src/cmd/venti/srv/icache.c - plan9 - Git at Google

 #include "stdinc.h"
 #include "dat.h"
 #include "fns.h"

 int icacheprefetch = 1;

 typedef struct ICache ICache;
 typedef struct IHash IHash;
 typedef struct ISum ISum;

 struct ICache
 {
 	QLock	lock;
 	Rendez	full;
 	IHash	*hash;
 	IEntry	*entries;
 	int		nentries;

 	/*
 	* gcc 4.3 inlines the pushfirst loop in initicache,
 	* but the inliner incorrectly deduces that
 	* icache.free.next has a constant value
 	* throughout the loop.  (In fact, pushfirst
 	* assigns to it as ie->prev->next.)
 	* Marking it volatile should avoid this bug.
 	* The speed of linked list operations is dwarfed
 	* by the disk i/o anyway.
 	*/
 	volatile IEntry free;

 	IEntry	clean;
 	IEntry	dirty;
 	u32int	maxdirty;
 	u32int	ndirty;
 	AState	as;

 	ISum	**sum;
 	int		nsum;
 	IHash	*shash;
 	IEntry	*sentries;
 	int		nsentries;
 };

 static ICache icache;

 /*
  * Hash table of IEntries
  */

 struct IHash
 {
 	int bits;
 	u32int size;
 	IEntry **table;
 };

 static IHash*
 mkihash(int size1)
 {
 	u32int size;
 	int bits;
 	IHash *ih;

 	bits = 0;
 	size = 1;
 	while(size < size1){
 		bits++;
 		size <<= 1;
 	}

 	ih = vtmallocz(sizeof(IHash)+size*sizeof(ih->table[0]));
 	ih->table = (IEntry**)(ih+1);
 	ih->bits = bits;
 	ih->size = size;
 	return ih;
 }

 static IEntry*
 ihashlookup(IHash *ih, u8int score[VtScoreSize], int type)
 {
 	u32int h;
 	IEntry *ie;

 	h = hashbits(score, ih->bits);
 	for(ie=ih->table[h]; ie; ie=ie->nexthash)
 		if((type == -1 || type == ie->ia.type) && scorecmp(score, ie->score) == 0)
 			return ie;
 	return nil;
 }

 static void
 ihashdelete(IHash *ih, IEntry *ie, char *what)
 {
 	u32int h;
 	IEntry **l;

 	h = hashbits(ie->score, ih->bits);
 	for(l=&ih->table[h]; *l; l=&(*l)->nexthash)
 		if(*l == ie){
 			*l = ie->nexthash;
 			return;
 		}
 	fprint(2, "warning: %s %V not found in ihashdelete\n", what, ie->score);
 }

 static void
 ihashinsert(IHash *ih, IEntry *ie)
 {
 	u32int h;

 	h = hashbits(ie->score, ih->bits);
 	ie->nexthash = ih->table[h];
 	ih->table[h] = ie;
 }


 /*
  * IEntry lists.
  */

 static IEntry*
 popout(IEntry *ie)
 {
 	if(ie->prev == nil && ie->next == nil)
 		return ie;
 	ie->prev->next = ie->next;
 	ie->next->prev = ie->prev;
 	ie->next = nil;
 	ie->prev = nil;
 	return ie;
 }

 static IEntry*
 poplast(volatile IEntry *list)
 {
 	if(list->prev == list)
 		return nil;
 	return popout(list->prev);
 }

 static IEntry*
 pushfirst(volatile IEntry *list, IEntry *ie)
 {
 	popout(ie);
 	ie->prev = (IEntry*)list;
 	ie->next = list->next;
 	ie->prev->next = ie;
 	ie->next->prev = ie;
 	return ie;
 }

