") == 0) {
g_snmp_sess.securityAuthProto = usmHMACSHA1AuthProtocol;
g_snmp_sess.securityAuthProtoLen = sizeof(usmHMACSHA1AuthProtocol)/sizeof(oid);
}
else
fatalx(EXIT_FAILURE, "Bad SNMPv3 authProtocol: %s", authProtocol);
/* set the authentication key to a MD5/SHA1 hashed version of our
* passphrase (must be at least 8 characters long) */
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if(g_snmp_sess.securityLevel != SNMP_SEC_LEVEL_NOAUTH) {
if (generate_Ku(g_snmp_sess.securityAuthProto,
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g_snmp_sess.securityAuthProtoLen,
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(u_char *) authPassword, strlen(authPassword),
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g_snmp_sess.securityAuthKey,
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&g_snmp_sess.securityAuthKeyLen) !=
SNMPERR_SUCCESS) {
fatalx(EXIT_FAILURE, "Error generating Ku from authentication pass phrase");
}
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}
privProtocol = testvar(SU_VAR_PRIVPROT) ? getval(SU_VAR_PRIVPROT) : "DES";
if (strcmp(privProtocol, "DES") == 0) {
g_snmp_sess.securityPrivProto = usmDESPrivProtocol;
g_snmp_sess.securityPrivProtoLen = sizeof(usmDESPrivProtocol)/sizeof(oid);
}
else if (strcmp(privProtocol, "AES") == 0) {
g_snmp_sess.securityPrivProto = usmAESPrivProtocol;
g_snmp_sess.securityPrivProtoLen = sizeof(usmAESPrivProtocol)/sizeof(oid);
}
else
fatalx(EXIT_FAILURE, "Bad SNMPv3 authProtocol: %s", authProtocol);
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/* set the privacy key to a MD5/SHA1 hashed version of our
* passphrase (must be at least 8 characters long) */
if(g_snmp_sess.securityLevel == SNMP_SEC_LEVEL_AUTHPRIV) {
g_snmp_sess.securityPrivKeyLen = USM_PRIV_KU_LEN;
if (generate_Ku(g_snmp_sess.securityAuthProto,
g_snmp_sess.securityAuthProtoLen,
(u_char *) privPassword, strlen(privPassword),
g_snmp_sess.securityPrivKey,
&g_snmp_sess.securityPrivKeyLen) !=
SNMPERR_SUCCESS) {
fatalx(EXIT_FAILURE, "Error generating Ku from privacy pass phrase");
}
}
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}
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else
fatalx(EXIT_FAILURE, "Bad SNMP version: %s", version);
/* Open the session */
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SOCK_STARTUP; /* MS Windows wrapper, not really needed on Unix! */
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g_snmp_sess_p = snmp_open(&g_snmp_sess); /* establish the session */
if (g_snmp_sess_p == NULL) {
nut_snmp_perror(&g_snmp_sess, 0, NULL, "nut_snmp_init: snmp_open");
fatalx(EXIT_FAILURE, "Unable to establish communication");
}
}
void nut_snmp_cleanup(void)
{
/* close snmp session. */
if (g_snmp_sess_p) {
snmp_close(g_snmp_sess_p);
g_snmp_sess_p = NULL;
}
SOCK_CLEANUP; /* wrapper not needed on Unix! */
}
struct snmp_pdu *nut_snmp_get(const char *OID)
{
int status;
struct snmp_pdu *pdu, *response = NULL;
oid name[MAX_OID_LEN];
size_t name_len = MAX_OID_LEN;
static unsigned int numerr = 0;
upsdebugx(3, "nut_snmp_get(%s)", OID);
/* create and send request. */
if (!snmp_parse_oid(OID, name, &name_len)) {
upsdebugx(2, "[%s] nut_snmp_get: %s: %s",
upsname?upsname:device_name, OID, snmp_api_errstring(snmp_errno));
return NULL;
}
pdu = snmp_pdu_create(SNMP_MSG_GET);
if (pdu == NULL)
fatalx(EXIT_FAILURE, "Not enough memory");
snmp_add_null_var(pdu, name, name_len);
status = snmp_synch_response(g_snmp_sess_p, pdu, &response);
if (!response)
return NULL;
if (!((status == STAT_SUCCESS) && (response->errstat == SNMP_ERR_NOERROR)))
{
if (mibname == NULL) {
/* We are probing for proper mib - ignore errors */
snmp_free_pdu(response);
return NULL;
}
numerr++;
if ((numerr == SU_ERR_LIMIT) || ((numerr % SU_ERR_RATE) == 0))
upslogx(LOG_WARNING, "[%s] Warning: excessive poll "
"failures, limiting error reporting",
upsname?upsname:device_name);
if ((numerr < SU_ERR_LIMIT) || ((numerr % SU_ERR_RATE) == 0))
nut_snmp_perror(g_snmp_sess_p, status, response,
"nut_snmp_get: %s", OID);
snmp_free_pdu(response);
response = NULL;
} else {
numerr = 0;
}
return response;
}
bool_t nut_snmp_get_str(const char *OID, char *buf, size_t buf_len, info_lkp_t *oid2info)
{
size_t len = 0;
struct snmp_pdu *pdu;
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upsdebugx(3, "Entering nut_snmp_get_str()");
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/* zero out buffer. */
memset(buf, 0, buf_len);
pdu = nut_snmp_get(OID);
if (pdu == NULL)
return FALSE;
switch (pdu->variables->type) {
case ASN_OCTET_STR:
case ASN_OPAQUE:
len = pdu->variables->val_len > buf_len - 1 ?
