* DEALINGS IN THE SOFTWARE.
*
* Authors:
- * Sven Trenkel <sven.trenkel at noris.net>
+ * Sven Trenkel <collectd at semidefinite.de>
**/
#include "collectd.h"
#include "common.h"
+#include "utils_ignorelist.h"
#include <netapp_api.h>
+#include <netapp_errno.h>
#define HAS_ALL_FLAGS(has,needs) (((has) & (needs)) == (needs))
typedef struct host_config_s host_config_t;
typedef void service_handler_t(host_config_t *host, na_elem_t *result, void *data);
-/*!
- * \brief Persistent data for system performance counters
- */
-#define CFG_SYSTEM_CPU 0x01
-#define CFG_SYSTEM_NET 0x02
-#define CFG_SYSTEM_OPS 0x04
-#define CFG_SYSTEM_DISK 0x08
-#define CFG_SYSTEM_ALL 0x0F
-typedef struct {
- uint32_t flags;
-} cfg_system_t;
+struct cna_interval_s
+{
+ time_t interval;
+ time_t last_read;
+};
+typedef struct cna_interval_s cna_interval_t;
-/*!
+/*! Data types for WAFL statistics {{{
+ *
* \brief Persistent data for WAFL performance counters. (a.k.a. cache performance)
*
* The cache counters use old counter values to calculate a hit ratio for each
- * counter. The "data_wafl_t" struct therefore contains old counter values
- * along with flags, which are set if the counter is valid.
+ * counter. The "cfg_wafl_t" struct therefore contains old counter values along
+ * with flags, which are set if the counter is valid.
*
- * The function "query_wafl_data" will fill a new structure of this kind with
- * new values, then pass both, new and old data, to "submit_wafl_data". That
- * function calculates the hit ratios, submits the calculated values and
+ * The function "cna_handle_wafl_data" will fill a new structure of this kind
+ * with new values, then pass both, new and old data, to "submit_wafl_data".
+ * That function calculates the hit ratios, submits the calculated values and
* updates the old counter values for the next iteration.
*/
#define CFG_WAFL_NAME_CACHE 0x0001
#define HAVE_WAFL_ALL 0xff00
typedef struct {
uint32_t flags;
+ cna_interval_t interval;
+ na_elem_t *query;
+
time_t timestamp;
uint64_t name_cache_hit;
uint64_t name_cache_miss;
uint64_t buf_hash_miss;
uint64_t inode_cache_hit;
uint64_t inode_cache_miss;
-} data_wafl_t;
+} cfg_wafl_t;
+/* }}} cfg_wafl_t */
+
+/*! Data types for disk statistics {{{
+ *
+ * \brief A disk in the NetApp.
+ *
+ * A disk doesn't have any more information than its name at the moment.
+ * The name includes the "disk_" prefix.
+ */
+#define HAVE_DISK_BUSY 0x10
+#define HAVE_DISK_BASE 0x20
+#define HAVE_DISK_ALL 0x30
+typedef struct disk_s {
+ char *name;
+ uint32_t flags;
+ time_t timestamp;
+ uint64_t disk_busy;
+ uint64_t base_for_disk_busy;
+ double disk_busy_percent;
+ struct disk_s *next;
+} disk_t;
+
+#define CFG_DISK_BUSIEST 0x01
+#define CFG_DISK_ALL 0x01
+typedef struct {
+ uint32_t flags;
+ cna_interval_t interval;
+ na_elem_t *query;
+ disk_t *disks;
+} cfg_disk_t;
+/* }}} cfg_disk_t */
-/*!
+/*! Data types for volume performance statistics {{{
+ *
* \brief Persistent data for volume performance data.
*
* The code below uses the difference of the operations and latency counters to
* kept for completeness sake. The "flags" member indicates if each counter is
* valid or not.
*
- * The "query_volume_perf_data" function will fill a new struct of this type
- * and pass both, old and new data, to "submit_volume_perf_data". In that
+ * The "cna_handle_volume_perf_data" function will fill a new struct of this
+ * type and pass both, old and new data, to "submit_volume_perf_data". In that
* function, the per-operation latency is calculated and dispatched, then the
* old counters are updated.
*/
#define HAVE_VOLUME_PERF_LATENCY_READ 0x0100
#define HAVE_VOLUME_PERF_LATENCY_WRITE 0x0200
#define HAVE_VOLUME_PERF_ALL 0x03F0
-typedef struct {
- uint32_t flags;
-} cfg_volume_perf_t;
-
-typedef struct {
+struct data_volume_perf_s;
+typedef struct data_volume_perf_s data_volume_perf_t;
+struct data_volume_perf_s {
+ char *name;
uint32_t flags;
time_t timestamp;
+
uint64_t read_bytes;
uint64_t write_bytes;
uint64_t read_ops;
uint64_t write_ops;
uint64_t read_latency;
uint64_t write_latency;
-} data_volume_perf_t;
-/*!
- * \brief Configuration struct for volume usage data (free / used).
- */
-#define VOLUME_INIT 0x01
-#define VOLUME_DF 0x02
-#define VOLUME_SNAP 0x04
-typedef struct {
- uint32_t flags;
-} cfg_volume_usage_t;
+ data_volume_perf_t *next;
+};
-typedef struct service_config_s {
+typedef struct {
+ cna_interval_t interval;
na_elem_t *query;
- service_handler_t *handler;
- int multiplier;
- int skip_countdown;
- int interval;
- void *data;
- struct service_config_s *next;
-} cfg_service_t;
-#define SERVICE_INIT {0, 0, 1, 1, 0, 0, 0}
-/*!
- * \brief Struct representing a volume.
- *
- * A volume currently has a name and two sets of values:
- *
- * - Performance data, such as bytes read/written, number of operations
- * performed and average time per operation.
+ ignorelist_t *il_octets;
+ ignorelist_t *il_operations;
+ ignorelist_t *il_latency;
+
+ data_volume_perf_t *volumes;
+} cfg_volume_perf_t;
+/* }}} data_volume_perf_t */
+
+/*! Data types for volume usage statistics {{{
*
- * - Usage data, i. e. amount of used and free space in the volume.
+ * \brief Configuration struct for volume usage data (free / used).
*/
-typedef struct volume_s {
+#define CFG_VOLUME_USAGE_DF 0x0002
+#define CFG_VOLUME_USAGE_SNAP 0x0004
+#define CFG_VOLUME_USAGE_ALL 0x0006
+#define HAVE_VOLUME_USAGE_NORM_FREE 0x0010
+#define HAVE_VOLUME_USAGE_NORM_USED 0x0020
+#define HAVE_VOLUME_USAGE_SNAP_RSVD 0x0040
+#define HAVE_VOLUME_USAGE_SNAP_USED 0x0080
+#define HAVE_VOLUME_USAGE_SIS_SAVED 0x0100
+#define HAVE_VOLUME_USAGE_ALL 0x01f0
+struct data_volume_usage_s;
+typedef struct data_volume_usage_s data_volume_usage_t;
+struct data_volume_usage_s {
char *name;
- data_volume_perf_t perf_data;
- cfg_volume_usage_t cfg_volume_usage;
- struct volume_s *next;
-} volume_t;
+ uint32_t flags;
+
+ na_elem_t *snap_query;
+
+ uint64_t norm_free;
+ uint64_t norm_used;
+ uint64_t snap_reserved;
+ uint64_t snap_used;
+ uint64_t sis_saved;
+
+ data_volume_usage_t *next;
+};
-#define CFG_DISK_BUSIEST 0x01
-#define CFG_DISK_ALL 0x01
-#define HAVE_DISK_BUSY 0x10
-#define HAVE_DISK_BASE 0x20
-#define HAVE_DISK_ALL 0x30
typedef struct {
- uint32_t flags;
-} cfg_disk_t;
+ cna_interval_t interval;
+ na_elem_t *query;
-/*!
- * \brief A disk in the NetApp.
+ ignorelist_t *il_capacity;
+ ignorelist_t *il_snapshot;
+
+ data_volume_usage_t *volumes;
+} cfg_volume_usage_t;
+/* }}} cfg_volume_usage_t */
+
+/*! Data types for system statistics {{{
*
- * A disk doesn't have any more information than its name at the moment.
- * The name includes the "disk_" prefix.
+ * \brief Persistent data for system performance counters
*/
-typedef struct disk_s {
- char *name;
+#define CFG_SYSTEM_CPU 0x01
+#define CFG_SYSTEM_NET 0x02
+#define CFG_SYSTEM_OPS 0x04
+#define CFG_SYSTEM_DISK 0x08
+#define CFG_SYSTEM_ALL 0x0F
+typedef struct {
uint32_t flags;
- time_t timestamp;
- uint64_t disk_busy;
- uint64_t base_for_disk_busy;
- double disk_busy_percent;
- struct disk_s *next;
-} disk_t;
+ cna_interval_t interval;
+ na_elem_t *query;
+} cfg_system_t;
+/* }}} cfg_system_t */
struct host_config_s {
- na_server_t *srv;
char *name;
na_server_transport_t protocol;
char *host;
char *username;
char *password;
int interval;
- cfg_service_t *services;
- disk_t *disks;
- volume_t *volumes;
+
+ na_server_t *srv;
+ cfg_wafl_t *cfg_wafl;
+ cfg_disk_t *cfg_disk;
+ cfg_volume_perf_t *cfg_volume_perf;
+ cfg_volume_usage_t *cfg_volume_usage;
+ cfg_system_t *cfg_system;
+
struct host_config_s *next;
};
-#define HOST_INIT {NULL, NULL, NA_SERVER_TRANSPORT_HTTPS, NULL, 0, NULL, NULL, 10, NULL, NULL, NULL, NULL}
+#define HOST_INIT { NULL, NA_SERVER_TRANSPORT_HTTPS, NULL, 0, NULL, NULL, 0, \
+ NULL, NULL, NULL, NULL, NULL, NULL, \
+ NULL}
static host_config_t *global_host_config;
*
* Used to free the various structures above.
*/
-static void free_volume (volume_t *volume) /* {{{ */
-{
- volume_t *next;
-
- next = volume->next;
-
- sfree (volume->name);
- sfree (volume);
-
- free_volume (next);
-} /* }}} void free_volume */
-
static void free_disk (disk_t *disk) /* {{{ */
{
disk_t *next;
+ if (disk == NULL)
+ return;
+
next = disk->next;
sfree (disk->name);
free_disk (next);
} /* }}} void free_disk */
-static void free_cfg_service (cfg_service_t *service) /* {{{ */
+static void free_cfg_wafl (cfg_wafl_t *cw) /* {{{ */
+{
+ if (cw == NULL)
+ return;
+
+ if (cw->query != NULL)
+ na_elem_free (cw->query);
+
+ sfree (cw);
+} /* }}} void free_cfg_wafl */
+
+static void free_cfg_disk (cfg_disk_t *cfg_disk) /* {{{ */
+{
+ if (cfg_disk == NULL)
+ return;
+
+ if (cfg_disk->query != NULL)
+ na_elem_free (cfg_disk->query);
+
+ free_disk (cfg_disk->disks);
+ sfree (cfg_disk);
+} /* }}} void free_cfg_disk */
+
+static void free_cfg_volume_perf (cfg_volume_perf_t *cvp) /* {{{ */
+{
+ data_volume_perf_t *data;
+
+ if (cvp == NULL)
+ return;
+
+ /* Free the ignorelists */
+ ignorelist_free (cvp->il_octets);
+ ignorelist_free (cvp->il_operations);
+ ignorelist_free (cvp->il_latency);
+
+ /* Free the linked list of volumes */
+ data = cvp->volumes;
+ while (data != NULL)
+ {
+ data_volume_perf_t *next = data->next;
+ sfree (data->name);
+ sfree (data);
+ data = next;
+ }
+
+ if (cvp->query != NULL)
+ na_elem_free (cvp->query);
+
+ sfree (cvp);
+} /* }}} void free_cfg_volume_perf */
+
+static void free_cfg_volume_usage (cfg_volume_usage_t *cvu) /* {{{ */
{
- cfg_service_t *next;
+ data_volume_usage_t *data;
+
+ if (cvu == NULL)
+ return;
- next = service->next;
+ /* Free the ignorelists */
+ ignorelist_free (cvu->il_capacity);
+ ignorelist_free (cvu->il_snapshot);
+
+ /* Free the linked list of volumes */
+ data = cvu->volumes;
+ while (data != NULL)
+ {
+ data_volume_usage_t *next = data->next;
+ sfree (data->name);
+ if (data->snap_query != NULL)
+ na_elem_free(data->snap_query);
+ sfree (data);
+ data = next;
+ }
+
+ if (cvu->query != NULL)
+ na_elem_free (cvu->query);
+
+ sfree (cvu);
+} /* }}} void free_cfg_volume_usage */
+
+static void free_cfg_system (cfg_system_t *cs) /* {{{ */
+{
+ if (cs == NULL)
+ return;
- /* FIXME: Free service->data? */
- sfree (service);
+ if (cs->query != NULL)
+ na_elem_free (cs->query);
- free_cfg_service (next);
-} /* }}} void free_cfg_service */
+ sfree (cs);
+} /* }}} void free_cfg_system */
static void free_host_config (host_config_t *hc) /* {{{ */
{
sfree (hc->username);
sfree (hc->password);
- free_cfg_service (hc->services);
- free_disk (hc->disks);
- free_volume (hc->volumes);
+ free_cfg_disk (hc->cfg_disk);
+ free_cfg_wafl (hc->cfg_wafl);
+ free_cfg_volume_perf (hc->cfg_volume_perf);
+ free_cfg_volume_usage (hc->cfg_volume_usage);
+ free_cfg_system (hc->cfg_system);
+
+ if (hc->srv != NULL)
+ na_server_close (hc->srv);
sfree (hc);
*
* Used to look up volumes and disks or to handle flags.
