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gfiber / vendor / opensource / netsnmp / 572ab4ea588e292101860b2e3fbe6395015e94b4 / . / agent / mibgroup / host / hr_disk.c
blob: 679264b0a645905fe8217d759d9b80c1def3011b [file] [log] [blame]
/*
* Host Resources MIB - disk device group implementation - hr_disk.c
*
*/
/* Portions of this file are subject to the following copyright(s). See
* the Net-SNMP's COPYING file for more details and other copyrights
* that may apply:
*/
/*
* Portions of this file are copyrighted by:
* Copyright (C) 2007 Apple, Inc. All rights reserved.
* Use is subject to license terms specified in the COPYING file
* distributed with the Net-SNMP package.
*/
#include <net-snmp/net-snmp-config.h>
#include "host_res.h"
#include "hr_disk.h"
#if HAVE_STRING_H
#include <string.h>
#else
#include <strings.h>
#endif
#include <fcntl.h>
#if HAVE_UNISTD_H
#include <unistd.h>
#endif
#if HAVE_KVM_H
#include <kvm.h>
#endif
#if HAVE_DIRENT_H
#include <dirent.h>
#else
# define dirent direct
# if HAVE_SYS_NDIR_H
# include <sys/ndir.h>
# endif
# if HAVE_SYS_DIR_H
# include <sys/dir.h>
# endif
# if HAVE_NDIR_H
# include <ndir.h>
# endif
#endif
#if HAVE_SYS_IOCTL_H
#include <sys/ioctl.h>
#endif
#if HAVE_SYS_DKIO_H
#include <sys/dkio.h>
#endif
#if HAVE_SYS_DISKIO_H /* HP-UX only ? */
#include <sys/diskio.h>
#endif
#if HAVE_LINUX_HDREG_H
#include <linux/hdreg.h>
#endif
#if HAVE_SYS_DISKLABEL_H
#define DKTYPENAMES
#include <sys/disklabel.h>
#endif
#if TIME_WITH_SYS_TIME
# include <sys/time.h>
# include <time.h>
#else
# if HAVE_SYS_TIME_H
# include <sys/time.h>
# else
# include <time.h>
# endif
#endif
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
#include <regex.h>
#endif
#if HAVE_LIMITS_H
#include <limits.h>
#endif
#ifdef darwin
#include <CoreFoundation/CoreFoundation.h>
#include <IOKit/IOKitLib.h>
#include <IOKit/storage/IOBlockStorageDriver.h>
#include <IOKit/storage/IOMedia.h>
#include <IOKit/IOBSD.h>
#include <DiskArbitration/DADisk.h>
#endif
#ifdef linux
/*
* define BLKGETSIZE from <linux/fs.h>:
* Note: cannot include this file completely due to errors with redefinition
* of structures (at least with older linux versions) --jsf
*/
#define BLKGETSIZE _IO(0x12,96) /* return device size */
#endif
#include <net-snmp/agent/agent_read_config.h>
#include <net-snmp/library/read_config.h>
#define HRD_MONOTONICALLY_INCREASING
/*************************************************************
* constants for enums for the MIB node
* hrDiskStorageAccess (INTEGER / ASN_INTEGER)
*/
#define HRDISKSTORAGEACCESS_READWRITE 1
#define HRDISKSTORAGEACCESS_READONLY 2
/*************************************************************
* constants for enums for the MIB node
* hrDiskStorageMedia (INTEGER / ASN_INTEGER)
*/
#define HRDISKSTORAGEMEDIA_OTHER 1
#define HRDISKSTORAGEMEDIA_UNKNOWN 2
#define HRDISKSTORAGEMEDIA_HARDDISK 3
#define HRDISKSTORAGEMEDIA_FLOPPYDISK 4
#define HRDISKSTORAGEMEDIA_OPTICALDISKROM 5
#define HRDISKSTORAGEMEDIA_OPTICALDISKWORM 6
#define HRDISKSTORAGEMEDIA_OPTICALDISKRW 7
#define HRDISKSTORAGEMEDIA_RAMDISK 8
/*********************
*
* Kernel & interface information,
* and internal forward declarations
*
*********************/
void Init_HR_Disk(void);
int Get_Next_HR_Disk(void);
int Get_Next_HR_Disk_Partition(char *, size_t, int);
static void Add_HR_Disk_entry(const char *, int, int, int, int,
const char *, int, int);
static void Save_HR_Disk_General(void);
static void Save_HR_Disk_Specific(void);
static int Query_Disk(int, const char *);
static int Is_It_Writeable(void);
static int What_Type_Disk(void);
static int Is_It_Removeable(void);
static const char *describe_disk(int);
int header_hrdisk(struct variable *, oid *, size_t *, int,
size_t *, WriteMethod **);
static int HRD_type_index;
static int HRD_index;
static char HRD_savedModel[40];
static long HRD_savedCapacity = 1044;
static int HRD_savedFlags;
static time_t HRD_history[HRDEV_TYPE_MASK + 1];
#ifdef DIOC_DESCRIBE
static disk_describe_type HRD_info;
static capacity_type HRD_cap;
static int HRD_savedIntf_type;
static int HRD_savedDev_type;
#endif
#ifdef DKIOCINFO
static struct dk_cinfo HRD_info;
static struct dk_geom HRD_cap;
static int HRD_savedCtrl_type;