 /*
  * Arena summary cache.
  */
 struct ISum
 {
 	QLock	lock;
 	IEntry	*entries;
 	int	nentries;
 	int	loaded;
 	u64int addr;
 	u64int limit;
 	Arena *arena;
 	int g;
 };

 static ISum*
 scachelookup(u64int addr)
 {
 	int i;
 	ISum *s;

 	for(i=0; i<icache.nsum; i++){
 		s = icache.sum[i];
 		if(s->addr <= addr && addr < s->limit){
 			if(i > 0){
 				memmove(icache.sum+1, icache.sum, i*sizeof icache.sum[0]);
 				icache.sum[0] = s;
 			}
 			return s;
 		}
 	}
 	return nil;
 }

 static void
 sumclear(ISum *s)
 {
 	int i;

 	for(i=0; i<s->nentries; i++)
 		ihashdelete(icache.shash, &s->entries[i], "scache");
 	s->nentries = 0;
 	s->loaded = 0;
 	s->addr = 0;
 	s->limit = 0;
 	s->arena = nil;
 	s->g = 0;
 }

 static ISum*
 scacheevict(void)
 {
 	ISum *s;
 	int i;

 	for(i=icache.nsum-1; i>=0; i--){
 		s = icache.sum[i];
 		if(canqlock(&s->lock)){
 			if(i > 0){
 				memmove(icache.sum+1, icache.sum, i*sizeof icache.sum[0]);
 				icache.sum[0] = s;
 			}
 			sumclear(s);
 			return s;
 		}
 	}
 	return nil;
 }

 static void
 scachehit(u64int addr)
 {
 	scachelookup(addr);	/* for move-to-front */
 }

 static void
 scachesetup(ISum *s, u64int addr)
 {
 	u64int addr0, limit;
 	int g;

 	s->arena = amapitoag(mainindex, addr, &addr0, &limit, &g);
 	s->addr = addr0;
 	s->limit = limit;
 	s->g = g;
 }

 static void
 scacheload(ISum *s)
 {
 	int i, n;

 	s->loaded = 1;
 	n = asumload(s->arena, s->g, s->entries, ArenaCIGSize);
 	/*
 	 * n can be less then ArenaCIGSize, either if the clump group
 	 * is the last in the arena and is only partially filled, or if there
 	 * are corrupt clumps in the group -- those are not returned.
 	 */
 	for(i=0; i<n; i++){
 		s->entries[i].ia.addr += s->addr;
 		ihashinsert(icache.shash, &s->entries[i]);
 	}
 //fprint(2, "%T scacheload %s %d - %d entries\n", s->arena->name, s->g, n);
 	addstat(StatScachePrefetch, n);
 	s->nentries = n;
 }

 static ISum*
 scachemiss(u64int addr)
 {
 	ISum *s;

 	if(!icacheprefetch)
 		return nil;
 	s = scachelookup(addr);
 	if(s == nil){
 		/* first time: make an entry in the cache but don't populate it yet */
 		s = scacheevict();
 		if(s == nil)
 			return nil;
 		scachesetup(s, addr);
 		qunlock(&s->lock);
 		return nil;
 	}

 	/* second time: load from disk */
 	qlock(&s->lock);
 	if(s->loaded || !icacheprefetch){
 		qunlock(&s->lock);
 		return nil;
 	}

 	return s;	/* locked */
 }

 /*
  * Index cache.
  */

 void
 initicache(u32int mem0)
 {
 	u32int mem;
 	int i, entries, scache;

 	icache.full.l = &icache.lock;

 	mem = mem0;
 	entries = mem / (sizeof(IEntry)+sizeof(IEntry*));
 	scache = (entries/8) / ArenaCIGSize;
 	entries -= entries/8;
 	if(scache < 4)
 		scache = 4;
 	if(scache > 16)
 		scache = 16;
 	if(entries < 1000)
 		entries = 1000;
 fprint(2, "icache %,d bytes = %,d entries; %d scache\n", mem0, entries, scache);

 	icache.clean.prev = icache.clean.next = &icache.clean;
 	icache.dirty.prev = icache.dirty.next = &icache.dirty;
 	icache.free.prev = icache.free.next = (IEntry*)&icache.free;

