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#include "glib_slice.h"
#ifdef DEBUG_CACHE
#include <stdio.h>
#endif
#include <string.h>
#include "debug.h"
#include "cache.h"
struct cache_entry {
int usage;
unsigned int size;
struct cache_entry_list *where;
struct cache_entry *next;
struct cache_entry *prev;
int id[0];
};
struct cache_entry_list {
struct cache_entry *first, *last;
int size;
};
struct cache {
struct cache_entry_list t1,b1,t2,b2,*insert;
int size,id_size,entry_size;
int t1_target;
unsigned int misses;
unsigned int hits;
GHashTable *hash;
};
static void cache_entry_dump(struct cache *cache, struct cache_entry *entry) {
int i,size;
dbg(lvl_debug,"Usage: %d size %d",entry->usage, entry->size);
if (cache)
size=cache->id_size;
else
size=5;
for (i = 0 ; i < size ; i++) {
dbg(lvl_debug,"0x%x", entry->id[i]);
}
}
static void cache_list_dump(char *str, struct cache *cache, struct cache_entry_list *list) {
struct cache_entry *first=list->first;
dbg(lvl_debug,"dump %s %d",str, list->size);
while (first) {
cache_entry_dump(cache, first);
first=first->next;
}
}
static guint cache_hash4(gconstpointer key) {
int *id=(int *)key;
return id[0];
}
static guint cache_hash20(gconstpointer key) {
int *id=(int *)key;
return id[0]^id[1]^id[2]^id[3]^id[4];
}
static gboolean cache_equal4(gconstpointer a, gconstpointer b) {
int *ida=(int *)a;
int *idb=(int *)b;
return ida[0] == idb[0];
}
static gboolean cache_equal20(gconstpointer a, gconstpointer b) {
int *ida=(int *)a;
int *idb=(int *)b;
return(ida[0] == idb[0] &&
ida[1] == idb[1] &&
ida[2] == idb[2] &&
ida[3] == idb[3] &&
ida[4] == idb[4]);
}
struct cache *
cache_new(int id_size, int size) {
struct cache *cache=g_new0(struct cache, 1);
cache->id_size=id_size/4;
cache->entry_size=cache->id_size*sizeof(int)+sizeof(struct cache_entry);
cache->size=size;
switch (id_size) {
case 4:
cache->hash=g_hash_table_new(cache_hash4, cache_equal4);
break;
case 20:
cache->hash=g_hash_table_new(cache_hash20, cache_equal20);
break;
default:
dbg(lvl_error,"cache with id_size of %d not supported", id_size);
g_free(cache);
cache=NULL;
}
return cache;
}
void cache_resize(struct cache *cache, int size) {
cache->size=size;
}
static void cache_insert_mru(struct cache *cache, struct cache_entry_list *list, struct cache_entry *entry) {
entry->prev=NULL;
entry->next=list->first;
entry->where=list;
if (entry->next)
entry->next->prev=entry;
list->first=entry;
if (! list->last)
list->last=entry;
list->size+=entry->size;
if (cache)
g_hash_table_insert(cache->hash, (gpointer)entry->id, entry);
}
static void cache_remove_from_list(struct cache_entry_list *list, struct cache_entry *entry) {
if (entry->prev)
entry->prev->next=entry->next;
else
list->first=entry->next;
if (entry->next)
entry->next->prev=entry->prev;
else
list->last=entry->prev;
list->size-=entry->size;
}
static void cache_remove(struct cache *cache, struct cache_entry *entry) {
dbg(lvl_debug,"remove 0x%x 0x%x 0x%x 0x%x 0x%x", entry->id[0], entry->id[1], entry->id[2], entry->id[3], entry->id[4]);
g_hash_table_remove(cache->hash, (gpointer)(entry->id));
g_slice_free1(entry->size, entry);
}
