nut/tools/nut-scanner/scan_ipmi.c

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/*
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* Copyright (C)
* 2011 - 2012 Arnaud Quette <arnaud.quette@free.fr>
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*
* 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
*/
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/*! \file scan_ipmi.c
\brief detect NUT supported Power Supply Units
\author Arnaud Quette <arnaud.quette@free.fr>
*/
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#include "common.h"
#include "nut-scan.h"
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#ifdef WITH_IPMI
#include "upsclient.h"
#include <freeipmi/freeipmi.h>
#include <stdio.h>
#include <string.h>
#include <ltdl.h>
#define NUT_IPMI_DRV_NAME "nut-ipmipsu"
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/* IPMI defines */
/* 5 seconds for establishing an IPMI connection */
#define IPMI_SESSION_TIMEOUT_LENGTH_DEFAULT 5000
#define IPMI_RETRANSMISSION_TIMEOUT_LENGTH_DEFAULT 250
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/* dynamic link library stuff */
static lt_dlhandle dl_handle = NULL;
static const char *dl_error = NULL;
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#ifdef HAVE_FREEIPMI_11X_12X
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/* Functions symbols remapping */
#define IPMI_FRU_CLOSE_DEVICE_ID "ipmi_fru_close_device_id"
#define IPMI_FRU_CTX_DESTROY "ipmi_fru_ctx_destroy"
#define IPMI_FRU_CTX_CREATE "ipmi_fru_ctx_create"
#define IPMI_FRU_CTX_SET_FLAGS "ipmi_fru_ctx_set_flags"
#define IPMI_FRU_OPEN_DEVICE_ID "ipmi_fru_open_device_id"
#define IPMI_FRU_CTX_ERRORMSG "ipmi_fru_ctx_errormsg"
#define IPMI_FRU_READ_DATA_AREA "ipmi_fru_read_data_area"
#define IPMI_FRU_PARSE_NEXT "ipmi_fru_next"
typedef ipmi_fru_ctx_t ipmi_fru_parse_ctx_t;
typedef ipmi_sdr_ctx_t ipmi_sdr_cache_ctx_t;
/* Functions remapping */
static void (*nut_ipmi_sdr_ctx_destroy) (ipmi_sdr_ctx_t ctx);
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#else /* HAVE_FREEIPMI_11X_12X */
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#define IPMI_FRU_AREA_SIZE_MAX IPMI_FRU_PARSE_AREA_SIZE_MAX
#define IPMI_FRU_FLAGS_SKIP_CHECKSUM_CHECKS IPMI_FRU_PARSE_FLAGS_SKIP_CHECKSUM_CHECKS
#define IPMI_FRU_AREA_TYPE_MULTIRECORD_POWER_SUPPLY_INFORMATION IPMI_FRU_PARSE_AREA_TYPE_MULTIRECORD_POWER_SUPPLY_INFORMATION
/* Functions symbols remapping */
#define IPMI_FRU_CLOSE_DEVICE_ID "ipmi_fru_parse_close_device_id"
#define IPMI_FRU_CTX_DESTROY "ipmi_fru_parse_ctx_destroy"
#define IPMI_FRU_CTX_CREATE "ipmi_fru_parse_ctx_create"
#define IPMI_FRU_CTX_SET_FLAGS "ipmi_fru_parse_ctx_set_flags"
#define IPMI_FRU_OPEN_DEVICE_ID "ipmi_fru_parse_open_device_id"
#define IPMI_FRU_CTX_ERRORMSG "ipmi_fru_parse_ctx_errormsg"
#define IPMI_FRU_READ_DATA_AREA "ipmi_fru_parse_read_data_area"
#define IPMI_FRU_PARSE_NEXT "ipmi_fru_parse_next"
/* Functions remapping */
static void (*nut_ipmi_sdr_cache_ctx_destroy) (ipmi_sdr_cache_ctx_t ctx);
static void (*nut_ipmi_sdr_parse_ctx_destroy) (ipmi_sdr_parse_ctx_t ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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static int (*nut_ipmi_fru_close_device_id) (ipmi_fru_parse_ctx_t ctx);
static void (*nut_ipmi_fru_ctx_destroy) (ipmi_fru_parse_ctx_t ctx);
static ipmi_fru_parse_ctx_t (*nut_ipmi_fru_ctx_create) (ipmi_ctx_t ipmi_ctx);
static int (*nut_ipmi_fru_ctx_set_flags) (ipmi_fru_parse_ctx_t ctx, unsigned int flags);
static int (*nut_ipmi_fru_open_device_id) (ipmi_fru_parse_ctx_t ctx, uint8_t fru_device_id);
static char * (*nut_ipmi_fru_ctx_errormsg) (ipmi_fru_parse_ctx_t ctx);
static int (*nut_ipmi_fru_read_data_area) (ipmi_fru_parse_ctx_t ctx,
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unsigned int *area_type,
unsigned int *area_length,
void *areabuf,
unsigned int areabuflen);
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static int (*nut_ipmi_fru_next) (ipmi_fru_parse_ctx_t ctx);
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static ipmi_ctx_t (*nut_ipmi_ctx_create) (void);
static int (*nut_ipmi_ctx_find_inband) (ipmi_ctx_t ctx,
ipmi_driver_type_t *driver_type,
int disable_auto_probe,
uint16_t driver_address,
uint8_t register_spacing,
const char *driver_device,
unsigned int workaround_flags,
unsigned int flags);
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static int (*nut_ipmi_ctx_open_outofband) (ipmi_ctx_t ctx,
const char *hostname,
