ref: 43d8da8b53e5f773e780928b3cf5ae2ce252d908
dir: /fs.c/
#include <u.h>
#include <libc.h>
#include <auth.h>
#include <fcall.h>
#include <pool.h>
#include <avl.h>
#include "dat.h"
#include "fns.h"
#include "atomic.h"
static char* clearb(Fid*, vlong, vlong);
static void
snapfs(int fd, char *old, char *new)
{
Mount *mnt;
Tree *t, *s;
char *e;
lock(&fs->mountlk);
t = nil;
for(mnt = fs->mounts; mnt != nil; mnt = mnt->next){
if(strcmp(old, mnt->name) == 0){
t = mnt->root;
ainc(&t->memref);
}
}
if(strlen(new) == 0 && t != nil) {
fprint(fd, "snap: open snap '%s'\n", old);
unlock(&fs->mountlk);
return;
}
if(t == nil && (t = opensnap(old)) == nil){
fprint(fd, "snap: open '%s': does not exist\n", old);
unlock(&fs->mountlk);
return;
}
if(strlen(new) == 0){
if((e = delsnap(t, old)) != nil){
fprint(fd, "snap: error deleting '%s': %s\n", new, e);
unlock(&fs->mountlk);
return;
}
}else{
if((s = opensnap(new)) != nil){
fprint(fd, "snap: already exists '%s'\n", new);
closesnap(s);
unlock(&fs->mountlk);
return;
}
if((e = labelsnap(t, new)) != nil){
fprint(fd, "snap: error creating '%s': %s\n", new, e);
unlock(&fs->mountlk);
return;
}
}
closesnap(t);
unlock(&fs->mountlk);
/* we probably want explicit snapshots to get synced */
sync();
fprint(fd, "created: %s\n", new);
}
static void
filldumpdir(Xdir *d)
{
memset(d, 0, sizeof(Xdir));
d->name = "/";
d->qid.path = Qdump;
d->qid.vers = fs->nextgen;
d->qid.type = QTDIR;
d->mode = 0555;
d->atime = 0;
d->mtime = 0;
d->length = 0;
d->uid = -1;
d->gid = -1;
d->muid = -1;
}
static void
freemsg(Fmsg *m)
{
free(m->a);
free(m);
}
static int
okname(char *name)
{
int i;
if(name[0] == 0)
return -1;
if(strcmp(name, ".") == 0 || strcmp(name, "..") == 0)
return -1;
for(i = 0; i < Maxname; i++){
if(name[i] == 0)
return 0;
if((name[i]&0xff) < 0x20 || name[i] == '/')
return -1;
}
return -1;
}
Chan*
mkchan(int size)
{
Chan *c;
if((c = mallocz(sizeof(Chan) + size*sizeof(void*), 1)) == nil)
sysfatal("create channel");
c->size = size;
c->avail = size;
c->count = 0;
c->rp = c->args;
c->wp = c->args;
return c;
}
void*
chrecv(Chan *c)
{
void *a;
long v;
v = agetl(&c->count);
if(v == 0 || !acasl(&c->count, v, v-1))
semacquire(&c->count, 1);
lock(&c->rl);
a = *c->rp;
if(++c->rp >= &c->args[c->size])
c->rp = c->args;
unlock(&c->rl);
semrelease(&c->avail, 1);
return a;
}
void
chsend(Chan *c, void *m)
{
long v;
v = agetl(&c->avail);
if(v == 0 || !acasl(&c->avail, v, v-1))
semacquire(&c->avail, 1);
lock(&c->wl);
*c->wp = m;
if(++c->wp >= &c->args[c->size])
c->wp = c->args;
unlock(&c->wl);
semrelease(&c->count, 1);
}
static void
fshangup(Conn *c, char *fmt, ...)
{
char buf[ERRMAX];
va_list ap;
va_start(ap, fmt);
vsnprint(buf, sizeof(buf), fmt, ap);
va_end(ap);
fprint(2, "%s\n", buf);
close(c->rfd);
close(c->wfd);
}
static void
respond(Fmsg *m, Fcall *r)
{
Fcall rf;
uchar buf[Max9p+IOHDRSZ];
int w, n;
r->tag = m->tag;
dprint("→ %F\n", r);
if((n = convS2M(r, buf, sizeof(buf))) == 0)
abort();
w = write(m->conn->wfd, buf, n);
if(w != n)
fshangup(m->conn, Eio);
if(m->type != Tflush) {
lock(&fs->mflushlk);
fs->mflush[m->tag] = nil;
rf.type = Rflush;
if(m->flush != nil)
respond(m->flush, &rf);
unlock(&fs->mflushlk);
}
free(m);
}
static void
rerror(Fmsg *m, char *fmt, ...)
{
char buf[128];
va_list ap;
Fcall r;
va_start(ap, fmt);
vsnprint(buf, sizeof(buf), fmt, ap);
va_end(ap);
r.type = Rerror;
r.ename = buf;
respond(m, &r);
}
static char*
lookup(Mount *mnt, Key *k, Kvp *kv, char *buf, int nbuf)
{
char *e;
Tree *r;
if(mnt == nil)
return Eattach;
lock(mnt);
r = mnt->root;
ainc(&r->memref);
unlock(mnt);
e = btlookup(r, k, kv, buf, nbuf);
closesnap(r);
return e;
}
int
frozen(Tree *t)
{
return t->nlbl != 1 || t->nsucc != 0;
}
static char*
upsert(Mount *mnt, Msg *m, int nm)
{
char *e;
if(frozen(mnt->root))
if((e = updatesnap(&mnt->root, mnt->root, mnt->name)) != nil)
return e;
return btupsert(mnt->root, m, nm);
}
/*
* Clears all blocks in that intersect with
* the range listed.