buf_len - 1 : pdu->variables->val_len;
memcpy(buf, pdu->variables->val.string, len);
buf[len] = '\0';
break;
case ASN_INTEGER:
case ASN_COUNTER:
case ASN_GAUGE:
if(oid2info) {
const char *str;
if((str=su_find_infoval(oid2info, *pdu->variables->val.integer))) {
strncpy(buf, str, buf_len-1);
}
else {
strncpy(buf, "UNKNOWN", buf_len-1);
}
buf[buf_len-1]='\0';
}
else {
len = snprintf(buf, buf_len, "%ld", *pdu->variables->val.integer);
}
break;
case ASN_TIMETICKS:
/* convert timeticks to seconds */
len = snprintf(buf, buf_len, "%ld", *pdu->variables->val.integer / 100);
break;
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case ASN_OBJECT_ID:
len = snprint_objid (buf, buf_len, pdu->variables->val.objid, pdu->variables->val_len / sizeof(oid));
break;
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default:
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upsdebugx(2, "[%s] unhandled ASN 0x%x received from %s",
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upsname?upsname:device_name, pdu->variables->type, OID);
return FALSE;
}
snmp_free_pdu(pdu);
return TRUE;
}
bool_t nut_snmp_get_int(const char *OID, long *pval)
{
struct snmp_pdu *pdu;
long value;
char *buf;
pdu = nut_snmp_get(OID);
if (pdu == NULL)
return FALSE;
switch (pdu->variables->type) {
case ASN_OCTET_STR:
case ASN_OPAQUE:
buf = xmalloc(pdu->variables->val_len + 1);
memcpy(buf, pdu->variables->val.string, pdu->variables->val_len);
buf[pdu->variables->val_len] = '\0';
value = strtol(buf, NULL, 0);
free(buf);
break;
case ASN_INTEGER:
case ASN_COUNTER:
case ASN_GAUGE:
value = *pdu->variables->val.integer;
break;
case ASN_TIMETICKS:
/* convert timeticks to seconds */
value = *pdu->variables->val.integer / 100;
break;
default:
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upslogx(LOG_ERR, "[%s] unhandled ASN 0x%x received from %s",
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upsname?upsname:device_name, pdu->variables->type, OID);
return FALSE;
break;
}
snmp_free_pdu(pdu);
if (pval != NULL)
*pval = value;
return TRUE;
}
bool_t nut_snmp_set(const char *OID, char type, const char *value)
{
int status;
bool_t ret = FALSE;
struct snmp_pdu *pdu, *response = NULL;
oid name[MAX_OID_LEN];
size_t name_len = MAX_OID_LEN;
upsdebugx(1, "entering nut_snmp_set (%s, %c, %s)", OID, type, value);
if (!snmp_parse_oid(OID, name, &name_len)) {
upslogx(LOG_ERR, "[%s] nut_snmp_set: %s: %s",
upsname?upsname:device_name, OID, snmp_api_errstring(snmp_errno));
return FALSE;
}
pdu = snmp_pdu_create(SNMP_MSG_SET);
if (pdu == NULL)
fatalx(EXIT_FAILURE, "Not enough memory");
if (snmp_add_var(pdu, name, name_len, type, value)) {
upslogx(LOG_ERR, "[%s] nut_snmp_set: %s: %s",
upsname?upsname:device_name, OID, snmp_api_errstring(snmp_errno));
return FALSE;
}
status = snmp_synch_response(g_snmp_sess_p, pdu, &response);
if ((status == STAT_SUCCESS) && (response->errstat == SNMP_ERR_NOERROR))
ret = TRUE;
else
nut_snmp_perror(g_snmp_sess_p, status, response,
"nut_snmp_set: can't set %s", OID);
snmp_free_pdu(response);
return ret;
}
bool_t nut_snmp_set_str(const char *OID, const char *value)
{
return nut_snmp_set(OID, 's', value);
}
bool_t nut_snmp_set_int(const char *OID, long value)
{
char buf[SU_BUFSIZE];
snprintf(buf, sizeof(buf), "%ld", value);
return nut_snmp_set(OID, 'i', buf);
}
bool_t nut_snmp_set_time(const char *OID, long value)
{
char buf[SU_BUFSIZE];
snprintf(buf, SU_BUFSIZE, "%ld", value * 100);
return nut_snmp_set(OID, 't', buf);
}
/* log descriptive SNMP error message. */
void nut_snmp_perror(struct snmp_session *sess, int status,
struct snmp_pdu *response, const char *fmt, ...)
{
va_list va;
int cliberr, snmperr;
char *snmperrstr;
char buf[SU_LARGEBUF];
va_start(va, fmt);
vsnprintf(buf, sizeof(buf), fmt, va);
va_end(va);
if (response == NULL) {
snmp_error(sess, &cliberr, &snmperr, &snmperrstr);
upslogx(LOG_ERR, "[%s] %s: %s",
upsname?upsname:device_name, buf, snmperrstr);
free(snmperrstr);
} else if (status == STAT_SUCCESS) {
switch (response->errstat)
{
case SNMP_ERR_NOERROR:
break;
case SNMP_ERR_NOSUCHNAME: /* harmless */
upsdebugx(2, "[%s] %s: %s",
upsname?upsname:device_name, buf, snmp_errstring(response->errstat));
break;
default:
upslogx(LOG_ERR, "[%s] %s: Error in packet: %s",
upsname?upsname:device_name, buf, snmp_errstring(response->errstat));
break;
}
} else if (status == STAT_TIMEOUT) {
upslogx(LOG_ERR, "[%s] %s: Timeout: no response from %s",
upsname?upsname:device_name, buf, sess->peername);
} else {
snmp_sess_error(sess, &cliberr, &snmperr, &snmperrstr);
upslogx(LOG_ERR, "[%s] %s: %s",
upsname?upsname:device_name, buf, snmperrstr);
free(snmperrstr);
}
}
/* -----------------------------------------------------------
* utility functions.