const char *username,
const char *password,
uint8_t authentication_type,
uint8_t privilege_level,
unsigned int session_timeout,
unsigned int retransmission_timeout,
unsigned int workaround_flags,
unsigned int flags);
static int (*nut_ipmi_ctx_errnum) (ipmi_ctx_t ctx);
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static char * (*nut_ipmi_ctx_errormsg) (ipmi_ctx_t ctx);
static int (*nut_ipmi_ctx_close) (ipmi_ctx_t ctx);
static void (*nut_ipmi_ctx_destroy) (ipmi_ctx_t ctx);
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/* Internal functions */
static nutscan_device_t * nutscan_scan_ipmi_device(const char * IPaddr, nutscan_ipmi_t * sec);
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/* Return 0 on error; visible externally */
int nutscan_load_ipmi_library(const char *libname_path);
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int nutscan_load_ipmi_library(const char *libname_path)
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{
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if (dl_handle != NULL) {
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/* if previous init failed */
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if (dl_handle == (void *)1) {
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return 0;
}
/* init has already been done */
return 1;
}
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if (libname_path == NULL) {
fprintf(stderr, "IPMI library not found. IPMI search disabled.\n");
return 0;
}
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if (lt_dlinit() != 0) {
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fprintf(stderr, "Error initializing lt_init\n");
return 0;
}
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dl_handle = lt_dlopen(libname_path);
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if (!dl_handle) {
dl_error = lt_dlerror();
goto err;
}
/* Clear any existing error */
lt_dlerror();
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*(void **) (&nut_ipmi_fru_close_device_id) = lt_dlsym(dl_handle, IPMI_FRU_CLOSE_DEVICE_ID);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_ctx_destroy) = lt_dlsym(dl_handle, IPMI_FRU_CTX_DESTROY);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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#ifdef HAVE_FREEIPMI_11X_12X
*(void **) (&nut_ipmi_sdr_ctx_destroy) = lt_dlsym(dl_handle, "ipmi_sdr_ctx_destroy");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
#else /* HAVE_FREEIPMI_11X_12X */
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*(void **) (&nut_ipmi_sdr_cache_ctx_destroy) = lt_dlsym(dl_handle, "ipmi_sdr_cache_ctx_destroy");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_sdr_parse_ctx_destroy) = lt_dlsym(dl_handle, "ipmi_sdr_parse_ctx_destroy");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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#endif /* HAVE_FREEIPMI_11X_12X */
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*(void **) (&nut_ipmi_fru_ctx_create) = lt_dlsym(dl_handle, IPMI_FRU_CTX_CREATE);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_ctx_set_flags) = lt_dlsym(dl_handle, IPMI_FRU_CTX_SET_FLAGS);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_open_device_id) = lt_dlsym(dl_handle, IPMI_FRU_OPEN_DEVICE_ID);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_ctx_errormsg) = lt_dlsym(dl_handle, IPMI_FRU_CTX_ERRORMSG);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_read_data_area) = lt_dlsym(dl_handle, IPMI_FRU_READ_DATA_AREA);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_fru_next) = lt_dlsym(dl_handle, IPMI_FRU_PARSE_NEXT);
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_ctx_create) = lt_dlsym(dl_handle, "ipmi_ctx_create");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_ctx_find_inband) = lt_dlsym(dl_handle, "ipmi_ctx_find_inband");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_ctx_open_outofband) = lt_dlsym(dl_handle, "ipmi_ctx_open_outofband");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_ctx_errnum) = lt_dlsym(dl_handle, "ipmi_ctx_errnum");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
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*(void **) (&nut_ipmi_ctx_errormsg) = lt_dlsym(dl_handle, "ipmi_ctx_errormsg");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_ctx_close) = lt_dlsym(dl_handle, "ipmi_ctx_close");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
