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

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

 typedef struct AHash	AHash;

 /*
  * hash table for finding arena's based on their names.
  */
 struct AHash
 {
 	AHash	*next;
 	Arena	*arena;
 };

 enum
 {
 	AHashSize	= 512
 };

 static AHash	*ahash[AHashSize];

 static u32int
 hashstr(char *s)
 {
 	u32int h;
 	int c;

 	h = 0;
 	for(; c = *s; s++){
 		c ^= c << 6;
 		h += (c << 11) ^ (c >> 1);
 		c = *s;
 		h ^= (c << 14) + (c << 7) + (c << 4) + c;
 	}
 	return h;
 }

 int
 addarena(Arena *arena)
 {
 	AHash *a;
 	u32int h;

 	h = hashstr(arena->name) & (AHashSize - 1);
 	a = MK(AHash);
 	if(a == nil)
 		return -1;
 	a->arena = arena;
 	a->next = ahash[h];
 	ahash[h] = a;
 	return 0;
 }

 Arena*
 findarena(char *name)
 {
 	AHash *a;
 	u32int h;

 	h = hashstr(name) & (AHashSize - 1);
 	for(a = ahash[h]; a != nil; a = a->next)
 		if(strcmp(a->arena->name, name) == 0)
 			return a->arena;
 	return nil;
 }

 int
 delarena(Arena *arena)
 {
 	AHash *a, *last;
 	u32int h;

 	h = hashstr(arena->name) & (AHashSize - 1);
 	last = nil;
 	for(a = ahash[h]; a != nil; a = a->next){
 		if(a->arena == arena){
 			if(last != nil)
 				last->next = a->next;
 			else
 				ahash[h] = a->next;
 			free(a);
 			return 0;
 		}
 		last = a;
 	}
 	return -1;
 }

 ArenaPart*
 initarenapart(Part *part)
 {
 	AMapN amn;
 	ArenaPart *ap;
 	ZBlock *b;
 	u32int i;
 	int ok;

 	b = alloczblock(HeadSize, 0, 0);
 	if(b == nil || readpart(part, PartBlank, b->data, HeadSize) < 0){
 		seterr(EAdmin, "can't read arena partition header: %r");
 		return nil;
 	}

 	ap = MKZ(ArenaPart);
 	if(ap == nil){
 		freezblock(b);
 		return nil;
 	}
 	ap->part = part;
 	ok = unpackarenapart(ap, b->data);
 	freezblock(b);
 	if(ok < 0){
 		freearenapart(ap, 0);
 		return nil;
 	}

 	ap->tabbase = (PartBlank + HeadSize + ap->blocksize - 1) & ~(ap->blocksize - 1);
 	if(ap->version != ArenaPartVersion){
 		seterr(ECorrupt, "unknown arena partition version %d", ap->version);
 		freearenapart(ap, 0);
 		return nil;
 	}
 	if(ap->blocksize & (ap->blocksize - 1)){
 		seterr(ECorrupt, "illegal non-power-of-2 block size %d\n", ap->blocksize);
 		freearenapart(ap, 0);
 		return nil;
 	}
 	if(ap->tabbase >= ap->arenabase){
 		seterr(ECorrupt, "arena partition table overlaps with arena storage");
 		freearenapart(ap, 0);
 		return nil;
 	}
 	ap->tabsize = ap->arenabase - ap->tabbase;
 	partblocksize(part, ap->blocksize);
 	ap->size = ap->part->size & ~(u64int)(ap->blocksize - 1);

 	if(readarenamap(&amn, part, ap->tabbase, ap->tabsize) < 0){
 		freearenapart(ap, 0);
 		return nil;
 	}
 	ap->narenas = amn.n;
 	ap->map = amn.map;
 	if(okamap(ap->map, ap->narenas, ap->arenabase, ap->size, "arena table") < 0){
 		freearenapart(ap, 0);
 		return nil;
 	}