*/
-static volume_t *get_volume (host_config_t *host, const char *name, /* {{{ */
- uint32_t vol_usage_flags, uint32_t vol_perf_flags)
+static disk_t *get_disk(cfg_disk_t *cd, const char *name) /* {{{ */
{
- volume_t *v;
+ disk_t *d;
- if (name == NULL)
+ if ((cd == NULL) || (name == NULL))
return (NULL);
-
- /* Make sure the default flags include the init-bit. */
- if (vol_usage_flags != 0)
- vol_usage_flags |= VOLUME_INIT;
- if (vol_perf_flags != 0)
- vol_perf_flags |= CFG_VOLUME_PERF_INIT;
-
- for (v = host->volumes; v; v = v->next) {
- if (strcmp(v->name, name) != 0)
- continue;
-
- /* Check if the flags have been initialized. */
- if (((v->cfg_volume_usage.flags & VOLUME_INIT) == 0)
- && (vol_usage_flags != 0))
- v->cfg_volume_usage.flags = vol_usage_flags;
- if (((v->perf_data.flags & CFG_VOLUME_PERF_INIT) == 0)
- && (vol_perf_flags != 0))
- v->perf_data.flags = vol_perf_flags;
- return v;
+ for (d = cd->disks; d != NULL; d = d->next) {
+ if (strcmp(d->name, name) == 0)
+ return d;
}
- DEBUG ("netapp plugin: Allocating new entry for volume %s.", name);
- v = malloc(sizeof(*v));
- if (v == NULL)
+ d = malloc(sizeof(*d));
+ if (d == NULL)
return (NULL);
- memset (v, 0, sizeof (*v));
+ memset (d, 0, sizeof (*d));
+ d->next = NULL;
- v->cfg_volume_usage.flags = vol_usage_flags;
- v->perf_data.flags = vol_perf_flags;
-
- v->name = strdup(name);
- if (v->name == NULL) {
- sfree (v);
+ d->name = strdup(name);
+ if (d->name == NULL) {
+ sfree (d);
return (NULL);
}
- v->next = host->volumes;
- host->volumes = v;
+ d->next = cd->disks;
+ cd->disks = d;
- return v;
-} /* }}} volume_t *get_volume */
+ return d;
+} /* }}} disk_t *get_disk */
-static disk_t *get_disk(host_config_t *host, const char *name) /* {{{ */
+static data_volume_usage_t *get_volume_usage (cfg_volume_usage_t *cvu, /* {{{ */
+ const char *name)
{
- disk_t *v;
+ data_volume_usage_t *last;
+ data_volume_usage_t *new;
- if (name == NULL)
+ int ignore_capacity = 0;
+ int ignore_snapshot = 0;
+
+ if ((cvu == NULL) || (name == NULL))
return (NULL);
-
- for (v = host->disks; v; v = v->next) {
- if (strcmp(v->name, name) == 0)
- return v;
+
+ last = cvu->volumes;
+ while (last != NULL)
+ {
+ if (strcmp (last->name, name) == 0)
+ return (last);
+
+ if (last->next == NULL)
+ break;
+
+ last = last->next;
}
- v = malloc(sizeof(*v));
- if (v == NULL)
+
+ /* Check the ignorelists. If *both* tell us to ignore a volume, return NULL. */
+ ignore_capacity = ignorelist_match (cvu->il_capacity, name);
+ ignore_snapshot = ignorelist_match (cvu->il_snapshot, name);
+ if ((ignore_capacity != 0) && (ignore_snapshot != 0))
+ return (NULL);
+
+ /* Not found: allocate. */
+ new = malloc (sizeof (*new));
+ if (new == NULL)
return (NULL);
- memset (v, 0, sizeof (*v));
- v->next = NULL;
+ memset (new, 0, sizeof (*new));
+ new->next = NULL;
- v->name = strdup(name);
- if (v->name == NULL) {
- sfree (v);
+ new->name = strdup (name);
+ if (new->name == NULL)
+ {
+ sfree (new);
return (NULL);
}
- v->next = host->disks;
- host->disks = v;
+ if (ignore_capacity == 0)
+ new->flags |= CFG_VOLUME_USAGE_DF;
+ if (ignore_snapshot == 0) {
+ new->flags |= CFG_VOLUME_USAGE_SNAP;
+ new->snap_query = na_elem_new ("snapshot-list-info");
+ na_child_add_string(new->snap_query, "target-type", "volume");
+ na_child_add_string(new->snap_query, "target-name", name);
+ } else {
+ new->snap_query = NULL;
+ }
- return v;
-} /* }}} disk_t *get_disk */
+ /* Add to end of list. */
+ if (last == NULL)
+ cvu->volumes = new;
+ else
+ last->next = new;
+
+ return (new);
+} /* }}} data_volume_usage_t *get_volume_usage */
-static void host_set_all_perf_data_flags(const host_config_t *host, /* {{{ */
- uint32_t flag, _Bool set)
+static data_volume_perf_t *get_volume_perf (cfg_volume_perf_t *cvp, /* {{{ */
+ const char *name)
{
- volume_t *v;
-
- for (v = host->volumes; v; v = v->next) {
- if (set)
- v->perf_data.flags |= flag;
- else /* if (!set) */
- v->perf_data.flags &= ~flag;
+ data_volume_perf_t *last;
+ data_volume_perf_t *new;
+
+ int ignore_octets = 0;
+ int ignore_operations = 0;
+ int ignore_latency = 0;
+
+ if ((cvp == NULL) || (name == NULL))
+ return (NULL);
+
+ last = cvp->volumes;
+ while (last != NULL)
+ {
+ if (strcmp (last->name, name) == 0)
+ return (last);
+
+ if (last->next == NULL)
+ break;
+
+ last = last->next;
}
-} /* }}} void host_set_all_perf_data_flags */
-static void host_set_all_cfg_volume_usage_flags(const host_config_t *host, /* {{{ */
- uint32_t flag, _Bool set) {
- volume_t *v;
-
- for (v = host->volumes; v; v = v->next) {
- if (set)
- v->cfg_volume_usage.flags |= flag;
- else /* if (!set) */
- v->cfg_volume_usage.flags &= ~flag;
+ /* Check the ignorelists. If *all three* tell us to ignore a volume, return
+ * NULL. */
+ ignore_octets = ignorelist_match (cvp->il_octets, name);
+ ignore_operations = ignorelist_match (cvp->il_operations, name);
+ ignore_latency = ignorelist_match (cvp->il_latency, name);
+ if ((ignore_octets != 0) || (ignore_operations != 0)
+ || (ignore_latency != 0))
+ return (NULL);
+
+ /* Not found: allocate. */
+ new = malloc (sizeof (*new));
+ if (new == NULL)
+ return (NULL);
+ memset (new, 0, sizeof (*new));
+ new->next = NULL;
+
+ new->name = strdup (name);
+ if (new->name == NULL)
+ {
+ sfree (new);
+ return (NULL);
}
-} /* }}} void host_set_all_cfg_volume_usage_flags */
+
+ if (ignore_octets == 0)
+ new->flags |= CFG_VOLUME_PERF_IO;
+ if (ignore_operations == 0)
+ new->flags |= CFG_VOLUME_PERF_OPS;
+ if (ignore_latency == 0)
+ new->flags |= CFG_VOLUME_PERF_LATENCY;
+
+ /* Add to end of list. */
+ if (last == NULL)
+ cvp->volumes = new;
+ else
+ last->next = new;
+
+ return (new);
+} /* }}} data_volume_perf_t *get_volume_perf */
/*
* Various submit functions.
} /* }}} int submit_cache_ratio */
/* Submits all the caches used by WAFL. Uses "submit_cache_ratio". */
-static int submit_wafl_data (const host_config_t *host, const char *instance, /* {{{ */
- data_wafl_t *old_data, const data_wafl_t *new_data)
+static int submit_wafl_data (const char *hostname, const char *instance, /* {{{ */
+ cfg_wafl_t *old_data, const cfg_wafl_t *new_data)
{
/* Submit requested counters */
if (HAS_ALL_FLAGS (old_data->flags, CFG_WAFL_NAME_CACHE | HAVE_WAFL_NAME_CACHE)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_WAFL_NAME_CACHE))
- submit_cache_ratio (host->name, instance, "name_cache_hit",
+ submit_cache_ratio (hostname, instance, "name_cache_hit",
new_data->name_cache_hit, new_data->name_cache_miss,
old_data->name_cache_hit, old_data->name_cache_miss,
new_data->timestamp);
if (HAS_ALL_FLAGS (old_data->flags, CFG_WAFL_DIR_CACHE | HAVE_WAFL_FIND_DIR)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_WAFL_FIND_DIR))
- submit_cache_ratio (host->name, instance, "find_dir_hit",
+ submit_cache_ratio (hostname, instance, "find_dir_hit",
new_data->find_dir_hit, new_data->find_dir_miss,
old_data->find_dir_hit, old_data->find_dir_miss,
new_data->timestamp);
if (HAS_ALL_FLAGS (old_data->flags, CFG_WAFL_BUF_CACHE | HAVE_WAFL_BUF_HASH)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_WAFL_BUF_HASH))
- submit_cache_ratio (host->name, instance, "buf_hash_hit",
+ submit_cache_ratio (hostname, instance, "buf_hash_hit",
new_data->buf_hash_hit, new_data->buf_hash_miss,
old_data->buf_hash_hit, old_data->buf_hash_miss,
new_data->timestamp);
if (HAS_ALL_FLAGS (old_data->flags, CFG_WAFL_INODE_CACHE | HAVE_WAFL_INODE_CACHE)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_WAFL_INODE_CACHE))
- submit_cache_ratio (host->name, instance, "inode_cache_hit",
+ submit_cache_ratio (hostname, instance, "inode_cache_hit",
new_data->inode_cache_hit, new_data->inode_cache_miss,
old_data->inode_cache_hit, old_data->inode_cache_miss,
new_data->timestamp);
/* Submits volume performance data to the daemon, taking care to honor and
* update flags appropriately. */
-static int submit_volume_perf_data (const host_config_t *host, /* {{{ */
- volume_t *volume,
+static int submit_volume_perf_data (const char *hostname, /* {{{ */
+ data_volume_perf_t *old_data,
const data_volume_perf_t *new_data)
{
/* Check for and submit disk-octet values */
- if (HAS_ALL_FLAGS (volume->perf_data.flags, CFG_VOLUME_PERF_IO)
+ if (HAS_ALL_FLAGS (old_data->flags, CFG_VOLUME_PERF_IO)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_VOLUME_PERF_BYTES_READ | HAVE_VOLUME_PERF_BYTES_WRITE))
{
- submit_two_counters (host->name, volume->name, "disk_octets", /* type instance = */ NULL,
+ submit_two_counters (hostname, old_data->name, "disk_octets", /* type instance = */ NULL,
(counter_t) new_data->read_bytes, (counter_t) new_data->write_bytes, new_data->timestamp);
}
/* Check for and submit disk-operations values */
- if (HAS_ALL_FLAGS (volume->perf_data.flags, CFG_VOLUME_PERF_OPS)
+ if (HAS_ALL_FLAGS (old_data->flags, CFG_VOLUME_PERF_OPS)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_VOLUME_PERF_OPS_READ | HAVE_VOLUME_PERF_OPS_WRITE))
{
- submit_two_counters (host->name, volume->name, "disk_ops", /* type instance = */ NULL,
+ submit_two_counters (hostname, old_data->name, "disk_ops", /* type instance = */ NULL,
(counter_t) new_data->read_ops, (counter_t) new_data->write_ops, new_data->timestamp);
}
/* Check for, calculate and submit disk-latency values */
- if (HAS_ALL_FLAGS (volume->perf_data.flags, CFG_VOLUME_PERF_LATENCY
+ if (HAS_ALL_FLAGS (old_data->flags, CFG_VOLUME_PERF_LATENCY
| HAVE_VOLUME_PERF_OPS_READ | HAVE_VOLUME_PERF_OPS_WRITE
| HAVE_VOLUME_PERF_LATENCY_READ | HAVE_VOLUME_PERF_LATENCY_WRITE)
&& HAS_ALL_FLAGS (new_data->flags, HAVE_VOLUME_PERF_OPS_READ | HAVE_VOLUME_PERF_OPS_WRITE
latency_per_op_write = NAN;
/* Check if a counter wrapped around. */
- if ((new_data->read_ops > volume->perf_data.read_ops)
- && (new_data->read_latency > volume->perf_data.read_latency))
+ if ((new_data->read_ops > old_data->read_ops)
+ && (new_data->read_latency > old_data->read_latency))
{
uint64_t diff_ops_read;
uint64_t diff_latency_read;
- diff_ops_read = new_data->read_ops - volume->perf_data.read_ops;
- diff_latency_read = new_data->read_latency - volume->perf_data.read_latency;
+ diff_ops_read = new_data->read_ops - old_data->read_ops;
+ diff_latency_read = new_data->read_latency - old_data->read_latency;
if (diff_ops_read > 0)
latency_per_op_read = ((gauge_t) diff_latency_read) / ((gauge_t) diff_ops_read);
