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#include <stdio.h>
#include <sys/types.h>
#include <errno.h>
#include <fcntl.h>
#include "ipmi_ioctls.h"
#include <ipmi_ctl.h>
#include <sdr.h>
#include <sensor_events.h>
static void decode_string(unsigned char type,
unsigned char language_code,
unsigned char *source,
char *target,
int size);
int report_device_id(int fd);
int enable_watchdog(int fd);
int disable_watchdog(int fd);
int pet_watchdog(int fd);
int query_watchdog(int fd);
int load_fru(int fd);
int driver_info(int fd);
int set_asset(int fd, char *asset_tag);
int set_blink(int fd, int state);
void display_fru(void);
void usage(const char *progname);
void display_sensor_list();
DEVICE_ID_RESPONSE dev_id;
extern char *optarg;
extern int opterr;
extern int optopt;
extern SENSOR *sensor_head;
int main(argc, argv)
char **argv;
{
int fd, rc;
int mode = 0;
if (((fd = open("/dev/ipmikcs", O_RDWR))==-1) && (errno==ENOENT))
fd = open("/dev/misc/ipmi_kcs", O_RDWR);
if (fd == -1)
{
perror("Error opening IPMI-KCS device");
exit(1);
}
if (argc < 2)
{
fprintf(stderr, "Not enough options given\n");
usage(argv[0]);
exit(1);
}
printf("IPMI CTL Version 2.0, (c) 2001 San Mehat (nettwerk@valinux.com)\n");
report_device_id(fd);
while((rc = getopt(argc, argv, "rspdqvfa:b:iR:DC"))!=EOF)
{
if ((char) rc == 'a')
{
char *asset_tag;
asset_tag = (char *) strdup(optarg);
set_asset(fd, asset_tag);
free(asset_tag);
exit(0);
}
if ((char) rc == 'R')
{
unsigned char *snum;
snum = (char *) strdup(optarg);
if (dl_sdr(fd)<0)
{
printf("Error: Unable to download sensor list\n");
exit(1);
}
if (atoi(snum) == 0)
{
char str[255];
printf("Entering Sensor-shell mode\n");
while(1)
{
printf("Sensor #, 'l' to list, 'q' to quit ->");
fflush(stdout);
if (!fgets(str,sizeof(str),stdin))
exit(0);
str[(strlen(str)-1)] = 0;
if ((str[0] == 'q') || (str[0] == 'Q'))
exit(0);
if ((str[0] == 'l') || (str[0] == 'L'))
{
display_sensor_list();
continue;
}
if (!(atoi(str)))
{
printf("Invalid sensor number\n");
continue;
}
read_sensor(fd, (unsigned char) atoi(str));
}
exit(0);
}
else
{
read_sensor(fd, (unsigned char) atoi(snum));
exit(0);
}
}
if ((char) rc == 'r')
{
}
else if ((char) rc == 'i')
{
if (dl_sdr(fd)<0)
{
printf("Error: Unable to download sensor list\n");
exit(1);
}
display_sensor_list();
exit(0);
}
else if ((char) rc == 'D')
{
if (dl_sdr(fd)<0)
{
printf("Error: Unable to download sensor list\n");
exit(1);
}
if (dl_sel(fd)<0)
{
printf("Error: Unable to download SEL\n");
exit(1);
}
}
else if ((char) rc == 'C')
{
// clear log
clear_sel(fd);
exit(0);
}
else if ((char) rc == 's')
{
enable_watchdog(fd);
exit(0);
}
else if ((char) rc == 'p')
{
pet_watchdog(fd);
exit(0);
}
else if ((char) rc == 'd')
{
disable_watchdog(fd);
exit(0);
}
else if ((char) rc == 'q')
{
query_watchdog(fd);
exit(0);
}
else if ((char) rc == 'b')
{
char *state;
state = (char *) strdup(optarg);
if (state[0] == '1')
set_blink(fd, 1);
else if (state[0] == '0')
set_blink(fd, 0);
else
{
printf("Blink state must be 1 or 0\n");
exit(-1);
}
free(state);
}
else if ((char) rc == 'v')
{
driver_info(fd);
exit(0);
}
else if ((char) rc == 'f')
{
load_fru(fd);
display_fru();
exit(0);
}
else
{
usage(argv[0]);
exit(-1);
}
}
close(fd);
exit(0);
}
int set_blink(int fd, int state)
{
struct ipmi_driver_info drv_inf;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
unsigned char cc;
int rc;
memset(&drv_inf, 0, sizeof(drv_inf));
if (ioctl(fd, IOCTL_DRIVER_INFO, (void *) &drv_inf)<0)
{
printf("set_blink(): failed (%m)\n");
return(-1);
}
if (!strcasecmp(drv_inf.driver_name, "ipmi_kcs"))
{
