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/**************************************************************
* Copyright (C) 2001 Alex Rozin, Optical Access
*
* All Rights Reserved
*
* Permission to use, copy, modify and distribute this software and its
* documentation for any purpose and without fee is hereby granted,
* provided that the above copyright notice appear in all copies and that
* both that copyright notice and this permission notice appear in
* supporting documentation.
*
* ALEX ROZIN DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
* ALEX ROZIN BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
* ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
* WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
* SOFTWARE.
******************************************************************/
#include <net-snmp/net-snmp-config.h>
#if HAVE_STDLIB_H
#include <stdlib.h>
#endif
#if HAVE_UNISTD_H
#include <unistd.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
#include <net-snmp/net-snmp-includes.h>
#include <net-snmp/agent/net-snmp-agent-includes.h>
#include "alarm.h"
/*
* Implementation headers
*/
#include "agutil_api.h"
#include "row_api.h"
/*
* File scope definitions section
*/
/*
* from MIB compilation
*/
#define alarmEntryFirstIndexBegin 11
#define MMM_MAX 0xFFFFFFFFl
#define IDalarmIndex 1
#define IDalarmInterval 2
#define IDalarmVariable 3
#define IDalarmSampleType 4
#define IDalarmValue 5
#define IDalarmStartupAlarm 6
#define IDalarmRisingThreshold 7
#define IDalarmFallingThreshold 8
#define IDalarmRisingEventIndex 9
#define IDalarmFallingEventIndex 10
#define IDalarmOwner 11
#define IDalarmStatus 12
#define MIN_alarmEventIndex 0
#define MAX_alarmEventIndex 65535
typedef enum {
SAMPLE_TYPE_ABSOLUTE =
1,
SAMPLE_TYPE_DELTE
} SAMPLE_TYPE_T;
typedef enum {
ALARM_NOTHING =
0,
ALARM_RISING,
ALARM_FALLING,
ALARM_BOTH
} ALARM_TYPE_T;
typedef struct {
u_long
interval;
u_long
timer_id;
VAR_OID_T
var_name;
SAMPLE_TYPE_T
sample_type;
ALARM_TYPE_T
startup_type; /* RISING | FALLING | BOTH */
u_long
rising_threshold;
u_long
falling_threshold;
u_long
rising_event_index;
u_long
falling_event_index;
u_long
last_abs_value;
u_long
value;
ALARM_TYPE_T
prev_alarm; /* NOTHING | RISING | FALLING */
} CRTL_ENTRY_T;
/*
* Main section
*/
static TABLE_DEFINTION_T
AlarmCtrlTable;
static TABLE_DEFINTION_T *
table_ptr = &
AlarmCtrlTable;
#if 0 /* KUKU */
static u_long
kuku_sum =
0,
kuku_cnt =
0;
#endif
/*
* find & enjoy it in event.c
*/
extern int
event_api_send_alarm(u_char is_rising,
u_long alarm_index,
u_long event_index,
oid * alarmed_var,
size_t alarmed_var_length,
u_long sample_type,
u_long value,
u_long the_threshold, char *alarm_descr);
static int
fetch_var_val(oid * name, size_t namelen, u_long * new_value)
{
netsnmp_subtree *tree_ptr;
size_t var_len;
WriteMethod *write_method;
struct variable called_var;
register struct variable *s_var_ptr = NULL;
register u_char *access;
tree_ptr = netsnmp_subtree_find(name, namelen, NULL, "");
if (!tree_ptr) {
ag_trace("tree_ptr is NULL");
return SNMP_ERR_NOSUCHNAME;
}
memcpy(called_var.name, tree_ptr->name_a,
tree_ptr->namelen * sizeof(oid));
if (tree_ptr->reginfo &&
tree_ptr->reginfo->handler &&
tree_ptr->reginfo->handler->next &&
tree_ptr->reginfo->handler->next->myvoid) {
s_var_ptr = (struct variable *)tree_ptr->reginfo->handler->next->myvoid;
}
if (s_var_ptr) {
if (s_var_ptr->namelen) {
called_var.namelen =
tree_ptr->namelen;
called_var.type = s_var_ptr->type;
called_var.magic = s_var_ptr->magic;
called_var.acl = s_var_ptr->acl;
called_var.findVar = s_var_ptr->findVar;
access =
(*(s_var_ptr->findVar)) (&called_var, name, &namelen,
1, &var_len, &write_method);
if (access
&& snmp_oid_compare(name, namelen, tree_ptr->end_a,
tree_ptr->end_len) > 0) {
memcpy(name, tree_ptr->end_a, tree_ptr->end_len);
access = 0;
ag_trace("access := 0");
}
if (access) {
/*
* check 'var_len' ?