*(void **) (&nut_ipmi_ctx_destroy) = lt_dlsym(dl_handle, "ipmi_ctx_destroy");
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if ((dl_error = lt_dlerror()) != NULL) {
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goto err;
}
return 1;
err:
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fprintf(stderr, "Cannot load IPMI library (%s) : %s. IPMI search disabled.\n", libname_path, dl_error);
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dl_handle = (void *)1;
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lt_dlexit();
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return 0;
}
/* end of dynamic link library stuff */
/* Cleanup IPMI contexts */
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#ifdef HAVE_FREEIPMI_11X_12X
static void nut_freeipmi_cleanup(ipmi_fru_parse_ctx_t fru_parse_ctx,
ipmi_sdr_ctx_t sdr_ctx)
#else /* HAVE_FREEIPMI_11X_12X */
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static void nut_freeipmi_cleanup(ipmi_fru_parse_ctx_t fru_parse_ctx,
ipmi_sdr_cache_ctx_t sdr_cache_ctx,
ipmi_sdr_parse_ctx_t sdr_parse_ctx)
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#endif /* HAVE_FREEIPMI_11X_12X */
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{
if (fru_parse_ctx) {
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(*nut_ipmi_fru_close_device_id) (fru_parse_ctx);
(*nut_ipmi_fru_ctx_destroy) (fru_parse_ctx);
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}
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#ifdef HAVE_FREEIPMI_11X_12X
if (sdr_ctx) {
(*nut_ipmi_sdr_ctx_destroy) (sdr_ctx);
}
#else /* HAVE_FREEIPMI_11X_12X */
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if (sdr_cache_ctx) {
(*nut_ipmi_sdr_cache_ctx_destroy) (sdr_cache_ctx);
}
if (sdr_parse_ctx) {
(*nut_ipmi_sdr_parse_ctx_destroy) (sdr_parse_ctx);
}
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#endif /* HAVE_FREEIPMI_11X_12X */
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}
/* Return 1 if supported, 0 otherwise */
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static int is_ipmi_device_supported(ipmi_ctx_t ipmi_ctx, int ipmi_id)
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{
int ret = -1;
unsigned int area_type = 0;
unsigned int area_length = 0;
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uint8_t areabuf[IPMI_FRU_AREA_SIZE_MAX + 1];
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ipmi_fru_parse_ctx_t fru_parse_ctx = NULL;
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#ifdef HAVE_FREEIPMI_11X_12X
ipmi_sdr_ctx_t sdr_ctx = NULL;
#else /* HAVE_FREEIPMI_11X_12X */
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ipmi_sdr_cache_ctx_t sdr_cache_ctx = NULL;
ipmi_sdr_parse_ctx_t sdr_parse_ctx = NULL;
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#endif /* HAVE_FREEIPMI_11X_12X */
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/* Parse FRU information */
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if (!(fru_parse_ctx = (*nut_ipmi_fru_ctx_create) (ipmi_ctx)))
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{
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fprintf(stderr, "Error with %s(): %s\n", IPMI_FRU_CTX_CREATE, (*nut_ipmi_ctx_errormsg)(ipmi_ctx));
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return 0;
}
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/* lots of motherboards calculate checksums incorrectly */
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if ((*nut_ipmi_fru_ctx_set_flags) (fru_parse_ctx, IPMI_FRU_FLAGS_SKIP_CHECKSUM_CHECKS) < 0)
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{
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#ifdef HAVE_FREEIPMI_11X_12X
nut_freeipmi_cleanup(fru_parse_ctx, sdr_ctx);
#else
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nut_freeipmi_cleanup(fru_parse_ctx, sdr_cache_ctx, sdr_parse_ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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return 0;
}
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if (ipmi_id < 0 || (unsigned int)ipmi_id > UINT8_MAX) {
fprintf(stderr, "is_ipmi_device_supported: ipmi_id=%d is out of range!\n", ipmi_id);
return 0;
}
if ((*nut_ipmi_fru_open_device_id) (fru_parse_ctx, (uint8_t)ipmi_id) < 0)
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{
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#ifdef HAVE_FREEIPMI_11X_12X
nut_freeipmi_cleanup(fru_parse_ctx, sdr_ctx);
#else