static struct cache_entry *cache_remove_lru_helper(struct cache_entry_list *list) {
struct cache_entry *last=list->last;
if (! last)
return NULL;
list->last=last->prev;
if (last->prev)
last->prev->next=NULL;
else
list->first=NULL;
list->size-=last->size;
return last;
}
static struct cache_entry *cache_remove_lru(struct cache *cache, struct cache_entry_list *list) {
struct cache_entry *last;
int seen=0;
while (list->last && list->last->usage && seen < list->size) {
last=cache_remove_lru_helper(list);
cache_insert_mru(NULL, list, last);
seen+=last->size;
}
last=list->last;
if (! last || last->usage || seen >= list->size)
return NULL;
dbg(lvl_debug,"removing %d", last->id[0]);
cache_remove_lru_helper(list);
if (cache) {
cache_remove(cache, last);
return NULL;
}
return last;
}
void *cache_entry_new(struct cache *cache, void *id, int size) {
struct cache_entry *ret;
size+=cache->entry_size;
cache->misses+=size;
ret=(struct cache_entry *)g_slice_alloc0(size);
ret->size=size;
ret->usage=1;
memcpy(ret->id, id, cache->id_size*sizeof(int));
return &ret->id[cache->id_size];
}
void cache_entry_destroy(struct cache *cache, void *data) {
struct cache_entry *entry=(struct cache_entry *)((char *)data-cache->entry_size);
dbg(lvl_debug,"destroy 0x%x 0x%x 0x%x 0x%x 0x%x", entry->id[0], entry->id[1], entry->id[2], entry->id[3], entry->id[4]);
entry->usage--;
}
static struct cache_entry *cache_trim(struct cache *cache, struct cache_entry *entry) {
struct cache_entry *new_entry;
dbg(lvl_debug,"trim 0x%x 0x%x 0x%x 0x%x 0x%x", entry->id[0], entry->id[1], entry->id[2], entry->id[3], entry->id[4]);
dbg(lvl_debug,"Trim %x from %d -> %d", entry->id[0], entry->size, cache->size);
if ( cache->entry_size < entry->size ) {
g_hash_table_remove(cache->hash, (gpointer)(entry->id));
new_entry = g_slice_alloc0(cache->entry_size);
memcpy(new_entry, entry, cache->entry_size);
g_slice_free1( entry->size, entry);
new_entry->size = cache->entry_size;
g_hash_table_insert(cache->hash, (gpointer)new_entry->id, new_entry);
} else {
new_entry = entry;
}
return new_entry;
}
static struct cache_entry *cache_move(struct cache *cache, struct cache_entry_list *old, struct cache_entry_list *new) {
struct cache_entry *entry;
entry=cache_remove_lru(NULL, old);
if (! entry)
return NULL;
entry=cache_trim(cache, entry);
cache_insert_mru(NULL, new, entry);
return entry;
}
static int cache_replace(struct cache *cache) {
if (cache->t1.size >= MAX(1,cache->t1_target)) {
dbg(lvl_debug,"replace 12");
if (!cache_move(cache, &cache->t1, &cache->b1))
cache_move(cache, &cache->t2, &cache->b2);
} else {
dbg(lvl_debug,"replace t2");
if (!cache_move(cache, &cache->t2, &cache->b2))
cache_move(cache, &cache->t1, &cache->b1);
}
#if 0
if (! entry) {
cache_dump(cache);
exit(0);
}
#endif
return 1;
}
void cache_flush(struct cache *cache, void *id) {
struct cache_entry *entry=g_hash_table_lookup(cache->hash, id);
if (entry) {
cache_remove_from_list(entry->where, entry);
cache_remove(cache, entry);
}
}
void cache_flush_data(struct cache *cache, void *data) {
struct cache_entry *entry=(struct cache_entry *)((char *)data-cache->entry_size);
if (entry) {
cache_remove_from_list(entry->where, entry);
cache_remove(cache, entry);