 	icache.hash = mkihash(entries);
 	icache.nentries = entries;
 	setstat(StatIcacheSize, entries);
 	icache.entries = vtmallocz(entries*sizeof icache.entries[0]);
 	icache.maxdirty = entries / 2;
 	for(i=0; i<entries; i++)
 		pushfirst(&icache.free, &icache.entries[i]);

 	icache.nsum = scache;
 	icache.sum = vtmallocz(scache*sizeof icache.sum[0]);
 	icache.sum[0] = vtmallocz(scache*sizeof icache.sum[0][0]);
 	icache.nsentries = scache * ArenaCIGSize;
 	icache.sentries = vtmallocz(scache*ArenaCIGSize*sizeof icache.sentries[0]);
 	icache.shash = mkihash(scache*ArenaCIGSize);
 	for(i=0; i<scache; i++){
 		icache.sum[i] = icache.sum[0] + i;
 		icache.sum[i]->entries = icache.sentries + i*ArenaCIGSize;
 	}
 }


 static IEntry*
 evictlru(void)
 {
 	IEntry *ie;

 	ie = poplast(&icache.clean);
 	if(ie == nil)
 		return nil;
 	ihashdelete(icache.hash, ie, "evictlru");
 	return ie;
 }

 static void
 icacheinsert(u8int score[VtScoreSize], IAddr *ia, int state)
 {
 	IEntry *ie;

 	if((ie = poplast(&icache.free)) == nil && (ie = evictlru()) == nil){
 		addstat(StatIcacheStall, 1);
 		while((ie = poplast(&icache.free)) == nil && (ie = evictlru()) == nil){
 			// Could safely return here if state == IEClean.
 			// But if state == IEDirty, have to wait to make
 			// sure we don't lose an index write.
 			// Let's wait all the time.
 			flushdcache();
 			kickicache();
 			rsleep(&icache.full);
 		}
 		addstat(StatIcacheStall, -1);
 	}

 	memmove(ie->score, score, VtScoreSize);
 	ie->state = state;
 	ie->ia = *ia;
 	if(state == IEClean){
 		addstat(StatIcachePrefetch, 1);
 		pushfirst(&icache.clean, ie);
 	}else{
 		addstat(StatIcacheWrite, 1);
 		assert(state == IEDirty);
 		icache.ndirty++;
 		setstat(StatIcacheDirty, icache.ndirty);
 		delaykickicache();
 		pushfirst(&icache.dirty, ie);
 	}
 	ihashinsert(icache.hash, ie);
 }

 int
 icachelookup(u8int score[VtScoreSize], int type, IAddr *ia)
 {
 	IEntry *ie;

 	if(bootstrap)
 		return -1;

 	qlock(&icache.lock);
 	addstat(StatIcacheLookup, 1);
 	if((ie = ihashlookup(icache.hash, score, type)) != nil){
 		*ia = ie->ia;
 		if(ie->state == IEClean)
 			pushfirst(&icache.clean, ie);
 		addstat(StatIcacheHit, 1);
 		qunlock(&icache.lock);
 		return 0;
 	}

 	if((ie = ihashlookup(icache.shash, score, type)) != nil){
 		*ia = ie->ia;
 		icacheinsert(score, &ie->ia, IEClean);
 		scachehit(ie->ia.addr);
 		addstat(StatScacheHit, 1);
 		qunlock(&icache.lock);
 		return 0;
 	}
 	addstat(StatIcacheMiss, 1);
 	qunlock(&icache.lock);

 	return -1;
 }

 int
 insertscore(u8int score[VtScoreSize], IAddr *ia, int state, AState *as)
 {
 	ISum *toload;

 	if(bootstrap)
 		return -1;