*/
static char*
clearb(Fid *f, vlong o, vlong sz)
{
char *e, buf[Offksz];
Msg m;
o &= ~(Blksz - 1);
for(; o < sz; o += Blksz){
m.k = buf;
m.nk = sizeof(buf);
m.op = Oclearb;
m.k[0] = Kdat;
PACK64(m.k+1, f->qpath);
PACK64(m.k+9, o);
m.v = nil;
m.nv = 0;
if((e = upsert(f->mnt, &m, 1)) != nil)
return e;
}
return nil;
}
static int
readb(Fid *f, char *d, vlong o, vlong n, vlong sz)
{
char *e, buf[17], kvbuf[17+32];
vlong fb, fo;
Bptr bp;
Blk *b;
Key k;
Kvp kv;
if(o >= sz)
return 0;
fb = o & ~(Blksz-1);
fo = o & (Blksz-1);
if(fo+n > Blksz)
n = Blksz-fo;
k.k = buf;
k.nk = sizeof(buf);
k.k[0] = Kdat;
PACK64(k.k+1, f->qpath);
PACK64(k.k+9, fb);
e = lookup(f->mnt, &k, &kv, kvbuf, sizeof(kvbuf));
if(e != nil){
if(e != Eexist){
werrstr(e);
return -1;
}
memset(d, 0, n);
return n;
}
bp = unpackbp(kv.v, kv.nv);
if((b = getblk(bp, GBraw)) == nil)
return -1;
memcpy(d, b->buf+fo, n);
dropblk(b);
return n;
}
static int
writeb(Fid *f, Msg *m, Bptr *ret, char *s, vlong o, vlong n, vlong sz)
{
char *e, buf[Kvmax];
vlong fb, fo;
Blk *b, *t;
Bptr bp;
Kvp kv;
fb = o & ~(Blksz-1);
fo = o & (Blksz-1);
m->k[0] = Kdat;
PACK64(m->k+1, f->qpath);
PACK64(m->k+9, fb);
if(frozen(f->mnt->root))
if(updatesnap(&f->mnt->root, f->mnt->root, f->mnt->name) != nil)
return -1;
b = newdblk(f->mnt->root, Tdat, f->qpath);
if(b == nil)
return -1;
t = nil;
if(fb < sz && (fo != 0 || n != Blksz)){
e = lookup(f->mnt, m, &kv, buf, sizeof(buf));
if(e == nil){
bp = unpackbp(kv.v, kv.nv);
if((t = getblk(bp, GBraw)) == nil)
return -1;
memcpy(b->buf, t->buf, Blksz);
freeblk(f->mnt->root, t);
dropblk(t);
}else if(e != Eexist){
werrstr("%s", e);
return -1;
}
}
if(fo+n > Blksz)
n = Blksz-fo;
memcpy(b->buf+fo, s, n);
if(t == nil){
if(fo > 0)
memset(b->buf, 0, fo);
if(fo+n < Blksz)
memset(b->buf+fo+n, 0, Blksz-fo-n);
}
enqueue(b);
packbp(m->v, m->nv, &b->bp);
*ret = b->bp;
dropblk(b);
return n;
}
static Dent*
getdent(vlong pqid, Xdir *d)
{
Dent *de;
char *e;
u32int h;
h = ihash(d->qid.path) % Ndtab;
lock(&fs->dtablk);
for(de = fs->dtab[h]; de != nil; de = de->next){
if(de->qid.path == d->qid.path){
ainc(&de->ref);
goto Out;
}
}
if((de = mallocz(sizeof(Dent), 1)) == nil)
goto Out;
de->Xdir = *d;
de->ref = 1;
de->qid = d->qid;
de->length = d->length;
if((e = packdkey(de->buf, sizeof(de->buf), pqid, d->name)) == nil){
free(de);
de = nil;
goto Out;
}
de->k = de->buf;
de->nk = e - de->buf;
de->name = de->buf + 11;
de->next = fs->dtab[h];
fs->dtab[h] = de;
Out:
unlock(&fs->dtablk);
return de;
}
static Mount *
getmount(char *name)
{
Mount *mnt;
Tree *t;
if(strcmp(name, "dump") == 0){
ainc(&fs->snapmnt->ref);
return fs->snapmnt;
}
lock(&fs->mountlk);
for(mnt = fs->mounts; mnt != nil; mnt = mnt->next)
if(strcmp(name, mnt->name) == 0){
ainc(&mnt->ref);
goto Out;
}
if((mnt = mallocz(sizeof(*mnt), 1)) == nil)
goto Out;
mnt->ref = 1;
if((mnt->name = strdup(name)) == nil){
free(mnt);
mnt = nil;
goto Out;
}
if((t = opensnap(name)) == nil){
werrstr("%s", Enosnap);
free(mnt->name);
free(mnt);
mnt = nil;
goto Out;
}
mnt->root = t;
mnt->next = fs->mounts;
fs->mounts = mnt;
Out:
unlock(&fs->mountlk);
return mnt;
}
static void
clunkmount(Mount *mnt)
{
Mount *me, **p;
if(mnt == nil)
return;
lock(&fs->mountlk);
if(adec(&mnt->ref) == 0){
for(p = &fs->mounts; (me = *p) != nil; p = &me->next){
if(me == mnt)
break;
}
assert(me != nil);
*p = me->next;
free(mnt->name);
free(mnt);
}
unlock(&fs->mountlk);
}
static void
clunkdent(Dent *de)
{
Dent *e, **pe;
u32int h;
if(de == nil)
return;
if(de->qid.type == QTAUTH && adec(&de->ref) == 0){
free(de);
return;
}
lock(&fs->dtablk);
if(adec(&de->ref) != 0)
goto Out;
h = ihash(de->qid.path) % Ndtab;
pe = &fs->dtab[h];
for(e = fs->dtab[h]; e != nil; e = e->next){
if(e == de)
break;
pe = &e->next;
}
assert(e != nil);
*pe = e->next;
free(de);
Out:
unlock(&fs->dtablk);
}
void
showfid(int fd, char**, int)
{
int i;
Fid *f;
Conn *c;
for(c = fs->conns; c != nil; c = c->next){
lock(&c->fidtablk);
fprint(fd, "fids:%d\n", c->rfd);
for(i = 0; i < Nfidtab; i++)
for(f = c->fidtab[i]; f != nil; f = f->next){
rlock(f->dent);
fprint(fd, "\tfid[%d]: %d [refs=%ld, k=%K, qid=%Q]\n",
i, f->fid, f->dent->ref, &f->dent->Key, f->dent->qid);
runlock(f->dent);
}
unlock(&c->fidtablk);
}
}
static Fid*
getfid(Conn *c, u32int fid)
{
u32int h;
Fid *f;
h = ihash(fid) % Nfidtab;
lock(&c->fidtablk);
for(f = c->fidtab[h]; f != nil; f = f->next)
if(f->fid == fid){
ainc(&f->ref);
break;
}
unlock(&c->fidtablk);
return f;
}
static void
putfid(Fid *f)
{
if(adec(&f->ref) != 0)
return;
clunkmount(f->mnt);
clunkdent(f->dent);
free(f);
}
static Fid*
dupfid(Conn *c, u32int new, Fid *f)
{
Fid *n, *o;