}
- if ((new_data->write_ops > volume->perf_data.write_ops)
- && (new_data->write_latency > volume->perf_data.write_latency))
+ if ((new_data->write_ops > old_data->write_ops)
+ && (new_data->write_latency > old_data->write_latency))
{
uint64_t diff_ops_write;
uint64_t diff_latency_write;
- diff_ops_write = new_data->write_ops - volume->perf_data.write_ops;
- diff_latency_write = new_data->write_latency - volume->perf_data.write_latency;
+ diff_ops_write = new_data->write_ops - old_data->write_ops;
+ diff_latency_write = new_data->write_latency - old_data->write_latency;
if (diff_ops_write > 0)
latency_per_op_write = ((gauge_t) diff_latency_write) / ((gauge_t) diff_ops_write);
}
- submit_two_gauge (host->name, volume->name, "disk_latency", /* type instance = */ NULL,
+ submit_two_gauge (hostname, old_data->name, "disk_latency", /* type instance = */ NULL,
latency_per_op_read, latency_per_op_write, new_data->timestamp);
}
/* Clear all HAVE_* flags. */
- volume->perf_data.flags &= ~HAVE_VOLUME_PERF_ALL;
+ old_data->flags &= ~HAVE_VOLUME_PERF_ALL;
/* Copy all counters */
- volume->perf_data.timestamp = new_data->timestamp;
- volume->perf_data.read_bytes = new_data->read_bytes;
- volume->perf_data.write_bytes = new_data->write_bytes;
- volume->perf_data.read_ops = new_data->read_ops;
- volume->perf_data.write_ops = new_data->write_ops;
- volume->perf_data.read_latency = new_data->read_latency;
- volume->perf_data.write_latency = new_data->write_latency;
+ old_data->timestamp = new_data->timestamp;
+ old_data->read_bytes = new_data->read_bytes;
+ old_data->write_bytes = new_data->write_bytes;
+ old_data->read_ops = new_data->read_ops;
+ old_data->write_ops = new_data->write_ops;
+ old_data->read_latency = new_data->read_latency;
+ old_data->write_latency = new_data->write_latency;
/* Copy the HAVE_* flags */
- volume->perf_data.flags |= (new_data->flags & HAVE_VOLUME_PERF_ALL);
+ old_data->flags |= (new_data->flags & HAVE_VOLUME_PERF_ALL);
return (0);
} /* }}} int submit_volume_perf_data */
* These functions are called with appropriate data returned by the libnetapp
* interface which is parsed and submitted with the above functions.
*/
-/* Data corresponding to <GetWaflPerfData /> */
-static void query_wafl_data(host_config_t *host, na_elem_t *out, void *data) { /* {{{ */
- data_wafl_t *wafl = data;
- data_wafl_t perf_data;
+/* Data corresponding to <WAFL /> */
+static int cna_handle_wafl_data (const char *hostname, cfg_wafl_t *cfg_wafl, /* {{{ */
+ na_elem_t *data)
+{
+ cfg_wafl_t perf_data;
const char *plugin_inst;
+
+ na_elem_t *instances;
na_elem_t *counter;
+ na_elem_iter_t counter_iter;
memset (&perf_data, 0, sizeof (perf_data));
- perf_data.timestamp = (time_t) na_child_get_uint64(out, "timestamp", 0);
+ perf_data.timestamp = (time_t) na_child_get_uint64 (data, "timestamp", 0);
- out = na_elem_child(na_elem_child(out, "instances"), "instance-data");
- if (out == NULL)
- return;
+ instances = na_elem_child(na_elem_child (data, "instances"), "instance-data");
+ if (instances == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_wafl_data: "
+ "na_elem_child (\"instances\") failed.");
+ return (-1);
+ }
- plugin_inst = na_child_get_string(out, "name");
+ plugin_inst = na_child_get_string(instances, "name");
if (plugin_inst == NULL)
- return;
+ {
+ ERROR ("netapp plugin: cna_handle_wafl_data: "
+ "na_child_get_string (\"name\") failed.");
+ return (-1);
+ }
/* Iterate over all counters */
- na_elem_iter_t iter = na_child_iterator(na_elem_child(out, "counters"));
- for (counter = na_iterator_next(&iter); counter; counter = na_iterator_next(&iter)) {
+ counter_iter = na_child_iterator (na_elem_child (instances, "counters"));
+ for (counter = na_iterator_next (&counter_iter);
+ counter != NULL;
+ counter = na_iterator_next (&counter_iter))
+ {
const char *name;
uint64_t value;
perf_data.inode_cache_miss = value;
perf_data.flags |= HAVE_WAFL_INODE_CACHE_MISS;
} else {
- DEBUG("netapp plugin: query_wafl_data: Found unexpected child: %s",
- name);
+ DEBUG("netapp plugin: cna_handle_wafl_data: "
+ "Found unexpected child: %s", name);
}
}
- submit_wafl_data (host, plugin_inst, wafl, &perf_data);
-} /* }}} void query_wafl_data */
+ return (submit_wafl_data (hostname, plugin_inst, cfg_wafl, &perf_data));
+} /* }}} void cna_handle_wafl_data */
+
+static int cna_setup_wafl (cfg_wafl_t *cw) /* {{{ */
+{
+ na_elem_t *e;
+
+ if (cw == NULL)
+ return (EINVAL);
+
+ if (cw->query != NULL)
+ return (0);
+
+ cw->query = na_elem_new("perf-object-get-instances");
+ if (cw->query == NULL)
+ {
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string (cw->query, "objectname", "wafl");
+
+ e = na_elem_new("counters");
+ if (e == NULL)
+ {
+ na_elem_free (cw->query);
+ cw->query = NULL;
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string(e, "foo", "name_cache_hit");
+ na_child_add_string(e, "foo", "name_cache_miss");
+ na_child_add_string(e, "foo", "find_dir_hit");
+ na_child_add_string(e, "foo", "find_dir_miss");
+ na_child_add_string(e, "foo", "buf_hash_hit");
+ na_child_add_string(e, "foo", "buf_hash_miss");
+ na_child_add_string(e, "foo", "inode_cache_hit");
+ na_child_add_string(e, "foo", "inode_cache_miss");
+
+ na_child_add(cw->query, e);
+
+ return (0);
+} /* }}} int cna_setup_wafl */
+
+static int cna_query_wafl (host_config_t *host) /* {{{ */
+{
+ na_elem_t *data;
+ int status;
+ time_t now;
+
+ if (host == NULL)
+ return (EINVAL);
+
+ /* If WAFL was not configured, return without doing anything. */
+ if (host->cfg_wafl == NULL)
+ return (0);
+
+ now = time (NULL);
+ if ((host->cfg_wafl->interval.interval + host->cfg_wafl->interval.last_read) > now)
+ return (0);
+
+ status = cna_setup_wafl (host->cfg_wafl);
+ if (status != 0)
+ return (status);
+ assert (host->cfg_wafl->query != NULL);
+
+ data = na_server_invoke_elem(host->srv, host->cfg_wafl->query);
+ if (na_results_status (data) != NA_OK)
+ {
+ ERROR ("netapp plugin: cna_query_wafl: na_server_invoke_elem failed: %s",
+ na_results_reason (data));
+ na_elem_free (data);
+ return (-1);
+ }
+
+ status = cna_handle_wafl_data (host->name, host->cfg_wafl, data);
-/* Data corresponding to <GetDiskPerfData /> */
-static void query_submit_disk_data(host_config_t *host, na_elem_t *out, void *data) { /* {{{ */
- cfg_disk_t *cfg_disk = data;
+ if (status == 0)
+ host->cfg_wafl->interval.last_read = now;
+
+ na_elem_free (data);
+ return (status);
+} /* }}} int cna_query_wafl */
+
+/* Data corresponding to <Disks /> */
+static int cna_handle_disk_data (const char *hostname, /* {{{ */
+ cfg_disk_t *cfg_disk, na_elem_t *data)
+{
time_t timestamp;
- na_elem_t *counter, *inst;
- disk_t *worst_disk = 0;
+ na_elem_t *instances;
+ na_elem_t *instance;
+ na_elem_iter_t instance_iter;
+ disk_t *worst_disk = NULL;
+
+ if ((cfg_disk == NULL) || (data == NULL))
+ return (EINVAL);
- timestamp = (time_t) na_child_get_uint64(out, "timestamp", 0);
- out = na_elem_child(out, "instances");
+ timestamp = (time_t) na_child_get_uint64(data, "timestamp", 0);
+
+ instances = na_elem_child (data, "instances");
+ if (instances == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_disk_data: "
+ "na_elem_child (\"instances\") failed.");
+ return (-1);
+ }
/* Iterate over all children */
- na_elem_iter_t inst_iter = na_child_iterator(out);
- for (inst = na_iterator_next(&inst_iter); inst; inst = na_iterator_next(&inst_iter)) {
+ instance_iter = na_child_iterator (instances);
+ for (instance = na_iterator_next (&instance_iter);
+ instance != NULL;
+ instance = na_iterator_next(&instance_iter))
+ {
disk_t *old_data;
disk_t new_data;
+ na_elem_iter_t counter_iterator;
+ na_elem_t *counter;
+
memset (&new_data, 0, sizeof (new_data));
new_data.timestamp = timestamp;
new_data.disk_busy_percent = NAN;
- old_data = get_disk(host, na_child_get_string(inst, "name"));
+ old_data = get_disk(cfg_disk, na_child_get_string (instance, "name"));
if (old_data == NULL)
continue;
/* Look for the "disk_busy" and "base_for_disk_busy" counters */
- na_elem_iter_t count_iter = na_child_iterator(na_elem_child(inst, "counters"));
- for (counter = na_iterator_next(&count_iter); counter; counter = na_iterator_next(&count_iter)) {
+ counter_iterator = na_child_iterator(na_elem_child(instance, "counters"));
+ for (counter = na_iterator_next(&counter_iterator);
+ counter != NULL;
+ counter = na_iterator_next(&counter_iterator))
+ {
const char *name;
uint64_t value;
new_data.base_for_disk_busy = value;
new_data.flags |= HAVE_DISK_BASE;
}
+ else
+ {
+ DEBUG ("netapp plugin: cna_handle_disk_data: "
+ "Counter not handled: %s = %"PRIu64,
+ name, value);
+ }
}
/* If all required counters are available and did not just wrap around,
} /* for (all disks) */
if ((cfg_disk->flags & CFG_DISK_BUSIEST) && (worst_disk != NULL))
- submit_double (host->name, "system", "percent", "disk_busy",
+ submit_double (hostname, "system", "percent", "disk_busy",
worst_disk->disk_busy_percent, timestamp);
-} /* }}} void query_submit_disk_data */
-/* Data corresponding to <GetVolumeData /> */
-static void collect_volume_data(host_config_t *host, na_elem_t *out, void *data) { /* {{{ */
- na_elem_t *inst;
- volume_t *volume;
- cfg_volume_usage_t *cfg_volume_data = data;
+ return (0);
+} /* }}} int cna_handle_disk_data */
- out = na_elem_child(out, "volumes");
- na_elem_iter_t inst_iter = na_child_iterator(out);
- for (inst = na_iterator_next(&inst_iter); inst; inst = na_iterator_next(&inst_iter)) {
- uint64_t size_free = 0, size_used = 0, snap_reserved = 0;
+static int cna_setup_disk (cfg_disk_t *cd) /* {{{ */
+{
+ na_elem_t *e;
- na_elem_t *sis;
- const char *sis_state;
- uint64_t sis_saved_reported;
- uint64_t sis_saved;
+ if (cd == NULL)
+ return (EINVAL);
- volume = get_volume(host, na_child_get_string(inst, "name"),
- cfg_volume_data->flags, /* perf_flags = */ 0);
- if (volume == NULL)
- continue;
+ if (cd->query != NULL)
+ return (0);
- if (!(volume->cfg_volume_usage.flags & VOLUME_DF))
- continue;
+ cd->query = na_elem_new ("perf-object-get-instances");
+ if (cd->query == NULL)
+ {
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string (cd->query, "objectname", "disk");
- /* 2^4 exa-bytes? This will take a while ;) */
- size_free = na_child_get_uint64(inst, "size-available", UINT64_MAX);
- if (size_free != UINT64_MAX)