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nut_freeipmi_cleanup(fru_parse_ctx, sdr_cache_ctx, sdr_parse_ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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return 0;
}
do
{
/* clear fields */
area_type = 0;
area_length = 0;
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memset (areabuf, '\0', IPMI_FRU_AREA_SIZE_MAX + 1);
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/* parse FRU buffer */
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if ((*nut_ipmi_fru_read_data_area) (fru_parse_ctx,
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&area_type,
&area_length,
areabuf,
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IPMI_FRU_AREA_SIZE_MAX) < 0)
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{
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#ifdef HAVE_FREEIPMI_11X_12X
nut_freeipmi_cleanup(fru_parse_ctx, sdr_ctx);
#else
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nut_freeipmi_cleanup(fru_parse_ctx, sdr_cache_ctx, sdr_parse_ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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return 0;
}
if (area_length)
{
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if (area_type == IPMI_FRU_AREA_TYPE_MULTIRECORD_POWER_SUPPLY_INFORMATION)
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{
/* Found a POWER_SUPPLY record */
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#ifdef HAVE_FREEIPMI_11X_12X
nut_freeipmi_cleanup(fru_parse_ctx, sdr_ctx);
#else
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nut_freeipmi_cleanup(fru_parse_ctx, sdr_cache_ctx, sdr_parse_ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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return 1;
}
}
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} while ((ret = (*nut_ipmi_fru_next) (fru_parse_ctx)) == 1);
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/* No need for further errors checking */
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#ifdef HAVE_FREEIPMI_11X_12X
nut_freeipmi_cleanup(fru_parse_ctx, sdr_ctx);
#else
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nut_freeipmi_cleanup(fru_parse_ctx, sdr_cache_ctx, sdr_parse_ctx);
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#endif /* HAVE_FREEIPMI_11X_12X */
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return 0;
}
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/* Check for IPMI support on a specific (local or remote) system
* Return NULL on error, or a valid nutscan_device_t otherwise */
nutscan_device_t * nutscan_scan_ipmi_device(const char * IPaddr, nutscan_ipmi_t * ipmi_sec)
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{
ipmi_ctx_t ipmi_ctx = NULL;
nutscan_device_t * nut_dev = NULL;
nutscan_device_t * current_nut_dev = NULL;
int ret = -1;
int ipmi_id = 0;
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char port_id[64];
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if (!nutscan_avail_ipmi) {
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return NULL;
}
/* Initialize the FreeIPMI library. */
if (!(ipmi_ctx = (*nut_ipmi_ctx_create) ()))
{
/* we have to force cleanup, since exit handler is not yet installed */
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fprintf(stderr, "Failed to ipmi_ctx_create\n");
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return NULL;
}
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/* Are we scanning locally, or over the network? */
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if (IPaddr == NULL)
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{
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/* FIXME: we need root right to access local IPMI!
if (!ipmi_is_root ()) {
fprintf(stderr, "IPMI scan: %s\n", ipmi_ctx_strerror (IPMI_ERR_PERMISSION));
} */
if ((ret = (*nut_ipmi_ctx_find_inband) (ipmi_ctx,
NULL,
0, /* don't disable auto-probe */
0,
0,
NULL,
0, /* workaround flags, none by default */
0 /* flags */
)) < 0)
{
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upsdebugx(2, "ipmi_ctx_find_inband (local scan): %s",
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(*nut_ipmi_ctx_errormsg) (ipmi_ctx));
return NULL;
}
if (!ret)
{
/* No local IPMI device detected */
return NULL;
}
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}
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else {
#if 0
if (ipmi_sec->ipmi_version == IPMI_2_0) {
/* FIXME: need processing?!