 	ap->arenas = MKNZ(Arena*, ap->narenas);
 	for(i = 0; i < ap->narenas; i++){
 		debugarena = i;
 		ap->arenas[i] = initarena(part, ap->map[i].start, ap->map[i].stop - ap->map[i].start, ap->blocksize);
 		if(ap->arenas[i] == nil){
 			seterr(ECorrupt, "%s: %r", ap->map[i].name);
 			freearenapart(ap, 1);
 			return nil;
 		}
 		if(namecmp(ap->map[i].name, ap->arenas[i]->name) != 0){
 			seterr(ECorrupt, "arena name mismatches with expected name: %s vs. %s",
 				ap->map[i].name, ap->arenas[i]->name);
 			freearenapart(ap, 1);
 			return nil;
 		}
 		if(findarena(ap->arenas[i]->name)){
 			seterr(ECorrupt, "duplicate arena name %s in %s",
 				ap->map[i].name, ap->part->name);
 			freearenapart(ap, 1);
 			return nil;
 		}
 	}

 	for(i = 0; i < ap->narenas; i++) {
 		debugarena = i;
 		addarena(ap->arenas[i]);
 	}
 	debugarena = -1;

 	return ap;
 }

 ArenaPart*
 newarenapart(Part *part, u32int blocksize, u32int tabsize)
 {
 	ArenaPart *ap;

 	if(blocksize & (blocksize - 1)){
 		seterr(ECorrupt, "illegal non-power-of-2 block size %d\n", blocksize);
 		return nil;
 	}
 	ap = MKZ(ArenaPart);
 	if(ap == nil)
 		return nil;

 	ap->version = ArenaPartVersion;
 	ap->part = part;
 	ap->blocksize = blocksize;
 	partblocksize(part, blocksize);
 	ap->size = part->size & ~(u64int)(blocksize - 1);
 	ap->tabbase = (PartBlank + HeadSize + blocksize - 1) & ~(blocksize - 1);
 	ap->arenabase = (ap->tabbase + tabsize + blocksize - 1) & ~(blocksize - 1);
 	ap->tabsize = ap->arenabase - ap->tabbase;
 	ap->narenas = 0;

 	if(wbarenapart(ap) < 0){
 		freearenapart(ap, 0);
 		return nil;
 	}

 	return ap;
 }

 int
 wbarenapart(ArenaPart *ap)
 {
 	ZBlock *b;

 	if(okamap(ap->map, ap->narenas, ap->arenabase, ap->size, "arena table") < 0)
 		return -1;
 	b = alloczblock(HeadSize, 1, 0);
 	if(b == nil)
 /* ZZZ set error message? */
 		return -1;

 	if(packarenapart(ap, b->data) < 0){
 		seterr(ECorrupt, "can't make arena partition header: %r");
 		freezblock(b);
 		return -1;
 	}
 	if(writepart(ap->part, PartBlank, b->data, HeadSize) < 0 ||
 	   flushpart(ap->part) < 0){
 		seterr(EAdmin, "can't write arena partition header: %r");
 		freezblock(b);
 		return -1;
 	}
 	freezblock(b);

 	return wbarenamap(ap->map, ap->narenas, ap->part, ap->tabbase, ap->tabsize);
 }

 void
 freearenapart(ArenaPart *ap, int freearenas)
 {
 	int i;

 	if(ap == nil)
 		return;
 	if(freearenas){
 		for(i = 0; i < ap->narenas; i++){
 			if(ap->arenas[i] == nil)
 				continue;
 			delarena(ap->arenas[i]);
 			freearena(ap->arenas[i]);
 		}
 	}
 	free(ap->map);
 	free(ap->arenas);
 	free(ap);
 }

 int
 okamap(AMap *am, int n, u64int start, u64int stop, char *what)
 {
 	u64int last;
 	u32int i;