u32int h;
h = ihash(new) % Nfidtab;
if((n = malloc(sizeof(Fid))) == nil)
return nil;
*n = *f;
n->fid = new;
n->ref = 2; /* one for dup, one for clunk */
n->mode = -1;
n->next = nil;
lock(&c->fidtablk);
for(o = c->fidtab[h]; o != nil; o = o->next)
if(o->fid == new)
break;
if(o == nil){
n->next = c->fidtab[h];
c->fidtab[h] = n;
}
unlock(&c->fidtablk);
if(o != nil){
fprint(2, "fid in use: %d == %d\n", o->fid, new);
abort();
free(n);
return nil;
}
if(n->mnt != nil)
ainc(&n->mnt->ref);
ainc(&n->dent->ref);
return n;
}
static void
clunkfid(Conn *c, Fid *fid)
{
Fid *f, **pf;
u32int h;
lock(&c->fidtablk);
h = ihash(fid->fid) % Nfidtab;
pf = &c->fidtab[h];
for(f = c->fidtab[h]; f != nil; f = f->next){
if(f == fid){
assert(adec(&f->ref) != 0);
*pf = f->next;
break;
}
pf = &f->next;
}
assert(f != nil);
unlock(&c->fidtablk);
}
static int
readmsg(Conn *c, Fmsg **pm)
{
char szbuf[4];
int sz, n;
Fmsg *m;
n = readn(c->rfd, szbuf, 4);
if(n <= 0){
*pm = nil;
return n;
}
if(n != 4){
werrstr("short read: %r");
return -1;
}
sz = GBIT32(szbuf);
if(sz > c->iounit){
werrstr("message size too large");
return -1;
}
if((m = malloc(sizeof(Fmsg)+sz)) == nil)
return -1;
if(readn(c->rfd, m->buf+4, sz-4) != sz-4){
werrstr("short read: %r");
free(m);
return -1;
}
m->conn = c;
m->sz = sz;
m->a = nil;
m->flush = nil;
PBIT32(m->buf, sz);
*pm = m;
return 0;
}
static void
fsversion(Fmsg *m)
{
Fcall r;
char *p;
memset(&r, 0, sizeof(Fcall));
p = strchr(m->version, '.');
if(p != nil)
*p = '\0';
r.type = Rversion;
r.msize = Max9p + IOHDRSZ;
if(strcmp(m->version, "9P2000") == 0){
if(m->msize < r.msize)
r.msize = m->msize;
r.version = "9P2000";
m->conn->versioned = 1;
m->conn->iounit = r.msize;
}else{
r.version = "unknown";
m->conn->versioned = 0;
}
respond(m, &r);
}
void
authfree(AuthRpc *auth)
{
AuthRpc *rpc;
if(rpc = auth){
close(rpc->afd);
auth_freerpc(rpc);
}
}
AuthRpc*
authnew(void)
{
static char *keyspec = "proto=p9any role=server";
AuthRpc *rpc;
int fd;
if(access("/mnt/factotum", 0) < 0)
if((fd = open("/srv/factotum", ORDWR)) >= 0)
mount(fd, -1, "/mnt", MBEFORE, "");
if((fd = open("/mnt/factotum/rpc", ORDWR)) < 0)
return nil;
if((rpc = auth_allocrpc(fd)) == nil){
close(fd);
return nil;
}
if(auth_rpc(rpc, "start", keyspec, strlen(keyspec)) != ARok){
authfree(rpc);
return nil;
}
return rpc;
}
static void
fsauth(Fmsg *m)
{
Dent *de;
Fcall r;
Fid f;
if(fs->noauth){
rerror(m, Eauth);
return;
}
if((de = mallocz(sizeof(Dent), 1)) == nil){
rerror(m, Enomem);
return;
}
memset(de, 0, sizeof(Dent));
de->ref = 0;
de->qid.type = QTAUTH;
de->qid.path = aincv(&fs->nextqid, 1);
de->qid.vers = 0;
de->length = 0;
de->k = nil;
de->nk = 0;
memset(&f, 0, sizeof(Fid));
f.fid = NOFID;
f.mnt = nil;
f.qpath = de->qid.path;
f.pqpath = de->qid.path;
f.mode = -1;
f.iounit = m->conn->iounit;
f.dent = de;
f.uid = -1;
f.duid = -1;
f.dgid = -1;
f.dmode = 0600;
f.auth = authnew();
if(dupfid(m->conn, m->afid, &f) == nil){
rerror(m, Enomem);
free(de);
return;
}
r.type = Rauth;
r.aqid = de->qid;
respond(m, &r);
}
static int
ingroup(int uid, int gid)
{
User *u, *g;
int i, in;
rlock(&fs->userlk);
in = 0;
u = uid2user(uid);
g = uid2user(gid);
if(u != nil && g != nil)
for(i = 0; i < g->nmemb; i++)
if(u->id == g->memb[i])
in = 1;
runlock(&fs->userlk);
return in;
}
static int
groupleader(int uid, int gid)
{
User *g;
int i, lead;
lead = 0;
rlock(&fs->userlk);
g = uid2user(gid);
if(g != nil){
if(g->lead == 0){
for(i = 0; i < g->nmemb; i++)
if(g->memb[i] == uid){
lead = 1;
break;
}
}else if(uid == g->lead)
lead = 1;
}
runlock(&fs->userlk);
return lead;
}
static int
mode2bits(int req)
{
int m;
m = 0;
switch(req&0xf){
case OREAD: m = DMREAD; break;
case OWRITE: m = DMWRITE; break;
case ORDWR: m = DMREAD|DMWRITE; break;
case OEXEC: m = DMREAD|DMEXEC; break;
}
if(req&OTRUNC)
m |= DMWRITE;
return m;
}
static int
fsaccess(Fid *f, ulong fmode, int fuid, int fgid, int m)
{
/* uid none gets only other permissions */
if(permissive)
return 0;
if(f->uid != 0) {
if(f->uid == fuid)
if((m & (fmode>>6)) == m)
return 0;
if(ingroup(f->uid, fgid))
if((m & (fmode>>3)) == m)
return 0;
}
if(m & fmode) {
if((fmode & DMDIR) && (m == DMEXEC))
return 0;
if(!ingroup(f->uid, 9999))
return 0;
}
return -1;
}
static void
fsattach(Fmsg *m)
{
char *e, *p, *n, dbuf[Kvmax], kvbuf[Kvmax];
Mount *mnt;
Dent *de;
User *u;
Fcall r;
Xdir d;
Kvp kv;
Key dk;
Fid f, *af;
int uid;
de = nil;
if(m->aname[0] == '\0')
m->aname = "main";
if((mnt = getmount(m->aname)) == nil){
rerror(m, "%r");
goto Out;
}
rlock(&fs->userlk);
n = m->uname;
/*
* to allow people to add themselves to the user file,
* we need to force the user id to one that exists.