- submit_double (host->name, volume->name, "df_complex", "used",
- (double) size_used, /* time = */ 0);
-
- size_used = na_child_get_uint64(inst, "size-used", UINT64_MAX);
- if (size_free != UINT64_MAX)
- submit_double (host->name, volume->name, "df_complex", "free",
- (double) size_free, /* time = */ 0);
-
- snap_reserved = na_child_get_uint64(inst, "snapshot-blocks-reserved", UINT64_MAX);
- if (snap_reserved != UINT64_MAX)
+ e = na_elem_new("counters");
+ if (e == NULL)
+ {
+ na_elem_free (cd->query);
+ cd->query = NULL;
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string(e, "foo", "disk_busy");
+ na_child_add_string(e, "foo", "base_for_disk_busy");
+ na_child_add(cd->query, e);
+
+ return (0);
+} /* }}} int cna_setup_disk */
+
+static int cna_query_disk (host_config_t *host) /* {{{ */
+{
+ na_elem_t *data;
+ int status;
+ time_t now;
+
+ if (host == NULL)
+ return (EINVAL);
+
+ /* If the user did not configure disk statistics, return without doing
+ * anything. */
+ if (host->cfg_disk == NULL)
+ return (0);
+
+ now = time (NULL);
+ if ((host->cfg_disk->interval.interval + host->cfg_disk->interval.last_read) > now)
+ return (0);
+
+ status = cna_setup_disk (host->cfg_disk);
+ if (status != 0)
+ return (status);
+ assert (host->cfg_disk->query != NULL);
+
+ data = na_server_invoke_elem(host->srv, host->cfg_disk->query);
+ if (na_results_status (data) != NA_OK)
+ {
+ ERROR ("netapp plugin: cna_query_disk: na_server_invoke_elem failed: %s",
+ na_results_reason (data));
+ na_elem_free (data);
+ return (-1);
+ }
+
+ status = cna_handle_disk_data (host->name, host->cfg_disk, data);
+
+ if (status == 0)
+ host->cfg_disk->interval.last_read = now;
+
+ na_elem_free (data);
+ return (status);
+} /* }}} int cna_query_disk */
+
+/* Data corresponding to <VolumePerf /> */
+static int cna_handle_volume_perf_data (const char *hostname, /* {{{ */
+ cfg_volume_perf_t *cvp, na_elem_t *data)
+{
+ time_t timestamp;
+ na_elem_t *elem_instances;
+ na_elem_iter_t iter_instances;
+ na_elem_t *elem_instance;
+
+ timestamp = (time_t) na_child_get_uint64(data, "timestamp", 0);
+
+ elem_instances = na_elem_child(data, "instances");
+ if (elem_instances == NULL)
+ {
+ ERROR ("netapp plugin: handle_volume_perf_data: "
+ "na_elem_child (\"instances\") failed.");
+ return (-1);
+ }
+
+ iter_instances = na_child_iterator (elem_instances);
+ for (elem_instance = na_iterator_next(&iter_instances);
+ elem_instance != NULL;
+ elem_instance = na_iterator_next(&iter_instances))
+ {
+ const char *name;
+
+ data_volume_perf_t perf_data;
+ data_volume_perf_t *v;
+
+ na_elem_t *elem_counters;
+ na_elem_iter_t iter_counters;
+ na_elem_t *elem_counter;
+
+ memset (&perf_data, 0, sizeof (perf_data));
+ perf_data.timestamp = timestamp;
+
+ name = na_child_get_string (elem_instance, "name");
+ if (name == NULL)
+ continue;
+
+ /* get_volume_perf may return NULL if this volume is to be ignored. */
+ v = get_volume_perf (cvp, name);
+ if (v == NULL)
+ continue;
+
+ elem_counters = na_elem_child (elem_instance, "counters");
+ if (elem_counters == NULL)
+ continue;
+
+ iter_counters = na_child_iterator (elem_counters);
+ for (elem_counter = na_iterator_next(&iter_counters);
+ elem_counter != NULL;
+ elem_counter = na_iterator_next(&iter_counters))
+ {
+ const char *name;
+ uint64_t value;
+
+ name = na_child_get_string (elem_counter, "name");
+ if (name == NULL)
+ continue;
+
+ value = na_child_get_uint64 (elem_counter, "value", UINT64_MAX);
+ if (value == UINT64_MAX)
+ continue;
+
+ if (!strcmp(name, "read_data")) {
+ perf_data.read_bytes = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_BYTES_READ;
+ } else if (!strcmp(name, "write_data")) {
+ perf_data.write_bytes = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_BYTES_WRITE;
+ } else if (!strcmp(name, "read_ops")) {
+ perf_data.read_ops = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_OPS_READ;
+ } else if (!strcmp(name, "write_ops")) {
+ perf_data.write_ops = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_OPS_WRITE;
+ } else if (!strcmp(name, "read_latency")) {
+ perf_data.read_latency = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_LATENCY_READ;
+ } else if (!strcmp(name, "write_latency")) {
+ perf_data.write_latency = value;
+ perf_data.flags |= HAVE_VOLUME_PERF_LATENCY_WRITE;
+ }
+ } /* for (elem_counter) */
+
+ submit_volume_perf_data (hostname, v, &perf_data);
+ } /* for (volume) */
+
+ return (0);
+} /* }}} int cna_handle_volume_perf_data */
+
+static int cna_setup_volume_perf (cfg_volume_perf_t *cd) /* {{{ */
+{
+ na_elem_t *e;
+
+ if (cd == NULL)
+ return (EINVAL);
+
+ if (cd->query != NULL)
+ return (0);
+
+ cd->query = na_elem_new ("perf-object-get-instances");
+ if (cd->query == NULL)
+ {
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string (cd->query, "objectname", "volume");
+
+ e = na_elem_new("counters");
+ if (e == NULL)
+ {
+ na_elem_free (cd->query);
+ cd->query = NULL;
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ /* "foo" means: This string has to be here but the content doesn't matter. */
+ na_child_add_string(e, "foo", "read_ops");
+ na_child_add_string(e, "foo", "write_ops");
+ na_child_add_string(e, "foo", "read_data");
+ na_child_add_string(e, "foo", "write_data");
+ na_child_add_string(e, "foo", "read_latency");
+ na_child_add_string(e, "foo", "write_latency");
+ na_child_add(cd->query, e);
+
+ return (0);
+} /* }}} int cna_setup_volume_perf */
+
+static int cna_query_volume_perf (host_config_t *host) /* {{{ */
+{
+ na_elem_t *data;
+ int status;
+ time_t now;
+
+ if (host == NULL)
+ return (EINVAL);
+
+ /* If the user did not configure volume performance statistics, return
+ * without doing anything. */
+ if (host->cfg_volume_perf == NULL)
+ return (0);
+
+ now = time (NULL);
+ if ((host->cfg_volume_perf->interval.interval + host->cfg_volume_perf->interval.last_read) > now)
+ return (0);
+
+ status = cna_setup_volume_perf (host->cfg_volume_perf);
+ if (status != 0)
+ return (status);
+ assert (host->cfg_volume_perf->query != NULL);
+
+ data = na_server_invoke_elem (host->srv, host->cfg_volume_perf->query);
+ if (na_results_status (data) != NA_OK)
+ {
+ ERROR ("netapp plugin: cna_query_volume_perf: na_server_invoke_elem failed: %s",
+ na_results_reason (data));
+ na_elem_free (data);
+ return (-1);
+ }
+
+ status = cna_handle_volume_perf_data (host->name, host->cfg_volume_perf, data);
+
+ if (status == 0)
+ host->cfg_volume_perf->interval.last_read = now;
+
+ na_elem_free (data);
+ return (status);
+} /* }}} int cna_query_volume_perf */
+
+/* Data corresponding to <VolumeUsage /> */
+static int cna_submit_volume_usage_data (const char *hostname, /* {{{ */
+ cfg_volume_usage_t *cfg_volume)
+{
+ data_volume_usage_t *v;
+
+ for (v = cfg_volume->volumes; v != NULL; v = v->next)
+ {
+ uint64_t norm_used = v->norm_used;
+ uint64_t norm_free = v->norm_free;
+ uint64_t sis_saved = v->sis_saved;
+ uint64_t snap_reserve_used = 0;
+ uint64_t snap_reserve_free = v->snap_reserved;
+ uint64_t snap_norm_used = v->snap_used;
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_SNAP_USED | HAVE_VOLUME_USAGE_SNAP_RSVD)) {
+ if (v->snap_reserved > v->snap_used) {
+ snap_reserve_free = v->snap_reserved - v->snap_used;
+ snap_reserve_used = v->snap_used;
+ snap_norm_used = 0;
+ } else {
+ snap_reserve_free = 0;
+ snap_reserve_used = v->snap_reserved;
+ snap_norm_used = v->snap_used - v->snap_reserved;
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_NORM_USED)
+ && (norm_used >= snap_norm_used))
+ norm_used -= snap_norm_used;
+ }
+ }
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_NORM_FREE))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "free",
+ (double) norm_free, /* timestamp = */ 0);
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_SIS_SAVED))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "sis_saved",
+ (double) sis_saved, /* timestamp = */ 0);
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_NORM_USED))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "used",
+ (double) norm_used, /* timestamp = */ 0);
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_SNAP_RSVD))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "snap_reserved",
+ (double) snap_reserve_free, /* timestamp = */ 0);
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_SNAP_USED | HAVE_VOLUME_USAGE_SNAP_RSVD))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "snap_reserve_used",
+ (double) snap_reserve_used, /* timestamp = */ 0);
+
+ if (HAS_ALL_FLAGS (v->flags, HAVE_VOLUME_USAGE_SNAP_USED))
+ submit_double (hostname, /* plugin instance = */ v->name,
+ "df_complex", "snap_normal_used",
+ (double) snap_norm_used, /* timestamp = */ 0);
+
+ /* Clear all the HAVE_* flags */
+ v->flags &= ~HAVE_VOLUME_USAGE_ALL;
+ } /* for (v = cfg_volume->volumes) */
+
+ return (0);
+} /* }}} int cna_submit_volume_usage_data */
+
+static void cna_handle_volume_snap_usage(const host_config_t *host, data_volume_usage_t *v)
+{
+ uint64_t snap_used = 0, value;
+ na_elem_t *data, *elem_snap, *elem_snapshots;
+ na_elem_iter_t iter_snap;
+
+ data = na_server_invoke_elem(host->srv, v->snap_query);
+ if (na_results_status(data) != NA_OK)
+ {
+ if (na_results_errno(data) != EVOLUMEOFFLINE)
+ ERROR ("netapp plugin: cna_handle_volume_snap_usage: na_server_invoke_elem for "
+ "volume \"%s\" failed with error %d: %s", v->name,
+ na_results_errno(data), na_results_reason(data));
+ na_elem_free(data);
+ return;
+ }
+
+ elem_snapshots = na_elem_child (data, "snapshots");
+ if (elem_snapshots == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_volume_snap_usage: "
+ "na_elem_child (\"snapshots\") failed.");
+ na_elem_free(data);
+ return;
+ }
+
+ iter_snap = na_child_iterator (elem_snapshots);
+ for (elem_snap = na_iterator_next (&iter_snap);
+ elem_snap != NULL;
+ elem_snap = na_iterator_next (&iter_snap))
+ {
+ value = na_child_get_uint64(elem_snap, "cumulative-total", 0);
+ if (value > snap_used)
+ snap_used = value;
+ }
+ na_elem_free (data);
+ /* snap_used is the total size of the oldest snapshot plus all
+ * newer ones in blocks (1KB). */
+ v->snap_used = snap_used * 1024;
+ v->flags |= HAVE_VOLUME_USAGE_SNAP_USED;
+}
+
+static int cna_handle_volume_usage_data (const host_config_t *host, /* {{{ */
+ cfg_volume_usage_t *cfg_volume, na_elem_t *data)