if (!(drv_inf.flags & KCS_FLAG_BLINKY))
{
printf("blink not available on this hardware\n");
return(-1);
}
}
else
{
printf("blink support not implimented for this driver\n");
return(-1);
}
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
if (state == 1)
{
SET_REQUEST_CMD(xferp, 0x55);
}
else
{
SET_REQUEST_CMD(xferp, 0x56);
}
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("set_blink(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("set_blink(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
return(0);
}
int driver_info(int fd)
{
struct ipmi_driver_info drv_inf;
memset(&drv_inf, 0, sizeof(drv_inf));
if (ioctl(fd, IOCTL_DRIVER_INFO, (void *) &drv_inf)<0)
{
printf("driver_info(): failed (%m)\n");
return(-1);
}
printf("IPMI driver name : %s\n",drv_inf.driver_name);
printf("Driver Version : %d.%d\n",drv_inf.major_ver, drv_inf.minor_ver);
printf("MB Chipset Vendor: 0x%.4x\n",drv_inf.mb_chipset_vendor);
printf("MB Chipset Device: 0x%.4x\n",drv_inf.mb_chipset_device);
printf("Driver Flags : ");
if (!strcasecmp(drv_inf.driver_name, "ipmi_kcs"))
{
if (drv_inf.flags & KCS_FLAG_BLINKY)
printf("BLINKY ");
if (drv_inf.flags & KCS_FLAG_LEGACY)
printf("LEGACY_MACHINE ");
else
printf("NEW_MACHINE ");
printf("\n");
}
else
printf("(not implimented for this driver)\n");
return(0);
}
/*
* Watchdog related code
*/
int enable_watchdog(int fd)
{
int rc;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
SET_WATCHDOG set;
unsigned char cc;
int fixup = 0;
while(1)
{
memset(&set, 0, sizeof(set));
set.timer_use = 0x04;
set.timeout_action = 0x03;
if (fixup)
{
set.pre_irq = 0x00;
set.pretimeout_interval = 0;
}
else
{
set.pre_irq = 0x03;
set.pretimeout_interval = 10;
}
set.tuefc_smsos= 0x01;
set.initial_count = (30*10);
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
SET_REQUEST_CMD(xferp, CMD_WATCHDOG_SET);
SET_REQUEST_DATA(xferp, (unsigned char *) &set, sizeof(set));
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("enable_watchdog(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc == 0xcc)
{
fixup++;
if (fixup ==2)
{
printf("Flakey NMI fixup failed\n");
return(-1);
}
printf("Flakey NMI fixup enabled\n");
}
else if (cc != 0x00)
{
printf("enable_watchdog(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
break;
}
return(0);
}
int disable_watchdog(int fd)
{
int rc;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
SET_WATCHDOG set;
unsigned char cc;
memset(&set, 0, sizeof(set));
set.timer_use = 0x04;
set.timeout_action = 0x00;
set.pre_irq = 0x00;
set.pretimeout_interval = 10;
set.tuefc_smsos= 0x01;
set.initial_count = (30*10);
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
SET_REQUEST_CMD(xferp, CMD_WATCHDOG_SET);
SET_REQUEST_DATA(xferp, (unsigned char *) &set, sizeof(set));
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("disable_watchdog(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("disable_watchdog(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
return(0);
}
int query_watchdog(int fd)
{
GET_WATCHDOG_RESPONSE resp;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
int rc;
unsigned char cc;
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
SET_REQUEST_CMD(xferp, CMD_WATCHDOG_GET);
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("query_watchdog(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("enable_watchdog(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
memset(&resp, 0, sizeof(resp));
GET_RESPONSE_DATA(xferp, (unsigned char *) &resp);
printf("Watchdog initial count : %d\n",resp.init_count);
printf("Watchdog current count : %d\n",resp.current_count);