*/
if(permissive && strcmp(m->aname, "adm") == 0)
n = "adm";
if((u = name2user(n)) == nil){
runlock(&fs->userlk);
rerror(m, Enouser);
goto Out;
}
uid = u->id;
runlock(&fs->userlk);
if(m->afid != NOFID){
if((af = getfid(m->conn, m->afid)) == nil){
rerror(m, Efid);
goto Out;
}
if(af->uid != uid){
rerror(m, Ebadu);
putfid(af);
goto Out;
}
putfid(af);
}else if(!fs->noauth){
rerror(m, Ebadu);
goto Out;
}
if(strcmp(m->aname, "dump") == 0){
memset(&d, 0, sizeof(d));
filldumpdir(&d);
}else{
if((p = packdkey(dbuf, sizeof(dbuf), -1ULL, "")) == nil){
rerror(m, Elength);
goto Out;
}
dk.k = dbuf;
dk.nk = p - dbuf;
if((e = btlookup(mnt->root, &dk, &kv, kvbuf, sizeof(kvbuf))) != nil){
rerror(m, e);
goto Out;
}
if(kv2dir(&kv, &d) == -1){
rerror(m, Efs);
goto Out;
}
}
if((de = getdent(-1, &d)) == nil){
rerror(m, Efs);
goto Out;
}
memset(&f, 0, sizeof(Fid));
f.fid = NOFID;
f.mnt = mnt;
f.qpath = d.qid.path;
f.pqpath = d.qid.path;
f.mode = -1;
f.iounit = m->conn->iounit;
f.dent = de;
f.uid = uid;
f.duid = d.uid;
f.dgid = d.gid;
f.dmode = d.mode;
if(dupfid(m->conn, m->fid, &f) == nil){
rerror(m, Enomem);
goto Out;
}
r.type = Rattach;
r.qid = d.qid;
respond(m, &r);
Out:
clunkdent(de);
clunkmount(mnt);
}
static char*
findparent(Fid *f, vlong *qpath, char **name, char *buf, int nbuf)
{
char *p, *e, kbuf[Keymax];
Kvp kv;
Key k;
if((p = packsuper(kbuf, sizeof(kbuf), f->pqpath)) == nil)
return Elength;
k.k = kbuf;
k.nk = p - kbuf;
if((e = lookup(f->mnt, &k, &kv, buf, nbuf)) != nil)
return e;
if((*name = unpackdkey(kv.v, kv.nv, qpath)) == nil)
return Efs;
return nil;
}
static void
fswalk(Fmsg *m)
{
char *p, *e, *name, kbuf[Maxent], kvbuf[Kvmax];
int duid, dgid, dmode;
vlong up, prev;
Fid *o, *f;
Dent *dent;
Mount *mnt;
Fcall r;
Xdir d;
Kvp kv;
Key k;
int i;
if((o = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
if(o->mode != -1){
rerror(m, Einuse);
putfid(o);
return;
}
e = nil;
mnt = o->mnt;
up = o->qpath;
prev = o->qpath;
rlock(o->dent);
d = *o->dent;
runlock(o->dent);
duid = d.uid;
dgid = d.gid;
dmode = d.mode;
r.type = Rwalk;
for(i = 0; i < m->nwname; i++){
if(fsaccess(o, d.mode, d.uid, d.gid, DMEXEC) != 0){
rerror(m, Eperm);
putfid(o);
return;
}
name = m->wname[i];
if(d.qid.path == Qdump){
if((mnt = getmount(m->wname[i])) == nil){
rerror(m, Eexist);
putfid(o);
return;
}
if((p = packdkey(kbuf, sizeof(kbuf), -1ULL, "")) == nil){
rerror(m, Elength);
clunkmount(mnt);
putfid(o);
return;
}
}else{
if(strcmp(m->wname[i], "..") == 0){
if(o->pqpath == Qdump){
mnt = fs->snapmnt;
filldumpdir(&d);
goto Found;
}else if((e = findparent(o, &prev, &name, kbuf, sizeof(kbuf))) != nil){
rerror(m, e);
putfid(o);
return;
}
}
if((p = packdkey(kbuf, sizeof(kbuf), prev, name)) == nil){
rerror(m, Elength);
putfid(o);
return;
}
}
k.k = kbuf;
k.nk = p - kbuf;
if((e = lookup(mnt, &k, &kv, kvbuf, sizeof(kvbuf))) != nil)
break;
if(kv2dir(&kv, &d) == -1){
rerror(m, Efs);
putfid(o);
return;
}
Found:
duid = d.uid;
dgid = d.gid;
dmode = d.mode;
up = prev;
prev = d.qid.path;
r.wqid[i] = d.qid;
}
r.nwqid = i;
if(i == 0 && m->nwname != 0){
rerror(m, e);
putfid(o);
return;
}
f = o;
if(m->fid != m->newfid && i == m->nwname){
if((f = dupfid(m->conn, m->newfid, o)) == nil){
rerror(m, Enomem);
putfid(o);
return;
}
putfid(o);
}
if(i > 0 && i == m->nwname){
lock(f);
if(up == Qdump)
dent = getdent(-1ULL, &d);
else
dent = getdent(up, &d);
if(dent == nil){
if(f != o)
clunkfid(m->conn, f);
rerror(m, Enomem);
unlock(f);
putfid(f);
return;
}
if(mnt != f->mnt){
clunkmount(f->mnt);
ainc(&mnt->ref);
f->mnt = mnt;
}
f->qpath = r.wqid[i-1].path;
f->pqpath = up;
f->dent = dent;
f->duid = duid;
f->dgid = dgid;
f->dmode = dmode;
unlock(f);
}
respond(m, &r);
putfid(f);
}
static void
fsstat(Fmsg *m)
{
char buf[STATMAX];
Fcall r;
Fid *f;
int n;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
rlock(f->dent);
n = dir2statbuf(f->dent, buf, sizeof(buf));
runlock(f->dent);
if(n == -1){
rerror(m, "stat: %r");
putfid(f);
return;
}
r.type = Rstat;
r.stat = (uchar*)buf;
r.nstat = n;
respond(m, &r);
putfid(f);
}
static void
fswstat(Fmsg *m)
{
char *p, *e, strs[65535], rnbuf[Kvmax], opbuf[Kvmax];
int op, nm, rename;
Fcall r;
Dent *de;
Msg mb[2];
Xdir n;
Dir d;
Fid *f;
Key k;
User *u;