#endif
#ifdef HAVE_LINUX_HDREG_H
static struct hd_driveid HRD_info;
#endif
#ifdef DIOCGDINFO
static struct disklabel HRD_info;
#endif
#ifdef darwin
static int64_t HRD_cap;
static int HRD_access;
static int HRD_type;
static int HRD_removeble;
static char HRD_model[40];
static int HRD_saved_access;
static int HRD_saved_type;
static int HRD_saved_removeble;
static int _get_type_from_protocol( const char *prot );
static int _get_type_value( const char *str_type );
#endif
static void parse_disk_config(const char *, char *);
static void free_disk_config(void);
#ifdef linux
static void Add_LVM_Disks(void);
static void Remove_LVM_Disks(void);
#endif
/*********************
*
* Initialisation & common implementation functions
*
*********************/
#define HRDISK_ACCESS 1
#define HRDISK_MEDIA 2
#define HRDISK_REMOVEABLE 3
#define HRDISK_CAPACITY 4
struct variable4 hrdisk_variables[] = {
{HRDISK_ACCESS, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_hrdisk, 2, {1, 1}},
{HRDISK_MEDIA, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_hrdisk, 2, {1, 2}},
{HRDISK_REMOVEABLE, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_hrdisk, 2, {1, 3}},
{HRDISK_CAPACITY, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_hrdisk, 2, {1, 4}}
};
oid hrdisk_variables_oid[] = { 1, 3, 6, 1, 2, 1, 25, 3, 6 };
void
init_hr_disk(void)
{
int i;
init_device[HRDEV_DISK] = Init_HR_Disk;
next_device[HRDEV_DISK] = Get_Next_HR_Disk;
save_device[HRDEV_DISK] = Save_HR_Disk_General;
#ifdef HRD_MONOTONICALLY_INCREASING
dev_idx_inc[HRDEV_DISK] = 1;
#endif
#if defined(linux)
Add_HR_Disk_entry("/dev/hd%c%d", -1, -1, 'a', 'l', "/dev/hd%c", 1, 15);
Add_HR_Disk_entry("/dev/sd%c%d", -1, -1, 'a', 'p', "/dev/sd%c", 1, 15);
Add_HR_Disk_entry("/dev/md%d", -1, -1, 0, 3, "/dev/md%d", 0, 0);
Add_HR_Disk_entry("/dev/fd%d", -1, -1, 0, 1, "/dev/fd%d", 0, 0);
Add_LVM_Disks();
#elif defined(hpux)
#if defined(hpux10) || defined(hpux11)
Add_HR_Disk_entry("/dev/rdsk/c%dt%xd%d", 0, 1, 0, 15,
"/dev/rdsk/c%dt%xd0", 0, 4);
#else /* hpux9 */
Add_HR_Disk_entry("/dev/rdsk/c%dd%xs%d", 201, 201, 0, 15,
"/dev/rdsk/c%dd%xs0", 0, 4);
#endif
#elif defined(solaris2)
Add_HR_Disk_entry("/dev/rdsk/c%dt%dd0s%d", 0, 7, 0, 15,
"/dev/rdsk/c%dt%dd0s0", 0, 7);
Add_HR_Disk_entry("/dev/rdsk/c%dd%ds%d", 0, 7, 0, 15,
"/dev/rdsk/c%dd%ds0", 0, 7);
#elif defined(darwin)
Add_HR_Disk_entry("/dev/disk%ds%d", -1, -1, 0, 32, "/dev/disk%d", 1, 32);
#elif defined(freebsd4) || defined(freebsd5)
Add_HR_Disk_entry("/dev/ad%ds%d%c", 0, 1, 1, 4, "/dev/ad%ds%d", 'a', 'h');
Add_HR_Disk_entry("/dev/da%ds%d%c", 0, 1, 1, 4, "/dev/da%ds%d", 'a', 'h');
#elif defined(freebsd3)
Add_HR_Disk_entry("/dev/wd%ds%d%c", 0, 1, 1, 4, "/dev/wd%ds%d", 'a',
'h');
Add_HR_Disk_entry("/dev/sd%ds%d%c", 0, 1, 1, 4, "/dev/sd%ds%d", 'a',
'h');
#elif defined(freebsd2)
Add_HR_Disk_entry("/dev/wd%d%c", -1, -1, 0, 3, "/dev/wd%d", 'a', 'h');
Add_HR_Disk_entry("/dev/sd%d%c", -1, -1, 0, 3, "/dev/sd%d", 'a', 'h');
#elif defined(netbsd1)
Add_HR_Disk_entry("/dev/wd%d%c", -1, -1, 0, 3, "/dev/wd%dc", 'a', 'h');
Add_HR_Disk_entry("/dev/sd%d%c", -1, -1, 0, 3, "/dev/sd%dc", 'a', 'h');
#endif
device_descr[HRDEV_DISK] = describe_disk;
HRD_savedModel[0] = '\0';
HRD_savedCapacity = 0;
for (i = 0; i < HRDEV_TYPE_MASK; ++i)
HRD_history[i] = -1;
REGISTER_MIB("host/hr_disk", hrdisk_variables, variable4,
hrdisk_variables_oid);
snmpd_register_config_handler("ignoredisk", parse_disk_config,
free_disk_config, "name");
}
void
shutdown_hr_disk(void)
{
#ifdef linux
Remove_LVM_Disks();
#endif
}
#define ITEM_STRING 1
#define ITEM_SET 2
#define ITEM_STAR 3
#define ITEM_ANY 4
typedef unsigned char details_set[32];
typedef struct _conf_disk_item {
int item_type; /* ITEM_STRING, ITEM_SET, ITEM_STAR, ITEM_ANY */
void *item_details; /* content depends upon item_type */
struct _conf_disk_item *item_next;
} conf_disk_item;
typedef struct _conf_disk_list {
conf_disk_item *list_item;
struct _conf_disk_list *list_next;
} conf_disk_list;
static conf_disk_list *conf_list = NULL;
static int match_disk_config(const char *);
static int match_disk_config_item(const char *, conf_disk_item *);
static void
parse_disk_config(const char *token, char *cptr)
{
conf_disk_list *d_new = NULL;