printf("Watchdog timeout action: %d (%s)\n",resp.timeout_act,
( (resp.timeout_act == 0x00) ? "Disabled" :
(resp.timeout_act == 0x01) ? "Hard Reset" :
(resp.timeout_act == 0x02) ? "Power Down" :
(resp.timeout_act == 0x03) ? "Power Cycle" : "Unknown"));
return(0);
}
int pet_watchdog(int fd)
{
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
int rc;
unsigned char cc;
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
SET_REQUEST_CMD(xferp, CMD_WATCHDOG_RESET);
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("report_device_id(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("pet_watchdog(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
return(0);
}
/*
* Device ID related code
*/
int report_device_id(int fd)
{
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
int rc;
unsigned char cc;
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, APP_REQUEST);
SET_REQUEST_CMD(xferp, CMD_GET_DEVICE_ID);
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("report_device_id(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("report_device_id(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
memset(&dev_id, 0, sizeof(dev_id));
GET_RESPONSE_DATA(xferp, (unsigned char *) &dev_id);
printf("BMC version %x.%x, IPMI version %d.%d\n",
dev_id.major_firmware_revision,
dev_id.minor_firmware_revision,
dev_id.ipmi_version_major,
dev_id.ipmi_version_minor);
return(0);
}
/*
* FRU related code
*/
char board_area[BOARD_AREA_NUM_FIELDS][64];
char product_area[PRODUCT_AREA_NUM_FIELDS][64];
int asset_offset = -1;
int asset_length = 0;
int asset_lang = 0;
int fru_size = 0;
void display_fru()
{
printf("Mainboard FRU Size : %d\n",fru_size);
printf("Board Manufacturer : %s\n",(board_area[BOARD_MANUFACTURER][0] ? board_area[BOARD_MANUFACTURER] : "Not Available"));
printf("Board Product Name : %s\n",(board_area[BOARD_PRODUCT_NAME][0] ? board_area[BOARD_PRODUCT_NAME] : "Not Available"));
printf("Board Part Number : %s\n",(board_area[BOARD_PART][0] ? board_area[BOARD_PART] : "Not Available"));
printf("Board Serial # : %s\n",(board_area[BOARD_SERIAL][0] ? board_area[BOARD_SERIAL] : "Not Available"));
printf("Product Manufacturer: %s\n",(product_area[PRODUCT_MANUFACTURER][0] ? product_area[PRODUCT_MANUFACTURER] : "Not Available"));
printf("Product Name : %s\n",(product_area[PRODUCT_NAME][0] ? product_area[PRODUCT_NAME] : "Not Available"));
printf("Product Part Number : %s\n",(product_area[PRODUCT_PART][0] ? product_area[PRODUCT_PART] : "Not Available"));
printf("Product Version : %s\n",(product_area[PRODUCT_VERSION][0] ? product_area[PRODUCT_VERSION] : "Not Available"));
printf("Product Serial # : %s\n",(product_area[PRODUCT_SERIAL][0] ? product_area[PRODUCT_SERIAL] : "Not Available"));
printf("Product Asset Tag : %s\n",(product_area[PRODUCT_ASSET][0] ? product_area[PRODUCT_ASSET] : "Not Available"));
printf("Asset Tag Max Length: %d\n",asset_length);
}
int load_fru(int fd)
{
FRU_COMMON_HEADER *cmn_hdr;
FRU_AREA_INFO inv_info_resp;
FRU_DATA_REQ_IPMI_10 data_req_10;
FRU_DATA_REQ_IPMI_09 data_req_09;
FRU_DATA_CHUNK chunk;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
unsigned char fru_dev_id = 0x00, cc, *p, num, lang, *fru_buffer;
int rc, fru_pos, brtl,i;
TL *tl;
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, STORAGE_REQUEST);
SET_REQUEST_CMD(xferp,CMD_GET_FRU_INV_AREA_INFO);
if (dev_id.ipmi_version_major >= 1)
SET_REQUEST_DATA(xferp, &fru_dev_id, sizeof(fru_dev_id));
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("load_fru(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("load_fru(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
