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cache.c
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cache.c
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/* CACHE.C (C) Copyright Greg Smith, 2002-2012 */
/* Dynamic cache manager for multi-threaded applications */
/* */
/* Released under "The Q Public License Version 1" */
/* (http://www.hercules-390.org/herclic.html) as modifications to */
/* Hercules. */
//FIXME ?? Dynamic resizing is disabled
#include "hstdinc.h"
#define _CACHE_C_
#define _HDASD_DLL_
#include "hercules.h"
static int cache_create (int ix);
static int cache_destroy (int ix);
static int cache_check_ix(int ix);
static int cache_check_cache(int ix);
static int cache_check(int ix, int i);
static int cache_isbusy(int ix, int i);
static int cache_isempty(int ix, int i);
static void cache_allocbuf(int ix, int i, int len);
DISABLE_GCC_UNUSED_FUNCTION_WARNING;
/*-------------------------------------------------------------------*/
/* The master cache blocks array controlled by sysblk.dasdcache_lock */
/*-------------------------------------------------------------------*/
static CACHEBLK cacheblk[ CACHE_MAX_INDEX ] = {0};
#define OBTAIN_GLOBAL_CACHE_LOCK() obtain_lock( &sysblk.dasdcache_lock )
#define RELEASE_GLOBAL_CACHE_LOCK() release_lock( &sysblk.dasdcache_lock )
/*-------------------------------------------------------------------*/
/* Public functions */
/*-------------------------------------------------------------------*/
int cache_nbr (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].nbr;
}
int cache_busy (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].busy;
}
int cache_empty (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].empty;
}
int cache_waiters (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].waiters;
}
S64 cache_size (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].size;
}
S64 cache_hits (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].hits;
}
S64 cache_misses (int ix)
{
if (cache_check_ix(ix)) return -1;
return cacheblk[ix].misses;
}
int cache_busy_percent (int ix)
{
if (cache_check_ix(ix)) return -1;
return (cacheblk[ix].busy * 100) / cacheblk[ix].nbr;
}
int cache_empty_percent (int ix)
{
if (cache_check_ix(ix)) return -1;
return (cacheblk[ix].empty * 100) / cacheblk[ix].nbr;
}
int cache_hit_percent (int ix)
{
S64 total;
if (cache_check_ix(ix)) return -1;
total = cacheblk[ix].hits + cacheblk[ix].misses;
if (total == 0) return -1;
return (int)((cacheblk[ix].hits * 100) / total);
}
int cache_lookup (int ix, U64 key, int *oldest_entry)
{
int i,p;
if (oldest_entry)
*oldest_entry = -1;
if (cache_check_ix(ix))
return -1;
/* `p' is the preferred index */
p = (int)(key % cacheblk[ix].nbr);
if (cacheblk[ix].cache[p].key == key)
{
i = p;
if (!cache_isempty(ix, i))
{
cacheblk[ix].fasthits++;
}
}
else
{
if (cache_isbusy(ix, p) || cacheblk[ix].age - cacheblk[ix].cache[p].age < 20)
p = -2;
for (i = 0; i < cacheblk[ix].nbr; i++)
{
if (cacheblk[ix].cache[i].key == key) break;
if (oldest_entry && !cache_isbusy(ix, i)
&& (*oldest_entry < 0 || i == p || cacheblk[ix].cache[i].age < cacheblk[ix].cache[*oldest_entry].age))
if (*oldest_entry != p) *oldest_entry = i;
}
}
if (i >= cacheblk[ix].nbr)
{
i = -1;
}
else if ( i >= 0 && cache_isempty(ix, i) )