conf_disk_item *di_curr = NULL;
details_set *d_set = NULL;
char *name = NULL, *p = NULL, *d_str = NULL, c;
unsigned int i, neg, c1, c2;
char *st = NULL;
name = strtok_r(cptr, " \t", &st);
if (!name) {
config_perror("Missing NAME parameter");
return;
}
d_new = (conf_disk_list *) malloc(sizeof(conf_disk_list));
if (!d_new) {
config_perror("Out of memory");
return;
}
di_curr = (conf_disk_item *) malloc(sizeof(conf_disk_item));
if (!di_curr) {
SNMP_FREE(d_new);
config_perror("Out of memory");
return;
}
d_new->list_item = di_curr;
/* XXX: on error/return conditions we need to free the entire new
list, not just the last node like this is doing! */
for (;;) {
if (*name == '?') {
di_curr->item_type = ITEM_ANY;
di_curr->item_details = (void *) 0;
name++;
} else if (*name == '*') {
di_curr->item_type = ITEM_STAR;
di_curr->item_details = (void *) 0;
name++;
} else if (*name == '[') {
d_set = (details_set *) calloc(sizeof(details_set), 1);
if (!d_set) {
config_perror("Out of memory");
SNMP_FREE(d_new);
SNMP_FREE(di_curr);
SNMP_FREE(d_set);
SNMP_FREE(d_str);
return;
}
name++;
if (*name == '^' || *name == '!') {
neg = 1;
name++;
} else {
neg = 0;
}
while (*name && *name != ']') {
c1 = ((unsigned int) *name++) & 0xff;
if (*name == '-' && *(name + 1) != ']') {
name++;
c2 = ((unsigned int) *name++) & 0xff;
} else {
c2 = c1;
}
for (i = c1; i <= c2; i++)
(*d_set)[i / 8] |= (unsigned char) (1 << (i % 8));
}
if (*name != ']') {
config_perror
("Syntax error in NAME: invalid set specified");
SNMP_FREE(d_new);
SNMP_FREE(di_curr);
SNMP_FREE(d_set);
SNMP_FREE(d_str);
return;
}
if (neg) {
for (i = 0; i < sizeof(details_set); i++)
(*d_set)[i] = (*d_set)[i] ^ (unsigned char) 0xff;
}
di_curr->item_type = ITEM_SET;
di_curr->item_details = (void *) d_set;
name++;
} else {
for (p = name;
*p != '\0' && *p != '?' && *p != '*' && *p != '['; p++);
c = *p;
*p = '\0';
d_str = (char *) malloc(strlen(name) + 1);
if (!d_str) {
SNMP_FREE(d_new);
SNMP_FREE(d_str);
SNMP_FREE(di_curr);
SNMP_FREE(d_set);
config_perror("Out of memory");
return;
}
strcpy(d_str, name);
*p = c;
di_curr->item_type = ITEM_STRING;
di_curr->item_details = (void *) d_str;
name = p;
}
if (!*name) {
di_curr->item_next = (conf_disk_item *) 0;
break;
}
di_curr->item_next =
(conf_disk_item *) malloc(sizeof(conf_disk_item));
if (!di_curr->item_next) {
SNMP_FREE(di_curr->item_next);
SNMP_FREE(d_new);
SNMP_FREE(di_curr);
SNMP_FREE(d_set);
SNMP_FREE(d_str);
config_perror("Out of memory");
return;
}
di_curr = di_curr->item_next;
}
d_new->list_next = conf_list;
conf_list = d_new;
}
static void
free_disk_config(void)
{
conf_disk_list *d_ptr = conf_list, *d_next;
conf_disk_item *di_ptr, *di_next;
while (d_ptr) {
d_next = d_ptr->list_next;
di_ptr = d_ptr->list_item;
while (di_ptr) {
di_next = di_ptr->item_next;
if (di_ptr->item_details)
free(di_ptr->item_details);
free((void *) di_ptr);
di_ptr = di_next;
}
free((void *) d_ptr);
d_ptr = d_next;
}
conf_list = (conf_disk_list *) 0;
}
static int
match_disk_config_item(const char *name, conf_disk_item * di_ptr)
{
int result = 0;
size_t len;
details_set *d_set;
unsigned int c;
if (di_ptr) {
switch (di_ptr->item_type) {
case ITEM_STRING:
len = strlen((const char *) di_ptr->item_details);
if (!strncmp(name, (const char *) di_ptr->item_details, len))
result = match_disk_config_item(name + len,
di_ptr->item_next);
break;
case ITEM_SET:
if (*name) {
d_set = (details_set *) di_ptr->item_details;
c = ((unsigned int) *name) & 0xff;
if ((*d_set)[c / 8] & (unsigned char) (1 << (c % 8)))
result = match_disk_config_item(name + 1,
di_ptr->item_next);
}
break;
case ITEM_STAR:
if (di_ptr->item_next) {
for (; !result && *name; name++)
result = match_disk_config_item(name,
di_ptr->item_next);
} else {
result = 1;
}
break;
case ITEM_ANY:
if (*name)
result = match_disk_config_item(name + 1,
di_ptr->item_next);
break;
}
} else {
if (*name == '\0')
result = 1;
}
return result;
}
static int
match_disk_config(const char *name)
{
conf_disk_list *d_ptr = conf_list;
while (d_ptr) {
if (match_disk_config_item(name, d_ptr->list_item))
return 1; /* match found in ignorelist */
d_ptr = d_ptr->list_next;
}
/*
* no match in ignorelist
*/
return 0;
}
/*
* header_hrdisk(...