* ----------------------------------------------------------- */
/* deal with APCC weirdness on Symmetras */
static void disable_transfer_oids(void)
{
snmp_info_t *su_info_p;
upslogx(LOG_INFO, "Disabling transfer OIDs");
for (su_info_p = &snmp_info[0]; su_info_p->info_type != NULL ; su_info_p++) {
if (!strcasecmp(su_info_p->info_type, "input.transfer.low")) {
su_info_p->flags &= ~SU_FLAG_OK;
continue;
}
if (!strcasecmp(su_info_p->info_type, "input.transfer.high")) {
su_info_p->flags &= ~SU_FLAG_OK;
continue;
}
}
}
/* universal function to add or update info element. */
void su_setinfo(snmp_info_t *su_info_p, const char *value)
{
upsdebugx(1, "entering su_setinfo(%s)", su_info_p->info_type);
if (SU_TYPE(su_info_p) == SU_TYPE_CMD)
return;
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if (strcasecmp(su_info_p->info_type, "ups.status"))
{
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if (value != NULL)
dstate_setinfo(su_info_p->info_type, "%s", value);
else
dstate_setinfo(su_info_p->info_type, "%s", su_info_p->dfl);
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dstate_setflags(su_info_p->info_type, su_info_p->info_flags);
dstate_setaux(su_info_p->info_type, su_info_p->info_len);
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/* Commit the current value, to avoid staleness with huge
* data collections on slow devices */
dstate_dataok();
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}
}
void su_status_set(snmp_info_t *su_info_p, long value)
{
const char *info_value = NULL;
upsdebugx(2, "SNMP UPS driver : entering su_status_set()");
if ((info_value = su_find_infoval(su_info_p->oid2info, value)) != NULL)
{
if (strcmp(info_value, "")) {
status_set(info_value);
}
}
/* TODO: else */
}
/* find info element definition in my info array. */
snmp_info_t *su_find_info(const char *type)
{
snmp_info_t *su_info_p;
for (su_info_p = &snmp_info[0]; su_info_p->info_type != NULL ; su_info_p++)
if (!strcasecmp(su_info_p->info_type, type)) {
upsdebugx(3, "su_find_info: \"%s\" found", type);
return su_info_p;
}
upsdebugx(3, "su_find_info: unknown info type (%s)", type);
return NULL;
}
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/* Try to find the MIB using sysOID matching.
* Return a pointer to a mib2nut definition if found, NULL otherwise */
mib2nut_info_t *match_sysoid()
{
char sysOID_buf[LARGEBUF];
oid device_sysOID[MAX_OID_LEN];
size_t device_sysOID_len = MAX_OID_LEN;
oid mib2nut_sysOID[MAX_OID_LEN];
size_t mib2nut_sysOID_len = MAX_OID_LEN;
int i;
/* Retrieve sysOID value of this device */
if (nut_snmp_get_str(SYSOID_OID, sysOID_buf, sizeof(sysOID_buf), NULL))
{
upsdebugx(1, "match_sysoid: device sysOID value = %s", sysOID_buf);
/* Build OIDs for comparison */
if (!read_objid(sysOID_buf, device_sysOID, &device_sysOID_len))
{
upsdebugx(2, "match_sysoid: can't build device_sysOID %s: %s",
sysOID_buf, snmp_api_errstring(snmp_errno));
return FALSE;
}
/* Now, iterate on mib2nut definitions */
for (i = 0; mib2nut[i] != NULL; i++)
{
upsdebugx(1, "match_sysoid: checking MIB %s", mib2nut[i]->mib_name);
if (mib2nut[i]->sysOID == NULL)
continue;
/* Clear variables */
memset(mib2nut_sysOID, 0, MAX_OID_LEN);
mib2nut_sysOID_len = MAX_OID_LEN;
if (!read_objid(mib2nut[i]->sysOID, mib2nut_sysOID, &mib2nut_sysOID_len))
{
upsdebugx(2, "match_sysoid: can't build OID %s: %s",
sysOID_buf, snmp_api_errstring(snmp_errno));
/* Try to continue anyway! */
continue;
}
/* Now compare these */
upsdebugx(1, "match_sysoid: comparing %s with %s", sysOID_buf, mib2nut[i]->sysOID);
if (!netsnmp_oid_equals(device_sysOID, device_sysOID_len, mib2nut_sysOID, mib2nut_sysOID_len))
{
upsdebugx(2, "match_sysoid: sysOID matches MIB '%s'!", mib2nut[i]->mib_name);
return mib2nut[i];
}
}
/* Yell all to call for user report */
upslogx(LOG_ERR, "No matching MIB found for sysOID '%s'! " \
"Please report it to NUT developers, with the 'mib' paramater for your devices",
sysOID_buf);
}
else
upsdebugx(2, "Can't get sysOID value");
return NULL;
}
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/* Load the right snmp_info_t structure matching mib parameter */
bool_t load_mib2nut(const char *mib)
{
int i;
char buf[LARGEBUF];
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mib2nut_info_t *m2n = NULL;
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upsdebugx(2, "SNMP UPS driver : entering load_mib2nut(%s)", mib);
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/* First, try to match against sysOID, if no MIB was provided.
