/*
* Note: this file originally auto-generated by mib2c using
* version : 1.17 $ of : mfd-data-access.m2c,v $
*
* $Id$
*/
/*
* standard Net-SNMP includes
*/
#include <net-snmp/net-snmp-config.h>
#include <net-snmp/net-snmp-includes.h>
#include <net-snmp/agent/net-snmp-agent-includes.h>
#include <net-snmp/data_access/ipaddress.h>
#include <net-snmp/data_access/udp_endpoint.h>
/*
* include our parent header
*/
#include "udpEndpointTable.h"
#include "udpEndpointTable_data_access.h"
/** @ingroup interface
* @addtogroup data_access data_access: Routines to access data
*
* These routines are used to locate the data used to satisfy
* requests.
*
* @{
*/
/**********************************************************************
**********************************************************************
***
*** Table udpEndpointTable
***
**********************************************************************
**********************************************************************/
/*
* UDP-MIB::udpEndpointTable is subid 7 of udp.
* Its status is Current.
* OID: .1.3.6.1.2.1.7.7, length: 8
*/
/**
* initialization for udpEndpointTable data access
*
* This function is called during startup to allow you to
* allocate any resources you need for the data table.
*
* @param udpEndpointTable_reg
* Pointer to udpEndpointTable_registration
*
* @retval MFD_SUCCESS : success.
* @retval MFD_ERROR : unrecoverable error.
*/
int
udpEndpointTable_init_data(udpEndpointTable_registration *
udpEndpointTable_reg)
{
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_init_data",
"called\n"));
/*
* TODO:303:o: Initialize udpEndpointTable data.
*/
return MFD_SUCCESS;
} /* udpEndpointTable_init_data */
/**
* container overview
*
*/
/**
* container initialization
*
* @param container_ptr_ptr A pointer to a container pointer. If you
* create a custom container, use this parameter to return it
* to the MFD helper. If set to NULL, the MFD helper will
* allocate a container for you.
* @param cache A pointer to a cache structure. You can set the timeout
* and other cache flags using this pointer.
*
* This function is called at startup to allow you to customize certain
* aspects of the access method. For the most part, it is for advanced
* users. The default code should suffice for most cases. If no custom
* container is allocated, the MFD code will create one for your.
*
* This is also the place to set up cache behavior. The default, to
* simply set the cache timeout, will work well with the default
* container. If you are using a custom container, you may want to
* look at the cache helper documentation to see if there are any
* flags you want to set.
*
* @remark
* This would also be a good place to do any initialization needed
* for you data source. For example, opening a connection to another
* process that will supply the data, opening a database, etc.
*/
void
udpEndpointTable_container_init(netsnmp_container **container_ptr_ptr,
netsnmp_cache * cache)
{
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_container_init",
"called\n"));
if (NULL == container_ptr_ptr) {
snmp_log(LOG_ERR,
"bad container param to udpEndpointTable_container_init\n");
return;
}
/*
* For advanced users, you can use a custom container. If you
* do not create one, one will be created for you.
*/
*container_ptr_ptr = NULL;
if (NULL == cache) {
snmp_log(LOG_ERR,
"bad cache param to udpEndpointTable_container_init\n");
return;
}
/*
* TODO:345:A: Set up udpEndpointTable cache properties.
*
* Also for advanced users, you can set parameters for the
* cache. Do not change the magic pointer, as it is used
* by the MFD helper. To completely disable caching, set
* cache->enabled to 0.
*/
cache->timeout = UDPENDPOINTTABLE_CACHE_TIMEOUT; /* seconds */
} /* udpEndpointTable_container_init */
/**
* container shutdown
*
* @param container_ptr A pointer to the container.
*
* This function is called at shutdown to allow you to customize certain
* aspects of the access method. For the most part, it is for advanced
* users. The default code should suffice for most cases.
*
* This function is called before udpEndpointTable_container_free().
*
* @remark
* This would also be a good place to do any cleanup needed
* for you data source. For example, closing a connection to another
* process that supplied the data, closing a database, etc.
*/
void
udpEndpointTable_container_shutdown(netsnmp_container *container_ptr)
{
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_container_shutdown", "called\n"));
if (NULL == container_ptr) {
snmp_log(LOG_ERR,
"bad params to udpEndpointTable_container_shutdown\n");
return;
}
} /* udpEndpointTable_container_shutdown */
/**
* load initial data
*
* TODO:350:M: Implement udpEndpointTable data load
* This function will also be called by the cache helper to load
* the container again (after the container free function has been
* called to free the previous contents).
*
* @param container container to which items should be inserted
*
* @retval MFD_SUCCESS : success.
* @retval MFD_RESOURCE_UNAVAILABLE : Can't access data source
* @retval MFD_ERROR : other error.
*
* This function is called to load the index(es) (and data, optionally)
* for the every row in the data set.
*
* @remark
* While loading the data, the only important thing is the indexes.
* If access to your data is cheap/fast (e.g. you have a pointer to a
* structure in memory), it would make sense to update the data here.