 	qlock(&icache.lock);
 	icacheinsert(score, ia, state);
 	if(state == IEClean)
 		toload = scachemiss(ia->addr);
 	else{
 		assert(state == IEDirty);
 		toload = nil;
 		if(as == nil)
 			fprint(2, "%T insertscore IEDirty without as; called from %#p\n",
 				getcallerpc(&score));
 		else{
 			if(icache.as.aa > as->aa)
 				fprint(2, "%T insertscore: aa moving backward: %#llux -> %#llux\n", icache.as.aa, as->aa);
 			icache.as = *as;
 		}
 	}
 	qunlock(&icache.lock);
 	if(toload){
 		scacheload(toload);
 		qunlock(&toload->lock);
 	}

 	if(icache.ndirty >= icache.maxdirty)
 		kickicache();

 	/*
 	 * It's okay not to do this under icache.lock.
 	 * Calling insertscore only happens when we hold
 	 * the lump, meaning any searches for this block
 	 * will hit in the lump cache until after we return.
 	 */
 	if(state == IEDirty)
 		markbloomfilter(mainindex->bloom, score);

 	return 0;
 }

 int
 lookupscore(u8int score[VtScoreSize], int type, IAddr *ia)
 {
 	int ms, ret;
 	IEntry d;

 	if(icachelookup(score, type, ia) >= 0){
 		addstat(StatIcacheRead, 1);
 		return 0;
 	}

 	ms = msec();
 	addstat(StatIcacheFill, 1);
 	if(loadientry(mainindex, score, type, &d) < 0)
 		ret = -1;
 	else{
 		ret = 0;
 		insertscore(score, &d.ia, IEClean, nil);
 		*ia = d.ia;
 	}
 	addstat2(StatIcacheRead, 1, StatIcacheReadTime, msec() - ms);
 	return ret;
 }

 u32int
 hashbits(u8int *sc, int bits)
 {
 	u32int v;

 	v = (sc[0] << 24) | (sc[1] << 16) | (sc[2] << 8) | sc[3];
 	if(bits < 32)
 		 v >>= (32 - bits);
 	return v;
 }

 ulong
 icachedirtyfrac(void)
 {
 	return (vlong)icache.ndirty*IcacheFrac / icache.nentries;
 }

 /*
  * Return a singly-linked list of dirty index entries.
  * with 32-bit hash numbers between lo and hi
  * and address < limit.
  */
 IEntry*
 icachedirty(u32int lo, u32int hi, u64int limit)
 {
 	u32int h;
 	IEntry *ie, *dirty;

 	dirty = nil;
 	trace(TraceProc, "icachedirty enter");
 	qlock(&icache.lock);
 	for(ie = icache.dirty.next; ie != &icache.dirty; ie=ie->next){
 		if(ie->state == IEDirty && ie->ia.addr <= limit){
 			h = hashbits(ie->score, 32);
 			if(lo <= h && h <= hi){
 				ie->nextdirty = dirty;
 				dirty = ie;
 			}
 		}
 	}
 	qunlock(&icache.lock);
 	trace(TraceProc, "icachedirty exit");
 	if(dirty == nil)
 		flushdcache();
 	return dirty;
 }

 AState
 icachestate(void)
 {
 	AState as;

 	qlock(&icache.lock);
 	as = icache.as;
 	qunlock(&icache.lock);
 	return as;
 }

 /*
  * The singly-linked non-circular list of index entries ie
  * has been written to disk.  Move them to the clean list.
  */
 void
 icacheclean(IEntry *ie)
 {
 	IEntry *next;

 	trace(TraceProc, "icacheclean enter");
 	qlock(&icache.lock);
 	for(; ie; ie=next){
 		assert(ie->state == IEDirty);
 		next = ie->nextdirty;
 		ie->nextdirty = nil;
 		popout(ie); /* from icache.dirty */
 		icache.ndirty--;
 		ie->state = IEClean;
 		pushfirst(&icache.clean, ie);
 	}
 	setstat(StatIcacheDirty, icache.ndirty);
 	rwakeupall(&icache.full);
 	qunlock(&icache.lock);
 	trace(TraceProc, "icacheclean exit");
 }