*/
/*
* check type
*/
switch (called_var.type) {
case ASN_INTEGER:
case ASN_COUNTER:
case ASN_TIMETICKS:
case ASN_GAUGE:
case ASN_COUNTER64:
break;
default:
ag_trace("invalid type: %d",
(int) called_var.type);
return SNMP_ERR_GENERR;
}
*new_value = *(u_long *) access;
return SNMP_ERR_NOERROR;
}
}
}
return SNMP_ERR_NOSUCHNAME;
}
static void
alarm_check_var(unsigned int clientreg, void *clientarg)
{
RMON_ENTRY_T *hdr_ptr;
CRTL_ENTRY_T *body;
u_long new_value;
int ierr;
hdr_ptr = (RMON_ENTRY_T *) clientarg;
if (!hdr_ptr) {
ag_trace
("Err: history_get_backet: hdr_ptr=NULL ? (Inserted in shock)");
return;
}
body = (CRTL_ENTRY_T *) hdr_ptr->body;
if (!body) {
ag_trace
("Err: history_get_backet: body=NULL ? (Inserted in shock)");
return;
}
if (RMON1_ENTRY_VALID != hdr_ptr->status) {
ag_trace("Err: history_get_backet when entry %d is not valid ?!!",
(int) hdr_ptr->ctrl_index);
snmp_alarm_unregister(body->timer_id);
return;
}
ierr = fetch_var_val(body->var_name.objid,
body->var_name.length, &new_value);
if (SNMP_ERR_NOERROR != ierr) {
ag_trace("Err: Can't fetch var_name");
return;
}
body->value = (SAMPLE_TYPE_ABSOLUTE == body->sample_type) ?
new_value : new_value - body->last_abs_value;
body->last_abs_value = new_value;
/*
* ag_trace ("fetched value=%ld check %ld", (long) new_value, (long) body->value);
*/
#if 0 /* KUKU */
kuku_sum += body->value;
kuku_cnt++;
#endif
if (ALARM_RISING != body->prev_alarm &&
body->value >= body->rising_threshold &&
SNMP_ERR_NOERROR == event_api_send_alarm(1, hdr_ptr->ctrl_index,
body->rising_event_index,
body->var_name.objid,
body->var_name.length,
ALARM_RISING, body->value,
body->rising_threshold,
"Rising"))
body->prev_alarm = ALARM_RISING;
else if (ALARM_FALLING != body->prev_alarm &&
body->value <= body->falling_threshold &&
SNMP_ERR_NOERROR == event_api_send_alarm(0,
hdr_ptr->ctrl_index,
body->
falling_event_index,
body->var_name.objid,
body->var_name.