{
if ( oldest_entry && *oldest_entry < 0 )
{
*oldest_entry = i;
}
i = -1;
}
if ( i >= 0 )
{
cacheblk[ix].hits++;
}
else
{
cacheblk[ix].misses++;
}
return i;
}
int cache_scan (int ix, CACHE_SCAN_RTN rtn, void *data)
{
int i; /* Cache index */
int rc; /* Return code */
int answer = -1; /* Answer from routine */
if (cache_check_ix(ix)) return -1;
for (i = 0; i < cacheblk[ix].nbr; i++) {
rc = (rtn)(&answer, ix, i, data);
if (rc != 0) break;
}
return answer;
}
int cache_lock(int ix)
{
if (cache_check_cache(ix)) return -1;
obtain_lock(&cacheblk[ix].lock);
return 0;
}
int cache_unlock(int ix)
{
if (cache_check_ix(ix)) return -1;
release_lock(&cacheblk[ix].lock);
if (cacheblk[ix].empty == cacheblk[ix].nbr)
cache_destroy(ix);
return 0;
}
int cache_wait(int ix)
{
if (cache_check_ix(ix)) return -1;
if (cacheblk[ix].busy < cacheblk[ix].nbr)
return 0;
cacheblk[ix].waiters++; cacheblk[ix].waits++;
#if FALSE
{
struct timeval now;
struct timespec tm;
gettimeofday (&now, NULL);
tm.tv_sec = now.tv_sec;
tm.tv_nsec = (now.tv_usec + CACHE_WAITTIME) * 1000;
tm.tv_sec += tm.tv_nsec / 1000000000;
tm.tv_nsec = tm.tv_nsec % 1000000000;
timed_wait_condition(&cacheblk[ix].waitcond, &cacheblk[ix].lock, &tm);
}
#else
wait_condition(&cacheblk[ix].waitcond, &cacheblk[ix].lock);
#endif
cacheblk[ix].waiters--;
return 0;
}
U64 cache_getkey(int ix, int i)
{
if (cache_check(ix,i)) return (U64)-1;
return cacheblk[ix].cache[i].key;
}
U64 cache_setkey(int ix, int i, U64 key)
{
U64 oldkey;
int empty;
if (cache_check(ix,i)) return (U64)-1;
empty = cache_isempty(ix, i);
oldkey = cacheblk[ix].cache[i].key;
cacheblk[ix].cache[i].key = key;
if (empty && !cache_isempty(ix, i))
cacheblk[ix].empty--;
else if (!empty && cache_isempty(ix, i))
cacheblk[ix].empty++;
return oldkey;
}
U32 cache_getflag(int ix, int i)
{
if (cache_check(ix,i)) return (U32)-1;
return cacheblk[ix].cache[i].flag;
}
U32 cache_setflag(int ix, int i, U32 andbits, U32 orbits)
{
U32 oldflags;
int empty;
int busy;
if (cache_check(ix,i)) return (U32)-1;
empty = cache_isempty(ix, i);
busy = cache_isbusy(ix, i);
oldflags = cacheblk[ix].cache[i].flag;
cacheblk[ix].cache[i].flag &= andbits;
cacheblk[ix].cache[i].flag |= orbits;
if (!cache_isbusy(ix, i) && cacheblk[ix].waiters > 0)
signal_condition(&cacheblk[ix].waitcond);
if (busy && !cache_isbusy(ix, i))
cacheblk[ix].busy--;
else if (!busy && cache_isbusy(ix, i))
cacheblk[ix].busy++;
if (empty && !cache_isempty(ix, i))
cacheblk[ix].empty--;
else if (!empty && cache_isempty(ix, i))
cacheblk[ix].empty++;
return oldflags;
}
U64 cache_getage(int ix, int i)
{
if (cache_check(ix,i)) return (U64)-1;
return cacheblk[ix].cache[i].age;
}
U64 cache_setage(int ix, int i)
{
U64 oldage;
int empty;
if (cache_check(ix,i)) return (U64)-1;
empty = cache_isempty(ix, i);
oldage = cacheblk[ix].cache[i].age;
cacheblk[ix].cache[i].age = ++cacheblk[ix].age;
if (empty) cacheblk[ix].empty--;
return oldage;
}
void *cache_getbuf(int ix, int i, int len)
{
if (cache_check(ix,i)) return NULL;
if (len > 0
&& cacheblk[ix].cache[i].buf != NULL
&& cacheblk[ix].cache[i].len < len) {
cacheblk[ix].size -= cacheblk[ix].cache[i].len;
free (cacheblk[ix].cache[i].buf);
cacheblk[ix].cache[i].buf = NULL;
cacheblk[ix].cache[i].len = 0;
}