* If, however, the accessing the data invovles more work (e.g. parsing
* some other existing data, or peforming calculations to derive the data),
* then you can limit yourself to setting the indexes and saving any
* information you will need later. Then use the saved information in
* udpEndpointTable_row_prep() for populating data.
*
* @note
* If you need consistency between rows (like you want statistics
* for each row to be from the same time frame), you should set all
* data here.
*
*/
static u_long
_address_type_from_len(int addrlen) {
switch (addrlen) {
case 4:
return INETADDRESSTYPE_IPV4;
case 16:
return INETADDRESSTYPE_IPV6;
case 0:
return INETADDRESSTYPE_UNKNOWN;
default:
/* To get same behavior as before */
return INETADDRESSTYPE_IPV4;
}
}
int
udpEndpointTable_container_load(netsnmp_container *container)
{
udpEndpointTable_rowreq_ctx *rowreq_ctx;
netsnmp_container *ep_c;
netsnmp_iterator *ep_it;
netsnmp_udp_endpoint_entry *ep;
/*
* temporary storage for index values
*/
u_long udpEndpointLocalAddressType;
u_long udpEndpointRemoteAddressType;
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_container_load",
"called\n"));
/*
* TODO:351:M: |-> Load/update data in the udpEndpointTable container.
* loop over your udpEndpointTable data, allocate a rowreq context,
* set the index(es) [and data, optionally] and insert into
* the container.
*/
ep_c = netsnmp_access_udp_endpoint_container_load(NULL, 0);
if (NULL == ep_c)
return MFD_RESOURCE_UNAVAILABLE;
ep_it = CONTAINER_ITERATOR(ep_c);
if (NULL == ep_it) {
netsnmp_access_udp_endpoint_container_free(ep_c, 0);
return MFD_RESOURCE_UNAVAILABLE;
}
for (ep = (netsnmp_udp_endpoint_entry*)ITERATOR_FIRST(ep_it); ep;
ep = (netsnmp_udp_endpoint_entry*)ITERATOR_NEXT (ep_it)) {
/*
* TODO:352:M: | |-> set indexes in new udpEndpointTable rowreq context.
*/
rowreq_ctx = udpEndpointTable_allocate_rowreq_ctx();
if (NULL == rowreq_ctx) {
snmp_log(LOG_ERR, "memory allocation failed\n");
return MFD_RESOURCE_UNAVAILABLE;
}
udpEndpointLocalAddressType = _address_type_from_len(ep->loc_addr_len);
udpEndpointRemoteAddressType = _address_type_from_len(ep->rmt_addr_len);
if (MFD_SUCCESS !=
udpEndpointTable_indexes_set(rowreq_ctx,
udpEndpointLocalAddressType,
(char *) ep->loc_addr,
ep->loc_addr_len,
ep->loc_port,
udpEndpointRemoteAddressType,
(char *) ep->rmt_addr,
ep->rmt_addr_len,
ep->rmt_port,
ep->instance,
ep->pid)) {
snmp_log(LOG_ERR,
"error setting index while loading "
"udpEndpointTable data.\n");
udpEndpointTable_release_rowreq_ctx(rowreq_ctx);
continue;
}
/*
* TODO:352:r: | |-> populate udpEndpointTable data context.
* Populate data context here. (optionally, delay until row prep)
*/
/*
* non-TRANSIENT data: no need to copy. set pointer to data
*/
/*
* insert into table container
*/
if (CONTAINER_INSERT(container, rowreq_ctx))
udpEndpointTable_release_rowreq_ctx(rowreq_ctx);
}
ITERATOR_RELEASE(ep_it);
netsnmp_access_udp_endpoint_container_free(ep_c, 0);
DEBUGMSGT(("verbose:udpEndpointTable:udpEndpointTable_container_load",
"inserted %d records\n", (int)CONTAINER_SIZE(container)));
return MFD_SUCCESS;
} /* udpEndpointTable_container_load */
/**
* container clean up
*
* @param container container with all current items
*
* This optional callback is called prior to all
* item's being removed from the container. If you
* need to do any processing before that, do it here.
*
* @note
* The MFD helper will take care of releasing all the row contexts.
*
*/
void
udpEndpointTable_container_free(netsnmp_container *container)
{
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_container_free",
"called\n"));
/*
* TODO:380:M: Free udpEndpointTable container data.
*/
} /* udpEndpointTable_container_free */
/**
* prepare row for processing.
*
* When the agent has located the row for a request, this function is
* called to prepare the row for processing. If you fully populated
* the data context during the index setup phase, you may not need to
* do anything.
*
* @param rowreq_ctx pointer to a context.
*
* @retval MFD_SUCCESS : success.
* @retval MFD_ERROR : other error.
*/
int
udpEndpointTable_row_prep(udpEndpointTable_rowreq_ctx * rowreq_ctx)
{
DEBUGMSGTL(("verbose:udpEndpointTable:udpEndpointTable_row_prep",
"called\n"));
netsnmp_assert(NULL != rowreq_ctx);
/*
* TODO:390:o: Prepare row for request.
* If populating row data was delayed, this is the place to
* fill in the row for this request.
*/
return MFD_SUCCESS;
} /* udpEndpointTable_row_prep */
/** @} */