rename = 0;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
de = f->dent;
wlock(de);
if(de->gone){
rerror(m, Ephase);
goto Out;
}
if((de->qid.type & QTAUTH) || (de->qid.path & Qdump)){
rerror(m, Emode);
goto Out;
}
if(convM2D(m->stat, m->nstat, &d, strs) <= BIT16SZ){
rerror(m, Edir);
goto Out;
}
n = de->Xdir;
n.qid.vers++;
p = opbuf+1;
op = 0;
/* check validity of updated fields and construct Owstat message */
if(d.qid.path != ~0 || d.qid.vers != ~0){
if(d.qid.path != de->qid.path){
rerror(m, Ewstatp);
goto Out;
}
if(d.qid.vers != de->qid.vers){
rerror(m, Ewstatv);
goto Out;
}
}
if(*d.name != '\0'){
if(strcmp(d.name, de->name) != 0){
rename = 1;
if(okname(d.name) == -1){
rerror(m, Ename);
goto Out;
}
n.name = d.name;
}
}
if(d.length != ~0){
if(d.length < 0){
rerror(m, Ewstatl);
goto Out;
}
if(d.length != de->length){
n.length = d.length;
op |= Owsize;
PACK64(p, n.length);
p += 8;
}
}
if(d.mode != ~0){
if((d.mode^de->mode) & DMDIR){
rerror(m, Ewstatd);
goto Out;
}
if(d.mode & ~(DMDIR|DMAPPEND|DMEXCL|DMTMP|0777)){
rerror(m, Ewstatb);
goto Out;
}
if(d.mode != de->mode){
n.mode = d.mode;
n.qid.type = d.mode>>24;
op |= Owmode;
PACK32(p, n.mode);
p += 4;
}
}
if(d.mtime != ~0){
n.mtime = d.mtime*Nsec;
if(n.mtime != de->mtime){
op |= Owmtime;
PACK64(p, n.mtime);
p += 8;
}
}
if(*d.uid != '\0'){
rlock(&fs->userlk);
u = name2user(d.uid);
if(u == nil){
runlock(&fs->userlk);
rerror(m, Enouser);
goto Out;
}
n.uid = u->id;
runlock(&fs->userlk);
if(n.uid != de->uid){
op |= Owuid;
PACK32(p, n.uid);
p += 4;
}
}
if(*d.gid != '\0'){
rlock(&fs->userlk);
u = name2user(d.gid);
if(u == nil){
runlock(&fs->userlk);
rerror(m, Enouser);
goto Out;
}
n.gid = u->id;
runlock(&fs->userlk);
if(n.gid != de->gid){
op |= Owgid;
PACK32(p, n.gid);
p += 4;
}
}
op |= Owmuid;
n.muid = f->uid;
PACK32(p, n.muid);
p += 4;
/* check permissions */
if(rename){
if(fsaccess(f, f->dmode, f->duid, f->dgid, DMWRITE) == -1){
rerror(m, Eperm);
goto Out;
}
}
if(op & Owsize){
if(fsaccess(f, de->mode, de->uid, de->gid, DMWRITE) == -1){
rerror(m, Eperm);
goto Out;
}
}
if(op & (Owmode|Owmtime)){
if(!permissive && f->uid != de->uid && !groupleader(f->uid, de->gid)){
rerror(m, Ewstato);
goto Out;
}
}
if(op & Owuid){
if(!permissive){
rerror(m, Ewstatu);
goto Out;
}
}
if(op & Owgid){
if(!permissive
&& !(f->uid == de->uid && ingroup(f->uid, n.gid))
&& !(groupleader(f->uid, de->gid) && groupleader(f->uid, n.gid))){
rerror(m, Ewstatg);
goto Out;
}
}
/* update directory entry */
nm = 0;
if(rename && !de->gone){
mb[nm].op = Odelete;
mb[nm].Key = de->Key;
mb[nm].v = nil;
mb[nm].nv = 0;
nm++;
mb[nm].op = Oinsert;
if(dir2kv(f->pqpath, &n, &mb[nm], rnbuf, sizeof(rnbuf)) == -1){
rerror(m, Efs);
goto Out;
}
k = mb[nm].Key;
nm++;
}else{
opbuf[0] = op;
mb[nm].op = Owstat;
mb[nm].Key = de->Key;
mb[nm].v = opbuf;
mb[nm].nv = p - opbuf;
nm++;
}
if((e = upsert(f->mnt, mb, nm)) != nil){
rerror(m, e);
goto Out;
}
de->Xdir = n;
if(rename)
cpkey(de, &k, de->buf, sizeof(de->buf));
r.type = Rwstat;
respond(m, &r);
Out:
wunlock(de);
putfid(f);
}
static void
fsclunk(Fmsg *m)
{
Fcall r;
Fid *f;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
lock(f);
if(f->scan != nil){
free(f->scan);
f->scan = nil;
}
unlock(f);
clunkfid(m->conn, f);
r.type = Rclunk;
respond(m, &r);
putfid(f);
}
static void
fscreate(Fmsg *m)
{
char *p, *e, buf[Kvmax], upkbuf[Keymax], upvbuf[Inlmax];
Dent *de;
Fcall r;
Msg mb[2];
Fid *f;
Xdir d;
int nm;
if(okname(m->name) == -1){
rerror(m, Ename);
return;
}
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
if(m->perm & (DMMOUNT|DMAUTH)){
rerror(m, "unknown permission");
putfid(f);
return;
}
de = f->dent;
rlock(de);
if(fsaccess(f, de->mode, de->uid, de->gid, DMWRITE) == -1){
runlock(de);
rerror(m, Eperm);
putfid(f);
return;
}
d.gid = de->gid;
runlock(de);
nm = 0;
d.qid.type = 0;
if(m->perm & DMDIR)
d.qid.type |= QTDIR;
if(m->perm & DMAPPEND)
d.qid.type |= QTAPPEND;
if(m->perm & DMEXCL)
d.qid.type |= QTEXCL;
if(m->perm & DMTMP)
d.qid.type |= QTTMP;
d.qid.path = aincv(&fs->nextqid, 1);
d.qid.vers = 0;
d.mode = m->perm;
if(m->perm & DMDIR)
d.mode &= ~0777 | de->mode & 0777;
else
d.mode &= ~0666 | de->mode & 0666;
d.name = m->name;
d.atime = nsec();
d.mtime = d.atime;
d.length = 0;
d.uid = f->uid;