+{
+ na_elem_t *elem_volume;
+ na_elem_t *elem_volumes;
+ na_elem_iter_t iter_volume;
+
+ elem_volumes = na_elem_child (data, "volumes");
+ if (elem_volumes == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_volume_usage_data: "
+ "na_elem_child (\"volumes\") failed.");
+ return (-1);
+ }
+
+ iter_volume = na_child_iterator (elem_volumes);
+ for (elem_volume = na_iterator_next (&iter_volume);
+ elem_volume != NULL;
+ elem_volume = na_iterator_next (&iter_volume))
+ {
+ const char *volume_name, *state;
+
+ data_volume_usage_t *v;
+ uint64_t value;
+
+ na_elem_t *sis;
+ const char *sis_state;
+ uint64_t sis_saved_reported;
+
+ volume_name = na_child_get_string (elem_volume, "name");
+ if (volume_name == NULL)
+ continue;
+
+ state = na_child_get_string (elem_volume, "state");
+ if ((state == NULL) || (strcmp(state, "online") != 0))
+ continue;
+
+ /* get_volume_usage may return NULL if the volume is to be ignored. */
+ v = get_volume_usage (cfg_volume, volume_name);
+ if (v == NULL)
+ continue;
+
+ if ((v->flags & CFG_VOLUME_USAGE_SNAP) != 0)
+ cna_handle_volume_snap_usage(host, v);
+
+ if ((v->flags & CFG_VOLUME_USAGE_DF) == 0)
+ continue;
+
+ /* 2^4 exa-bytes? This will take a while ;) */
+ value = na_child_get_uint64(elem_volume, "size-available", UINT64_MAX);
+ if (value != UINT64_MAX) {
+ v->norm_free = value;
+ v->flags |= HAVE_VOLUME_USAGE_NORM_FREE;
+ }
+
+ value = na_child_get_uint64(elem_volume, "size-used", UINT64_MAX);
+ if (value != UINT64_MAX) {
+ v->norm_used = value;
+ v->flags |= HAVE_VOLUME_USAGE_NORM_USED;
+ }
+
+ value = na_child_get_uint64(elem_volume, "snapshot-blocks-reserved", UINT64_MAX);
+ if (value != UINT64_MAX) {
/* 1 block == 1024 bytes as per API docs */
- submit_double (host->name, volume->name, "df_complex", "snap_reserved",
- (double) (1024 * snap_reserved), /* time = */ 0);
+ v->snap_reserved = 1024 * value;
+ v->flags |= HAVE_VOLUME_USAGE_SNAP_RSVD;
+ }
- sis = na_elem_child(inst, "sis");
+ sis = na_elem_child(elem_volume, "sis");
if (sis == NULL)
continue;
sis_state = na_child_get_string(sis, "state");
- if ((sis_state == NULL)
- || (strcmp ("enabled", sis_state) != 0))
+ if (sis_state == NULL)
+ continue;
+
+ /* If SIS is not enabled, there's nothing left to do for this volume. */
+ if (strcmp ("enabled", sis_state) != 0)
continue;
sis_saved_reported = na_child_get_uint64(sis, "size-saved", UINT64_MAX);
/* size-saved is actually a 32 bit number, so ... time for some guesswork. */
if ((sis_saved_reported >> 32) != 0) {
/* In case they ever fix this bug. */
- sis_saved = sis_saved_reported;
- } else {
+ v->sis_saved = sis_saved_reported;
+ v->flags |= HAVE_VOLUME_USAGE_SIS_SAVED;
+ } else { /* really hacky work-around code. {{{ */
uint64_t sis_saved_percent;
uint64_t sis_saved_guess;
uint64_t overflow_guess;
uint64_t guess1, guess2, guess3;
+ /* Check if we have v->norm_used. Without it, we cannot calculate
+ * sis_saved_guess. */
+ if ((v->flags & HAVE_VOLUME_USAGE_NORM_USED) == 0)
+ continue;
+
sis_saved_percent = na_child_get_uint64(sis, "percentage-saved", UINT64_MAX);
if (sis_saved_percent > 100)
continue;
* 400 GBytes. */
/* percentage-saved = size-saved / (size-saved + size-used) */
if (sis_saved_percent < 100)
- sis_saved_guess = size_used * sis_saved_percent / (100 - sis_saved_percent);
+ sis_saved_guess = v->norm_used * sis_saved_percent / (100 - sis_saved_percent);
else
- sis_saved_guess = size_used;
+ sis_saved_guess = v->norm_used;
overflow_guess = sis_saved_guess >> 32;
guess1 = overflow_guess ? ((overflow_guess - 1) << 32) + sis_saved_reported : sis_saved_reported;
if (sis_saved_guess < guess2) {
if ((sis_saved_guess - guess1) < (guess2 - sis_saved_guess))
- sis_saved = guess1;
+ v->sis_saved = guess1;
else
- sis_saved = guess2;
+ v->sis_saved = guess2;
} else {
if ((sis_saved_guess - guess2) < (guess3 - sis_saved_guess))
- sis_saved = guess2;
+ v->sis_saved = guess2;
else
- sis_saved = guess3;
+ v->sis_saved = guess3;
}
- } /* end of 32-bit workaround */
+ v->flags |= HAVE_VOLUME_USAGE_SIS_SAVED;
+ } /* }}} end of 32-bit workaround */
+ } /* for (elem_volume) */
+
+ return (cna_submit_volume_usage_data (host->name, cfg_volume));
+} /* }}} int cna_handle_volume_usage_data */
- submit_double (host->name, volume->name, "df_complex", "sis_saved",
- (double) sis_saved, /* time = */ 0);
+static int cna_setup_volume_usage (cfg_volume_usage_t *cvu) /* {{{ */
+{
+ if (cvu == NULL)
+ return (EINVAL);
+
+ if (cvu->query != NULL)
+ return (0);
+
+ cvu->query = na_elem_new ("volume-list-info");
+ if (cvu->query == NULL)
+ {
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
}
-} /* }}} void collect_volume_data */
-/* Data corresponding to <GetVolumePerfData /> */
-static void query_volume_perf_data(host_config_t *host, na_elem_t *out, void *data) { /* {{{ */
- cfg_volume_perf_t *cfg_volume_perf = data;
- time_t timestamp;
- na_elem_t *counter, *inst;
-
- timestamp = (time_t) na_child_get_uint64(out, "timestamp", 0);
+ return (0);
+} /* }}} int cna_setup_volume_usage */
- out = na_elem_child(out, "instances");
- na_elem_iter_t inst_iter = na_child_iterator(out);
- for (inst = na_iterator_next(&inst_iter); inst; inst = na_iterator_next(&inst_iter)) {
- data_volume_perf_t perf_data;
- volume_t *volume;
+static int cna_query_volume_usage (host_config_t *host) /* {{{ */
+{
+ na_elem_t *data;
+ int status;
+ time_t now;
- memset (&perf_data, 0, sizeof (perf_data));
- perf_data.timestamp = timestamp;
+ if (host == NULL)
+ return (EINVAL);
- volume = get_volume(host, na_child_get_string(inst, "name"),
- /* data_flags = */ 0, cfg_volume_perf->flags);
- if (volume == NULL)
- continue;
+ /* If the user did not configure volume_usage statistics, return without
+ * doing anything. */
+ if (host->cfg_volume_usage == NULL)
+ return (0);
- na_elem_iter_t count_iter = na_child_iterator(na_elem_child(inst, "counters"));
- for (counter = na_iterator_next(&count_iter); counter; counter = na_iterator_next(&count_iter)) {
- const char *name;
- uint64_t value;
+ now = time (NULL);
+ if ((host->cfg_volume_usage->interval.interval + host->cfg_volume_usage->interval.last_read) > now)
+ return (0);
- name = na_child_get_string(counter, "name");
- if (name == NULL)
- continue;
+ status = cna_setup_volume_usage (host->cfg_volume_usage);
+ if (status != 0)
+ return (status);
+ assert (host->cfg_volume_usage->query != NULL);
- value = na_child_get_uint64(counter, "value", UINT64_MAX);
- if (value == UINT64_MAX)
- continue;
+ data = na_server_invoke_elem(host->srv, host->cfg_volume_usage->query);
+ if (na_results_status (data) != NA_OK)
+ {
+ ERROR ("netapp plugin: cna_query_volume_usage: na_server_invoke_elem failed: %s",
+ na_results_reason (data));
+ na_elem_free (data);
+ return (-1);
+ }
- if (!strcmp(name, "read_data")) {
- perf_data.read_bytes = value;
- perf_data.flags |= HAVE_VOLUME_PERF_BYTES_READ;
- } else if (!strcmp(name, "write_data")) {
- perf_data.write_bytes = value;
- perf_data.flags |= HAVE_VOLUME_PERF_BYTES_WRITE;
- } else if (!strcmp(name, "read_ops")) {
- perf_data.read_ops = value;
- perf_data.flags |= HAVE_VOLUME_PERF_OPS_READ;
- } else if (!strcmp(name, "write_ops")) {
- perf_data.write_ops = value;
- perf_data.flags |= HAVE_VOLUME_PERF_OPS_WRITE;
- } else if (!strcmp(name, "read_latency")) {
- perf_data.read_latency = value;
- perf_data.flags |= HAVE_VOLUME_PERF_LATENCY_READ;
- } else if (!strcmp(name, "write_latency")) {
- perf_data.write_latency = value;
- perf_data.flags |= HAVE_VOLUME_PERF_LATENCY_WRITE;
- }
- }
+ status = cna_handle_volume_usage_data (host, host->cfg_volume_usage, data);
- submit_volume_perf_data (host, volume, &perf_data);
- } /* for (volume) */
-} /* }}} void query_volume_perf_data */
+ if (status == 0)
+ host->cfg_volume_usage->interval.last_read = now;
+
+ na_elem_free (data);
+ return (status);
+} /* }}} int cna_query_volume_usage */
+
+/* Data corresponding to <System /> */
+static int cna_handle_system_data (const char *hostname, /* {{{ */
+ cfg_system_t *cfg_system, na_elem_t *data)
+{
+ na_elem_t *instances;
+ na_elem_t *counter;
+ na_elem_iter_t counter_iter;
-/* Data corresponding to <GetSystemPerfData /> */
-static void collect_perf_system_data(host_config_t *host, na_elem_t *out, void *data) { /* {{{ */
counter_t disk_read = 0, disk_written = 0;
counter_t net_recv = 0, net_sent = 0;
counter_t cpu_busy = 0, cpu_total = 0;
- unsigned int counter_flags = 0;
+ uint32_t counter_flags = 0;
- cfg_system_t *cfg_system = data;
const char *instance;
time_t timestamp;
- na_elem_t *counter;
- timestamp = (time_t) na_child_get_uint64(out, "timestamp", 0);
- out = na_elem_child(na_elem_child(out, "instances"), "instance-data");
- instance = na_child_get_string(out, "name");
+ timestamp = (time_t) na_child_get_uint64 (data, "timestamp", 0);
+
+ instances = na_elem_child(na_elem_child (data, "instances"), "instance-data");
+ if (instances == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_system_data: "
+ "na_elem_child (\"instances\") failed.");
+ return (-1);
+ }
+
+ instance = na_child_get_string (instances, "name");
+ if (instance == NULL)
+ {
+ ERROR ("netapp plugin: cna_handle_system_data: "
+ "na_child_get_string (\"name\") failed.");
+ return (-1);
+ }
- na_elem_iter_t iter = na_child_iterator(na_elem_child(out, "counters"));
- for (counter = na_iterator_next(&iter); counter; counter = na_iterator_next(&iter)) {
+ counter_iter = na_child_iterator (na_elem_child (instances, "counters"));
+ for (counter = na_iterator_next (&counter_iter);
+ counter != NULL;
+ counter = na_iterator_next (&counter_iter))
+ {
const char *name;
uint64_t value;
} else if ((cfg_system->flags & CFG_SYSTEM_OPS)
&& (value > 0) && (strlen(name) > 4)
&& (!strcmp(name + strlen(name) - 4, "_ops"))) {
- submit_counter (host->name, instance, "disk_ops_complex", name,
+ submit_counter (hostname, instance, "disk_ops_complex", name,
(counter_t) value, timestamp);
}
} /* for (counter) */
if ((cfg_system->flags & CFG_SYSTEM_DISK)
- && ((counter_flags & 0x03) == 0x03))
- submit_two_counters (host->name, instance, "disk_octets", NULL,
+ && (HAS_ALL_FLAGS (counter_flags, 0x01 | 0x02)))
+ submit_two_counters (hostname, instance, "disk_octets", NULL,
disk_read, disk_written, timestamp);
if ((cfg_system->flags & CFG_SYSTEM_NET)
- && ((counter_flags & 0x0c) == 0x0c))