 void
 emptyicache(void)
 {
 	int i;
 	IEntry *ie;
 	ISum *s;

 	qlock(&icache.lock);
 	while((ie = evictlru()) != nil)
 		pushfirst(&icache.free, ie);
 	for(i=0; i<icache.nsum; i++){
 		s = icache.sum[i];
 		qlock(&s->lock);
 		sumclear(s);
 		qunlock(&s->lock);
 	}
 	qunlock(&icache.lock);
 }
	#include "stdinc.h"
	#include "dat.h"
	#include "fns.h"

	int icacheprefetch = 1;

	typedef struct ICache ICache;
	typedef struct IHash IHash;
	typedef struct ISum ISum;

	struct ICache
	{
	QLock lock;
	Rendez full;
	IHash *hash;
	IEntry *entries;
	int nentries;

	/*
	* gcc 4.3 inlines the pushfirst loop in initicache,
	* but the inliner incorrectly deduces that
	* icache.free.next has a constant value
	* throughout the loop. (In fact, pushfirst
	* assigns to it as ie->prev->next.)
	* Marking it volatile should avoid this bug.
	* The speed of linked list operations is dwarfed
	* by the disk i/o anyway.
	*/
	volatile IEntry free;

	IEntry clean;
	IEntry dirty;
	u32int maxdirty;
	u32int ndirty;
	AState as;

	ISum **sum;
	int nsum;
	IHash *shash;
	IEntry *sentries;
	int nsentries;
	};

	static ICache icache;

	/*
	* Hash table of IEntries
	*/

	struct IHash
	{
	int bits;
	u32int size;
	IEntry **table;
	};

	static IHash*
	mkihash(int size1)
	{
	u32int size;
	int bits;
	IHash *ih;

	bits = 0;
	size = 1;
	while(size < size1){
	bits++;
	size <<= 1;
	}

	ih = vtmallocz(sizeof(IHash)+size*sizeof(ih->table[0]));
	ih->table = (IEntry**)(ih+1);
	ih->bits = bits;
	ih->size = size;
	return ih;
	}

	static IEntry*
	ihashlookup(IHash *ih, u8int score[VtScoreSize], int type)
	{
	u32int h;
	IEntry *ie;

	h = hashbits(score, ih->bits);
	for(ie=ih->table[h]; ie; ie=ie->nexthash)
	if((type == -1 \|\| type == ie->ia.type) && scorecmp(score, ie->score) == 0)
	return ie;
	return nil;
	}

	static void
	ihashdelete(IHash ih, IEntry ie, char *what)
	{
	u32int h;
	IEntry **l;

	h = hashbits(ie->score, ih->bits);
	for(l=&ih->table[h]; l; l=&(l)->nexthash)
	if(*l == ie){
	*l = ie->nexthash;
	return;
	}
	fprint(2, "warning: %s %V not found in ihashdelete\n", what, ie->score);
	}

	static void
	ihashinsert(IHash ih, IEntry ie)
	{
	u32int h;

	h = hashbits(ie->score, ih->bits);
	ie->nexthash = ih->table[h];
	ih->table[h] = ie;
	}


	/*
	* IEntry lists.
	*/

	static IEntry*
	popout(IEntry *ie)
	{
	if(ie->prev == nil && ie->next == nil)
	return ie;
	ie->prev->next = ie->next;
	ie->next->prev = ie->prev;
	ie->next = nil;
	ie->prev = nil;
	return ie;
	}

	static IEntry*
	poplast(volatile IEntry *list)
	{
	if(list->prev == list)
	return nil;
	return popout(list->prev);
	}

	static IEntry*
	pushfirst(volatile IEntry list, IEntry ie)
	{
	popout(ie);
	ie->prev = (IEntry*)list;
	ie->next = list->next;
	ie->prev->next = ie;
	ie->next->prev = ie;
	return ie;
	}