 	last = start;
 	for(i = 0; i < n; i++){
 		if(am[i].start < last){
 			if(i == 0)
 				seterr(ECorrupt, "invalid start address in %s", what);
 			else
 				seterr(ECorrupt, "overlapping ranges in %s", what);
 			return -1;
 		}
 		if(am[i].stop < am[i].start){
 			seterr(ECorrupt, "invalid range in %s", what);
 			return -1;
 		}
 		last = am[i].stop;
 	}
 	if(last > stop){
 		seterr(ECorrupt, "invalid ending address in %s", what);
 		return -1;
 	}
 	return 0;
 }

 int
 maparenas(AMap *am, Arena **arenas, int n, char *what)
 {
 	u32int i;

 	for(i = 0; i < n; i++){
 		arenas[i] = findarena(am[i].name);
 		if(arenas[i] == nil){
 			seterr(EAdmin, "can't find arena '%s' for '%s'\n", am[i].name, what);
 			return -1;
 		}
 	}
 	return 0;
 }

 int
 readarenamap(AMapN *amn, Part *part, u64int base, u32int size)
 {
 	IFile f;
 	u32int ok;

 	if(partifile(&f, part, base, size) < 0)
 		return -1;
 	ok = parseamap(&f, amn);
 	freeifile(&f);
 	return ok;
 }

 int
 wbarenamap(AMap *am, int n, Part *part, u64int base, u64int size)
 {
 	Fmt f;
 	ZBlock *b;

 	b = alloczblock(size, 1, part->blocksize);
 	if(b == nil)
 		return -1;

 	fmtzbinit(&f, b);

 	if(outputamap(&f, am, n) < 0){
 		seterr(ECorrupt, "arena set size too small");
 		freezblock(b);
 		return -1;
 	}
 	if(writepart(part, base, b->data, size) < 0 || flushpart(part) < 0){
 		seterr(EAdmin, "can't write arena set: %r");
 		freezblock(b);
 		return -1;
 	}
 	freezblock(b);
 	return 0;
 }

 /*
  * amap: n '\n' amapelem * n
  * n: u32int
  * amapelem: name '\t' astart '\t' astop '\n'
  * astart, astop: u64int
  */
 int
 parseamap(IFile *f, AMapN *amn)
 {
 	AMap *am;
 	u64int v64;
 	u32int v;
 	char *s, *t, *flds[4];
 	int i, n;

 	/*
 	 * arenas
 	 */
 	if(ifileu32int(f, &v) < 0){
 		seterr(ECorrupt, "syntax error: bad number of elements in %s", f->name);
 		return -1;
 	}
 	n = v;
 	if(n > MaxAMap){
 		seterr(ECorrupt, "illegal number of elements %d in %s",
 			n, f->name);
 		return -1;
 	}
 	am = MKNZ(AMap, n);
 	if(am == nil){
 		fprint(2, "out of memory\n");
 		return -1;
 	}
 	for(i = 0; i < n; i++){
 		s = ifileline(f);
 		if(s)
 			t = estrdup(s);
 		else
 			t = nil;
 		if(s == nil || getfields(s, flds, 4, 0, "\t") != 3){
 			fprint(2, "early eof after %d of %d, %s:#%d: %s\n", i, n, f->name, f->pos, t);
 			free(t);
 			return -1;
 		}
 		free(t);
 		if(nameok(flds[0]) < 0)
 			return -1;
 		namecp(am[i].name, flds[0]);
 		if(stru64int(flds[1], &v64) < 0){
 			seterr(ECorrupt, "syntax error: bad arena base address in %s", f->name);
 			free(am);
 			return -1;
 		}
 		am[i].start = v64;
 		if(stru64int(flds[2], &v64) < 0){
 			seterr(ECorrupt, "syntax error: bad arena size in %s", f->name);
 			free(am);
 			return -1;
 		}
 		am[i].stop = v64;
 	}

 	amn->map = am;
 	amn->n = n;
 	return 0;
 }

 int
 outputamap(Fmt *f, AMap *am, int n)
 {
 	int i;

 	if(fmtprint(f, "%ud\n", n) < 0)
 		return -1;
 	for(i = 0; i < n; i++)
 		if(fmtprint(f, "%s\t%llud\t%llud\n", am[i].name, am[i].start, am[i].stop) < 0)
 			return -1;
 	return 0;
 }
	#include "stdinc.h"
	#include "dat.h"
	#include "fns.h"

	typedef struct AHash AHash;