length, ALARM_RISING,
body->value,
body->
falling_threshold,
"Falling"))
body->prev_alarm = ALARM_FALLING;
}
/*
* Control Table RowApi Callbacks
*/
int
alarm_Create(RMON_ENTRY_T * eptr)
{ /* create the body: alloc it and set defaults */
CRTL_ENTRY_T *body;
static VAR_OID_T DEFAULT_VAR = { 12, /* etherStatsPkts.1 */
{1, 3, 6, 1, 2, 1, 16, 1, 1, 1, 5, 1}
};
eptr->body = AGMALLOC(sizeof(CRTL_ENTRY_T));
if (!eptr->body)
return -3;
body = (CRTL_ENTRY_T *) eptr->body;
/*
* set defaults
*/
body->interval = 1;
memcpy(&body->var_name, &DEFAULT_VAR, sizeof(VAR_OID_T));
body->sample_type = SAMPLE_TYPE_ABSOLUTE;
body->startup_type = ALARM_BOTH;
body->rising_threshold = MMM_MAX;
body->falling_threshold = 0;
body->rising_event_index = body->falling_event_index = 0;
body->prev_alarm = ALARM_NOTHING;
return 0;
}
int
alarm_Validate(RMON_ENTRY_T * eptr)
{
CRTL_ENTRY_T *body = (CRTL_ENTRY_T *) eptr->body;
if (body->rising_threshold <= body->falling_threshold) {
ag_trace("alarm_Validate failed: %lu must be > %lu",
body->rising_threshold, body->falling_threshold);
return SNMP_ERR_BADVALUE;
}
return 0;
}
int
alarm_Activate(RMON_ENTRY_T * eptr)
{
CRTL_ENTRY_T *body = (CRTL_ENTRY_T *) eptr->body;
int ierr;
#if 0 /* KUKU */
kuku_sum = 0;
kuku_cnt = 0;
#endif
ierr = fetch_var_val(body->var_name.objid,
body->var_name.length, &body->last_abs_value);
if (SNMP_ERR_NOERROR != ierr) {
ag_trace("Can't fetch var_name");
return ierr;
}
if (SAMPLE_TYPE_ABSOLUTE != body->sample_type) {
/*
* check startup alarm
*/
if (ALARM_RISING == body->startup_type ||
ALARM_BOTH == body->startup_type) {
if (body->last_abs_value >= body->rising_threshold) {
event_api_send_alarm(1, eptr->ctrl_index,
body->rising_event_index,
body->var_name.objid,
body->var_name.length,
ALARM_RISING, body->value,
body->rising_threshold,
"Startup Rising");
}
}
if (ALARM_FALLING == body->startup_type ||
ALARM_BOTH == body->startup_type) {
if (body->last_abs_value <= body->falling_threshold) {
event_api_send_alarm(0, eptr->ctrl_index,
body->falling_event_index,
body->var_name.objid,
body->var_name.length,
ALARM_RISING, body->value,
body->falling_threshold,
"Startup Falling");
}
}
}
body->timer_id = snmp_alarm_register(body->interval, SA_REPEAT,
alarm_check_var, eptr);
return 0;
}
int
alarm_Deactivate(RMON_ENTRY_T * eptr)
{
CRTL_ENTRY_T *body = (CRTL_ENTRY_T *) eptr->body;
snmp_alarm_unregister(body->timer_id);
#if 0 /* KUKU */
ag_trace("kuku_sum=%ld kuku_cnt=%ld sp=%ld",
(long) kuku_sum, (long) kuku_cnt,
(long) (kuku_sum / kuku_cnt));
#endif
return 0;
}
int
alarm_Copy(RMON_ENTRY_T * eptr)
{
CRTL_ENTRY_T *body = (CRTL_ENTRY_T *) eptr->body;
CRTL_ENTRY_T *clone = (CRTL_ENTRY_T *) eptr->tmp;
if (RMON1_ENTRY_VALID == eptr->status &&
clone->rising_threshold <= clone->falling_threshold) {
ag_trace("alarm_Copy failed: invalid thresholds");
return SNMP_ERR_BADVALUE;
}
if (clone->interval != body->interval) {
if (RMON1_ENTRY_VALID == eptr->status) {
snmp_alarm_unregister(body->timer_id);
body->timer_id =
snmp_alarm_register(clone->interval, SA_REPEAT,
alarm_check_var, eptr);
}
body->interval = clone->interval;
}
if (snmp_oid_compare(clone->var_name.objid, clone->var_name.length,
body->var_name.objid, body->var_name.length)) {
memcpy(&body->var_name, &clone->var_name, sizeof(VAR_OID_T));
}
body->sample_type = clone->sample_type;
body->startup_type = clone->startup_type;
body->sample_type = clone->sample_type;
body->rising_threshold = clone->rising_threshold;
body->falling_threshold = clone->falling_threshold;