	/*
	* Arena summary cache.
	*/
	struct ISum
	{
	QLock lock;
	IEntry *entries;
	int nentries;
	int loaded;
	u64int addr;
	u64int limit;
	Arena *arena;
	int g;
	};

	static ISum*
	scachelookup(u64int addr)
	{
	int i;
	ISum *s;

	for(i=0; i<icache.nsum; i++){
	s = icache.sum[i];
	if(s->addr <= addr && addr < s->limit){
	if(i > 0){
	memmove(icache.sum+1, icache.sum, i*sizeof icache.sum[0]);
	icache.sum[0] = s;
	}
	return s;
	}
	}
	return nil;
	}

	static void
	sumclear(ISum *s)
	{
	int i;

	for(i=0; i<s->nentries; i++)
	ihashdelete(icache.shash, &s->entries[i], "scache");
	s->nentries = 0;
	s->loaded = 0;
	s->addr = 0;
	s->limit = 0;
	s->arena = nil;
	s->g = 0;
	}

	static ISum*
	scacheevict(void)
	{
	ISum *s;
	int i;

	for(i=icache.nsum-1; i>=0; i--){
	s = icache.sum[i];
	if(canqlock(&s->lock)){
	if(i > 0){
	memmove(icache.sum+1, icache.sum, i*sizeof icache.sum[0]);
	icache.sum[0] = s;
	}
	sumclear(s);
	return s;
	}
	}
	return nil;
	}

	static void
	scachehit(u64int addr)
	{
	scachelookup(addr); /* for move-to-front */
	}

	static void
	scachesetup(ISum *s, u64int addr)
	{
	u64int addr0, limit;
	int g;

	s->arena = amapitoag(mainindex, addr, &addr0, &limit, &g);
	s->addr = addr0;
	s->limit = limit;
	s->g = g;
	}

	static void
	scacheload(ISum *s)
	{
	int i, n;

	s->loaded = 1;
	n = asumload(s->arena, s->g, s->entries, ArenaCIGSize);
	/*
	* n can be less then ArenaCIGSize, either if the clump group
	* is the last in the arena and is only partially filled, or if there
	* are corrupt clumps in the group -- those are not returned.
	*/
	for(i=0; i<n; i++){
	s->entries[i].ia.addr += s->addr;
	ihashinsert(icache.shash, &s->entries[i]);
	}
	//fprint(2, "%T scacheload %s %d - %d entries\n", s->arena->name, s->g, n);
	addstat(StatScachePrefetch, n);
	s->nentries = n;
	}

	static ISum*
	scachemiss(u64int addr)
	{
	ISum *s;

	if(!icacheprefetch)
	return nil;
	s = scachelookup(addr);
	if(s == nil){
	/* first time: make an entry in the cache but don't populate it yet */
	s = scacheevict();
	if(s == nil)
	return nil;
	scachesetup(s, addr);
	qunlock(&s->lock);
	return nil;
	}

	/* second time: load from disk */
	qlock(&s->lock);
	if(s->loaded \|\| !icacheprefetch){
	qunlock(&s->lock);
	return nil;
	}

	return s; /* locked */
	}

	/*
	* Index cache.
	*/

	void
	initicache(u32int mem0)
	{
	u32int mem;
	int i, entries, scache;

	icache.full.l = &icache.lock;

	mem = mem0;
	entries = mem / (sizeof(IEntry)+sizeof(IEntry*));
	scache = (entries/8) / ArenaCIGSize;
	entries -= entries/8;
	if(scache < 4)
	scache = 4;
	if(scache > 16)
	scache = 16;
	if(entries < 1000)
	entries = 1000;
	fprint(2, "icache %,d bytes = %,d entries; %d scache\n", mem0, entries, scache);

	icache.clean.prev = icache.clean.next = &icache.clean;
	icache.dirty.prev = icache.dirty.next = &icache.dirty;
	icache.free.prev = icache.free.next = (IEntry*)&icache.free;