* Arguments:
* vp IN - pointer to variable entry that points here
* name IN/OUT - IN/name requested, OUT/name found
* length IN/OUT - length of IN/OUT oid's
* exact IN - TRUE if an exact match was requested
* var_len OUT - length of variable or 0 if function returned
* write_method
*/
int
header_hrdisk(struct variable *vp,
oid * name,
size_t * length,
int exact, size_t * var_len, WriteMethod ** write_method)
{
#define HRDISK_ENTRY_NAME_LENGTH 11
oid newname[MAX_OID_LEN];
int disk_idx, LowIndex = -1;
int result;
DEBUGMSGTL(("host/hr_disk", "var_hrdisk: "));
DEBUGMSGOID(("host/hr_disk", name, *length));
DEBUGMSG(("host/hr_disk", " %d\n", exact));
memcpy((char *) newname, (char *) vp->name,
(int) vp->namelen * sizeof(oid));
/*
* Find "next" disk entry
*/
Init_HR_Disk();
for (;;) {
disk_idx = Get_Next_HR_Disk();
DEBUGMSGTL(("host/hr_disk", "... index %d\n", disk_idx));
if (disk_idx == -1)
break;
newname[HRDISK_ENTRY_NAME_LENGTH] = disk_idx;
result =
snmp_oid_compare(name, *length, newname,
(int) vp->namelen + 1);
if (exact && (result == 0)) {
LowIndex = disk_idx;
Save_HR_Disk_Specific();
break;
}
if ((!exact && (result < 0)) &&
(LowIndex == -1 || disk_idx < LowIndex)) {
LowIndex = disk_idx;
Save_HR_Disk_Specific();
#ifdef HRD_MONOTONICALLY_INCREASING
break;
#endif
}
}
if (LowIndex == -1) {
DEBUGMSGTL(("host/hr_disk", "... index out of range\n"));
return (MATCH_FAILED);
}
newname[HRDISK_ENTRY_NAME_LENGTH] = LowIndex;
memcpy((char *) name, (char *) newname,
((int) vp->namelen + 1) * sizeof(oid));
*length = vp->namelen + 1;
*write_method = (WriteMethod*)0;
*var_len = sizeof(long); /* default to 'long' results */
DEBUGMSGTL(("host/hr_disk", "... get disk stats "));
DEBUGMSGOID(("host/hr_disk", name, *length));
DEBUGMSG(("host/hr_disk", "\n"));
return LowIndex;
}
/*********************
*
* System specific implementation functions
*
*********************/
u_char *
var_hrdisk(struct variable * vp,
oid * name,
size_t * length,
int exact, size_t * var_len, WriteMethod ** write_method)
{
int disk_idx;
disk_idx =
header_hrdisk(vp, name, length, exact, var_len, write_method);
if (disk_idx == MATCH_FAILED)
return NULL;
switch (vp->magic) {
case HRDISK_ACCESS:
long_return = Is_It_Writeable();
return (u_char *) & long_return;
case HRDISK_MEDIA:
long_return = What_Type_Disk();
return (u_char *) & long_return;
case HRDISK_REMOVEABLE:
long_return = Is_It_Removeable();
return (u_char *) & long_return;
case HRDISK_CAPACITY:
long_return = HRD_savedCapacity;
return (u_char *) & long_return;
default:
DEBUGMSGTL(("snmpd", "unknown sub-id %d in var_hrdisk\n",
vp->magic));
}
return NULL;
}
/*********************
*
* Internal implementation functions
*
*********************/
#define MAX_NUMBER_DISK_TYPES 16 /* probably should be a variable */
#define MAX_DISKS_PER_TYPE 15 /* SCSI disks - not a hard limit */
#define HRDISK_TYPE_SHIFT 4 /* log2 (MAX_DISKS_PER_TYPE+1) */
typedef struct {
const char *disk_devpart_string; /* printf() format disk part. name */
short disk_controller; /* controller id or -1 if NA */
short disk_device_first; /* first device id */
short disk_device_last; /* last device id */
const char *disk_devfull_string; /* printf() format full disk name */
short disk_partition_first; /* first partition id */
short disk_partition_last; /* last partition id */
} HRD_disk_t;
static HRD_disk_t disk_devices[MAX_NUMBER_DISK_TYPES];
static int HR_number_disk_types = 0;
static void
Add_HR_Disk_entry(const char *devpart_string,
int first_ctl,
int last_ctl,
int first_dev,
int last_dev,
const char *devfull_string,
int first_partn, int last_partn)
{
int lodev, hidev, nbr_created = 0;
while (first_ctl <= last_ctl) {
for (lodev = first_dev;
lodev <= last_dev && MAX_NUMBER_DISK_TYPES > HR_number_disk_types;
lodev += (1+MAX_DISKS_PER_TYPE), HR_number_disk_types++)
{
nbr_created++;
/*
* Split long runs of disks into separate "types"
*/
hidev = lodev + MAX_DISKS_PER_TYPE;
if (last_dev < hidev)
hidev = last_dev;
disk_devices[HR_number_disk_types].disk_devpart_string =
devpart_string;
disk_devices[HR_number_disk_types].disk_controller = first_ctl;