d.muid = f->uid;
mb[nm].op = Oinsert;
if(dir2kv(f->qpath, &d, &mb[nm], buf, sizeof(buf)) == -1){
rerror(m, Efs);
putfid(f);
return;
}
nm++;
if(m->perm & DMDIR){
mb[nm].op = Oinsert;
if((p = packsuper(upkbuf, sizeof(upkbuf), d.qid.path)) == nil)
sysfatal("ream: pack super");
mb[nm].k = upkbuf;
mb[nm].nk = p - upkbuf;
if((p = packdkey(upvbuf, sizeof(upvbuf), f->qpath, d.name)) == nil)
sysfatal("ream: pack super");
mb[nm].v = upvbuf;
mb[nm].nv = p - upvbuf;
nm++;
}
if((e = upsert(f->mnt, mb, nm)) != nil){
rerror(m, e);
putfid(f);
return;
}
de = getdent(f->qpath, &d);
if(de == nil){
if(m->fid != m->newfid)
clunkfid(m->conn, f);
rerror(m, Enomem);
putfid(f);
return;
}else{
wlock(de);
de->length = 0;
wunlock(de);
}
lock(f);
if(f->mode != -1){
unlock(f);
clunkdent(de);
rerror(m, Einuse);
putfid(f);
return;
}
f->mode = mode2bits(m->mode);
f->pqpath = f->qpath;
f->qpath = d.qid.path;
f->dent = de;
wlock(de);
de->gone = 0;
if((e = clearb(f, 0, de->length)) != nil){
unlock(f);
clunkdent(de);
rerror(m, e);
putfid(f);
return;
}
de->length = 0;
wunlock(de);
unlock(f);
r.type = Rcreate;
r.qid = d.qid;
r.iounit = f->iounit;
respond(m, &r);
putfid(f);
}
static char*
candelete(Fid *f)
{
char *e, pfx[Dpfxsz];
Scan s;
if(f->dent->qid.type == QTFILE)
return nil;
packdkey(pfx, sizeof(pfx), f->qpath, nil);
btnewscan(&s, pfx, sizeof(pfx));
if((e = btenter(f->mnt->root, &s)) != nil)
goto Out;
if((e = btnext(f->mnt->root, &s, &s.kv)) != nil)
goto Out;
if(!s.done)
e = Enempty;
Out:
btexit(f->mnt->root, &s);
return e;
}
static void
fsremove(Fmsg *m)
{
Fcall r;
Msg mb;
Fid *f;
char *e;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
clunkfid(m->conn, f);
wlock(f->dent);
if(f->dent->gone){
e = Ephase;
goto Error;
}
if((e = candelete(f)) != nil)
goto Error;
if(fsaccess(f, f->dmode, f->duid, f->dgid, DMWRITE) == -1){
e = Eperm;
goto Error;
}
mb.op = Odelete;
mb.k = f->dent->k;
mb.nk = f->dent->nk;
mb.nv = 0;
if((e = upsert(f->mnt, &mb, 1)) != nil)
goto Error;
if(f->dent->qid.type == QTFILE){
e = clearb(f, 0, f->dent->length);
if(e != nil)
goto Error;
}
f->dent->gone = 1;
wunlock(f->dent);
r.type = Rremove;
respond(m, &r);
putfid(f);
return;
Error:
wunlock(f->dent);
rerror(m, e);
putfid(f);
}
static void
fsopen(Fmsg *m)
{
char *p, *e, buf[Kvmax];
int mbits;
Fcall r;
Xdir d;
Fid *f;
Kvp kv;
Msg mb;
mbits = mode2bits(m->mode);
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
if((f->qpath & Qdump) != 0){
filldumpdir(&d);
}else{
if((e = lookup(f->mnt, f->dent, &kv, buf, sizeof(buf))) != nil){
rerror(m, e);
putfid(f);
return;
}
if(kv2dir(&kv, &d) == -1){
rerror(m, Efs);
putfid(f);
return;
}
}
wlock(f->dent);
if(f->dent->gone){
rerror(m, Ephase);
wunlock(f->dent);
putfid(f);
return;
}
if(fsaccess(f, d.mode, d.uid, d.gid, mbits) == -1){
rerror(m, Eperm);
wunlock(f->dent);
putfid(f);
return;
}
f->dent->length = d.length;
wunlock(f->dent);
r.type = Ropen;
r.qid = d.qid;
r.iounit = f->iounit;
lock(f);
if(f->mode != -1){
rerror(m, Einuse);
unlock(f);
putfid(f);
return;
}
f->mode = mode2bits(m->mode);
// if(!fs->rdonly && (m->mode == OEXEC)){
// lock(&fs->root.lk);
// f->root = fs->root;
// unlock(&fs->root.lk);
// }
if(m->mode & OTRUNC){
wlock(f->dent);
f->dent->muid = f->uid;
f->dent->qid.vers++;
f->dent->length = 0;
mb.op = Owstat;
p = buf;
p[0] = Owsize|Owmuid; p += 1;
PACK64(p, 0); p += 8;
PACK32(p, f->uid); p += 4;
mb.k = f->dent->k;
mb.nk = f->dent->nk;
mb.v = buf;
mb.nv = p - buf;
clearb(f, 0, f->dent->length);
if((e = upsert(f->mnt, &mb, 1)) != nil){
wunlock(f->dent);
rerror(m, e);
putfid(f);
return;
}
wunlock(f->dent);
}
unlock(f);
respond(m, &r);
putfid(f);
}
static char*
readauth(Fmsg *m, Fid *f, Fcall *r)
{
AuthInfo *ai;
AuthRpc *rpc;
User *u;
if((rpc = f->auth) == nil)
return Etype;
switch(auth_rpc(rpc, "read", nil, 0)){
default:
return Eauthp;
case ARdone:
if((ai = auth_getinfo(rpc)) == nil)
goto Phase;
rlock(&fs->userlk);
u = name2user(ai->cuid);
auth_freeAI(ai);
if(u == nil){
runlock(&fs->userlk);
return Enouser;
}
f->uid = u->id;
runlock(&fs->userlk);
return nil;
case ARok:
if(m->count < rpc->narg)
return Eauthd;
memmove(r->data, rpc->arg, rpc->narg);
r->count = rpc->narg;
return nil;
case ARphase:
Phase:
return Ephase;
}
}
static char*