body->rising_event_index = clone->rising_event_index;
body->falling_event_index = clone->falling_event_index;
/*
* ag_trace ("alarm_Copy: rising_threshold=%lu falling_threshold=%lu",
* body->rising_threshold, body->falling_threshold);
*/
return 0;
}
static int
write_alarmEntry(int action, u_char * var_val, u_char var_val_type,
size_t var_val_len, u_char * statP,
oid * name, size_t name_len)
{
long long_tmp;
int leaf_id, snmp_status;
static int prev_action = COMMIT;
RMON_ENTRY_T *hdr;
CRTL_ENTRY_T *cloned_body;
CRTL_ENTRY_T *body;
switch (action) {
case RESERVE1:
case FREE:
case UNDO:
case ACTION:
case COMMIT:
default:
return ROWAPI_do_another_action(name, alarmEntryFirstIndexBegin,
action, &prev_action,
table_ptr, sizeof(CRTL_ENTRY_T));
case RESERVE2:
/*
* get values from PDU, check them and save them in the cloned entry
*/
long_tmp = name[alarmEntryFirstIndexBegin];
leaf_id = (int) name[alarmEntryFirstIndexBegin - 1];
hdr = ROWAPI_find(table_ptr, long_tmp); /* it MUST be OK */
cloned_body = (CRTL_ENTRY_T *) hdr->tmp;
body = (CRTL_ENTRY_T *) hdr->body;
switch (leaf_id) {
case IDalarmInterval:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
0, MMM_MAX, &long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->interval = long_tmp;
break;
case IDalarmVariable:
snmp_status = AGUTIL_get_oid_value(var_val, var_val_type,
var_val_len,
&cloned_body->var_name);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
if (RMON1_ENTRY_UNDER_CREATION != hdr->status &&
snmp_oid_compare(cloned_body->var_name.objid,
cloned_body->var_name.length,
body->var_name.objid,
body->var_name.length))
return SNMP_ERR_BADVALUE;
break;
break;
case IDalarmSampleType:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
SAMPLE_TYPE_ABSOLUTE,
SAMPLE_TYPE_DELTE,
&long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->sample_type = long_tmp;
break;
case IDalarmStartupAlarm:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
ALARM_RISING,
ALARM_BOTH, &long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->startup_type = long_tmp;
break;
case IDalarmRisingThreshold:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
0, MMM_MAX, &long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->rising_threshold = long_tmp;
break;
case IDalarmFallingThreshold:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
0, 0xFFFFFFFFl, &long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->falling_threshold = long_tmp;
break;
case IDalarmRisingEventIndex:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type, var_val_len, 0, /* min. value */
0, /* max. value */
&long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->rising_event_index = long_tmp;
break;
case IDalarmFallingEventIndex:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type, var_val_len, 0, /* min. value */
0, /* max. value */
&long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
cloned_body->falling_event_index = long_tmp;
break;
case IDalarmOwner:
if (hdr->new_owner)
AGFREE(hdr->new_owner);
hdr->new_owner = AGMALLOC(MAX_OWNERSTRING);;
if (!hdr->new_owner)
return SNMP_ERR_TOOBIG;
snmp_status = AGUTIL_get_string_value(var_val, var_val_type,
var_val_len,
MAX_OWNERSTRING,
1, NULL, hdr->new_owner);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
break;
case IDalarmStatus:
snmp_status = AGUTIL_get_int_value(var_val, var_val_type,
var_val_len,
RMON1_ENTRY_VALID,
RMON1_ENTRY_INVALID,
&long_tmp);
if (SNMP_ERR_NOERROR != snmp_status) {
return snmp_status;
}
hdr->new_status = long_tmp;
break;
default:
ag_trace("%s:unknown leaf_id=%d\n", table_ptr->name,
(int) leaf_id);
return SNMP_ERR_NOSUCHNAME;
} /* of switch by 'leaf_id' */
break;
} /* of switch by actions */
prev_action = action;
return SNMP_ERR_NOERROR;
}
u_char *
var_alarmEntry(struct variable * vp, oid * name, size_t * length,
int exact, size_t * var_len, WriteMethod ** write_method)
{
static long long_return;
static CRTL_ENTRY_T theEntry;
RMON_ENTRY_T *hdr;
*write_method = write_alarmEntry;
hdr = ROWAPI_header_ControlEntry(vp, name, length, exact, var_len,
table_ptr,
&theEntry, sizeof(CRTL_ENTRY_T));
if (!hdr)
return NULL;
*var_len = sizeof(long); /* default */
switch (vp->magic) {
case IDalarmIndex:
long_return = hdr->ctrl_index;
return (u_char *) & long_return;
case IDalarmInterval:
long_return = theEntry.interval;
return (u_char *) & long_return;
case IDalarmVariable:
*var_len = sizeof(oid) * theEntry.var_name.length;
return (unsigned char *) theEntry.var_name.objid;
return (u_char *) & long_return;
case IDalarmSampleType:
long_return = theEntry.sample_type;
return (u_char *) & long_return;
case IDalarmValue:
long_return = theEntry.value;
return (u_char *) & long_return;
case IDalarmStartupAlarm:
long_return = theEntry.startup_type;
return (u_char *) & long_return;
case IDalarmRisingThreshold:
long_return = theEntry.rising_threshold;
return (u_char *) & long_return;
case IDalarmFallingThreshold:
long_return = theEntry.falling_threshold;
return (u_char *) & long_return;
case IDalarmRisingEventIndex:
long_return = theEntry.rising_event_index;
return (u_char *) & long_return;
case IDalarmFallingEventIndex:
long_return = theEntry.falling_event_index;
return (u_char *) & long_return;
case IDalarmOwner:
if (hdr->owner) {
*var_len = strlen(hdr->owner);
return (unsigned char *) hdr->owner;
} else {
*var_len = 0;
return (unsigned char *) "";
}
case IDalarmStatus:
long_return = hdr->status;
return (u_char *) & long_return;
default:
ag_trace("%s: unknown vp->magic=%d", table_ptr->name,
(int) vp->magic);
ERROR_MSG("");
}; /* of switch by 'vp->magic' */
return NULL;
}
/*
* Registration & Initializatio section
*/
oid oidalarmVariablesOid[] = { 1, 3, 6, 1, 2, 1, 16, 3 };
struct variable7 oidalarmVariables[] = {
{IDalarmIndex, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_alarmEntry, 3, {1, 1, 1}},
{IDalarmInterval, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 2}},
{IDalarmVariable, ASN_OBJECT_ID, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 3}},
{IDalarmSampleType, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 4}},
{IDalarmValue, ASN_INTEGER, NETSNMP_OLDAPI_RONLY,
var_alarmEntry, 3, {1, 1, 5}},
{IDalarmStartupAlarm, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 6}},
{IDalarmRisingThreshold, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 7}},
{IDalarmFallingThreshold, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 8}},
{IDalarmRisingEventIndex, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 9}},
{IDalarmFallingEventIndex, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 10}},
{IDalarmOwner, ASN_OCTET_STR, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 11}},
{IDalarmStatus, ASN_INTEGER, NETSNMP_OLDAPI_RWRITE,
var_alarmEntry, 3, {1, 1, 12}}
};
void
init_alarm(void)
{
REGISTER_MIB("alarmTable", oidalarmVariables, variable7,
oidalarmVariablesOid);
ROWAPI_init_table(&AlarmCtrlTable, "Alarm", 0, &alarm_Create, NULL, /* &alarm_Clone, */
NULL, /* &alarm_Delete, */
&alarm_Validate,
&alarm_Activate, &alarm_Deactivate, &alarm_Copy);
}
/*
* end of file alarm.c
*/