disk_devices[HR_number_disk_types].disk_device_first = lodev;
disk_devices[HR_number_disk_types].disk_device_last = hidev;
disk_devices[HR_number_disk_types].disk_devfull_string =
devfull_string;
disk_devices[HR_number_disk_types].disk_partition_first =
first_partn;
disk_devices[HR_number_disk_types].disk_partition_last =
last_partn;
#if DEBUG_TEST
DEBUGMSGTL(("host/hr_disk",
"Add_HR %02d '%s' first=%d last=%d\n",
HR_number_disk_types, devpart_string, lodev, hidev));
#endif
}
first_ctl++;
}
if (nbr_created == 0 || MAX_NUMBER_DISK_TYPES < HR_number_disk_types) {
HR_number_disk_types = MAX_NUMBER_DISK_TYPES;
DEBUGMSGTL(("host/hr_disk",
"WARNING! Add_HR_Disk_entry '%s' incomplete, %d created\n",
devpart_string, nbr_created));
}
#if DEBUG_TEST
else
DEBUGMSGTL(("host/hr_disk",
"Add_HR_Disk_entry '%s' completed, %d created\n",
devpart_string, nbr_created));
#endif
}
void
Init_HR_Disk(void)
{
HRD_type_index = 0;
HRD_index = -1;
DEBUGMSGTL(("host/hr_disk", "Init_Disk\n"));
}
int
Get_Next_HR_Disk(void)
{
char string[PATH_MAX+1];
int fd, result;
int iindex;
int max_disks;
time_t now;
HRD_index++;
time(&now);
DEBUGMSGTL(("host/hr_disk", "Next_Disk type %d of %d\n",
HRD_type_index, HR_number_disk_types));
while (HRD_type_index < HR_number_disk_types) {
max_disks = disk_devices[HRD_type_index].disk_device_last -
disk_devices[HRD_type_index].disk_device_first + 1;
DEBUGMSGTL(("host/hr_disk", "Next_Disk max %d of type %d\n",
max_disks, HRD_type_index));
while (HRD_index < max_disks) {
iindex = (HRD_type_index << HRDISK_TYPE_SHIFT) + HRD_index;
/*
* Check to see whether this device
* has been probed for 'recently'
* and skip if so.
* This has a *major* impact on run
* times (by a factor of 10!)
*/
if ((HRD_history[iindex] > 0) &&
((now - HRD_history[iindex]) < 60)) {
HRD_index++;
continue;
}
/*
* Construct the full device name in "string"
*/
if (disk_devices[HRD_type_index].disk_controller != -1) {
snprintf(string, sizeof(string)-1,
disk_devices[HRD_type_index].disk_devfull_string,
disk_devices[HRD_type_index].disk_controller,
disk_devices[HRD_type_index].disk_device_first +
HRD_index);
} else if (disk_devices[HRD_type_index].disk_device_first == disk_devices[HRD_type_index].disk_device_last) {
/* exact device name */
snprintf(string, sizeof(string)-1, "%s", disk_devices[HRD_type_index].disk_devfull_string);
} else {
snprintf(string, sizeof(string)-1,
disk_devices[HRD_type_index].disk_devfull_string,
disk_devices[HRD_type_index].disk_device_first +
HRD_index);
}
string[ sizeof(string)-1 ] = 0;
DEBUGMSGTL(("host/hr_disk", "Get_Next_HR_Disk: %s (%d/%d)\n",
string, HRD_type_index, HRD_index));
if (HRD_history[iindex] == -1) {
/*
* check whether this device is in the "ignoredisk" list in
* the config file. if yes this device will be marked as
* invalid for the future, i.e. it won't ever be checked
* again.
*/
if (match_disk_config(string)) {
/*
* device name matches entry in ignoredisk list
*/
DEBUGMSGTL(("host/hr_disk",
"Get_Next_HR_Disk: %s ignored\n", string));
HRD_history[iindex] = LONG_MAX;
HRD_index++;
continue;
}
}
/*
* use O_NDELAY to avoid CDROM spin-up and media detection
* * (too slow) --okir
*/
/*
* at least with HP-UX 11.0 this doesn't seem to work properly
* * when accessing an empty CDROM device --jsf
*/
#ifdef O_NDELAY /* I'm sure everything has it, but just in case... --Wes */
fd = open(string, O_RDONLY | O_NDELAY);
#else
fd = open(string, O_RDONLY);
#endif
if (fd != -1) {
result = Query_Disk(fd, string);
close(fd);
if (result != -1) {
HRD_history[iindex] = 0;
return ((HRDEV_DISK << HRDEV_TYPE_SHIFT) + iindex);
}
DEBUGMSGTL(("host/hr_disk",
"Get_Next_HR_Disk: can't query %s\n", string));
}
else {
DEBUGMSGTL(("host/hr_disk",
"Get_Next_HR_Disk: can't open %s\n", string));
}
HRD_history[iindex] = now;
HRD_index++;
}
HRD_type_index++;
HRD_index = 0;
}
HRD_index = -1;
return -1;
}
int
Get_Next_HR_Disk_Partition(char *string, size_t str_len, int HRP_index)
{
DEBUGMSGTL(("host/hr_disk", "Next_Partition type %d/%d:%d\n",
HRD_type_index, HRD_index, HRP_index));
/*
* no more partition names => return -1
*/