* This should speed up init stage
* (Note: sysOID points the device main MIB entry point) */
if (!strcmp(mib, "auto"))
{
upsdebugx(1, "trying the new match_sysoid() method");
m2n = match_sysoid();
}
/* Otherwise, revert to the classic method */
if (m2n == NULL)
{
for (i = 0; mib2nut[i] != NULL; i++) {
/* Is there already a MIB name provided? */
if (strcmp(mib, "auto") && strcmp(mib, mib2nut[i]->mib_name)) {
continue;
}
upsdebugx(1, "load_mib2nut: trying classic method with '%s' mib", mib2nut[i]->mib_name);
/* Classic method: test an OID specific to this MIB */
if (!nut_snmp_get_str(mib2nut[i]->oid_auto_check, buf, sizeof(buf), NULL)) {
continue;
}
/* MIB found */
m2n = mib2nut[i];
break;
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}
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}
/* Store the result, if any */
if (m2n != NULL)
{
snmp_info = m2n->snmp_info;
OID_pwr_status = m2n->oid_pwr_status;
mibname = m2n->mib_name;
mibvers = m2n->mib_version;
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upsdebugx(1, "load_mib2nut: using %s mib", mibname);
return TRUE;
}
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/* Did we find something or is it really an unknown mib */
if (strcmp(mib, "auto") != 0) {
fatalx(EXIT_FAILURE, "Unknown mibs value: %s", mib);
} else {
fatalx(EXIT_FAILURE, "No supported device detected");
}
}
/* find the OID value matching that INFO_* value */
long su_find_valinfo(info_lkp_t *oid2info, char* value)
{
info_lkp_t *info_lkp;
for (info_lkp = oid2info; (info_lkp != NULL) &&
(strcmp(info_lkp->info_value, "NULL")); info_lkp++) {
if (!(strcmp(info_lkp->info_value, value))) {
upsdebugx(1, "su_find_valinfo: found %s (value: %s)",
info_lkp->info_value, value);
return info_lkp->oid_value;
}
}
upsdebugx(1, "su_find_valinfo: no matching INFO_* value for this OID value (%s)", value);
return -1;
}
/* find the INFO_* value matching that OID value */
const char *su_find_infoval(info_lkp_t *oid2info, long value)
{
info_lkp_t *info_lkp;
for (info_lkp = oid2info; (info_lkp != NULL) &&
(strcmp(info_lkp->info_value, "NULL")); info_lkp++) {
if (info_lkp->oid_value == value) {
upsdebugx(1, "su_find_infoval: found %s (value: %ld)",
info_lkp->info_value, value);
return info_lkp->info_value;
}
}
upsdebugx(1, "su_find_infoval: no matching INFO_* value for this OID value (%ld)", value);
return NULL;
}
static void disable_competition(snmp_info_t *entry)
{
snmp_info_t *p;
for(p=snmp_info; p->info_type!=NULL; p++) {
if(p!=entry && !strcmp(p->info_type, entry->info_type)) {
upsdebugx(2, "disable_competition: disabling %s %s",
p->info_type, p->OID);
p->flags &= ~SU_FLAG_OK;
}
}
}
/* instantiate an snmp_info_t from a template.
* mostly (only?) useful for outlet templates.
* Note: remember to adapt info_type, OID and optionaly dfl */
snmp_info_t *instantiate_info(snmp_info_t *info_template, snmp_info_t *new_instance)
{
/* sanity check */
if (info_template == NULL)
return NULL;
if (new_instance == NULL)
new_instance = (snmp_info_t *)xmalloc(sizeof(snmp_info_t));
new_instance->info_type = (char *)xmalloc(SU_INFOSIZE);
if (info_template->OID != NULL)
new_instance->OID = (char *)xmalloc(SU_INFOSIZE);
else
new_instance->OID = NULL;
new_instance->info_flags = info_template->info_flags;
new_instance->info_len = info_template->info_len;
/* FIXME: check if we need to adapt this one... */
new_instance->dfl = info_template->dfl;
new_instance->flags = info_template->flags;
new_instance->oid2info = info_template->oid2info;
new_instance->setvar = info_template->setvar;
return new_instance;
}
/* free a dynamically allocated snmp_info_t.