- submit_two_counters (host->name, instance, "if_octets", NULL,
+ && (HAS_ALL_FLAGS (counter_flags, 0x04 | 0x08)))
+ submit_two_counters (hostname, instance, "if_octets", NULL,
net_recv, net_sent, timestamp);
if ((cfg_system->flags & CFG_SYSTEM_CPU)
- && ((counter_flags & 0x30) == 0x30)) {
- submit_counter (host->name, instance, "cpu", "system",
+ && (HAS_ALL_FLAGS (counter_flags, 0x10 | 0x20)))
+ {
+ submit_counter (hostname, instance, "cpu", "system",
cpu_busy, timestamp);
- submit_counter (host->name, instance, "cpu", "idle",
+ submit_counter (hostname, instance, "cpu", "idle",
cpu_total - cpu_busy, timestamp);
}
-} /* }}} void collect_perf_system_data */
+
+ return (0);
+} /* }}} int cna_handle_system_data */
+
+static int cna_setup_system (cfg_system_t *cs) /* {{{ */
+{
+ if (cs == NULL)
+ return (EINVAL);
+
+ if (cs->query != NULL)
+ return (0);
+
+ cs->query = na_elem_new ("perf-object-get-instances");
+ if (cs->query == NULL)
+ {
+ ERROR ("netapp plugin: na_elem_new failed.");
+ return (-1);
+ }
+ na_child_add_string (cs->query, "objectname", "system");
+
+ return (0);
+} /* }}} int cna_setup_system */
+
+static int cna_query_system (host_config_t *host) /* {{{ */
+{
+ na_elem_t *data;
+ int status;
+ time_t now;
+
+ if (host == NULL)
+ return (EINVAL);
+
+ /* If system statistics were not configured, return without doing anything. */
+ if (host->cfg_system == NULL)
+ return (0);
+
+ now = time (NULL);
+ if ((host->cfg_system->interval.interval + host->cfg_system->interval.last_read) > now)
+ return (0);
+
+ status = cna_setup_system (host->cfg_system);
+ if (status != 0)
+ return (status);
+ assert (host->cfg_system->query != NULL);
+
+ data = na_server_invoke_elem(host->srv, host->cfg_system->query);
+ if (na_results_status (data) != NA_OK)
+ {
+ ERROR ("netapp plugin: cna_query_system: na_server_invoke_elem failed: %s",
+ na_results_reason (data));
+ na_elem_free (data);
+ return (-1);
+ }
+
+ status = cna_handle_system_data (host->name, host->cfg_system, data);
+
+ if (status == 0)
+ host->cfg_system->interval.last_read = now;
+
+ na_elem_free (data);
+ return (status);
+} /* }}} int cna_query_system */
/*
* Configuration handling
return (0);
} /* }}} int cna_config_bool_to_flag */
-/* Handling of the "Multiplier" option which is allowed in every block. */
-static int cna_config_get_multiplier (const oconfig_item_t *ci, /* {{{ */
- cfg_service_t *service)
+/* Handling of the "Interval" option which is allowed in every block. */
+static int cna_config_get_interval (const oconfig_item_t *ci, /* {{{ */
+ cna_interval_t *out_interval)
{
- int tmp;
+ time_t tmp;
- if ((ci == NULL) || (service == NULL))
+ if ((ci == NULL) || (out_interval == NULL))
return (EINVAL);
if ((ci->values_num != 1) || (ci->values[0].type != OCONFIG_TYPE_NUMBER))
{
- WARNING ("netapp plugin: The `Multiplier' option needs exactly one numeric argument.");
+ WARNING ("netapp plugin: The `Interval' option needs exactly one numeric argument.");
return (-1);
}
- tmp = (int) (ci->values[0].value.number + .5);
+ tmp = (time_t) (ci->values[0].value.number + .5);
if (tmp < 1)
{
- WARNING ("netapp plugin: The `Multiplier' option needs a positive integer argument.");
+ WARNING ("netapp plugin: The `Interval' option needs a positive integer argument.");
return (-1);
}
- service->multiplier = tmp;
- service->skip_countdown = tmp;
+ out_interval->interval = tmp;
+ out_interval->last_read = 0;
return (0);
-} /* }}} int cna_config_get_multiplier */
+} /* }}} int cna_config_get_interval */
/* Handling of the "GetIO", "GetOps" and "GetLatency" options within a
- * <GetVolumePerfData /> block. */
-static void cna_config_volume_performance_option (host_config_t *host, /* {{{ */
- cfg_volume_perf_t *perf_volume, const oconfig_item_t *item,
- uint32_t flag)
+ * <VolumePerf /> block. */
+static void cna_config_volume_perf_option (cfg_volume_perf_t *cvp, /* {{{ */
+ const oconfig_item_t *ci)
+{
+ char *name;
+ ignorelist_t * il;
+
+ if ((ci->values_num != 1) || (ci->values[0].type != OCONFIG_TYPE_STRING))
+ {
+ WARNING ("netapp plugin: The %s option requires exactly one string argument.",
+ ci->key);
+ return;
+ }
+
+ name = ci->values[0].value.string;
+
+ if (strcasecmp ("GetIO", ci->key) == 0)
+ il = cvp->il_octets;
+ else if (strcasecmp ("GetOps", ci->key) == 0)
+ il = cvp->il_operations;
+ else if (strcasecmp ("GetLatency", ci->key) == 0)
+ il = cvp->il_latency;
+ else
+ return;
+
+ ignorelist_add (il, name);
+} /* }}} void cna_config_volume_perf_option */
+
+/* Handling of the "IgnoreSelectedIO", "IgnoreSelectedOps" and
+ * "IgnoreSelectedLatency" options within a <VolumePerf /> block. */
+static void cna_config_volume_perf_default (cfg_volume_perf_t *cvp, /* {{{ */
+ const oconfig_item_t *ci)
+{
+ ignorelist_t *il;
+
+ if ((ci->values_num != 1) || (ci->values[0].type != OCONFIG_TYPE_BOOLEAN))
+ {
+ WARNING ("netapp plugin: The %s option requires exactly one string argument.",
+ ci->key);
+ return;
+ }
+
+ if (strcasecmp ("IgnoreSelectedIO", ci->key) == 0)
+ il = cvp->il_octets;
+ else if (strcasecmp ("IgnoreSelectedOps", ci->key) == 0)
+ il = cvp->il_operations;
+ else if (strcasecmp ("IgnoreSelectedLatency", ci->key) == 0)
+ il = cvp->il_latency;
+ else
+ return;
+
+ if (ci->values[0].value.boolean)
+ ignorelist_set_invert (il, /* invert = */ 0);
+ else
+ ignorelist_set_invert (il, /* invert = */ 1);
+} /* }}} void cna_config_volume_perf_default */
+
+/* Corresponds to a <Disks /> block */
+/*
+ * <VolumePerf>
+ * GetIO "vol0"
+ * GetIO "vol1"
+ * IgnoreSelectedIO false
+ *
+ * GetOps "vol0"
+ * GetOps "vol2"
+ * IgnoreSelectedOps false
+ *
+ * GetLatency "vol2"
+ * GetLatency "vol3"
+ * IgnoreSelectedLatency false
+ * </VolumePerf>
+ */
+/* Corresponds to a <VolumePerf /> block */
+static int cna_config_volume_performance (host_config_t *host, /* {{{ */
+ const oconfig_item_t *ci)
{
+ cfg_volume_perf_t *cfg_volume_perf;
int i;
-
- for (i = 0; i < item->values_num; ++i) {
- const char *name;
- volume_t *v;
- _Bool set = true;
- if (item->values[i].type != OCONFIG_TYPE_STRING) {
- WARNING("netapp plugin: Ignoring non-string argument in "
- "\"GetVolumePerfData\" block for host %s", host->name);
- continue;
- }
+ if ((host == NULL) || (ci == NULL))
+ return (EINVAL);
- name = item->values[i].value.string;
- if (name[0] == '+') {
- set = true;
- ++name;
- } else if (name[0] == '-') {
- set = false;
- ++name;
- }
+ if (host->cfg_volume_perf == NULL)
+ {
+ cfg_volume_perf = malloc (sizeof (*cfg_volume_perf));
+ if (cfg_volume_perf == NULL)
+ return (ENOMEM);
+ memset (cfg_volume_perf, 0, sizeof (*cfg_volume_perf));
- if (!name[0]) {
- if (set)
- perf_volume->flags |= flag;
- else /* if (!set) */
- perf_volume->flags &= ~flag;
+ /* Set default flags */
+ cfg_volume_perf->query = NULL;
+ cfg_volume_perf->volumes = NULL;
- host_set_all_perf_data_flags(host, flag, set);
- continue;
+ cfg_volume_perf->il_octets = ignorelist_create (/* invert = */ 1);
+ if (cfg_volume_perf->il_octets == NULL)
+ {
+ sfree (cfg_volume_perf);
+ return (ENOMEM);
}
- v = get_volume (host, name, /* data_flags = */ 0, perf_volume->flags);
- if (v == NULL)
- continue;
+ cfg_volume_perf->il_operations = ignorelist_create (/* invert = */ 1);
+ if (cfg_volume_perf->il_operations == NULL)
+ {
+ ignorelist_free (cfg_volume_perf->il_octets);
+ sfree (cfg_volume_perf);
+ return (ENOMEM);
+ }
- if (set)
- v->perf_data.flags |= flag;
- else /* if (!set) */
- v->perf_data.flags &= ~flag;
- } /* for (i = 0 .. item->values_num) */
-} /* }}} void cna_config_volume_performance_option */
-
-/* Corresponds to a <GetDiskPerfData /> block */
-static void cna_config_volume_performance(host_config_t *host, const oconfig_item_t *ci) { /* {{{ */
- int i, had_io = 0, had_ops = 0, had_latency = 0;
- cfg_service_t *service;
- cfg_volume_perf_t *perf_volume;
+ cfg_volume_perf->il_latency = ignorelist_create (/* invert = */ 1);
+ if (cfg_volume_perf->il_latency == NULL)
+ {
+ ignorelist_free (cfg_volume_perf->il_octets);
+ ignorelist_free (cfg_volume_perf->il_operations);
+ sfree (cfg_volume_perf);
+ return (ENOMEM);
+ }
+
+ host->cfg_volume_perf = cfg_volume_perf;
+ }
+ cfg_volume_perf = host->cfg_volume_perf;
- service = malloc(sizeof(*service));
- service->query = 0;
- service->handler = query_volume_perf_data;
- perf_volume = service->data = malloc(sizeof(*perf_volume));
- perf_volume->flags = CFG_VOLUME_PERF_INIT;
- service->next = host->services;
- host->services = service;
for (i = 0; i < ci->children_num; ++i) {
oconfig_item_t *item = ci->children + i;
/* if (!item || !item->key || !*item->key) continue; */
- if (!strcasecmp(item->key, "Multiplier")) {
- cna_config_get_multiplier (item, service);
- } else if (!strcasecmp(item->key, "GetIO")) {
- had_io = 1;
- cna_config_volume_performance_option(host, perf_volume, item, CFG_VOLUME_PERF_IO);
- } else if (!strcasecmp(item->key, "GetOps")) {
- had_ops = 1;
- cna_config_volume_performance_option(host, perf_volume, item, CFG_VOLUME_PERF_OPS);
- } else if (!strcasecmp(item->key, "GetLatency")) {
- had_latency = 1;
- cna_config_volume_performance_option(host, perf_volume, item, CFG_VOLUME_PERF_LATENCY);
- }
- }
- if (!had_io) {
- perf_volume->flags |= CFG_VOLUME_PERF_IO;
- host_set_all_perf_data_flags(host, CFG_VOLUME_PERF_IO, /* set = */ true);
+ if (strcasecmp(item->key, "Interval") == 0)
+ cna_config_get_interval (item, &cfg_volume_perf->interval);
+ else if (!strcasecmp(item->key, "GetIO"))
+ cna_config_volume_perf_option (cfg_volume_perf, item);
+ else if (!strcasecmp(item->key, "GetOps"))
+ cna_config_volume_perf_option (cfg_volume_perf, item);
+ else if (!strcasecmp(item->key, "GetLatency"))
+ cna_config_volume_perf_option (cfg_volume_perf, item);
+ else if (!strcasecmp(item->key, "IgnoreSelectedIO"))
+ cna_config_volume_perf_default (cfg_volume_perf, item);
+ else if (!strcasecmp(item->key, "IgnoreSelectedOps"))
+ cna_config_volume_perf_default (cfg_volume_perf, item);
+ else if (!strcasecmp(item->key, "IgnoreSelectedLatency"))
+ cna_config_volume_perf_default (cfg_volume_perf, item);
+ else
+ WARNING ("netapp plugin: The option %s is not allowed within "
+ "`VolumePerf' blocks.", item->key);
}
- if (!had_ops) {
- perf_volume->flags |= CFG_VOLUME_PERF_OPS;
- host_set_all_perf_data_flags(host, CFG_VOLUME_PERF_OPS, /* set = */ true);