if (disk_devices[HRD_type_index].disk_partition_last -
disk_devices[HRD_type_index].disk_partition_first + 1
<= HRP_index) {
return -1;
}
/*
* Construct the partition name in "string"
*/
if (disk_devices[HRD_type_index].disk_controller != -1) {
snprintf(string, str_len-1,
disk_devices[HRD_type_index].disk_devpart_string,
disk_devices[HRD_type_index].disk_controller,
disk_devices[HRD_type_index].disk_device_first + HRD_index,
disk_devices[HRD_type_index].disk_partition_first +
HRP_index);
} else {
snprintf(string, str_len-1,
disk_devices[HRD_type_index].disk_devpart_string,
disk_devices[HRD_type_index].disk_device_first + HRD_index,
disk_devices[HRD_type_index].disk_partition_first +
HRP_index);
}
string[ str_len-1 ] = 0;
DEBUGMSGTL(("host/hr_disk",
"Get_Next_HR_Disk_Partition: %s (%d/%d:%d)\n", string,
HRD_type_index, HRD_index, HRP_index));
return 0;
}
#ifdef darwin
int
Get_HR_Disk_Label(char *string, size_t str_len, const char *devfull)
{
DASessionRef sess_ref;
DADiskRef disk;
CFDictionaryRef desc;
CFStringRef str_ref;
CFStringEncoding sys_encoding = CFStringGetSystemEncoding();
DEBUGMSGTL(("host/hr_disk", "Disk Label type %s\n", devfull));
sess_ref = DASessionCreate( NULL );
if (NULL == sess_ref) {
strlcpy(string, devfull, str_len);
return -1;
}
disk = DADiskCreateFromBSDName( NULL, sess_ref, devfull );
if (NULL == disk) {
CFRelease(sess_ref);
strlcpy(string, devfull, str_len);
return -1;
}
desc = DADiskCopyDescription( disk );
if (NULL == desc) {
snmp_log(LOG_ERR,
"diskmgr: couldn't get disk description for %s, skipping\n",
devfull);
CFRelease(disk);
CFRelease(sess_ref);
strlcpy(string, devfull, str_len);
return -1;
}
/** model */
str_ref = (CFStringRef)
CFDictionaryGetValue(desc, kDADiskDescriptionMediaNameKey);
if (str_ref) {
strlcpy(string, CFStringGetCStringPtr(str_ref, sys_encoding),
str_len);
DEBUGMSGTL(("verbose:diskmgr:darwin", " name %s\n", string));
}
else {
strlcpy(string, devfull, str_len);
}
CFRelease(disk);
CFRelease(desc);
CFRelease(sess_ref);
return 0;
}
#endif
static void
Save_HR_Disk_Specific(void)
{
#ifdef DIOC_DESCRIBE
HRD_savedIntf_type = HRD_info.intf_type;
HRD_savedDev_type = HRD_info.dev_type;
HRD_savedFlags = HRD_info.flags;
HRD_savedCapacity = HRD_cap.lba / 2;
#endif
#ifdef DKIOCINFO
HRD_savedCtrl_type = HRD_info.dki_ctype;
HRD_savedFlags = HRD_info.dki_flags;
HRD_savedCapacity = HRD_cap.dkg_ncyl * HRD_cap.dkg_nhead * HRD_cap.dkg_nsect / 2; /* ??? */
#endif
#ifdef HAVE_LINUX_HDREG_H
HRD_savedCapacity = HRD_info.lba_capacity / 2;
HRD_savedFlags = HRD_info.config;
#endif
#ifdef DIOCGDINFO
HRD_savedCapacity = HRD_info.d_secperunit / 2;
#endif
#ifdef darwin
HRD_savedCapacity = HRD_cap / 1024;
HRD_saved_access = HRD_access;
HRD_saved_type = HRD_type;
HRD_saved_removeble = HRD_removeble;
#endif
}
static void
Save_HR_Disk_General(void)
{
#ifdef DIOC_DESCRIBE
strlcpy(HRD_savedModel, HRD_info.model_num, sizeof(HRD_savedModel));
#endif
#ifdef DKIOCINFO
strlcpy(HRD_savedModel, HRD_info.dki_dname, sizeof(HRD_savedModel));
#endif
#ifdef HAVE_LINUX_HDREG_H
strlcpy(HRD_savedModel, (const char *) HRD_info.model,
sizeof(HRD_savedModel));
#endif
#ifdef DIOCGDINFO
strlcpy(HRD_savedModel, dktypenames[HRD_info.d_type],
sizeof(HRD_savedModel));
#endif
#ifdef darwin
strlcpy(HRD_savedModel, HRD_model, sizeof(HRD_savedModel));
#endif
}
static const char *
describe_disk(int idx)
{
if (HRD_savedModel[0] == '\0')
return ("some sort of disk");
else
return (HRD_savedModel);
}
static int
Query_Disk(int fd, const char *devfull)
{
int result = -1;
#ifdef DIOC_DESCRIBE
result = ioctl(fd, DIOC_DESCRIBE, &HRD_info);
if (result != -1)
result = ioctl(fd, DIOC_CAPACITY, &HRD_cap);
#endif
#ifdef DKIOCINFO
result = ioctl(fd, DKIOCINFO, &HRD_info);
if (result != -1)
result = ioctl(fd, DKIOCGGEOM, &HRD_cap);
#endif
#ifdef HAVE_LINUX_HDREG_H
if (HRD_type_index == 0) /* IDE hard disk */
result = ioctl(fd, HDIO_GET_IDENTITY, &HRD_info);
else if (HRD_type_index != 3) { /* SCSI hard disk, md and LVM devices */
long h;
result = ioctl(fd, BLKGETSIZE, &h);
if (result != -1 && HRD_type_index == 2 && h == 0L)
result = -1; /* ignore empty md devices */