	/*
	* hash table for finding arena's based on their names.
	*/
	struct AHash
	{
	AHash *next;
	Arena *arena;
	};

	enum
	{
	AHashSize = 512
	};

	static AHash *ahash[AHashSize];

	static u32int
	hashstr(char *s)
	{
	u32int h;
	int c;

	h = 0;
	for(; c = *s; s++){
	c ^= c << 6;
	h += (c << 11) ^ (c >> 1);
	c = *s;
	h ^= (c << 14) + (c << 7) + (c << 4) + c;
	}
	return h;
	}

	int
	addarena(Arena *arena)
	{
	AHash *a;
	u32int h;

	h = hashstr(arena->name) & (AHashSize - 1);
	a = MK(AHash);
	if(a == nil)
	return -1;
	a->arena = arena;
	a->next = ahash[h];
	ahash[h] = a;
	return 0;
	}

	Arena*
	findarena(char *name)
	{
	AHash *a;
	u32int h;

	h = hashstr(name) & (AHashSize - 1);
	for(a = ahash[h]; a != nil; a = a->next)
	if(strcmp(a->arena->name, name) == 0)
	return a->arena;
	return nil;
	}

	int
	delarena(Arena *arena)
	{
	AHash a, last;
	u32int h;

	h = hashstr(arena->name) & (AHashSize - 1);
	last = nil;
	for(a = ahash[h]; a != nil; a = a->next){
	if(a->arena == arena){
	if(last != nil)
	last->next = a->next;
	else
	ahash[h] = a->next;
	free(a);
	return 0;
	}
	last = a;
	}
	return -1;
	}

	ArenaPart*
	initarenapart(Part *part)
	{
	AMapN amn;
	ArenaPart *ap;
	ZBlock *b;
	u32int i;
	int ok;

	b = alloczblock(HeadSize, 0, 0);
	if(b == nil \|\| readpart(part, PartBlank, b->data, HeadSize) < 0){
	seterr(EAdmin, "can't read arena partition header: %r");
	return nil;
	}

	ap = MKZ(ArenaPart);
	if(ap == nil){
	freezblock(b);
	return nil;
	}
	ap->part = part;
	ok = unpackarenapart(ap, b->data);
	freezblock(b);
	if(ok < 0){
	freearenapart(ap, 0);
	return nil;
	}

	ap->tabbase = (PartBlank + HeadSize + ap->blocksize - 1) & ~(ap->blocksize - 1);
	if(ap->version != ArenaPartVersion){
	seterr(ECorrupt, "unknown arena partition version %d", ap->version);
	freearenapart(ap, 0);
	return nil;
	}
	if(ap->blocksize & (ap->blocksize - 1)){
	seterr(ECorrupt, "illegal non-power-of-2 block size %d\n", ap->blocksize);
	freearenapart(ap, 0);
	return nil;
	}
	if(ap->tabbase >= ap->arenabase){
	seterr(ECorrupt, "arena partition table overlaps with arena storage");
	freearenapart(ap, 0);
	return nil;
	}
	ap->tabsize = ap->arenabase - ap->tabbase;
	partblocksize(part, ap->blocksize);
	ap->size = ap->part->size & ~(u64int)(ap->blocksize - 1);

	if(readarenamap(&amn, part, ap->tabbase, ap->tabsize) < 0){
	freearenapart(ap, 0);
	return nil;
	}
	ap->narenas = amn.n;
	ap->map = amn.map;
	if(okamap(ap->map, ap->narenas, ap->arenabase, ap->size, "arena table") < 0){
	freearenapart(ap, 0);
	return nil;
	}