readsnap(Fmsg *m, Fid *f, Fcall *r)
{
char pfx[1], *p, *e;
int n, ns;
Scan *s;
Xdir d;
s = f->scan;
if(s != nil && s->offset != 0 && s->offset != m->offset)
return Edscan;
if(s == nil || m->offset == 0){
if((s = mallocz(sizeof(Scan), 1)) == nil)
return Enomem;
pfx[0] = Klabel;
btnewscan(s, pfx, 1);
lock(f);
if(f->scan != nil){
free(f->scan);
}
f->scan = s;
unlock(f);
}
if(s->done){
r->count = 0;
return nil;
}
p = r->data;
n = m->count;
d = f->dent->Xdir;
if(s->overflow){
memcpy(d.name, s->kv.k+1, s->kv.nk-1);
d.name[s->kv.nk-1] = 0;
d.qid.path = UNPACK64(s->kv.v + 1);
if((ns = dir2statbuf(&d, p, n)) == -1){
r->count = 0;
return nil;
}
s->overflow = 0;
p += ns;
n -= ns;
}
if((e = btenter(&fs->snap, s)) != nil)
return e;
while(1){
if((e = btnext(&fs->snap, s, &s->kv)) != nil)
return e;
if(s->done)
break;
memcpy(d.name, s->kv.k+1, s->kv.nk-1);
d.name[s->kv.nk-1] = 0;
d.qid.path = UNPACK64(s->kv.v + 1);
if((ns = dir2statbuf(&d, p, n)) == -1){
s->overflow = 1;
break;
}
p += ns;
n -= ns;
}
btexit(&fs->snap, s);
r->count = p - r->data;
return nil;
}
static char*
readdir(Fmsg *m, Fid *f, Fcall *r)
{
char pfx[Dpfxsz], *p, *e;
int n, ns;
Tree *t;
Scan *s;
s = f->scan;
t = f->mnt->root;
if(s != nil && s->offset != 0 && s->offset != m->offset)
return Edscan;
if(s == nil || m->offset == 0){
if((s = mallocz(sizeof(Scan), 1)) == nil)
return Enomem;
packdkey(pfx, sizeof(pfx), f->qpath, nil);
btnewscan(s, pfx, sizeof(pfx));
lock(f);
if(f->scan != nil)
free(f->scan);
f->scan = s;
unlock(f);
}
if(s->done){
r->count = 0;
return nil;
}
p = r->data;
n = m->count;
if(s->overflow){
if((ns = kv2statbuf(&s->kv, p, n)) == -1){
r->count = 0;
return nil;
}
s->overflow = 0;
p += ns;
n -= ns;
}
if((e = btenter(t, s)) != nil)
return e;
while(1){
if((e = btnext(t, s, &s->kv)) != nil)
return e;
if(s->done)
break;
if((ns = kv2statbuf(&s->kv, p, n)) == -1){
s->overflow = 1;
break;
}
p += ns;
n -= ns;
}
btexit(t, s);
r->count = p - r->data;
return nil;
}
static char*
readfile(Fmsg *m, Fid *f, Fcall *r)
{
vlong n, c, o;
char *p;
Dent *e;
e = f->dent;
rlock(e);
if(m->offset > e->length){
runlock(e);
return nil;
}
p = r->data;
c = m->count;
o = m->offset;
if(m->offset + m->count > e->length)
c = e->length - m->offset;
while(c != 0){
n = readb(f, p, o, c, e->length);
if(n == -1){
fprint(2, "read %K [%Q]@%lld+%lld: %r\n", &e->Key, e->qid, o, c);
runlock(e);
return Efs;
}
r->count += n;
if(n == 0)
break;
p += n;
o += n;
c -= n;
}
runlock(e);
return nil;
}
static void
fsread(Fmsg *m)
{
char *e;
Fcall r;
Fid *f;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
r.type = Rread;
r.count = 0;
if((r.data = malloc(m->count)) == nil){
rerror(m, Enomem);
putfid(f);
return;
}
if(f->dent->qid.type & QTAUTH)
e = readauth(m, f, &r);
else if(f->dent->qid.path == Qdump)
e = readsnap(m, f, &r);
else if(f->dent->qid.type & QTDIR)
e = readdir(m, f, &r);
else
e = readfile(m, f, &r);
if(e != nil)
rerror(m, e);
else
respond(m, &r);
free(r.data);
putfid(f);
}
static char*
writeauth(Fmsg *m, Fid *f, Fcall *r)
{
AuthRpc *rpc;
if((rpc = f->auth) == nil)
return Etype;
if(auth_rpc(rpc, "write", m->data, m->count) != ARok)
return Ebotch;
r->type = Rwrite;
r->count = m->count;
return nil;
}
static void
fswrite(Fmsg *m)
{
char sbuf[Wstatmax], kbuf[Max9p/Blksz+2][Offksz], vbuf[Max9p/Blksz+2][Ptrsz];
Bptr bp[Max9p/Blksz + 2];
Msg kv[Max9p/Blksz + 2];
vlong n, o, c, w;
char *p, *e;
int i, j;
Fcall r;
Fid *f;
if((f = getfid(m->conn, m->fid)) == nil){
rerror(m, Efid);
return;
}
if(!(f->mode & DMWRITE)){
rerror(m, Einuse);
putfid(f);
return;
}
wlock(f->dent);
if(f->dent->gone){
rerror(m, Ephase);
wunlock(f->dent);
putfid(f);
return;
}
if(f->dent->qid.type == QTAUTH){
e = writeauth(m, f, &r);
if(e != nil)
rerror(m, e);
else
respond(m, &r);
wunlock(f->dent);
putfid(f);
return;
}
w = 0;
p = m->data;
o = m->offset;
c = m->count;
for(i = 0; i < nelem(kv)-1 && c != 0; i++){
assert(i == 0 || o%Blksz == 0);
kv[i].op = Oinsert;
kv[i].k = kbuf[i];
kv[i].nk = sizeof(kbuf[i]);
kv[i].v = vbuf[i];
kv[i].nv = sizeof(vbuf[i]);
n = writeb(f, &kv[i], &bp[i], p, o, c, f->dent->length);
if(n == -1){
for(j = 0; j < i; j++)
freebp(f->mnt->root, bp[i]);
wunlock(f->dent);
fprint(2, "%r");
putfid(f);
abort();
return;