if (result != -1) {
HRD_info.lba_capacity = h;
if (HRD_type_index == 1)
snprintf( (char *) HRD_info.model, sizeof(HRD_info.model)-1,
"SCSI disk (%s)", devfull);
else if (HRD_type_index >= 4)
snprintf( (char *) HRD_info.model, sizeof(HRD_info.model)-1,
"LVM volume (%s)", devfull + strlen("/dev/mapper/"));
else
snprintf( (char *) HRD_info.model, sizeof(HRD_info.model)-1,
"RAID disk (%s)", devfull);
HRD_info.model[ sizeof(HRD_info.model)-1 ] = 0;
HRD_info.config = 0;
}
}
#endif
#ifdef DIOCGDINFO
result = ioctl(fd, DIOCGDINFO, &HRD_info);
#endif
#ifdef darwin
DASessionRef sess_ref;
DADiskRef disk;
CFDictionaryRef desc;
CFStringRef str_ref;
CFNumberRef number_ref;
CFBooleanRef bool_ref;
CFStringEncoding sys_encoding = CFStringGetSystemEncoding();
sess_ref = DASessionCreate( NULL );
if (NULL == sess_ref)
return -1;
disk = DADiskCreateFromBSDName( NULL, sess_ref, devfull );
if (NULL == disk) {
CFRelease(sess_ref);
return -1;
}
desc = DADiskCopyDescription( disk );
if (NULL == desc) {
CFRelease(disk);
CFRelease(sess_ref);
return -1;
}
number_ref = (CFNumberRef)
CFDictionaryGetValue(desc, kDADiskDescriptionMediaSizeKey);
if (number_ref)
CFNumberGetValue(number_ref, kCFNumberSInt64Type, &HRD_cap);
else
HRD_cap = 0;
DEBUGMSGTL(("verbose:diskmgr:darwin", " size %lld\n", HRD_cap));
/** writable? */
bool_ref = (CFBooleanRef)
CFDictionaryGetValue(desc, kDADiskDescriptionMediaWritableKey);
if (bool_ref) {
HRD_access = CFBooleanGetValue(bool_ref);
}
else
HRD_access = 0;
DEBUGMSGTL(("verbose:diskmgr:darwin", " writable %d\n",
HRD_access));
/** removable? */
bool_ref = (CFBooleanRef)
CFDictionaryGetValue(desc, kDADiskDescriptionMediaRemovableKey);
if (bool_ref) {
HRD_removeble = CFBooleanGetValue(bool_ref);
}
else
HRD_removeble = 0;
DEBUGMSGTL(("verbose:diskmgr:darwin", " removable %d\n",
HRD_removeble));
/** get type */
str_ref = (CFStringRef)
CFDictionaryGetValue(desc, kDADiskDescriptionMediaTypeKey);
if (str_ref) {
HRD_type = _get_type_value(CFStringGetCStringPtr(str_ref,
sys_encoding));
DEBUGMSGTL(("verbose:diskmgr:darwin", " type %s / %d\n",
CFStringGetCStringPtr(str_ref, sys_encoding),
HRD_type));
}
else {
str_ref = (CFStringRef)
CFDictionaryGetValue(desc, kDADiskDescriptionDeviceProtocolKey);
if (str_ref) {
HRD_type =
_get_type_from_protocol(CFStringGetCStringPtr(str_ref,
sys_encoding));
DEBUGMSGTL(("verbose:diskmgr:darwin", " type %s / %d\n",
CFStringGetCStringPtr(str_ref, sys_encoding),
HRD_type));
}
else
HRD_type = HRDISKSTORAGEMEDIA_UNKNOWN;
}
/** model */
str_ref = (CFStringRef)
CFDictionaryGetValue(desc, kDADiskDescriptionDeviceModelKey);
if (str_ref) {
strlcpy(HRD_model, CFStringGetCStringPtr(str_ref, sys_encoding),
sizeof(HRD_model));
DEBUGMSGTL(("verbose:diskmgr:darwin", " model %s\n", HRD_model));
}
else
HRD_model[0] = 0;
CFRelease(disk);
CFRelease(desc);
CFRelease(sess_ref);
result = 0;
#endif
return (result);
}
static int
Is_It_Writeable(void)
{
#ifdef DIOC_DESCRIBE
if ((HRD_savedFlags & WRITE_PROTECT_FLAG) ||
(HRD_savedDev_type == CDROM_DEV_TYPE))
return (2); /* read only */
#endif
#ifdef DKIOCINFO
if (HRD_savedCtrl_type == DKC_CDROM)
return (2); /* read only */
#endif
#ifdef darwin
if (!HRD_access)
return (2);
#endif
return (1); /* read-write */
}
static int
What_Type_Disk(void)
{
#ifdef DIOC_DESCRIBE
switch (HRD_savedDev_type) {
case DISK_DEV_TYPE:
if (HRD_savedIntf_type == PC_FDC_INTF)
return (4); /* Floppy Disk */
else
return (3); /* Hard Disk */
break;
case CDROM_DEV_TYPE:
return (5); /* Optical RO */
break;
case WORM_DEV_TYPE:
return (6); /* Optical WORM */
break;
case MO_DEV_TYPE:
return (7); /* Optical R/W */
break;
default:
return (2); /* Unknown */
break;
}
#endif
#ifdef DKIOCINFO
switch (HRD_savedCtrl_type) {
case DKC_WDC2880:
case DKC_DSD5215:
#ifdef DKC_XY450
case DKC_XY450:
#endif
case DKC_ACB4000:
case DKC_MD21:
#ifdef DKC_XD7053
case DKC_XD7053:
#endif
case DKC_SCSI_CCS:
#ifdef DKC_PANTHER
case DKC_PANTHER:
#endif
#ifdef DKC_CDC_9057
case DKC_CDC_9057:
#endif
#ifdef DKC_FJ_M1060
case DKC_FJ_M1060:
#endif
case DKC_DIRECT:
case DKC_PCMCIA_ATA:
return (3); /* Hard Disk */
break;