	ap->arenas = MKNZ(Arena*, ap->narenas);
	for(i = 0; i < ap->narenas; i++){
	debugarena = i;
	ap->arenas[i] = initarena(part, ap->map[i].start, ap->map[i].stop - ap->map[i].start, ap->blocksize);
	if(ap->arenas[i] == nil){
	seterr(ECorrupt, "%s: %r", ap->map[i].name);
	freearenapart(ap, 1);
	return nil;
	}
	if(namecmp(ap->map[i].name, ap->arenas[i]->name) != 0){
	seterr(ECorrupt, "arena name mismatches with expected name: %s vs. %s",
	ap->map[i].name, ap->arenas[i]->name);
	freearenapart(ap, 1);
	return nil;
	}
	if(findarena(ap->arenas[i]->name)){
	seterr(ECorrupt, "duplicate arena name %s in %s",
	ap->map[i].name, ap->part->name);
	freearenapart(ap, 1);
	return nil;
	}
	}

	for(i = 0; i < ap->narenas; i++) {
	debugarena = i;
	addarena(ap->arenas[i]);
	}
	debugarena = -1;

	return ap;
	}

	ArenaPart*
	newarenapart(Part *part, u32int blocksize, u32int tabsize)
	{
	ArenaPart *ap;

	if(blocksize & (blocksize - 1)){
	seterr(ECorrupt, "illegal non-power-of-2 block size %d\n", blocksize);
	return nil;
	}
	ap = MKZ(ArenaPart);
	if(ap == nil)
	return nil;

	ap->version = ArenaPartVersion;
	ap->part = part;
	ap->blocksize = blocksize;
	partblocksize(part, blocksize);
	ap->size = part->size & ~(u64int)(blocksize - 1);
	ap->tabbase = (PartBlank + HeadSize + blocksize - 1) & ~(blocksize - 1);
	ap->arenabase = (ap->tabbase + tabsize + blocksize - 1) & ~(blocksize - 1);
	ap->tabsize = ap->arenabase - ap->tabbase;
	ap->narenas = 0;

	if(wbarenapart(ap) < 0){
	freearenapart(ap, 0);
	return nil;
	}

	return ap;
	}

	int
	wbarenapart(ArenaPart *ap)
	{
	ZBlock *b;

	if(okamap(ap->map, ap->narenas, ap->arenabase, ap->size, "arena table") < 0)
	return -1;
	b = alloczblock(HeadSize, 1, 0);
	if(b == nil)
	/* ZZZ set error message? */
	return -1;

	if(packarenapart(ap, b->data) < 0){
	seterr(ECorrupt, "can't make arena partition header: %r");
	freezblock(b);
	return -1;
	}
	if(writepart(ap->part, PartBlank, b->data, HeadSize) < 0 \|\|
	flushpart(ap->part) < 0){
	seterr(EAdmin, "can't write arena partition header: %r");
	freezblock(b);
	return -1;
	}
	freezblock(b);

	return wbarenamap(ap->map, ap->narenas, ap->part, ap->tabbase, ap->tabsize);
	}

	void
	freearenapart(ArenaPart *ap, int freearenas)
	{
	int i;

	if(ap == nil)
	return;
	if(freearenas){
	for(i = 0; i < ap->narenas; i++){
	if(ap->arenas[i] == nil)
	continue;
	delarena(ap->arenas[i]);
	freearena(ap->arenas[i]);
	}
	}
	free(ap->map);
	free(ap->arenas);
	free(ap);
	}

	int
	okamap(AMap am, int n, u64int start, u64int stop, char what)
	{
	u64int last;
	u32int i;

