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count_helpers.c
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count_helpers.c
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#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <linux/const.h>
#include <linux/refcount.h>
#include <linux/rblist.h>
#include <monitor.h>
#include <count_helpers.h>
struct count_dist {
struct rblist dist;
bool ins;
bool id;
bool key;
int hist_size;
u64 max;
};
static int count_dist_node_cmp(struct rb_node *rbn, const void *entry)
{
struct count_node *n = rb_entry(rbn, struct count_node, rbn);
const struct count_node *e = entry;
const struct count_dist *dist = e->dist;
if (dist->ins) {
if (n->ins > e->ins)
return 1;
else if (n->ins < e->ins)
return -1;
}
if (dist->id) {
if (n->id > e->id)
return 1;
else if (n->id < e->id)
return -1;
}
if (dist->key) {
if (n->key > e->key)
return 1;
else if (n->key < e->key)
return -1;
}
return 0;
}
static struct rb_node *count_dist_node_new(struct rblist *rlist, const void *new_entry)
{
struct count_dist *dist = container_of(rlist, struct count_dist, dist);
const struct count_node *e = new_entry;
struct count_node *n = malloc(sizeof(*n) + sizeof(u64) * dist->hist_size);
if (n) {
memset(n, 0, sizeof(*n) + sizeof(u64) * dist->hist_size);
RB_CLEAR_NODE(&n->rbn);
n->ins = e->ins;
n->id = e->id;
n->key = e->key;
return &n->rbn;
} else
return NULL;
}
static void count_dist_node_delete(struct rblist *rblist, struct rb_node *rb_node)
{
struct count_node *n = rb_entry(rb_node, struct count_node, rbn);
free(n);
}
struct count_dist *count_dist_new(bool ins, bool id, bool key, int hist_size)
{
struct count_dist *dist;
dist = malloc(sizeof(*dist));
if (!dist)
return NULL;
dist->ins = ins;
dist->id = id;
dist->key = key;
dist->hist_size = hist_size;
dist->max = 0;
rblist__init(&dist->dist);
dist->dist.node_cmp = count_dist_node_cmp;
dist->dist.node_new = count_dist_node_new;
dist->dist.node_delete = count_dist_node_delete;
return dist;
}
void count_dist_free(struct count_dist *dist)
{
if (dist) {
rblist__exit(&dist->dist);
free(dist);
}
}
void count_dist_input(struct count_dist *dist, u64 ins, u64 id, u64 key, u64 count)
{
struct count_node e = {
.dist = dist,
.ins = dist->ins ? ins : 0UL,
.id = dist->id ? id : 0UL,
.key = dist->key ? key : 0UL,
};
struct rb_node *rbn = NULL;
struct count_node *n = NULL;
if (!dist)
return ;
rbn = rblist__findnew(&dist->dist, &e);
if (rbn) {
n = rb_entry(rbn, struct count_node, rbn);
n->hist[n->hist_len] += count;
if (n->max < n->hist[n->hist_len])
n->max = n->hist[n->hist_len];
if (dist->max < n->hist[n->hist_len])
dist->max = n->hist[n->hist_len];
n->sum += count;
n->hist_len = (n->hist_len + 1) % dist->hist_size;
}
}
void count_dist_insert(struct count_dist *dist, u64 ins, u64 id, u64 key, u64 i, u64 count)
{
struct count_node e = {
.dist = dist,
.ins = dist->ins ? ins : 0UL,
.id = dist->id ? id : 0UL,
.key = dist->key ? key : 0UL,
};
struct rb_node *rbn = NULL;
struct count_node *n = NULL;
if (!dist)
return ;
rbn = rblist__findnew(&dist->dist, &e);
if (rbn) {
n = rb_entry(rbn, struct count_node, rbn);
i %= dist->hist_size;
n->hist[i] += count;
if (n->max < n->hist[i])
n->max = n->hist[i];
if (dist->max < n->hist[i])
dist->max = n->hist[i];
n->sum += count;
if (i > n->hist_len)
n->hist_len = i;
}
}
void count_dist_print(struct count_dist *dist, print_count_node printnode, void *opaque)
{
struct rb_node *node = NULL;
struct count_node *n = NULL;
if (!dist)
return;
if (rblist__empty(&dist->dist))
return;
for (node = rb_first_cached(&dist->dist.entries); node;
node = rb_next(node)) {
n = rb_entry(node, struct count_node, rbn);
printnode(opaque, n);
}
}
u64 count_dist_max(struct count_dist *dist)
{
return dist ? dist->max : 0;
}
void count_dist_reset(struct count_dist *dist)
{
if (!dist)
return;
rblist__exit(&dist->dist);
dist->max = 0;
}
bool count_dist_empty(struct count_dist *dist)
{
if (!dist)
return true;
return rblist__empty(&dist->dist);
}