}
w += n;
p += n;
o += n;
c -= n;
}
p = sbuf;
kv[i].op = Owstat;
kv[i].k = f->dent->k;
kv[i].nk = f->dent->nk;
n = m->offset+w;
*p++ = 0;
if(n > f->dent->length){
sbuf[0] |= Owsize;
PACK64(p, n);
p += 8;
f->dent->length = m->offset+m->count;
}
sbuf[0] |= Owmtime;
f->dent->mtime = nsec();
PACK64(p, f->dent->mtime);
p += 8;
sbuf[0] |= Owmuid;
PACK32(p, f->uid);
p += 4;
kv[i].v = sbuf;
kv[i].nv = p - sbuf;
if((e = upsert(f->mnt, kv, i+1)) != nil){
rerror(m, e);
putfid(f);
abort();
return;
}
wunlock(f->dent);
r.type = Rwrite;
r.count = w;
respond(m, &r);
putfid(f);
}
void
fsflush(Fmsg *m)
{
Fmsg *o;
Fcall r;
lock(&fs->mflushlk);
o = fs->mflush[m->oldtag];
if(o != nil){
if(o->flush != nil)
free(o->flush);
o->flush = m;
}else{
r.type = Rflush;
respond(m, &r);
}
unlock(&fs->mflushlk);
}
Conn *
newconn(int rfd, int wfd)
{
Conn *c;
if((c = mallocz(sizeof(*c), 1)) == nil)
return nil;
c->rfd = rfd;
c->wfd = wfd;
c->iounit = Max9p;
c->next = fs->conns;
lock(&fs->connlk);
fs->conns = c;
unlock(&fs->connlk);
return c;
}
void
runfs(int, void *pc)
{
Conn *c;
char err[128];
Fcall r;
Fmsg *m;
c = pc;
while(1){
if(readmsg(c, &m) < 0){
fshangup(c, "read message: %r");
return;
}
if(m == nil)
break;
if(convM2S(m->buf, m->sz, m) == 0){
fshangup(c, "invalid message: %r");
return;
}
if(m->type != Tversion && !c->versioned){
fshangup(c, "version required");
return;
}
dprint("← %F\n", &m->Fcall);
lock(&fs->mflushlk);
fs->mflush[m->tag] = m;
unlock(&fs->mflushlk);
switch(m->type){
/* sync setup */
case Tversion: fsversion(m); break;
case Tauth: fsauth(m); break;
case Tclunk: fsclunk(m); break;
case Tflush: fsflush(m); break;
/* mutators */
case Tcreate: chsend(fs->wrchan, m); break;
case Twrite: chsend(fs->wrchan, m); break;
case Twstat: chsend(fs->wrchan, m); break;
case Tremove: chsend(fs->wrchan, m); break;
/* reads */
case Tattach: chsend(fs->rdchan, m); break;
case Twalk: chsend(fs->rdchan, m); break;
case Tread: chsend(fs->rdchan, m); break;
case Tstat: chsend(fs->rdchan, m); break;
/* both */
case Topen:
if((m->mode & OTRUNC) || (m->mode & 0xf) == OEXEC)
chsend(fs->wrchan, m);
else
chsend(fs->rdchan, m);
break;
default:
fprint(2, "unknown message %F\n", &m->Fcall);
snprint(err, sizeof(err), "unknown message: %F", &m->Fcall);
r.type = Rerror;
r.ename = err;
respond(m, &r);
break;
}
}
}
void
runwrite(int wid, void *)
{
Mount *mnt;
Fmsg *m;
int ao;
while(1){
m = chrecv(fs->wrchan);
epochstart(wid);
ao = (m->a == nil) ? AOnone : m->a->op;
switch(ao){
case AOnone:
if(fs->rdonly){
rerror(m, Erdonly);
continue;
}
if(fs->broken){
rerror(m, Efs);
continue;
}
switch(m->type){
case Tcreate: fscreate(m); break;
case Twrite: fswrite(m); break;
case Twstat: fswstat(m); break;
case Tremove: fsremove(m); break;
case Topen: fsopen(m); break;
}
break;
case AOsync:
if(m->a->halt)
ainc(&fs->rdonly);
for(mnt = fs->mounts; mnt != nil; mnt = mnt->next)
updatesnap(&mnt->root, mnt->root, mnt->name);
sync();
freemsg(m);
break;
case AOsnap:
snapfs(m->a->fd, m->a->old, m->a->new);
freemsg(m);
break;
}
epochend(wid);
epochclean();
}
}
void
runread(int wid, void *)
{
Fmsg *m;
while(1){
m = chrecv(fs->rdchan);
epochstart(wid);
switch(m->type){
case Tattach: fsattach(m); break;
case Twalk: fswalk(m); break;
case Tread: fsread(m); break;
case Tstat: fsstat(m); break;
case Topen: fsopen(m); break;
}
epochend(wid);
}
}
void
runtasks(int, void *)
{
int i, c;
Fmsg *m;
Amsg *a;
while(1){
sleep(5000);
m = mallocz(sizeof(Fmsg), 1);
a = mallocz(sizeof(Amsg), 1);
if(m == nil || a == nil){
fprint(2, "alloc sync msg: %r\n");
free(m);
free(a);
return;
}
a->op = AOsync;
a->halt = 0;
a->fd = -1;
m->a = a;
chsend(fs->wrchan, m);
/*
* compresslog is designed to be concurrent with allocation,
* so it's safe to call from outside the mutator proc; we
* don't want to spend a ton of time compressing, though,
* so we only do the compression when our log gets big.
*
* 1/4 of our reserved emergency space seems like a good
* heuristic for big, but it was picked arbitrarily.
*/
for(i = 0; i < fs->narena; i++){
lock(&fs->arenas[i]);
c = fs->arenas[i].nlog > fs->arenas[i].reserve/(4*Blksz);
unlock(&fs->arenas[i]);
if(c){
if(compresslog(&fs->arenas[i]) == -1)
fprint(2, "compress log: %r");
}
}
}
}