* mostly (only?) useful for outlet templates */
void free_info(snmp_info_t *su_info_p)
{
/* sanity check */
if (su_info_p == NULL)
return;
if (su_info_p->info_type != NULL)
free ((char *)su_info_p->info_type);
if (su_info_p->OID != NULL)
free ((char *)su_info_p->OID);
free (su_info_p);
}
/* return the base SNMP index (0 or 1) to start outlet iteration on the MIB,
* based on a test using a template OID */
int base_snmp_outlet_index(const char *OID_template)
{
int base_index = outlet_index_base;
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char test_OID[SU_INFOSIZE];
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if (outlet_index_base == -1)
{
/* not initialised yet */
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/* Workaround for Eaton Marlin, while waiting for a FW fix and
* a driver rewrite (advanced hooks) */
if ((mibname != NULL) && (!strncmp(mibname, "eaton_epdu", 11)))
{
upsdebugx(3, "Appying Eaton Marlin workaround");
outlet_index_base = base_index = 1;
} else {
for (base_index = 0 ; base_index < 2 ; base_index++) {
sprintf(test_OID, OID_template, base_index);
if (nut_snmp_get(test_OID) != NULL)
break;
}
outlet_index_base = base_index;
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}
}
upsdebugx(3, "base_snmp_outlet_index: %i", outlet_index_base);
return base_index;
}
/* return the NUT offset (increment) based on outlet_index_base
* ie (outlet_index_base == 0) => increment +1
* (outlet_index_base == 1) => increment +0 */
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int base_nut_outlet_offset(void)
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{
return (outlet_index_base==0)?1:0;
}
/* process a single data from a walk */
bool_t get_and_process_data(int mode, snmp_info_t *su_info_p)
{
bool_t status = FALSE;
upsdebugx(1, "getting data: %s (%s)", su_info_p->info_type, su_info_p->OID);
/* ok, update this element. */
status = su_ups_get(su_info_p);
/* set stale flag if data is stale, clear if not. */
if (status == TRUE) {
if (su_info_p->flags & SU_FLAG_STALE) {
upslogx(LOG_INFO, "[%s] snmp_ups_walk: data resumed for %s",
upsname?upsname:device_name, su_info_p->info_type);
su_info_p->flags &= ~SU_FLAG_STALE;
}
if(su_info_p->flags & SU_FLAG_UNIQUE) {
/* We should be the only provider of this */
disable_competition(su_info_p);
su_info_p->flags &= ~SU_FLAG_UNIQUE;
}
dstate_dataok();
} else {
if (mode == SU_WALKMODE_INIT) {
/* handle unsupported vars */
su_info_p->flags &= ~SU_FLAG_OK;
} else {
if (!(su_info_p->flags & SU_FLAG_STALE)) {
upslogx(LOG_INFO, "[%s] snmp_ups_walk: data stale for %s",
upsname?upsname:device_name, su_info_p->info_type);
su_info_p->flags |= SU_FLAG_STALE;
}
dstate_datastale();
}
}
return status;
}
/* walk ups variables and set elements of the info array. */
bool_t snmp_ups_walk(int mode)
{
static unsigned long iterations = 0;
snmp_info_t *su_info_p;
bool_t status = FALSE;
for (su_info_p = &snmp_info[0]; su_info_p->info_type != NULL ; su_info_p++) {
/* Check if we are asked to stop (reactivity++) */
if (exit_flag != 0)
return TRUE;
/* skip instcmd, not linked to outlets */
if ((SU_TYPE(su_info_p) == SU_TYPE_CMD)
&& !(su_info_p->flags & SU_OUTLET)) {
upsdebugx(1, "SU_CMD_MASK => %s", su_info_p->OID);
continue;
}
/* skip elements we shouldn't show */
if (!(su_info_p->flags & SU_FLAG_OK))
continue;
/* skip static elements in update mode */
if (mode == SU_WALKMODE_UPDATE &&
su_info_p->flags & SU_FLAG_STATIC)
continue;
/* set default value if we cannot fetch it */
/* and set static flag on this element.
* not applicable to outlets (need SU_FLAG_STATIC tagging) */
if ((su_info_p->flags & SU_FLAG_ABSENT)
&& !(su_info_p->flags & SU_OUTLET)) {
if (mode == SU_WALKMODE_INIT) {
if (su_info_p->dfl) {
/* Set default value if we cannot fetch it from ups. */
su_setinfo(su_info_p, NULL);
}
su_info_p->flags |= SU_FLAG_STATIC;
}
continue;
}
/* check stale elements only on each PN_STALE_RETRY iteration. */
if ((su_info_p->flags & SU_FLAG_STALE) &&
(iterations % SU_STALE_RETRY) != 0)
continue;
if (su_info_p->flags & SU_INPHASES) {
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upsdebugx(1, "Check input_phases");
if (input_phases == 0) {
continue;
}
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if (su_info_p->flags & SU_INPUT_1) {
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if (input_phases == 1) {
upsdebugx(1, "input_phases is 1");
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su_info_p->flags &= ~SU_INPHASES;
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} else {
upsdebugx(1, "input_phases is not 1");
su_info_p->flags &= ~SU_FLAG_OK;
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continue;
}
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} else if (su_info_p->flags & SU_INPUT_3) {
if (input_phases == 3) {
upsdebugx(1, "input_phases is 3");
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su_info_p->flags &= ~SU_INPHASES;
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} else {
upsdebugx(1, "input_phases is not 3");
su_info_p->flags &= ~SU_FLAG_OK;
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continue;
}
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} else {
upsdebugx(1, "input_phases is %d", input_phases);
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}
}
if (su_info_p->flags & SU_OUTPHASES) {
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upsdebugx(1, "Check output_phases");
if (output_phases == 0) {
continue;
}
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if (su_info_p->flags & SU_OUTPUT_1) {
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if (output_phases == 1) {
upsdebugx(1, "output_phases is 1");
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su_info_p->flags &= ~SU_OUTPHASES;
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} else {
upsdebugx(1, "output_phases is not 1");
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su_info_p->flags &= ~SU_FLAG_OK;
continue;
}
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} else if (su_info_p->flags & SU_OUTPUT_3) {
if (output_phases == 3) {
upsdebugx(1, "output_phases is 3");
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su_info_p->flags &= ~SU_OUTPHASES;
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} else {
upsdebugx(1, "output_phases is not 3");
su_info_p->flags &= ~SU_FLAG_OK;
continue;
}
} else {
upsdebugx(1, "output_phases is %d", output_phases);
}
}
if (su_info_p->flags & SU_BYPPHASES) {
upsdebugx(1, "Check bypass_phases");
if (bypass_phases == 0) {
continue;
}
if (su_info_p->flags & SU_BYPASS_1) {
if (bypass_phases == 1) {
upsdebugx(1, "bypass_phases is 1");
su_info_p->flags &= ~SU_BYPPHASES;
} else {
upsdebugx(1, "bypass_phases is not 1");
su_info_p->flags &= ~SU_FLAG_OK;
continue;
}
} else if (su_info_p->flags & SU_BYPASS_3) {
if (input_phases == 3) {
upsdebugx(1, "bypass_phases is 3");
su_info_p->flags &= ~SU_BYPPHASES;
} else {
upsdebugx(1, "bypass_phases is not 3");
su_info_p->flags &= ~SU_FLAG_OK;
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continue;
}
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} else {
upsdebugx(1, "bypass_phases is %d", bypass_phases);
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}
}
/* process outlet template definition */
if (su_info_p->flags & SU_OUTLET) {
upsdebugx(1, "outlet template definition found (%s)...", su_info_p->info_type);
int cur_outlet_number = 1;
int cur_nut_index = 0;
int outlet_count = 0;
snmp_info_t cur_info_p;
if(dstate_getinfo("outlet.count") == NULL) {
/* FIXME: should we disable it?