if (cacheblk[ix].cache[i].buf == NULL && len > 0)
cache_allocbuf (ix, i, len);
return cacheblk[ix].cache[i].buf;
}
void *cache_setbuf(int ix, int i, void *buf, int len)
{
void *oldbuf;
if (cache_check(ix,i)) return NULL;
oldbuf = cacheblk[ix].cache[i].buf;
cacheblk[ix].size -= cacheblk[ix].cache[i].len;
cacheblk[ix].cache[i].buf = buf;
cacheblk[ix].cache[i].len = len;
cacheblk[ix].size += len;
return oldbuf;
}
int cache_getlen(int ix, int i)
{
if (cache_check(ix,i)) return -1;
return cacheblk[ix].cache[i].len;
}
int cache_getval(int ix, int i)
{
if (cache_check(ix,i)) return -1;
return cacheblk[ix].cache[i].value;
}
int cache_setval(int ix, int i, int val)
{
int rc;
if (cache_check(ix,i)) return -1;
rc = cacheblk[ix].cache[i].value;
cacheblk[ix].cache[i].value = val;
return rc;
}
int cache_release(int ix, int i, int flag)
{
void *buf;
int len;
int empty;
int busy;
if (cache_check(ix,i)) return -1;
empty = cache_isempty(ix, i);
busy = cache_isbusy(ix, i);
buf = cacheblk[ix].cache[i].buf;
len = cacheblk[ix].cache[i].len;
memset(&cacheblk[ix].cache[i], 0, sizeof(CACHE));
if ((flag & CACHE_FREEBUF) && buf != NULL) {
free (buf);
cacheblk[ix].size -= len;
buf = NULL;
len = 0;
}
cacheblk[ix].cache[i].buf = buf;
cacheblk[ix].cache[i].len = len;
if (cacheblk[ix].waiters > 0)
signal_condition(&cacheblk[ix].waitcond);
if (!empty) cacheblk[ix].empty++;
if (busy) cacheblk[ix].busy--;
return 0;
}
DLL_EXPORT int cachestats_cmd(int argc, char *argv[], char *cmdline)
{
int ix, i;
char buf[128];
UNREFERENCED(cmdline);
UNREFERENCED(argc);
UNREFERENCED(argv);
OBTAIN_GLOBAL_CACHE_LOCK();
for (ix = 0; ix < CACHE_MAX_INDEX; ix++)
{
if (cacheblk[ix].magic != CACHE_MAGIC)
{
MSGBUF(buf, "Cache[%d] ....... not created", ix);
WRMSG(HHC02294, "I", buf);
continue;
}
MSGBUF( buf, "Cache............ %10d", ix);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "nbr ............. %10d", cacheblk[ix].nbr);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "busy ............ %10d", cacheblk[ix].busy);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "busy%% ........... %10d",cache_busy_percent(ix));
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "empty ........... %10d", cacheblk[ix].empty);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "waiters ......... %10d", cacheblk[ix].waiters);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "waits ........... %10d", cacheblk[ix].waits);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "buf size ........ %10"PRId64, cacheblk[ix].size);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "hits ............ %10"PRId64, cacheblk[ix].hits);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "fast hits ....... %10"PRId64, cacheblk[ix].fasthits);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "misses .......... %10"PRId64, cacheblk[ix].misses);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "hit%% ............ %10d", cache_hit_percent(ix));
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "age ............. %10"PRId64, cacheblk[ix].age);
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "last adjusted ... %s", cacheblk[ix].atime == 0 ? "none\n" : ctime(&cacheblk[ix].atime));
buf[strlen(buf)-1] = '\0';
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "last wait ....... %s", cacheblk[ix].wtime == 0 ? "none\n" : ctime(&cacheblk[ix].wtime));