}
}
void *cache_lookup(struct cache *cache, void *id) {
struct cache_entry *entry;
dbg(lvl_debug,"get %d", ((int *)id)[0]);
entry=g_hash_table_lookup(cache->hash, id);
if (entry == NULL) {
cache->insert=&cache->t1;
#ifdef DEBUG_CACHE
fprintf(stderr,"-");
#endif
dbg(lvl_debug,"not in cache");
return NULL;
}
dbg(lvl_debug,"found 0x%x 0x%x 0x%x 0x%x 0x%x", entry->id[0], entry->id[1], entry->id[2], entry->id[3], entry->id[4]);
if (entry->where == &cache->t1 || entry->where == &cache->t2) {
cache->hits+=entry->size;
#ifdef DEBUG_CACHE
if (entry->where == &cache->t1)
fprintf(stderr,"h");
else
fprintf(stderr,"H");
#endif
dbg(lvl_debug,"in cache %s", entry->where == &cache->t1 ? "T1" : "T2");
cache_remove_from_list(entry->where, entry);
cache_insert_mru(NULL, &cache->t2, entry);
entry->usage++;
return &entry->id[cache->id_size];
} else {
if (entry->where == &cache->b1) {
#ifdef DEBUG_CACHE
fprintf(stderr,"m");
#endif
dbg(lvl_debug,"in phantom cache B1");
cache->t1_target=MIN(cache->t1_target+MAX(cache->b2.size/cache->b1.size, 1),cache->size);
cache_remove_from_list(&cache->b1, entry);
} else if (entry->where == &cache->b2) {
#ifdef DEBUG_CACHE
fprintf(stderr,"M");
#endif
dbg(lvl_debug,"in phantom cache B2");
cache->t1_target=MAX(cache->t1_target-MAX(cache->b1.size/cache->b2.size, 1),0);
cache_remove_from_list(&cache->b2, entry);
} else {
dbg(lvl_error,"**ERROR** invalid where");
}
cache_replace(cache);
cache_remove(cache, entry);
cache->insert=&cache->t2;
return NULL;
}
}
void cache_insert(struct cache *cache, void *data) {
struct cache_entry *entry=(struct cache_entry *)((char *)data-cache->entry_size);
dbg(lvl_debug,"insert 0x%x 0x%x 0x%x 0x%x 0x%x", entry->id[0], entry->id[1], entry->id[2], entry->id[3], entry->id[4]);
if (cache->insert == &cache->t1) {
if (cache->t1.size + cache->b1.size >= cache->size) {
if (cache->t1.size < cache->size) {
cache_remove_lru(cache, &cache->b1);
cache_replace(cache);
} else {
cache_remove_lru(cache, &cache->t1);
}
} else {
if (cache->t1.size + cache->t2.size + cache->b1.size + cache->b2.size >= cache->size) {
if (cache->t1.size + cache->t2.size + cache->b1.size + cache->b2.size >= 2*cache->size)
cache_remove_lru(cache, &cache->b2);
cache_replace(cache);
}
}
}
cache_insert_mru(cache, cache->insert, entry);
}
void *cache_insert_new(struct cache *cache, void *id, int size) {
void *data=cache_entry_new(cache, id, size);
cache_insert(cache, data);
return data;
}
static void cache_stats(struct cache *cache) {
dbg(lvl_debug,"hits %d misses %d hitratio %d size %d entry_size %d id_size %d T1 target %d", cache->hits, cache->misses,
cache->hits*100/(cache->hits+cache->misses), cache->size, cache->entry_size, cache->id_size, cache->t1_target);
dbg(lvl_debug,"T1:%d B1:%d T2:%d B2:%d", cache->t1.size, cache->b1.size, cache->t2.size, cache->b2.size);
cache->hits=0;
cache->misses=0;
}
void cache_dump(struct cache *cache) {
cache_stats(cache);
cache_list_dump("T1", cache, &cache->t1);
cache_list_dump("B1", cache, &cache->b1);
cache_list_dump("T2", cache, &cache->t2);
cache_list_dump("B2", cache, &cache->b2);
dbg(lvl_debug,"dump end");
}
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