- }
- if (!had_latency) {
- perf_volume->flags |= CFG_VOLUME_PERF_LATENCY;
- host_set_all_perf_data_flags(host, CFG_VOLUME_PERF_LATENCY, /* set = */ true);
+
+ return (0);
+} /* }}} int cna_config_volume_performance */
+
+/* Handling of the "GetCapacity" and "GetSnapshot" options within a
+ * <VolumeUsage /> block. */
+static void cna_config_volume_usage_option (cfg_volume_usage_t *cvu, /* {{{ */
+ const oconfig_item_t *ci)
+{
+ char *name;
+ ignorelist_t * il;
+
+ if ((ci->values_num != 1) || (ci->values[0].type != OCONFIG_TYPE_STRING))
+ {
+ WARNING ("netapp plugin: The %s option requires exactly one string argument.",
+ ci->key);
+ return;
}
-} /* }}} void cna_config_volume_performance */
-/* Handling of the "GetDiskUtil" option within a <GetVolumeData /> block. */
-static void cna_config_volume_usage_option (host_config_t *host, /* {{{ */
- cfg_volume_usage_t *cfg_volume_data, const oconfig_item_t *item, uint32_t flag)
+ name = ci->values[0].value.string;
+
+ if (strcasecmp ("GetCapacity", ci->key) == 0)
+ il = cvu->il_capacity;
+ else if (strcasecmp ("GetSnapshot", ci->key) == 0)
+ il = cvu->il_snapshot;
+ else
+ return;
+
+ ignorelist_add (il, name);
+} /* }}} void cna_config_volume_usage_option */
+
+/* Handling of the "IgnoreSelectedCapacity" and "IgnoreSelectedSnapshot"
+ * options within a <VolumeUsage /> block. */
+static void cna_config_volume_usage_default (cfg_volume_usage_t *cvu, /* {{{ */
+ const oconfig_item_t *ci)
{
- int i;
-
- for (i = 0; i < item->values_num; ++i) {
- const char *name;
- volume_t *v;
- _Bool set = true;
+ ignorelist_t *il;
- if (item->values[i].type != OCONFIG_TYPE_STRING) {
- WARNING("netapp plugin: Ignoring non-string argument in \"GetVolData\""
- "block for host %s", host->name);
- continue;
- }
+ if ((ci->values_num != 1) || (ci->values[0].type != OCONFIG_TYPE_BOOLEAN))
+ {
+ WARNING ("netapp plugin: The %s option requires exactly one string argument.",
+ ci->key);
+ return;
+ }
- name = item->values[i].value.string;
- if (name[0] == '+') {
- set = true;
- ++name;
- } else if (name[0] == '-') {
- set = false;
- ++name;
- }
+ if (strcasecmp ("IgnoreSelectedCapacity", ci->key) == 0)
+ il = cvu->il_capacity;
+ else if (strcasecmp ("IgnoreSelectedSnapshot", ci->key) == 0)
+ il = cvu->il_snapshot;
+ else
+ return;
- if (!name[0]) {
- if (set)
- cfg_volume_data->flags |= flag;
- else /* if (!set) */
- cfg_volume_data->flags &= ~flag;
+ if (ci->values[0].value.boolean)
+ ignorelist_set_invert (il, /* invert = */ 0);
+ else
+ ignorelist_set_invert (il, /* invert = */ 1);
+} /* }}} void cna_config_volume_usage_default */
- host_set_all_cfg_volume_usage_flags(host, flag, set);
- continue;
- }
+/* Corresponds to a <Disks /> block */
+static int cna_config_disk(host_config_t *host, oconfig_item_t *ci) { /* {{{ */
+ cfg_disk_t *cfg_disk;
+ int i;
- v = get_volume(host, name, cfg_volume_data->flags, /* perf_flags = */ 0);
- if (v == NULL)
- continue;
+ if ((host == NULL) || (ci == NULL))
+ return (EINVAL);
- if (!v->cfg_volume_usage.flags)
- v->cfg_volume_usage.flags = cfg_volume_data->flags;
+ if (host->cfg_disk == NULL)
+ {
+ cfg_disk = malloc (sizeof (*cfg_disk));
+ if (cfg_disk == NULL)
+ return (ENOMEM);
+ memset (cfg_disk, 0, sizeof (*cfg_disk));
- if (set)
- v->cfg_volume_usage.flags |= flag;
- else /* if (!set) */
- v->cfg_volume_usage.flags &= ~flag;
- }
-} /* }}} void cna_config_volume_usage_option */
+ /* Set default flags */
+ cfg_disk->flags = CFG_DISK_ALL;
+ cfg_disk->query = NULL;
+ cfg_disk->disks = NULL;
-/* Corresponds to a <GetVolumeData /> block */
-static void cna_config_volume_usage(host_config_t *host, oconfig_item_t *ci) { /* {{{ */
- int i, had_df = 0;
- cfg_service_t *service;
- cfg_volume_usage_t *cfg_volume_data;
+ host->cfg_disk = cfg_disk;
+ }
+ cfg_disk = host->cfg_disk;
- service = malloc(sizeof(*service));
- service->query = 0;
- service->handler = collect_volume_data;
- cfg_volume_data = service->data = malloc(sizeof(*cfg_volume_data));
- cfg_volume_data->flags = VOLUME_INIT;
- service->next = host->services;
- host->services = service;
for (i = 0; i < ci->children_num; ++i) {
oconfig_item_t *item = ci->children + i;
/* if (!item || !item->key || !*item->key) continue; */
- if (!strcasecmp(item->key, "Multiplier")) {
- cna_config_get_multiplier (item, service);
- } else if (!strcasecmp(item->key, "GetDiskUtil")) {
- had_df = 1;
- cna_config_volume_usage_option(host, cfg_volume_data, item, VOLUME_DF);
- }
+ if (strcasecmp(item->key, "Interval") == 0)
+ cna_config_get_interval (item, &cfg_disk->interval);
+ else if (strcasecmp(item->key, "GetBusy") == 0)
+ cna_config_bool_to_flag (item, &cfg_disk->flags, CFG_DISK_BUSIEST);
}
- if (!had_df) {
- cfg_volume_data->flags |= VOLUME_DF;
- host_set_all_cfg_volume_usage_flags(host, VOLUME_DF, /* set = */ true);
+
+ if ((cfg_disk->flags & CFG_DISK_ALL) == 0)
+ {
+ NOTICE ("netapp plugin: All disk related values have been disabled. "
+ "Collection of per-disk data will be disabled entirely.");
+ free_cfg_disk (host->cfg_disk);
+ host->cfg_disk = NULL;
}
-} /* }}} void cna_config_volume_usage */
-/* Corresponds to a <GetDiskPerfData /> block */
-static void cna_config_disk(host_config_t *temp, oconfig_item_t *ci) { /* {{{ */
+ return (0);
+} /* }}} int cna_config_disk */
+
+/* Corresponds to a <WAFL /> block */
+static int cna_config_wafl(host_config_t *host, oconfig_item_t *ci) /* {{{ */
+{
+ cfg_wafl_t *cfg_wafl;
int i;
- cfg_service_t *service;
- cfg_disk_t *cfg_disk;
-
- service = malloc(sizeof(*service));
- service->query = 0;
- service->handler = query_submit_disk_data;
- cfg_disk = service->data = malloc(sizeof(*cfg_disk));
- cfg_disk->flags = CFG_DISK_ALL;
- service->next = temp->services;
- temp->services = service;
+
+ if ((host == NULL) || (ci == NULL))
+ return (EINVAL);
+
+ if (host->cfg_wafl == NULL)
+ {
+ cfg_wafl = malloc (sizeof (*cfg_wafl));
+ if (cfg_wafl == NULL)
+ return (ENOMEM);
+ memset (cfg_wafl, 0, sizeof (*cfg_wafl));
+
+ /* Set default flags */
+ cfg_wafl->flags = CFG_WAFL_ALL;
+
+ host->cfg_wafl = cfg_wafl;
+ }
+ cfg_wafl = host->cfg_wafl;
+
for (i = 0; i < ci->children_num; ++i) {
oconfig_item_t *item = ci->children + i;
- /* if (!item || !item->key || !*item->key) continue; */
- if (!strcasecmp(item->key, "Multiplier")) {
- cna_config_get_multiplier (item, service);
- } else if (!strcasecmp(item->key, "GetBusy")) {
- cna_config_bool_to_flag (item, &cfg_disk->flags, CFG_SYSTEM_CPU);
- }
+ if (strcasecmp(item->key, "Interval") == 0)
+ cna_config_get_interval (item, &cfg_wafl->interval);
+ else if (!strcasecmp(item->key, "GetNameCache"))
+ cna_config_bool_to_flag (item, &cfg_wafl->flags, CFG_WAFL_NAME_CACHE);
+ else if (!strcasecmp(item->key, "GetDirCache"))
+ cna_config_bool_to_flag (item, &cfg_wafl->flags, CFG_WAFL_DIR_CACHE);
+ else if (!strcasecmp(item->key, "GetBufferCache"))
+ cna_config_bool_to_flag (item, &cfg_wafl->flags, CFG_WAFL_BUF_CACHE);
+ else if (!strcasecmp(item->key, "GetInodeCache"))
+ cna_config_bool_to_flag (item, &cfg_wafl->flags, CFG_WAFL_INODE_CACHE);
+ else
+ WARNING ("netapp plugin: The %s config option is not allowed within "
+ "`WAFL' blocks.", item->key);
+ }
+
+ if ((cfg_wafl->flags & CFG_WAFL_ALL) == 0)
+ {
+ NOTICE ("netapp plugin: All WAFL related values have been disabled. "
+ "Collection of WAFL data will be disabled entirely.");
+ free_cfg_wafl (host->cfg_wafl);
+ host->cfg_wafl = NULL;
}
-} /* }}} void cna_config_disk */
-/* Corresponds to a <GetWaflPerfData /> block */
-static void cna_config_wafl(host_config_t *host, oconfig_item_t *ci) { /* {{{ */
+ return (0);
+} /* }}} int cna_config_wafl */
+
+/*
+ * <VolumeUsage>
+ * GetCapacity "vol0"
+ * GetCapacity "vol1"
+ * GetCapacity "vol2"
+ * GetCapacity "vol3"
+ * GetCapacity "vol4"
+ * IgnoreSelectedCapacity false
+ *
+ * GetSnapshot "vol0"
+ * GetSnapshot "vol3"
+ * GetSnapshot "vol4"
+ * GetSnapshot "vol7"
+ * IgnoreSelectedSnapshot false
+ * </VolumeUsage>
+ */
+/* Corresponds to a <VolumeUsage /> block */
+static int cna_config_volume_usage(host_config_t *host, /* {{{ */
+ const oconfig_item_t *ci)
+{
+ cfg_volume_usage_t *cfg_volume_usage;
int i;
- cfg_service_t *service;
- data_wafl_t *perf_wafl;
-
- service = malloc(sizeof(*service));
- if (service == NULL)
- return;
- memset (service, 0, sizeof (*service));
- service->query = 0;
- service->handler = query_wafl_data;
- perf_wafl = service->data = malloc(sizeof(*perf_wafl));
- perf_wafl->flags = CFG_WAFL_ALL;
+ if ((host == NULL) || (ci == NULL))
+ return (EINVAL);
+
+ if (host->cfg_volume_usage == NULL)
+ {
+ cfg_volume_usage = malloc (sizeof (*cfg_volume_usage));
+ if (cfg_volume_usage == NULL)
+ return (ENOMEM);
+ memset (cfg_volume_usage, 0, sizeof (*cfg_volume_usage));
+
+ /* Set default flags */
+ cfg_volume_usage->query = NULL;
+ cfg_volume_usage->volumes = NULL;
+
+ cfg_volume_usage->il_capacity = ignorelist_create (/* invert = */ 1);
+ if (cfg_volume_usage->il_capacity == NULL)
+ {
+ sfree (cfg_volume_usage);
+ return (ENOMEM);
+ }
+
+ cfg_volume_usage->il_snapshot = ignorelist_create (/* invert = */ 1);
+ if (cfg_volume_usage->il_snapshot == NULL)
+ {
+ ignorelist_free (cfg_volume_usage->il_capacity);
+ sfree (cfg_volume_usage);
+ return (ENOMEM);
+ }
+ host->cfg_volume_usage = cfg_volume_usage;
+ }
+ cfg_volume_usage = host->cfg_volume_usage;
+
for (i = 0; i < ci->children_num; ++i) {
oconfig_item_t *item = ci->children + i;
- if (!strcasecmp(item->key, "Multiplier")) {
- cna_config_get_multiplier (item, service);
- } else if (!strcasecmp(item->key, "GetNameCache")) {
- cna_config_bool_to_flag (item, &perf_wafl->flags, CFG_WAFL_NAME_CACHE);
- } else if (!strcasecmp(item->key, "GetDirCache")) {
- cna_config_bool_to_flag (item, &perf_wafl->flags, CFG_WAFL_DIR_CACHE);
- } else if (!strcasecmp(item->key, "GetBufCache")) {
- cna_config_bool_to_flag (item, &perf_wafl->flags, CFG_WAFL_BUF_CACHE);
- } else if (!strcasecmp(item->key, "GetInodeCache")) {
- cna_config_bool_to_flag (item, &perf_wafl->flags, CFG_WAFL_INODE_CACHE);
- } else {
- WARNING ("netapp plugin: The %s config option is not allowed within "
- "`GetWaflPerfData' blocks.", item->key);
- }
+ /* if (!item || !item->key || !*item->key) continue; */
+ if (strcasecmp(item->key, "Interval") == 0)
+ cna_config_get_interval (item, &cfg_volume_usage->interval);