	icache.hash = mkihash(entries);
	icache.nentries = entries;
	setstat(StatIcacheSize, entries);
	icache.entries = vtmallocz(entries*sizeof icache.entries[0]);
	icache.maxdirty = entries / 2;
	for(i=0; i<entries; i++)
	pushfirst(&icache.free, &icache.entries[i]);

	icache.nsum = scache;
	icache.sum = vtmallocz(scache*sizeof icache.sum[0]);
	icache.sum[0] = vtmallocz(scache*sizeof icache.sum[0][0]);
	icache.nsentries = scache * ArenaCIGSize;
	icache.sentries = vtmallocz(scacheArenaCIGSizesizeof icache.sentries[0]);
	icache.shash = mkihash(scache*ArenaCIGSize);
	for(i=0; i<scache; i++){
	icache.sum[i] = icache.sum[0] + i;
	icache.sum[i]->entries = icache.sentries + i*ArenaCIGSize;
	}
	}


	static IEntry*
	evictlru(void)
	{
	IEntry *ie;

	ie = poplast(&icache.clean);
	if(ie == nil)
	return nil;
	ihashdelete(icache.hash, ie, "evictlru");
	return ie;
	}

	static void
	icacheinsert(u8int score[VtScoreSize], IAddr *ia, int state)
	{
	IEntry *ie;

	if((ie = poplast(&icache.free)) == nil && (ie = evictlru()) == nil){
	addstat(StatIcacheStall, 1);
	while((ie = poplast(&icache.free)) == nil && (ie = evictlru()) == nil){
	// Could safely return here if state == IEClean.
	// But if state == IEDirty, have to wait to make
	// sure we don't lose an index write.
	// Let's wait all the time.
	flushdcache();
	kickicache();
	rsleep(&icache.full);
	}
	addstat(StatIcacheStall, -1);
	}

	memmove(ie->score, score, VtScoreSize);
	ie->state = state;
	ie->ia = *ia;
	if(state == IEClean){
	addstat(StatIcachePrefetch, 1);
	pushfirst(&icache.clean, ie);
	}else{
	addstat(StatIcacheWrite, 1);
	assert(state == IEDirty);
	icache.ndirty++;
	setstat(StatIcacheDirty, icache.ndirty);
	delaykickicache();
	pushfirst(&icache.dirty, ie);
	}
	ihashinsert(icache.hash, ie);
	}

	int
	icachelookup(u8int score[VtScoreSize], int type, IAddr *ia)
	{
	IEntry *ie;

	if(bootstrap)
	return -1;

	qlock(&icache.lock);
	addstat(StatIcacheLookup, 1);
	if((ie = ihashlookup(icache.hash, score, type)) != nil){
	*ia = ie->ia;
	if(ie->state == IEClean)
	pushfirst(&icache.clean, ie);
	addstat(StatIcacheHit, 1);
	qunlock(&icache.lock);
	return 0;
	}

	if((ie = ihashlookup(icache.shash, score, type)) != nil){
	*ia = ie->ia;
	icacheinsert(score, &ie->ia, IEClean);
	scachehit(ie->ia.addr);
	addstat(StatScacheHit, 1);
	qunlock(&icache.lock);
	return 0;
	}
	addstat(StatIcacheMiss, 1);
	qunlock(&icache.lock);

	return -1;
	}

	int
	insertscore(u8int score[VtScoreSize], IAddr ia, int state, AState as)
	{
	ISum *toload;

	if(bootstrap)
	return -1;

	qlock(&icache.lock);
	icacheinsert(score, ia, state);
	if(state == IEClean)
	toload = scachemiss(ia->addr);
	else{
	assert(state == IEDirty);
	toload = nil;
	if(as == nil)
	fprint(2, "%T insertscore IEDirty without as; called from %#p\n",
	getcallerpc(&score));
	else{
	if(icache.as.aa > as->aa)
	fprint(2, "%T insertscore: aa moving backward: %#llux -> %#llux\n", icache.as.aa, as->aa);
	icache.as = *as;
	}
	}
	qunlock(&icache.lock);
	if(toload){
	scacheload(toload);
	qunlock(&toload->lock);
	}

	if(icache.ndirty >= icache.maxdirty)
	kickicache();