* su_info_p->flags &= ~SU_FLAG_OK; */
continue;
}
outlet_count = atoi(dstate_getinfo("outlet.count"));
/* general init of data using the template */
instantiate_info(su_info_p, &cur_info_p);
for (cur_outlet_number = base_snmp_outlet_index(su_info_p->OID) ;
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cur_outlet_number < (outlet_count + base_snmp_outlet_index(su_info_p->OID)) ;
cur_outlet_number++)
{
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cur_nut_index = cur_outlet_number + base_nut_outlet_offset();
sprintf((char*)cur_info_p.info_type, su_info_p->info_type,
cur_nut_index);
/* check if default value is also a template */
if ((cur_info_p.dfl != NULL) &&
(strstr(su_info_p->dfl, "%i") != NULL)) {
cur_info_p.dfl = (char *)xmalloc(SU_INFOSIZE);
sprintf((char *)cur_info_p.dfl, su_info_p->dfl, cur_nut_index);
}
if (cur_info_p.OID != NULL) {
sprintf((char *)cur_info_p.OID, su_info_p->OID, cur_outlet_number);
/* add outlet instant commands to the info database. */
if (SU_TYPE(su_info_p) == SU_TYPE_CMD) {
if (mode == SU_WALKMODE_INIT)
dstate_addcmd(cur_info_p.info_type);
}
else /* get and process this data */
status = get_and_process_data(mode, &cur_info_p);
} else {
/* server side (ABSENT) data */
su_setinfo(&cur_info_p, NULL);
}
/* set back the flag */
su_info_p->flags = cur_info_p.flags;
}
free((char*)cur_info_p.info_type);
if (cur_info_p.OID != NULL)
free((char*)cur_info_p.OID);
if ((cur_info_p.dfl != NULL) &&
(strstr(su_info_p->dfl, "%i") != NULL))
free((char*)cur_info_p.dfl);
} else {
/* get and process this data */
status = get_and_process_data(mode, su_info_p);
}
} /* for (su_info_p... */
iterations++;
return status;
}
bool_t su_ups_get(snmp_info_t *su_info_p)
{
static char buf[SU_INFOSIZE];
bool_t status;
long value;
upsdebugx(2, "su_ups_get: %s %s", su_info_p->info_type, su_info_p->OID);
if (!strcasecmp(su_info_p->info_type, "ups.status")) {
status = nut_snmp_get_int(su_info_p->OID, &value);
if (status == TRUE)
{
su_status_set(su_info_p, value);
upsdebugx(2, "=> value: %ld", value);
}
else upsdebugx(2, "=> Failed");
return status;
}
/* another special case */
if (!strcasecmp(su_info_p->info_type, "ambient.temperature")) {
float temp=0;
status = nut_snmp_get_int(su_info_p->OID, &value);
if(status != TRUE) {
return status;
}
/* only do this if using the IEM sensor */
if (!strcmp(su_info_p->OID, APCC_OID_IEM_TEMP)) {
int su;
long units;
su = nut_snmp_get_int(APCC_OID_IEM_TEMP_UNIT, &units);
/* no response, or units == F */
if ((su == FALSE) || (units == APCC_IEM_FAHRENHEIT))
temp = (value - 32) / 1.8;
else
temp = value;
}
else {
temp = value * su_info_p->info_len;
}
snprintf(buf, sizeof(buf), "%.1f", temp);
su_setinfo(su_info_p, buf);
return TRUE;
}
if (su_info_p->info_flags == 0) {
status = nut_snmp_get_int(su_info_p->OID, &value);
if (status == TRUE) {
if (su_info_p->flags&SU_FLAG_NEGINVALID && value<0) {
su_info_p->flags &= ~SU_FLAG_OK;
if(su_info_p->flags&SU_FLAG_UNIQUE) {
disable_competition(su_info_p);
su_info_p->flags &= ~SU_FLAG_UNIQUE;
}
return FALSE;
}
if (su_info_p->flags & SU_FLAG_SETINT) {
upsdebugx(1, "setvar %s", su_info_p->OID);
*su_info_p->setvar = value;
}
snprintf(buf, sizeof(buf), "%.2f", value * su_info_p->info_len);
}
} else {
status = nut_snmp_get_str(su_info_p->OID, buf, sizeof(buf), su_info_p->oid2info);
}
if (status == TRUE) {
su_setinfo(su_info_p, buf);
upsdebugx(2, "=> value: %s", buf);
}
else
upsdebugx(2, "=> Failed");
return status;
}
/* set r/w INFO_ element to a value. */
int su_setvar(const char *varname, const char *val)
{
snmp_info_t *su_info_p = NULL;
bool_t status;
int retval = STAT_SET_FAILED;
upsdebugx(2, "entering su_setvar(%s, %s)", varname, val);
if (strncmp(varname, "outlet", 6))
su_info_p = su_find_info(varname);
else {
snmp_info_t *tmp_info_p;
char *outlet_number_ptr = strchr(varname, '.');
int outlet_number = atoi(++outlet_number_ptr);
if (dstate_getinfo("outlet.count") == NULL) {
upsdebugx(2, "su_setvar: can't get outlet.count...");
return STAT_SET_INVALID;
}
upsdebugx(3, "su_setvar: outlet %i / %i", outlet_number,
atoi(dstate_getinfo("outlet.count")));