buf[strlen(buf)-1] = '\0';
WRMSG(HHC02294, "I", buf);
MSGBUF( buf, "adjustments ..... %10d", cacheblk[ix].adjusts);
WRMSG(HHC02294, "I", buf);
if (argc > 1)
{
for (i = 0; i < cacheblk[ix].nbr; i++)
{
MSGBUF( buf, "[%4d] %16.16"PRIx64" %8.8x %10p %6d %10"PRId64,
i, cacheblk[ix].cache[i].key, cacheblk[ix].cache[i].flag,
cacheblk[ix].cache[i].buf, cacheblk[ix].cache[i].len,
cacheblk[ix].cache[i].age);
WRMSG(HHC02294, "I", buf);
}
}
}
RELEASE_GLOBAL_CACHE_LOCK();
return 0;
}
/*-------------------------------------------------------------------*/
/* Private functions */
/*-------------------------------------------------------------------*/
static int cache_destroy_locked (int ix)
{
int i;
if (cacheblk[ix].magic == CACHE_MAGIC)
{
destroy_lock (&cacheblk[ix].lock);
destroy_condition (&cacheblk[ix].waitcond);
if (cacheblk[ix].cache)
{
for (i = 0; i < cacheblk[ix].nbr; i++)
cache_release(ix, i, CACHE_FREEBUF);
free (cacheblk[ix].cache);
}
}
memset(&cacheblk[ix], 0, sizeof(CACHEBLK));
return 0;
}
static int cache_create_locked( int ix )
{
cache_destroy_locked (ix);
cacheblk[ix].magic = CACHE_MAGIC;
// FIXME: See the note in cache.h about CACHE_DEFAULT_L2_NBR
cacheblk[ix].nbr = ix != CACHE_L2 ? CACHE_DEFAULT_NBR
: CACHE_DEFAULT_L2_NBR;
cacheblk[ix].empty = cacheblk[ix].nbr;
initialize_lock (&cacheblk[ix].lock);
initialize_condition (&cacheblk[ix].waitcond);
cacheblk[ix].cache = calloc (cacheblk[ix].nbr, sizeof(CACHE));
if (cacheblk[ix].cache == NULL)
{
// "Function %s failed; cache %d size %d: [%02d] %s"
WRMSG (HHC00011, "E", "cache()", ix,
(int)(cacheblk[ix].nbr * (int)sizeof(CACHE)),
errno, strerror(errno));
return -1;
}
return 0;
}
static int cache_destroy (int ix)
{
int rc;
OBTAIN_GLOBAL_CACHE_LOCK();
{
rc = cache_destroy_locked(ix);
}
RELEASE_GLOBAL_CACHE_LOCK();
return rc;
}
static int cache_create (int ix)
{
int rc;
OBTAIN_GLOBAL_CACHE_LOCK();
{
rc = cache_create_locked(ix);
}
RELEASE_GLOBAL_CACHE_LOCK();
return rc;
}
static int cache_check_ix(int ix)
{
if (ix < 0 || ix >= CACHE_MAX_INDEX) return -1;
return 0;
}
static int cache_check_cache(int ix)
{
int rc;
OBTAIN_GLOBAL_CACHE_LOCK();
{
rc = cache_check_ix(ix) ||
(cacheblk[ix].magic != CACHE_MAGIC && cache_create_locked(ix));
}
RELEASE_GLOBAL_CACHE_LOCK();
return rc;
}
static int cache_check(int ix, int i)
{
if (cache_check_ix(ix) || i < 0 || i >= cacheblk[ix].nbr)
return -1;
return 0;
}
static int cache_isbusy(int ix, int i)
{
return ((cacheblk[ix].cache[i].flag & CACHE_BUSY) != 0);
}
static int cache_isempty(int ix, int i)
{
return (cacheblk[ix].cache[i].key == 0
&& cacheblk[ix].cache[i].flag == 0
&& cacheblk[ix].cache[i].age == 0);
}
static void cache_allocbuf(int ix, int i, int len)
{
cacheblk[ix].cache[i].buf = calloc (len, 1);
if (cacheblk[ix].cache[i].buf == NULL) {
WRMSG (HHC00011, "E", "calloc()", ix, len, errno, strerror(errno));
WRMSG (HHC00012, "W");
for (i = 0; i < cacheblk[ix].nbr; i++)
if (!cache_isbusy(ix, i)) cache_release(ix, i, CACHE_FREEBUF);
cacheblk[ix].cache[i].buf = calloc (len, 1);
if (cacheblk[ix].cache[i].buf == NULL) {
WRMSG (HHC00011, "E", "calloc()", ix, len, errno, strerror(errno));
return;
}
}
cacheblk[ix].cache[i].len = len;
cacheblk[ix].size += len;
}