	last = start;
	for(i = 0; i < n; i++){
	if(am[i].start < last){
	if(i == 0)
	seterr(ECorrupt, "invalid start address in %s", what);
	else
	seterr(ECorrupt, "overlapping ranges in %s", what);
	return -1;
	}
	if(am[i].stop < am[i].start){
	seterr(ECorrupt, "invalid range in %s", what);
	return -1;
	}
	last = am[i].stop;
	}
	if(last > stop){
	seterr(ECorrupt, "invalid ending address in %s", what);
	return -1;
	}
	return 0;
	}

	int
	maparenas(AMap am, Arena arenas, int n, char what)
	{
	u32int i;

	for(i = 0; i < n; i++){
	arenas[i] = findarena(am[i].name);
	if(arenas[i] == nil){
	seterr(EAdmin, "can't find arena '%s' for '%s'\n", am[i].name, what);
	return -1;
	}
	}
	return 0;
	}

	int
	readarenamap(AMapN amn, Part part, u64int base, u32int size)
	{
	IFile f;
	u32int ok;

	if(partifile(&f, part, base, size) < 0)
	return -1;
	ok = parseamap(&f, amn);
	freeifile(&f);
	return ok;
	}

	int
	wbarenamap(AMap am, int n, Part part, u64int base, u64int size)
	{
	Fmt f;
	ZBlock *b;

	b = alloczblock(size, 1, part->blocksize);
	if(b == nil)
	return -1;

	fmtzbinit(&f, b);

	if(outputamap(&f, am, n) < 0){
	seterr(ECorrupt, "arena set size too small");
	freezblock(b);
	return -1;
	}
	if(writepart(part, base, b->data, size) < 0 \|\| flushpart(part) < 0){
	seterr(EAdmin, "can't write arena set: %r");
	freezblock(b);
	return -1;
	}
	freezblock(b);
	return 0;
	}

	/*
	* amap: n '\n' amapelem * n
	* n: u32int
	* amapelem: name '\t' astart '\t' astop '\n'
	* astart, astop: u64int
	*/
	int
	parseamap(IFile f, AMapN amn)
	{
	AMap *am;
	u64int v64;
	u32int v;
	char s, t, *flds[4];
	int i, n;

	/*
	* arenas
	*/
	if(ifileu32int(f, &v) < 0){
	seterr(ECorrupt, "syntax error: bad number of elements in %s", f->name);
	return -1;
	}
	n = v;
	if(n > MaxAMap){
	seterr(ECorrupt, "illegal number of elements %d in %s",
	n, f->name);
	return -1;
	}
	am = MKNZ(AMap, n);
	if(am == nil){
	fprint(2, "out of memory\n");
	return -1;
	}
	for(i = 0; i < n; i++){
	s = ifileline(f);
	if(s)
	t = estrdup(s);
	else
	t = nil;
	if(s == nil \|\| getfields(s, flds, 4, 0, "\t") != 3){
	fprint(2, "early eof after %d of %d, %s:#%d: %s\n", i, n, f->name, f->pos, t);
	free(t);
	return -1;
	}
	free(t);
	if(nameok(flds[0]) < 0)
	return -1;
	namecp(am[i].name, flds[0]);
	if(stru64int(flds[1], &v64) < 0){
	seterr(ECorrupt, "syntax error: bad arena base address in %s", f->name);
	free(am);
	return -1;
	}
	am[i].start = v64;
	if(stru64int(flds[2], &v64) < 0){
	seterr(ECorrupt, "syntax error: bad arena size in %s", f->name);
	free(am);
	return -1;
	}
	am[i].stop = v64;
	}

	amn->map = am;
	amn->n = n;
	return 0;
	}

	int
	outputamap(Fmt f, AMap am, int n)
	{
	int i;

	if(fmtprint(f, "%ud\n", n) < 0)
	return -1;
	for(i = 0; i < n; i++)
	if(fmtprint(f, "%s\t%llud\t%llud\n", am[i].name, am[i].start, am[i].stop) < 0)
	return -1;
	return 0;
	}