/* ensure the outlet number is supported (filtered upstream though)! */
if (outlet_number > atoi(dstate_getinfo("outlet.count"))) {
/* out of bound outlet number */
upsdebugx(2, "su_setvar: outlet is out of bound (%i / %s)",
outlet_number, dstate_getinfo("outlet.count"));
return STAT_SET_INVALID;
}
/* find back the outlet template */
char *outlet_varname = (char *)xmalloc(SU_INFOSIZE);
sprintf(outlet_varname, "outlet.%s%s", "%i", strchr(outlet_number_ptr++, '.'));
upsdebugx(3, "su_setvar: searching for template\"%s\"", outlet_varname);
tmp_info_p = su_find_info(outlet_varname);
free(outlet_varname);
/* for an snmp_info_t instance */
su_info_p = instantiate_info(tmp_info_p, su_info_p);
/* check if default value is also a template */
if ((su_info_p->dfl != NULL) &&
(strstr(tmp_info_p->dfl, "%i") != NULL)) {
su_info_p->dfl = (char *)xmalloc(SU_INFOSIZE);
sprintf((char *)su_info_p->dfl, tmp_info_p->dfl,
outlet_number - base_nut_outlet_offset());
}
/* adapt the OID */
if (su_info_p->OID != NULL) {
sprintf((char *)su_info_p->OID, tmp_info_p->OID,
outlet_number - base_nut_outlet_offset());
}
/* else, don't return STAT_SET_INVALID since we can be setting
* a server side variable! */
/* adapt info_type */
if (su_info_p->info_type != NULL)
sprintf((char *)su_info_p->info_type, "%s", varname);
}
if (!su_info_p || !su_info_p->info_type || !(su_info_p->flags & SU_FLAG_OK)) {
upsdebugx(2, "su_setvar: info element unavailable %s", varname);
if (!strncmp(varname, "outlet", 6))
free_info(su_info_p);
return STAT_SET_UNKNOWN;
}
if (!(su_info_p->info_flags & ST_FLAG_RW) || su_info_p->OID == NULL) {
upsdebugx(2, "su_setvar: not writable %s", varname);
if (!strncmp(varname, "outlet", 6))
free_info(su_info_p);
return STAT_SET_INVALID;
}
/* set value into the device */
if (su_info_p->info_flags & ST_FLAG_STRING) {
status = nut_snmp_set_str(su_info_p->OID, val);
} else {
status = nut_snmp_set_int(su_info_p->OID, strtol(val, NULL, 0));
}
if (status == FALSE)
upsdebugx(1, "su_setvar: cannot set value %s for %s", val, su_info_p->OID);
else {
retval = STAT_SET_HANDLED;
upsdebugx(1, "su_setvar: successfully set %s to \"%s\"", varname, val);
/* update info array */
su_setinfo(su_info_p, val);
}
if (!strncmp(varname, "outlet", 6))
free_info(su_info_p);
return retval;
}
/* process instant command and take action. */
int su_instcmd(const char *cmdname, const char *extradata)
{
snmp_info_t *su_info_p = NULL;
int status;
int retval = STAT_INSTCMD_FAILED;
upsdebugx(2, "entering su_instcmd(%s, %s)", cmdname, extradata);
if (strncmp(cmdname, "outlet", 6))
su_info_p = su_find_info(cmdname);
else {
snmp_info_t *tmp_info_p;
char *outlet_number_ptr = strchr(cmdname, '.');
int outlet_number = atoi(++outlet_number_ptr);
if (dstate_getinfo("outlet.count") == NULL) {
upsdebugx(2, "su_instcmd: can't get outlet.count...");
return STAT_INSTCMD_UNKNOWN;
}
upsdebugx(3, "su_instcmd: outlet %i / %i", outlet_number,
atoi(dstate_getinfo("outlet.count")));
/* ensure the outlet number is supported! */
if (outlet_number > atoi(dstate_getinfo("outlet.count"))) {
/* out of bound outlet number */
upsdebugx(2, "su_instcmd: outlet is out of bound (%i / %s)",
outlet_number, dstate_getinfo("outlet.count"));
return STAT_INSTCMD_INVALID;
}
/* find back the outlet template */
char *outlet_cmdname = (char *)xmalloc(SU_INFOSIZE);
sprintf(outlet_cmdname, "outlet.%s%s", "%i", strchr(outlet_number_ptr++, '.'));
upsdebugx(3, "su_instcmd: searching for template\"%s\"", outlet_cmdname);
tmp_info_p = su_find_info(outlet_cmdname);
free(outlet_cmdname);
/* for an snmp_info_t instance */
su_info_p = instantiate_info(tmp_info_p, su_info_p);
/* check if default value is also a template */
if ((su_info_p->dfl != NULL) &&
(strstr(tmp_info_p->dfl, "%i") != NULL)) {
su_info_p->dfl = (char *)xmalloc(SU_INFOSIZE);
sprintf((char *)su_info_p->dfl, tmp_info_p->dfl,
outlet_number - base_nut_outlet_offset());
}
/* adapt the OID */
if (su_info_p->OID != NULL) {
sprintf((char *)su_info_p->OID, tmp_info_p->OID,
outlet_number - base_nut_outlet_offset());
} else {
free_info(su_info_p);
return STAT_INSTCMD_UNKNOWN;
}
}