memset(&inv_info_resp, 0, sizeof(inv_info_resp));
GET_RESPONSE_DATA(xferp, (unsigned char *) &inv_info_resp);
fru_buffer = (unsigned char *) malloc(inv_info_resp.size);
memset(fru_buffer, 0, inv_info_resp.size);
brtl = inv_info_resp.size;
fru_pos = 0;
fru_size = inv_info_resp.size;
while(brtl)
{
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, STORAGE_REQUEST);
SET_REQUEST_CMD(xferp, CMD_READ_FRU_INV_DATA);
if (dev_id.ipmi_version_major >= 1)
{
data_req_10.devid = 0x00;
data_req_10.offset = fru_pos;
if (brtl <=16)
data_req_10.count = brtl;
else
data_req_10.count = 16;
SET_REQUEST_DATA(xferp, &data_req_10, sizeof(data_req_10));
}
else
{
data_req_09.offset = fru_pos;
if (brtl <=16)
data_req_09.count = brtl;
else
data_req_09.count = 16;
SET_REQUEST_DATA(xferp, &data_req_09, sizeof(data_req_09));
}
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("load_fru(): failed (%m)\n");
free(fru_buffer);
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("load_fru(): failed (cc = 0x%.2x)\n",cc);
free(fru_buffer);
return(-1);
}
GET_RESPONSE_DATA(xferp, (unsigned char *) &chunk);
memcpy(&fru_buffer[fru_pos], &chunk.data[0], chunk.count);
brtl -=chunk.count;
fru_pos+=chunk.count;
}
cmn_hdr = (FRU_COMMON_HEADER *) fru_buffer;
if (cmn_hdr->board_area_offset)
{
p = &fru_buffer[(cmn_hdr->board_area_offset * 8)];
lang = p[2];
p +=6;
for (i=0; i < BOARD_AREA_NUM_FIELDS; i++)
{
tl = (TL *) p;
p++;
decode_string(tl->type_code, lang, p, board_area[i], tl->num_bytes);
board_area[i][tl->num_bytes] = 0;
p += tl->num_bytes;
}
}
if (cmn_hdr->product_info_offset)
{
p = &fru_buffer[(cmn_hdr->product_info_offset * 8)];
lang = p[2];
p +=3;
for (i=0; i < PRODUCT_AREA_NUM_FIELDS; i++)
{
tl = (TL *) p;
if (i == PRODUCT_ASSET)
{
asset_offset = (p - fru_buffer);
asset_length = tl->num_bytes;
asset_lang = lang;
}
p++;
decode_string(tl->type_code, lang, p, product_area[i], tl->num_bytes);
product_area[i][tl->num_bytes] = 0;
p += tl->num_bytes;
}
}
#if 0
for (i=0; i < BOARD_AREA_NUM_FIELDS; i++)
printf("Field %d = %s\n",i,board_area[i]);
for (i=0; i < PRODUCT_AREA_NUM_FIELDS; i++)
printf("Field %d = %s\n",i,product_area[i]);
#endif
free(fru_buffer);
return(0);
}
int set_asset(int fd, char *asset_tag)
{
FRU_DATA_WRITE_REQ_IPMI_09 *wr_rq_09;
FRU_DATA_WRITE_REQ_IPMI_10 *wr_rq_10;
IPMI_XFER xfer;
IPMI_XFER *xferp = &xfer;
unsigned char buffer[255], cc;
TL *tl;
int rc;
memset(buffer, 0, sizeof(buffer));
wr_rq_09 = (FRU_DATA_WRITE_REQ_IPMI_09 *) buffer;
wr_rq_10 = (FRU_DATA_WRITE_REQ_IPMI_10 *) buffer;
load_fru(fd);
if (asset_offset < 0)
return(-ELIBBAD);
if (strlen(asset_tag) > asset_length)
return (-EOVERFLOW);
INIT_XFER(xferp);
SET_REQUEST_LUN(xferp, 0);
SET_REQUEST_NETFN(xferp, STORAGE_REQUEST);
SET_REQUEST_CMD(xferp, CMD_WRITE_FRU_INV_DATA);
if (dev_id.ipmi_version_major >= 1)
{
wr_rq_10->dev_id = 0x00;
wr_rq_10->offset = asset_offset;
tl = (TL *) &wr_rq_10->data[0];
tl->type_code = 0x03;
tl->num_bytes = asset_length;
memcpy(&wr_rq_10->data[1], asset_tag, strlen(asset_tag));
SET_REQUEST_DATA(xferp, wr_rq_10, (sizeof(FRU_DATA_WRITE_REQ_IPMI_09) + sizeof(TL) + asset_length));
}
else
{
wr_rq_09->offset = asset_offset;
tl = (TL *) &wr_rq_09->data[0];
tl->type_code = 0x03;
tl->num_bytes = asset_length;
memcpy(&wr_rq_09->data[1], asset_tag, strlen(asset_tag));
SET_REQUEST_DATA(xferp, wr_rq_09, (sizeof(FRU_DATA_WRITE_REQ_IPMI_09) + sizeof(TL) + asset_length));
}
if ((rc = ioctl(fd, IOCTL_IPMI_XFER, (void *) &xfer))<0)
{
printf("set_asset(): failed (%m)\n");
return(-1);
}
GET_RESPONSE_CC(xferp, cc);