+ else if (!strcasecmp(item->key, "GetCapacity"))
+ cna_config_volume_usage_option (cfg_volume_usage, item);
+ else if (!strcasecmp(item->key, "GetSnapshot"))
+ cna_config_volume_usage_option (cfg_volume_usage, item);
+ else if (!strcasecmp(item->key, "IgnoreSelectedCapacity"))
+ cna_config_volume_usage_default (cfg_volume_usage, item);
+ else if (!strcasecmp(item->key, "IgnoreSelectedSnapshot"))
+ cna_config_volume_usage_default (cfg_volume_usage, item);
+ else
+ WARNING ("netapp plugin: The option %s is not allowed within "
+ "`VolumeUsage' blocks.", item->key);
}
- service->next = host->services;
- host->services = service;
-} /* }}} void cna_config_wafl */
+ return (0);
+} /* }}} int cna_config_volume_usage */
-/* Corresponds to a <GetSystemPerfData /> block */
+/* Corresponds to a <System /> block */
static int cna_config_system (host_config_t *host, /* {{{ */
- oconfig_item_t *ci, const cfg_service_t *default_service)
+ oconfig_item_t *ci)
{
- int i;
- cfg_service_t *service;
cfg_system_t *cfg_system;
+ int i;
- service = malloc(sizeof(*service));
- if (service == NULL)
- return (-1);
- memset (service, 0, sizeof (*service));
- *service = *default_service;
- service->handler = collect_perf_system_data;
+ if ((host == NULL) || (ci == NULL))
+ return (EINVAL);
- cfg_system = malloc(sizeof(*cfg_system));
- if (cfg_system == NULL) {
- sfree (service);
- return (-1);
+ if (host->cfg_system == NULL)
+ {
+ cfg_system = malloc (sizeof (*cfg_system));
+ if (cfg_system == NULL)
+ return (ENOMEM);
+ memset (cfg_system, 0, sizeof (*cfg_system));
+
+ /* Set default flags */
+ cfg_system->flags = CFG_SYSTEM_ALL;
+ cfg_system->query = NULL;
+
+ host->cfg_system = cfg_system;
}
- memset (cfg_system, 0, sizeof (*cfg_system));
- cfg_system->flags = CFG_SYSTEM_ALL;
- service->data = cfg_system;
+ cfg_system = host->cfg_system;
for (i = 0; i < ci->children_num; ++i) {
oconfig_item_t *item = ci->children + i;
- if (!strcasecmp(item->key, "Multiplier")) {
- cna_config_get_multiplier (item, service);
+ if (strcasecmp(item->key, "Interval") == 0) {
+ cna_config_get_interval (item, &cfg_system->interval);
} else if (!strcasecmp(item->key, "GetCPULoad")) {
cna_config_bool_to_flag (item, &cfg_system->flags, CFG_SYSTEM_CPU);
} else if (!strcasecmp(item->key, "GetInterfaces")) {
cna_config_bool_to_flag (item, &cfg_system->flags, CFG_SYSTEM_DISK);
} else {
WARNING ("netapp plugin: The %s config option is not allowed within "
- "`GetSystemPerfData' blocks.", item->key);
+ "`System' blocks.", item->key);
}
}
- service->next = host->services;
- host->services = service;
+ if ((cfg_system->flags & CFG_SYSTEM_ALL) == 0)
+ {
+ NOTICE ("netapp plugin: All system related values have been disabled. "
+ "Collection of system data will be disabled entirely.");
+ free_cfg_system (host->cfg_system);
+ host->cfg_system = NULL;
+ }
return (0);
} /* }}} int cna_config_system */
/* Corresponds to a <Host /> block. */
static host_config_t *cna_config_host (const oconfig_item_t *ci, /* {{{ */
- const host_config_t *default_host, const cfg_service_t *def_def_service)
+ const host_config_t *default_host)
{
oconfig_item_t *item;
- host_config_t *host, *hc;
- cfg_service_t default_service = *def_def_service;
+ host_config_t *host;
int status;
int i;
continue;
}
host->interval = item->values[0].value.number;
- } else if (!strcasecmp(item->key, "GetVolumePerfData")) {
- cna_config_volume_performance(host, item);
- } else if (!strcasecmp(item->key, "GetSystemPerfData")) {
- cna_config_system(host, item, &default_service);
- } else if (!strcasecmp(item->key, "GetWaflPerfData")) {
+ } else if (!strcasecmp(item->key, "WAFL")) {
cna_config_wafl(host, item);
- } else if (!strcasecmp(item->key, "GetDiskPerfData")) {
+ } else if (!strcasecmp(item->key, "Disks")) {
cna_config_disk(host, item);
- } else if (!strcasecmp(item->key, "GetVolumeData")) {
+ } else if (!strcasecmp(item->key, "VolumePerf")) {
+ cna_config_volume_performance(host, item);
+ } else if (!strcasecmp(item->key, "VolumeUsage")) {
cna_config_volume_usage(host, item);
+ } else if (!strcasecmp(item->key, "System")) {
+ cna_config_system(host, item);
} else {
WARNING("netapp plugin: Ignoring unknown config option \"%s\" in host block \"%s\".",
item->key, ci->values[0].value.string);
return (NULL);
}
- for (hc = global_host_config; hc; hc = hc->next) {
- if (!strcasecmp(hc->name, host->name)) WARNING("netapp plugin: Duplicate definition of host \"%s\". This is probably a bad idea.", hc->name);
- }
return host;
} /* }}} host_config_t *cna_config_host */
*/
static int cna_init(void) { /* {{{ */
char err[256];
- na_elem_t *e;
host_config_t *host;
- cfg_service_t *service;
if (!global_host_config) {
WARNING("netapp plugin: Plugin loaded but no hosts defined.");
return 1;
}
+ memset (err, 0, sizeof (err));
if (!na_startup(err, sizeof(err))) {
+ err[sizeof (err) - 1] = 0;
ERROR("netapp plugin: Error initializing netapp API: %s", err);
return 1;
}
for (host = global_host_config; host; host = host->next) {
- host->srv = na_server_open(host->host, 1, 1);
- na_server_set_transport_type(host->srv, host->protocol, 0);
+ /* Request version 1.1 of the ONTAP API */
+ host->srv = na_server_open(host->host,
+ /* major version = */ 1, /* minor version = */ 1);
+ if (host->srv == NULL) {
+ ERROR ("netapp plugin: na_server_open (%s) failed.", host->host);
+ continue;
+ }
+
+ if (host->interval < interval_g)
+ host->interval = interval_g;
+
+ na_server_set_transport_type(host->srv, host->protocol,
+ /* transportarg = */ NULL);
na_server_set_port(host->srv, host->port);
na_server_style(host->srv, NA_STYLE_LOGIN_PASSWORD);
na_server_adminuser(host->srv, host->username, host->password);
- na_server_set_timeout(host->srv, 5);
- for (service = host->services; service; service = service->next) {
- service->interval = host->interval * service->multiplier;
- if (service->handler == collect_perf_system_data) {
- service->query = na_elem_new("perf-object-get-instances");
- na_child_add_string(service->query, "objectname", "system");
- } else if (service->handler == query_volume_perf_data) {
- service->query = na_elem_new("perf-object-get-instances");
- na_child_add_string(service->query, "objectname", "volume");
-/* e = na_elem_new("instances");
- na_child_add_string(e, "foo", "system");
- na_child_add(root, e);*/
- e = na_elem_new("counters");
- na_child_add_string(e, "foo", "read_ops");
- na_child_add_string(e, "foo", "write_ops");
- na_child_add_string(e, "foo", "read_data");
- na_child_add_string(e, "foo", "write_data");
- na_child_add_string(e, "foo", "read_latency");
- na_child_add_string(e, "foo", "write_latency");
- na_child_add(service->query, e);
- } else if (service->handler == query_wafl_data) {
- service->query = na_elem_new("perf-object-get-instances");
- na_child_add_string(service->query, "objectname", "wafl");
-/* e = na_elem_new("instances");
- na_child_add_string(e, "foo", "system");
- na_child_add(root, e);*/
- e = na_elem_new("counters");
- na_child_add_string(e, "foo", "name_cache_hit");
- na_child_add_string(e, "foo", "name_cache_miss");
- na_child_add_string(e, "foo", "find_dir_hit");
- na_child_add_string(e, "foo", "find_dir_miss");
- na_child_add_string(e, "foo", "buf_hash_hit");
- na_child_add_string(e, "foo", "buf_hash_miss");
- na_child_add_string(e, "foo", "inode_cache_hit");
- na_child_add_string(e, "foo", "inode_cache_miss");
- /* na_child_add_string(e, "foo", "inode_eject_time"); */
- /* na_child_add_string(e, "foo", "buf_eject_time"); */
- na_child_add(service->query, e);
- } else if (service->handler == query_submit_disk_data) {
- service->query = na_elem_new("perf-object-get-instances");
- na_child_add_string(service->query, "objectname", "disk");
- e = na_elem_new("counters");
- na_child_add_string(e, "foo", "disk_busy");
- na_child_add_string(e, "foo", "base_for_disk_busy");
- na_child_add(service->query, e);
- } else if (service->handler == collect_volume_data) {
- service->query = na_elem_new("volume-list-info");
- /* na_child_add_string(service->query, "objectname", "volume"); */
- /* } else if (service->handler == collect_snapshot_data) { */
- /* service->query = na_elem_new("snapshot-list-info"); */
- }
- }
+ na_server_set_timeout(host->srv, 5 /* seconds */);
}
return 0;
} /* }}} int cna_init */
int i;
oconfig_item_t *item;
host_config_t default_host = HOST_INIT;
- cfg_service_t default_service = SERVICE_INIT;
for (i = 0; i < ci->children_num; ++i) {
item = ci->children + i;
- /* if (!item || !item->key || !*item->key) continue; */
if (!strcasecmp(item->key, "Host")) {
host_config_t *host;
host_config_t *tmp;
- host = cna_config_host(item, &default_host, &default_service);
+ host = cna_config_host(item, &default_host);
if (host == NULL)
continue;
return 0;
} /* }}} int cna_config */
-static int cna_read(void) { /* {{{ */
- na_elem_t *out;
+static int cna_read (void) { /* {{{ */
host_config_t *host;
- cfg_service_t *service;
for (host = global_host_config; host; host = host->next) {
- for (service = host->services; service; service = service->next) {
- if (--service->skip_countdown > 0) continue;
- service->skip_countdown = service->multiplier;
- out = na_server_invoke_elem(host->srv, service->query);
- if (na_results_status(out) != NA_OK) {
- int netapp_errno = na_results_errno(out);
- ERROR("netapp plugin: Error %d from host %s: %s", netapp_errno, host->name, na_results_reason(out));
- na_elem_free(out);
- if (netapp_errno == EIO || netapp_errno == ETIMEDOUT) {
- /* Network problems. Just give up on all other services on this host. */
- break;
- }
- continue;
- }
- service->handler(host, out, service->data);
- na_elem_free(out);
- }
+ cna_query_wafl (host);
+ cna_query_disk (host);
+ cna_query_volume_perf (host);
+ cna_query_volume_usage (host);
+ cna_query_system (host);
}
return 0;
} /* }}} int cna_read */
+static int cna_shutdown (void) /* {{{ */
+{
+ free_host_config (global_host_config);
+ global_host_config = NULL;
+
+ return (0);
+} /* }}} int cna_shutdown */
+
void module_register(void) {
plugin_register_complex_config("netapp", cna_config);
plugin_register_init("netapp", cna_init);
plugin_register_read("netapp", cna_read);
+ plugin_register_shutdown("netapp", cna_shutdown);
}
/* vim: set sw=2 ts=2 noet fdm=marker : */
projects / collectd.git / blobdiff