if (!su_info_p || !su_info_p->info_type || !(su_info_p->flags & SU_FLAG_OK)) {
upsdebugx(2, "su_instcmd: %s unavailable", cmdname);
if (!strncmp(cmdname, "outlet", 6))
free_info(su_info_p);
return STAT_INSTCMD_UNKNOWN;
}
/* set value. */
if (su_info_p->info_flags & ST_FLAG_STRING) {
status = nut_snmp_set_str(su_info_p->OID, extradata ? extradata : su_info_p->dfl);
} else {
status = nut_snmp_set_int(su_info_p->OID, extradata ? atoi(extradata) : su_info_p->info_len);
}
if (status == FALSE)
upsdebugx(1, "su_instcmd: cannot set value for %s", cmdname);
else {
retval = STAT_INSTCMD_HANDLED;
upsdebugx(1, "su_instcmd: successfully sent command %s", cmdname);
}
if (!strncmp(cmdname, "outlet", 6))
free_info(su_info_p);
return retval;
}
/* TODO: complete rewrite */
void su_shutdown_ups(void)
{
int sdtype = 0;
long pwr_status;
if (nut_snmp_get_int(OID_pwr_status, &pwr_status) == FALSE)
fatalx(EXIT_FAILURE, "cannot determine UPS status");
if (testvar(SU_VAR_SDTYPE))
sdtype = atoi(getval(SU_VAR_SDTYPE));
/* logic from newapc.c */
switch (sdtype) {
case 3: /* shutdown with grace period */
upslogx(LOG_INFO, "sending delayed power off command to UPS");
su_instcmd("shutdown.stayoff", "0");
break;
case 2: /* instant shutdown */
upslogx(LOG_INFO, "sending power off command to UPS");
su_instcmd("load.off", "0");
break;
case 1:
/* Send a combined set of shutdown commands which can work better */
/* if the UPS gets power during shutdown process */
/* Specifically it sends both the soft shutdown 'S' */
/* and the powerdown after grace period - '@000' commands */
/* upslogx(LOG_INFO, "UPS - sending shutdown/powerdown");
if (pwr_status == g_pwr_battery)
su_ups_instcmd(CMD_SOFTDOWN, 0, 0);
su_ups_instcmd(CMD_SDRET, 0, 0);
break;
*/
default:
/* if on battery... */
/* if (pwr_status == su_find_valinfo(info_lkp_t *oid2info, "OB")) {
upslogx(LOG_INFO,
"UPS is on battery, sending shutdown command...");
su_ups_instcmd(CMD_SOFTDOWN, 0, 0);
} else {
upslogx(LOG_INFO, "UPS is online, sending shutdown+return command...");
su_ups_instcmd(CMD_SDRET, 0, 0);
}
*/
break;
}
}
/* FIXME: the below functions can be removed since these were for loading
* the mib2nut information from a file instead of the .h definitions... */
/* return 1 if usable, 0 if not */
static int parse_mibconf_args(int numargs, char **arg)
{
bool_t ret;
/* everything below here uses up through arg[1] */
if (numargs < 6)
return 0;
/* <info type> <info flags> <info len> <OID name> <default value> <value lookup> */
/* special case for setting some OIDs value at driver startup */
if (!strcmp(arg[0], "init")) {
/* set value. */
if (!strcmp(arg[1], "str")) {
ret = nut_snmp_set_str(arg[3], arg[4]);
} else {
ret = nut_snmp_set_int(arg[3], strtol(arg[4], NULL, 0));
}
if (ret == FALSE)
upslogx(LOG_ERR, "su_setvar: cannot set value %s for %s", arg[4], arg[3]);
else
2011-06-01 20:31:49 +00:00
upsdebugx(1, "su_setvar: successfully set %s to \"%s\"", arg[0], arg[4]);
2010-03-25 23:20:59 +00:00
return 1;
}
/* TODO: create the lookup table */
upsdebugx(2, "%s, %s, %s, %s, %s, %s", arg[0], arg[1], arg[2], arg[3], arg[4], arg[5]);
return 1;
}
/* called for fatal errors in parseconf like malloc failures */
static void mibconf_err(const char *errmsg)
{
upslogx(LOG_ERR, "Fatal error in parseconf (*mib.conf): %s", errmsg);
}
/* load *mib.conf into an snmp_info_t structure */
void read_mibconf(char *mib)
{
char fn[SMALLBUF];
PCONF_CTX_t ctx;
upsdebugx(2, "SNMP UPS driver : entering read_mibconf(%s)", mib);
snprintf(fn, sizeof(fn), "%s/snmp/%s.conf", CONFPATH, mib);
pconf_init(&ctx, mibconf_err);
if (!pconf_file_begin(&ctx, fn))
fatalx(EXIT_FAILURE, "%s", ctx.errmsg);
while (pconf_file_next(&ctx)) {
if (pconf_parse_error(&ctx)) {
upslogx(LOG_ERR, "Parse error: %s:%d: %s",
fn, ctx.linenum, ctx.errmsg);
continue;
}
if (ctx.numargs < 1)
continue;
if (!parse_mibconf_args(ctx.numargs, ctx.arglist)) {
unsigned int i;
char errmsg[SMALLBUF];
snprintf(errmsg, sizeof(errmsg),
"mib.conf: invalid directive");
for (i = 0; i < ctx.numargs; i++)
snprintfcat(errmsg, sizeof(errmsg), " %s",
ctx.arglist[i]);
upslogx(LOG_WARNING, "%s", errmsg);
}
}
pconf_finish(&ctx);
}