	/*
	* It's okay not to do this under icache.lock.
	* Calling insertscore only happens when we hold
	* the lump, meaning any searches for this block
	* will hit in the lump cache until after we return.
	*/
	if(state == IEDirty)
	markbloomfilter(mainindex->bloom, score);

	return 0;
	}

	int
	lookupscore(u8int score[VtScoreSize], int type, IAddr *ia)
	{
	int ms, ret;
	IEntry d;

	if(icachelookup(score, type, ia) >= 0){
	addstat(StatIcacheRead, 1);
	return 0;
	}

	ms = msec();
	addstat(StatIcacheFill, 1);
	if(loadientry(mainindex, score, type, &d) < 0)
	ret = -1;
	else{
	ret = 0;
	insertscore(score, &d.ia, IEClean, nil);
	*ia = d.ia;
	}
	addstat2(StatIcacheRead, 1, StatIcacheReadTime, msec() - ms);
	return ret;
	}

	u32int
	hashbits(u8int *sc, int bits)
	{
	u32int v;

	v = (sc[0] << 24) \| (sc[1] << 16) \| (sc[2] << 8) \| sc[3];
	if(bits < 32)
	v >>= (32 - bits);
	return v;
	}

	ulong
	icachedirtyfrac(void)
	{
	return (vlong)icache.ndirty*IcacheFrac / icache.nentries;
	}

	/*
	* Return a singly-linked list of dirty index entries.
	* with 32-bit hash numbers between lo and hi
	* and address < limit.
	*/
	IEntry*
	icachedirty(u32int lo, u32int hi, u64int limit)
	{
	u32int h;
	IEntry ie, dirty;

	dirty = nil;
	trace(TraceProc, "icachedirty enter");
	qlock(&icache.lock);
	for(ie = icache.dirty.next; ie != &icache.dirty; ie=ie->next){
	if(ie->state == IEDirty && ie->ia.addr <= limit){
	h = hashbits(ie->score, 32);
	if(lo <= h && h <= hi){
	ie->nextdirty = dirty;
	dirty = ie;
	}
	}
	}
	qunlock(&icache.lock);
	trace(TraceProc, "icachedirty exit");
	if(dirty == nil)
	flushdcache();
	return dirty;
	}

	AState
	icachestate(void)
	{
	AState as;

	qlock(&icache.lock);
	as = icache.as;
	qunlock(&icache.lock);
	return as;
	}

	/*
	* The singly-linked non-circular list of index entries ie
	* has been written to disk. Move them to the clean list.
	*/
	void
	icacheclean(IEntry *ie)
	{
	IEntry *next;

	trace(TraceProc, "icacheclean enter");
	qlock(&icache.lock);
	for(; ie; ie=next){
	assert(ie->state == IEDirty);
	next = ie->nextdirty;
	ie->nextdirty = nil;
	popout(ie); /* from icache.dirty */
	icache.ndirty--;
	ie->state = IEClean;
	pushfirst(&icache.clean, ie);
	}
	setstat(StatIcacheDirty, icache.ndirty);
	rwakeupall(&icache.full);
	qunlock(&icache.lock);
	trace(TraceProc, "icacheclean exit");
	}

	void
	emptyicache(void)
	{
	int i;
	IEntry *ie;
	ISum *s;

	qlock(&icache.lock);
	while((ie = evictlru()) != nil)
	pushfirst(&icache.free, ie);
	for(i=0; i<icache.nsum; i++){
	s = icache.sum[i];
	qlock(&s->lock);
	sumclear(s);
	qunlock(&s->lock);
	}
	qunlock(&icache.lock);
	}