basekernel/kernel/bcache.c

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2024-10-14 23:07:50 +02:00
/*
Copyright (C) 2015-2019 The University of Notre Dame
This software is distributed under the GNU General Public License.
See the file LICENSE for details.
*/
#include "bcache.h"
#include "list.h"
#include "page.h"
#include "kmalloc.h"
#include "string.h"
#include "kernel/error.h"
struct bcache_entry {
struct list_node node;
struct device *device;
int block;
int dirty;
char *data;
};
static struct list cache = LIST_INIT;
static struct bcache_stats stats = {0};
static int max_cache_size = 100;
struct bcache_entry * bcache_entry_create( struct device *device, int block )
{
struct bcache_entry *e = kmalloc(sizeof(*e));
if(!e) return 0;
e->device = device;
e->block = block;
e->data = page_alloc(1);
if(!e->data) {
kfree(e);
return 0;
}
return e;
}
void bcache_entry_delete( struct bcache_entry *e )
{
if(e) {
if(e->data) page_free(e->data);
kfree(e);
}
}
void bcache_entry_clean( struct bcache_entry *e )
{
if(e->dirty) {
device_write(e->device,e->data,1,e->block);
// XXX How to deal with failure here?
e->dirty = 0;
stats.writebacks++;
}
}
void bcache_trim()
{
struct bcache_entry *e;
while(list_size(&cache)>max_cache_size) {
e = (struct bcache_entry *) list_pop_tail(&cache);
bcache_entry_clean(e);
bcache_entry_delete(e);
}
}
struct bcache_entry * bcache_find( struct device *device, int block )
{
struct list_node *n;
struct bcache_entry *e;
for(n=cache.head;n;n=n->next) {
e = (struct bcache_entry *)n;
if(e->device==device && e->block==block) {
return e;
}
}
return 0;
}
struct bcache_entry * bcache_find_or_create( struct device *device, int block, int *was_a_hit )
{
struct bcache_entry *e = bcache_find(device,block);
if(e) {
*was_a_hit = 1;
} else {
*was_a_hit = 0;
e = bcache_entry_create(device,block);
if(!e) return 0;
list_push_head(&cache,&e->node);
}
bcache_trim();
return e;
}
int bcache_read_block( struct device *device, char *data, int block )
{
int hit=0;
int result;
struct bcache_entry *e = bcache_find_or_create(device,block,&hit);
if(!e) return KERROR_OUT_OF_MEMORY;
if(hit) {
stats.read_hits++;
result = 1;
} else {
stats.read_misses++;
result = device_read(device,e->data,1,block);
}
if(result>0) {
memcpy(data,e->data,device_block_size(device));
} else {
list_remove(&e->node);
bcache_entry_delete(e);
}
return result;
}
int bcache_read( struct device *device, char *data, int blocks, int offset )
{
int i,r;
int count = 0;
int bs = device_block_size(device);
for(i=0;i<blocks;i++) {
r = bcache_read_block(device,&data[i*bs],offset+i);
if(r<1) break;
count++;
}
if(count>0) {
return count;
} else {
return r;
}
}
int bcache_write_block( struct device *device, const char *data, int block )
{
int hit;
struct bcache_entry *e = bcache_find_or_create(device,block,&hit);
if(!e) return KERROR_OUT_OF_MEMORY;
if(hit) {
stats.write_hits++;
} else {
stats.write_misses++;
}
memcpy(e->data,data,device_block_size(device));
e->dirty = 1;
return 1;
}
int bcache_write( struct device *device, const char *data, int blocks, int offset )
{
int i,r;
int count = 0;
int bs = device_block_size(device);
for(i=0;i<blocks;i++) {
r = bcache_write_block(device,&data[i*bs],offset+i);
if(r<1) break;
count++;
}
if(count>0) {
return count;
} else {
return r;
}
}
void bcache_flush_block( struct device *device, int block )
{
struct bcache_entry *e;
e = bcache_find(device,block);
if(e) bcache_entry_clean(e);
}
void bcache_flush_device( struct device *device )
{
struct list_node *n;
struct bcache_entry *e;
for(n=cache.head;n;n=n->next) {
e = (struct bcache_entry *) n;
if(e->device==device) {
bcache_entry_clean(e);
}
}
}
void bcache_flush_all()
{
struct list_node *n;
struct bcache_entry *e;
for(n=cache.head;n;n=n->next) {
e = (struct bcache_entry *) n;
bcache_entry_clean(e);
}
}
void bcache_get_stats( struct bcache_stats *s )
{
memcpy(s,&stats,sizeof(*s));
}