* int parse_kg (void *out, unsigned int outlen, const char *in)
* if ((rv = parse_kg (common_cmd_args_config->k_g, IPMI_MAX_K_G_LENGTH + 1, data->string)) < 0)
* {
* fprintf (stderr, "Config File Error: k_g input formatted incorrectly\n");
* exit (EXIT_FAILURE);
* }*/
if ((ret = (*nut_ipmi_ctx_open_outofband_2_0) (ipmi_ctx,
IPaddr,
ipmi_sec->username,
ipmi_sec->password,
ipmi_sec->K_g_BMC_key,
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/*???*/ (ipmi_sec->K_g_BMC_key) ? config->k_g_len : 0,
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ipmi_sec->privilege_level,
ipmi_sec->cipher_suite_id,
IPMI_SESSION_TIMEOUT_LENGTH_DEFAULT,
IPMI_RETRANSMISSION_TIMEOUT_LENGTH_DEFAULT,
ipmi_dev->workaround_flags,
flags) < 0)
{
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upsdebugx(2, "nut_ipmi_ctx_open_outofband_2_0 (%s): %s",
IPaddr, (*nut_ipmi_ctx_errormsg) (c->ipmi_ctx));
IPMI_MONITORING_DEBUG (("ipmi_ctx_open_outofband_2_0 (%s): %s",
IPaddr, ipmi_ctx_errormsg (c->ipmi_ctx)));
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if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_USERNAME_INVALID)
c->errnum = IPMI_MONITORING_ERR_USERNAME_INVALID;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_PASSWORD_INVALID)
c->errnum = IPMI_MONITORING_ERR_PASSWORD_INVALID;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_PRIVILEGE_LEVEL_INSUFFICIENT)
c->errnum = IPMI_MONITORING_ERR_PRIVILEGE_LEVEL_INSUFFICIENT;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_PRIVILEGE_LEVEL_CANNOT_BE_OBTAINED)
c->errnum = IPMI_MONITORING_ERR_PRIVILEGEL_LEVEL_CANNOT_BE_OBTAINED;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_K_G_INVALID)
c->errnum = IPMI_MONITORING_ERR_K_G_INVALID;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_CIPHER_SUITE_ID_UNAVAILABLE)
c->errnum = IPMI_MONITORING_ERR_CIPHER_SUITE_ID_UNAVAILABLE;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_PASSWORD_VERIFICATION_TIMEOUT)
c->errnum = IPMI_MONITORING_ERR_PASSWORD_VERIFICATION_TIMEOUT;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_IPMI_2_0_UNAVAILABLE)
c->errnum = IPMI_MONITORING_ERR_IPMI_2_0_UNAVAILABLE;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_CONNECTION_TIMEOUT)
c->errnum = IPMI_MONITORING_ERR_CONNECTION_TIMEOUT;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_SESSION_TIMEOUT)
c->errnum = IPMI_MONITORING_ERR_SESSION_TIMEOUT;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_BAD_COMPLETION_CODE
|| ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_IPMI_ERROR)
c->errnum = IPMI_MONITORING_ERR_IPMI_ERROR;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_BMC_BUSY)
c->errnum = IPMI_MONITORING_ERR_BMC_BUSY;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_OUT_OF_MEMORY)
c->errnum = IPMI_MONITORING_ERR_OUT_OF_MEMORY;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_HOSTNAME_INVALID)
c->errnum = IPMI_MONITORING_ERR_HOSTNAME_INVALID;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_PARAMETERS)
c->errnum = IPMI_MONITORING_ERR_PARAMETERS;
else if (ipmi_ctx_errnum (c->ipmi_ctx) == IPMI_ERR_SYSTEM_ERROR)
c->errnum = IPMI_MONITORING_ERR_SYSTEM_ERROR;
else
c->errnum = IPMI_MONITORING_ERR_INTERNAL_ERROR;
return (-1);
}
}
else { /* Not IPMI 2.0 */
#endif /* 0 */
/* Fall back to IPMI 1.5 */
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if (ipmi_sec->authentication_type < 0
|| (unsigned int)ipmi_sec->authentication_type > UINT8_MAX
) {
upsdebugx(2, "nutscan_scan_ipmi_device (%s): "
"authentication_type=%d is out of range!",
IPaddr, ipmi_sec->authentication_type);
return 0;
}
if (ipmi_sec->privilege_level < 0
|| (unsigned int)ipmi_sec->privilege_level > UINT8_MAX
) {
upsdebugx(2, "nutscan_scan_ipmi_device (%s): "
"privilege_level=%d is out of range!",
IPaddr, ipmi_sec->privilege_level);
return 0;
}
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if ((ret = (*nut_ipmi_ctx_open_outofband) (ipmi_ctx,
IPaddr,
ipmi_sec->username,
ipmi_sec->password,
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(uint8_t)ipmi_sec->authentication_type,
(uint8_t)ipmi_sec->privilege_level,
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IPMI_SESSION_TIMEOUT_LENGTH_DEFAULT,
IPMI_RETRANSMISSION_TIMEOUT_LENGTH_DEFAULT,
ipmi_sec->workaround_flags,
IPMI_FLAGS_DEFAULT
)) < 0)
{
/* No IPMI device detected on this host!