case DKC_NCRFLOPPY:
case DKC_SMSFLOPPY:
case DKC_INTEL82077:
return (4); /* Floppy Disk */
break;
case DKC_CDROM:
return (5); /* Optical RO */
break;
case DKC_PCMCIA_MEM:
return (8); /* RAM disk */
break;
case DKC_MD: /* "meta-disk" driver */
return (1); /* Other */
break;
}
#endif
#ifdef darwin
return HRD_type;
#endif
return (2); /* Unknown */
}
static int
Is_It_Removeable(void)
{
#ifdef DIOC_DESCRIBE
if ((HRD_savedIntf_type == PC_FDC_INTF) ||
(HRD_savedDev_type == WORM_DEV_TYPE) ||
(HRD_savedDev_type == MO_DEV_TYPE) ||
(HRD_savedDev_type == CDROM_DEV_TYPE))
return (1); /* true */
#endif
#ifdef DKIOCINFO
if ((HRD_savedCtrl_type == DKC_CDROM) ||
(HRD_savedCtrl_type == DKC_NCRFLOPPY) ||
(HRD_savedCtrl_type == DKC_SMSFLOPPY) ||
(HRD_savedCtrl_type == DKC_INTEL82077) ||
(HRD_savedCtrl_type == DKC_PCMCIA_MEM) ||
(HRD_savedCtrl_type == DKC_PCMCIA_ATA))
return (1); /* true */
#endif
#ifdef HAVE_LINUX_HDREG_H
if (HRD_savedFlags & 0x80)
return (1); /* true */
#endif
#ifdef darwin
if (HRD_removeble)
return (1);
#endif
return (2); /* false */
}
#ifdef darwin
typedef struct type_value_map_s {
const char *type;
uint32_t value;
} type_value_map;
static type_value_map media_type_map[] = {
{ "CD-ROM", HRDISKSTORAGEMEDIA_OPTICALDISKROM},
{ "DVD-R", HRDISKSTORAGEMEDIA_OPTICALDISKWORM},
{ "DVD+R", HRDISKSTORAGEMEDIA_OPTICALDISKWORM},
};
static int media_types = sizeof(media_type_map)/sizeof(media_type_map[0]);
static int
_get_type_value( const char *str_type )
{
int i, len;
if (NULL == str_type)
return HRDISKSTORAGEMEDIA_UNKNOWN;
len = strlen(str_type);
for(i=0; i < media_types; ++i) {
if (0 == strcmp(media_type_map[i].type, str_type))
return media_type_map[i].value;
}
return HRDISKSTORAGEMEDIA_UNKNOWN;
}
static type_value_map proto_map[] = {
{ "ATA", HRDISKSTORAGEMEDIA_HARDDISK},
{ "ATAPI", HRDISKSTORAGEMEDIA_OPTICALDISKROM}
};
static int proto_maps = sizeof(proto_map)/sizeof(proto_map[0]);
static int _get_type_from_protocol( const char *prot )
{
int i, len;
if (NULL == prot)
return TV_FALSE;
len = strlen(prot);
for(i=0; i < proto_maps; ++i) {
if (0 == strcmp(proto_map[i].type, prot))
return proto_map[i].value;
}
return HRDISKSTORAGEMEDIA_UNKNOWN;
}
#endif
#ifdef linux
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
static char *lvm_device_names[MAX_NUMBER_DISK_TYPES];
static int lvm_device_count;
#endif
static void
Add_LVM_Disks(void)
{
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
/*
* LVM devices are harder because their name can be almost anything (see
* regexp below). Each logical volume is interpreted as its own device with
* one partition, even if two logical volumes share common volume group.
*/
regex_t lvol;
int res;
DIR *dir;
struct dirent *d;
res =
regcomp(&lvol, "[0-9a-zA-Z+_\\.-]+-[0-9a-zA-Z+_\\.-]+",
REG_EXTENDED | REG_NOSUB);
if (res != 0) {
char error[200];
regerror(res, &lvol, error, sizeof(error)-1);
DEBUGMSGTL(("host/hr_disk",
"Add_LVM_Disks: cannot compile regexp: %s", error));
return;
}
dir = opendir("/dev/mapper/");
if (dir == NULL) {
DEBUGMSGTL(("host/hr_disk",
"Add_LVM_Disks: cannot open /dev/mapper"));
regfree(&lvol);
return;
}
while ((d = readdir(dir)) != NULL) {
res = regexec(&lvol, d->d_name, 0, NULL, 0);
if (res == 0) {
char *path = (char*)malloc(PATH_MAX + 1);
if (path == NULL) {
DEBUGMSGTL(("host/hr_disk",
"Add_LVM_Disks: cannot allocate memory for device %s",
d->d_name));
break;
}
snprintf(path, PATH_MAX-1, "/dev/mapper/%s", d->d_name);
Add_HR_Disk_entry(path, -1, -1, 0, 0, path, 0, 0);
/*
* store the device name so we can free it in Remove_LVM_Disks
*/
lvm_device_names[lvm_device_count] = path;
++lvm_device_count;
if (lvm_device_count >= MAX_NUMBER_DISK_TYPES) {
DEBUGMSGTL(("host/hr_disk",
"Add_LVM_Disks: maximum count of LVM devices reached"));
break;
}
}
}
closedir(dir);
regfree(&lvol);
#endif
}
static void
Remove_LVM_Disks(void)
{
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
/*
* just free the device names allocated in add_lvm_disks
*/
int i;
for (i = 0; i < lvm_device_count; i++) {
free(lvm_device_names[i]);
lvm_device_names[i] = NULL;
}
lvm_device_count = 0;
#endif
}
#endif