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#include <u.h>
#include <libc.h>
#include <diskfs.h>
/*
* Disk cache. Caches by offset, so higher levels have
* to deal with alignment issues (if we get asked for the
* blocks at offsets 0 and 1, we'll do two reads.
*/
typedef struct DiskCache DiskCache;
typedef struct DiskCacheBlock DiskCacheBlock;
struct DiskCache
{
Disk disk;
Disk *subdisk;
DiskCacheBlock **h;
DiskCacheBlock *lruhead;
DiskCacheBlock *lrutail;
int nhash;
int blocksize;
Lock lk;
};
struct DiskCacheBlock
{
Block block;
Block *subblock;
Lock lk;
int ref;
DiskCache *dc;
DiskCacheBlock *next;
DiskCacheBlock *lrunext;
DiskCacheBlock *lruprev;
u64int offset;
};
static void
addtohash(DiskCache *d, DiskCacheBlock *b, u64int offset)
{
int h;
if(b->offset != ~(u64int)0){
fprint(2, "bad offset in addtohash\n");
return;
}
b->offset = offset;
h = offset % d->nhash;
b->next = d->h[h];
d->h[h] = b;
}
static void
delfromhash(DiskCache *d, DiskCacheBlock *b)
{
int h;
DiskCacheBlock **l;
if(b->offset == ~(u64int)0)
return;
h = b->offset % d->nhash;
for(l=&d->h[h]; *l; l=&(*l)->next)
if(*l == b){
*l = b->next;
b->offset = ~(u64int)0;
return;
}
fprint(2, "delfromhash: didn't find in hash table\n");
return;
}
static void
putmru(DiskCache *d, DiskCacheBlock *b)
{
b->lruprev = nil;
b->lrunext = d->lruhead;
d->lruhead = b;
if(b->lrunext == nil)
d->lrutail = b;
else
b->lrunext->lruprev = b;
}
static void
putlru(DiskCache *d, DiskCacheBlock *b)
{
b->lruprev = d->lrutail;
b->lrunext = nil;
d->lrutail = b;
if(b->lruprev == nil)
d->lruhead = b;
else
b->lruprev->lrunext = b;
}
static void
delfromlru(DiskCache *d, DiskCacheBlock *b)
{
if(b->lruprev)
b->lruprev->lrunext = b->lrunext;
else
d->lruhead = b->lrunext;
if(b->lrunext)
b->lrunext->lruprev = b->lruprev;
else
d->lrutail = b->lruprev;
}
static DiskCacheBlock*
getlru(DiskCache *d)
{
DiskCacheBlock *b;
b = d->lrutail;
if(b){
delfromlru(d, b);
delfromhash(d, b);
blockput(b->subblock);
b->subblock = nil;
}
return b;
}
static DiskCacheBlock*
findblock(DiskCache *d, u64int offset)
{
int h;
DiskCacheBlock *b;
h = offset % d->nhash;
for(b=d->h[h]; b; b=b->next)
if(b->offset == offset)
return b;
return nil;
}
static DiskCacheBlock*
diskcachereadbig(DiskCache *d, u64int offset)
{
Block *b;
DiskCacheBlock *dcb;
lock(&d->lk);
dcb = findblock(d, offset);
if(dcb){
/*fprint(2, "found %llud in cache %p\n", (uvlong)offset, dcb);*/
if(dcb->ref++ == 0)
delfromlru(d, dcb);
unlock(&d->lk);
return dcb;
}
dcb = getlru(d);
unlock(&d->lk);
if(dcb == nil){
fprint(2, "diskcacheread: all blocks in use\n");
return nil;
}
b = diskread(d->subdisk, d->blocksize, offset);
lock(&d->lk);
if(b == nil){
putlru(d, dcb);
dcb = nil;
}else{
/*fprint(2, "read %llud from disk %p\n", (uvlong)offset, dcb); */
dcb->subblock = b;
dcb->ref++;
addtohash(d, dcb, offset);
}
unlock(&d->lk);
return dcb;
}
static void
diskcacheblockclose(Block *bb)
{
DiskCacheBlock *b = bb->priv;
lock(&b->dc->lk);
if(--b->ref == 0)
putmru(b->dc, b);
unlock(&b->dc->lk);
free(bb);
}
static Block*
diskcacheread(Disk *dd, u32int len, u64int offset)
{
int frag, dlen;
DiskCache *d = (DiskCache*)dd;
DiskCacheBlock *dcb;
Block *b;
if(offset/d->blocksize != (offset+len-1)/d->blocksize){
fprint(2, "diskBigRead: request for block crossing big block boundary\n");
return nil;
}
b = mallocz(sizeof(Block), 1);
if(b == nil)
return nil;
frag = offset%d->blocksize;
dcb = diskcachereadbig(d, offset-frag);
if(dcb == nil){
free(b);
return nil;
}
b->priv = dcb;
b->_close = diskcacheblockclose;
b->data = dcb->subblock->data+frag;
dlen = dcb->subblock->len;
if(frag+len >= dlen){
if(frag >= dlen){
blockput(b);
return nil;
}
len = dlen-frag;
}
b->len = len;
/*fprint(2, "offset %llud at pointer %p %lux\n", (uvlong)offset, b->data, *(ulong*)(b->data+4)); */
return b;
}
/*
* It's okay to remove these from the hash table.
* Either the block is in use by someone or it is on
* the lru list. If it's in use it will get put on the lru
* list once the refs go away.
*/
static int
diskcachesync(Disk *dd)
{
DiskCache *d = (DiskCache*)dd;
DiskCacheBlock *b, *nextb;
int i;
lock(&d->lk);
for(i=0; i<d->nhash; i++){
for(b=d->h[i]; b; b=nextb){
nextb = b->next;
b->next = nil;
b->offset = ~(u64int)0;
}
d->h[i] = nil;
}
unlock(&d->lk);
return disksync(d->subdisk);
}
static void
diskcacheclose(Disk *dd)
{
DiskCacheBlock *b;
DiskCache *d = (DiskCache*)dd;
diskclose(d->subdisk);
for(b=d->lruhead; b; b=b->lrunext)
blockput(b->subblock);
free(d);
}
/* needn't be fast */
static int
isprime(int n)
{
int i;
for(i=2; i*i<=n; i++)
if(n%i == 0)
return 0;
return 1;
}
Disk*
diskcache(Disk *subdisk, uint blocksize, uint ncache)
{
int nhash, i;
DiskCache *d;
DiskCacheBlock *b;
nhash = ncache;
while(nhash > 1 && !isprime(nhash))
nhash--;
d = mallocz(sizeof(DiskCache)+ncache*sizeof(DiskCacheBlock)+nhash*sizeof(DiskCacheBlock*), 1);
if(d == nil)
return nil;
b = (DiskCacheBlock*)&d[1];
d->h = (DiskCacheBlock**)&b[ncache];
d->nhash = nhash;
d->blocksize = blocksize;
d->subdisk = subdisk;
d->disk._read = diskcacheread;
d->disk._sync = diskcachesync;
d->disk._close = diskcacheclose;
for(i=0; i<ncache; i++){
b[i].block._close = diskcacheblockclose;
b[i].offset = ~(u64int)0;
b[i].dc = d;
putlru(d, &b[i]);
}
return &d->disk;
}
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