if ((*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_USERNAME_INVALID
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_PASSWORD_INVALID
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_PRIVILEGE_LEVEL_INSUFFICIENT
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_PRIVILEGE_LEVEL_CANNOT_BE_OBTAINED
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_AUTHENTICATION_TYPE_UNAVAILABLE
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_PASSWORD_VERIFICATION_TIMEOUT
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_HOSTNAME_INVALID
|| (*nut_ipmi_ctx_errnum) (ipmi_ctx) == IPMI_ERR_CONNECTION_TIMEOUT) { */
/* FIXME: don't log timeout errors */
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upsdebugx(2, "nut_ipmi_ctx_open_outofband (%s): %s",
IPaddr, (*nut_ipmi_ctx_errormsg) (ipmi_ctx));
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return NULL;
/*}*/
}
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}
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/* Loop through all possible components */
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for (ipmi_id = 0 ; ipmi_id <= IPMI_FRU_DEVICE_ID_MAX ; ipmi_id++) {
if (is_ipmi_device_supported(ipmi_ctx, ipmi_id)) {
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if ((nut_dev = nutscan_new_device()) == NULL) {
fprintf(stderr, "Memory allocation error\n");
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nutscan_free_device(current_nut_dev);
break;
}
/* Fill the device structure (sufficient with driver and port) */
nut_dev->type = TYPE_IPMI;
nut_dev->driver = strdup(NUT_IPMI_DRV_NAME);
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if (IPaddr == NULL) {
sprintf(port_id, "id%x", ipmi_id);
}
else {
/* FIXME: also check against "localhost" and its IPv{4,6} */
sprintf(port_id, "id%x@%s", ipmi_id, IPaddr);
}
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nut_dev->port = strdup(port_id);
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/* FIXME: also dump device.serial?
* using drivers/libfreeipmi_get_board_info() */
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current_nut_dev = nutscan_add_device_to_device(
current_nut_dev,
nut_dev);
memset (port_id, 0, sizeof(port_id));
}
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}
/* Final cleanup */
if (ipmi_ctx) {
(*nut_ipmi_ctx_close) (ipmi_ctx);
(*nut_ipmi_ctx_destroy) (ipmi_ctx);
}
return current_nut_dev;
}
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/* General IPMI scan entry point: scan 1 to n devices, local or remote,
* for IPMI support
* Return NULL on error, or a valid nutscan_device_t otherwise */
nutscan_device_t * nutscan_scan_ipmi(const char * start_ip, const char * stop_ip, nutscan_ipmi_t * sec)
{
nutscan_ip_iter_t ip;
char * ip_str = NULL;
nutscan_ipmi_t * tmp_sec;
nutscan_device_t * nut_dev = NULL;
nutscan_device_t * current_nut_dev = NULL;
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if (!nutscan_avail_ipmi) {
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return NULL;
}
/* Are we scanning locally, or through the network? */
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if (start_ip == NULL)
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{
/* Local PSU scan */
current_nut_dev = nutscan_scan_ipmi_device(NULL, NULL);
}
else {
ip_str = nutscan_ip_iter_init(&ip, start_ip, stop_ip);
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while (ip_str != NULL) {
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tmp_sec = malloc(sizeof(nutscan_ipmi_t));
memcpy(tmp_sec, sec, sizeof(nutscan_ipmi_t));
if ((current_nut_dev = nutscan_scan_ipmi_device(ip_str, tmp_sec)) != NULL) {
/* Store the positive result */
current_nut_dev = nutscan_add_device_to_device(current_nut_dev, nut_dev);
}
/* Prepare the next iteration */
ip_str = nutscan_ip_iter_inc(&ip);
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}
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}
return nutscan_rewind_device(current_nut_dev);
}
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#else /* WITH_IPMI */
/* stub function */
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nutscan_device_t * nutscan_scan_ipmi(const char * startIP, const char * stopIP, nutscan_ipmi_t * sec)
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{
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NUT_UNUSED_VARIABLE(startIP);
NUT_UNUSED_VARIABLE(stopIP);
NUT_UNUSED_VARIABLE(sec);
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return NULL;
}
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#endif /* WITH_IPMI */