if (cc != 0x00)
{
printf("set_asset(): failed (cc = 0x%.2x)\n",cc);
return(-1);
}
return(0);
}
#define STRING_DATA_TYPE_BINARY 0x00
#define STRING_DATA_TYPE_BCD_PLUS 0x01
#define STRING_DATA_TYPE_SIX_BIT_ASCII 0x02
#define STRING_DATA_TYPE_LANG_DEPENDANT 0x03
static void decode_string(unsigned char type,
unsigned char language_code,
unsigned char *source,
char *target,
int size)
{
unsigned char *s = &source[0];
unsigned char *d = &target[0];
memset(target, 0, size);
if (type == STRING_DATA_TYPE_BCD_PLUS)
{
while(size)
{
if ((*s >= (unsigned char) 0x00) && (*s <= (unsigned char) 0x09))
*d++ = (unsigned char) 0x30 + (unsigned char) *s++;
else
{
if (*s == (unsigned char) 0x0A)
*d++ = (unsigned char) ' ';
else if (*s == (unsigned char) 0x0B)
*d++ = (unsigned char) '-';
else if (*s == (unsigned char) 0x0C)
*d++ = (unsigned char) '.';
else if ((*s <= (unsigned char) 0x0D) && (*s <= (unsigned char) 0x0F))
{
*d++ = (unsigned char) '*';
}
s++;
}
size --;
}
}
else if (type == STRING_DATA_TYPE_SIX_BIT_ASCII)
{
printf("Six bit ASCII decode not supported\n");
}
else if (type == STRING_DATA_TYPE_LANG_DEPENDANT)
{
if ((language_code == 0x00) || (language_code == 0x25) || (language_code == 0x19))
{
strncpy(target, source, size);
target[size] = 0x0;
}
else
{
printf("Language 0x%x dependant decode not supported\n",
language_code);
return;
}
}
else
{
printf("Unable to decode type 0x%.2x\n",type);
return;
}
}
/*
* General Purpose stuff
*/
void usage(const char *progname)
{
printf("Usage: %s [-r] [-s] [-p] [-d]\n",progname);
printf(" -r -- report mainboard device ID\n");
printf(" -s -- enable watchdog timer\n");
printf(" -p -- pet watchdog timer\n");
printf(" -d -- disable watchdog timer\n");
printf(" -q -- query watchdog timer\n");
printf(" -f -- display FRU \n");
printf(" -v -- verbose driver info\n");
printf(" -a <tag> -- set asset tag\n");
printf(" -b <state> -- set blink state (if supported)\n");
printf(" -i -- Retrieve sensor information\n");
printf(" -R <num> -- Display realtime sensor reading\n");
printf(" -- (0 == Interactive shell)\n");
printf(" -D -- Download System Event Log\n");
printf(" -C -- Clear System Event Log\n");
}
void display_sensor_list()
{
SENSOR *list;
char tmp[128];
char sensor_class[128];
if (!sensor_head)
{
printf("No sensor list available\n");
return;
}
list = sensor_head;
while(list)
{
if (list->rec_header.record_type == 0x01)
{
decode_string(list->sensor_type.type_01_sensor.id_string_type_code,
0,
&list->sensor_type.type_01_sensor.id_string[0],
&tmp[0],
list->sensor_type.type_01_sensor.id_string_num_bytes);
if (list->sensor_type.type_01_sensor.sens_capable_reading_type == ANALOG)
strcpy(sensor_class,"ANALOG");
else
strcpy(sensor_class,"UNSUPPORTED");
printf("Sensor %-2d, Name %-25s, Class %s\n",
list->sensor_type.type_01_sensor.sensor_number,
tmp,
sensor_class);
}
else if (list->rec_header.record_type == 0x02)
{
int class;
decode_string(list->sensor_type.type_02_sensor.id_string_type_code,
0,
&list->sensor_type.type_02_sensor.id_string[0],
&tmp[0],
list->sensor_type.type_02_sensor.id_string_num_bytes);
class = sensor_get_class(list->sensor_type.type_02_sensor.event_reading_type_code);
if (class == SENSOR_CLASS_DIGITAL)
strcpy(sensor_class,"DIGITAL");
else if (class == SENSOR_CLASS_DISCRETE)
strcpy(sensor_class,"UNSUPPORTED");
else
strcpy(sensor_class,"UNSUPPORTED");
printf("Sensor %-2d, Name %-25s, Class %s\n",
list->sensor_type.type_01_sensor.sensor_number,
tmp,
sensor_class);
}
else
{
list = list->next;
continue;
}
list = list->next;
}
}
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