ref: f3feafc476ff108231dd6e0e3ac3cd420a62a81c
dir: /sys/src/9/port/devmnt.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" /* * References are managed as follows: * The channel to the server - a network connection or pipe - has one * reference for every Chan open on the server. The server channel has * c->mux set to the Mnt used for muxing control to that server. Mnts * have no reference count; they go away when c goes away. * Each channel derived from the mount point has mchan set to c, * and increfs/decrefs mchan to manage references on the server * connection. */ #define MAXRPC (IOHDRSZ+8192) struct Mntrpc { Chan* c; /* Channel for whom we are working */ Mntrpc* list; /* Free/pending list */ Fcall request; /* Outgoing file system protocol message */ Fcall reply; /* Incoming reply */ Mnt* m; /* Mount device during rpc */ Rendez* z; /* Place to hang out */ uchar* rpc; /* I/O Data buffer */ uint rpclen; /* len of buffer */ Block* b; /* reply blocks */ Mntrpc* flushed; /* message this one flushes */ char done; /* Rpc completed */ }; enum { TAGSHIFT = 5, /* ulong has to be 32 bits */ TAGMASK = (1<<TAGSHIFT)-1, NMASK = (64*1024)>>TAGSHIFT, }; static struct Mntalloc { Lock; Mnt* list; /* Mount devices in use */ Mnt* mntfree; /* Free list */ Mntrpc* rpcfree; ulong nrpcfree; ulong nrpcused; ulong id; ulong tagmask[NMASK]; } mntalloc; static Chan* mntchan(void); static Mnt* mntchk(Chan*); static void mntdirfix(uchar*, Chan*); static Mntrpc* mntflushalloc(Mntrpc*); static Mntrpc* mntflushfree(Mnt*, Mntrpc*); static void mntfree(Mntrpc*); static void mntgate(Mnt*); static void mntqrm(Mnt*, Mntrpc*); static Mntrpc* mntralloc(Chan*); static long mntrdwr(int, Chan*, void*, long, vlong); static int mntrpcread(Mnt*, Mntrpc*); static void mountio(Mnt*, Mntrpc*); static void mountmux(Mnt*, Mntrpc*); static void mountrpc(Mnt*, Mntrpc*); static int rpcattn(void*); char Esbadstat[] = "invalid directory entry received from server"; char Enoversion[] = "version not established for mount channel"; static void mntreset(void) { mntalloc.id = 1; mntalloc.tagmask[0] = 1; /* don't allow 0 as a tag */ mntalloc.tagmask[NMASK-1] = 0x80000000UL; /* don't allow NOTAG */ fmtinstall('F', fcallfmt); fmtinstall('D', dirfmt); /* We can't install %M since eipfmt does and is used in the kernel [sape] */ cinit(); } /* * Version is not multiplexed: message sent only once per connection. */ int mntversion(Chan *c, char *version, int msize, int returnlen) { Fcall f; uchar *msg; Mnt *m; char *v; Queue *q; long k, l; uvlong oo; char buf[128]; eqlock(&c->umqlock); /* make sure no one else does this until we've established ourselves */ if(waserror()){ qunlock(&c->umqlock); nexterror(); } /* defaults */ if(msize == 0) msize = MAXRPC; if(msize > c->iounit && c->iounit != 0) msize = c->iounit; v = version; if(v == nil || v[0] == '\0') v = VERSION9P; /* validity */ if(msize < 0) error("bad iounit in version call"); if(strncmp(v, VERSION9P, strlen(VERSION9P)) != 0) error("bad 9P version specification"); m = c->mux; if(m != nil){ qunlock(&c->umqlock); poperror(); strecpy(buf, buf+sizeof buf, m->version); k = strlen(buf); if(strncmp(buf, v, k) != 0){ snprint(buf, sizeof buf, "incompatible 9P versions %s %s", m->version, v); error(buf); } if(returnlen > 0){ if(returnlen < k) error(Eshort); memmove(version, buf, k); } return k; } f.type = Tversion; f.tag = NOTAG; f.msize = msize; f.version = v; msg = malloc(8192+IOHDRSZ); if(msg == nil) exhausted("version memory"); if(waserror()){ free(msg); nexterror(); } k = convS2M(&f, msg, 8192+IOHDRSZ); if(k == 0) error("bad fversion conversion on send"); lock(c); oo = c->offset; c->offset += k; unlock(c); l = devtab[c->type]->write(c, msg, k, oo); if(l < k){ lock(c); c->offset -= k - l; unlock(c); error("short write in fversion"); } /* message sent; receive and decode reply */ for(k = 0; k < BIT32SZ || (k < GBIT32(msg) && k < 8192+IOHDRSZ); k += l){ l = devtab[c->type]->read(c, msg+k, 8192+IOHDRSZ-k, c->offset); if(l <= 0) error("EOF receiving fversion reply"); lock(c); c->offset += l; unlock(c); } l = convM2S(msg, k, &f); if(l != k) error("bad fversion conversion on reply"); if(f.type != Rversion){ if(f.type == Rerror) error(f.ename); error("unexpected reply type in fversion"); } if(f.msize > msize) error("server tries to increase msize in fversion"); if(f.msize<256 || f.msize>1024*1024) error("nonsense value of msize in fversion"); k = strlen(f.version); if(strncmp(f.version, v, k) != 0) error("bad 9P version returned from server"); if(returnlen > 0 && returnlen < k) error(Eshort); v = nil; kstrdup(&v, f.version); q = qopen(10*MAXRPC, 0, nil, nil); if(q == nil){ free(v); exhausted("mount queues"); } /* now build Mnt associated with this connection */ lock(&mntalloc); m = mntalloc.mntfree; if(m != nil) mntalloc.mntfree = m->list; else { unlock(&mntalloc); m = malloc(sizeof(Mnt)); if(m == nil) { qfree(q); free(v); exhausted("mount devices"); } lock(&mntalloc); } m->list = mntalloc.list; mntalloc.list = m; m->version = v; m->id = mntalloc.id++; m->q = q; m->msize = f.msize; unlock(&mntalloc); if(returnlen > 0) memmove(version, f.version, k); /* length was checked above */ poperror(); /* msg */ free(msg); lock(m); m->queue = nil; m->rip = nil; c->flag |= CMSG; c->mux = m; m->c = c; unlock(m); poperror(); /* c */ qunlock(&c->umqlock); return k; } Chan* mntauth(Chan *c, char *spec) { Mnt *m; Mntrpc *r; m = c->mux; if(m == nil){ mntversion(c, nil, 0, 0); m = c->mux; if(m == nil) error(Enoversion); } c = mntchan(); if(waserror()) { /* Close must not be called since it will * call mnt recursively */ chanfree(c); nexterror(); } r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = Tauth; r->request.afid = c->fid; r->request.uname = up->user; r->request.aname = spec; mountrpc(m, r); c->qid = r->reply.aqid; c->mchan = m->c; incref(m->c); c->mqid = c->qid; c->mode = ORDWR; c->iounit = m->msize-IOHDRSZ; poperror(); /* r */ mntfree(r); poperror(); /* c */ return c; } Chan* mntattach(Chan *c, Chan *ac, char *spec, int flags) { Mnt *m; Mntrpc *r; m = c->mux; if(m == nil){ mntversion(c, nil, 0, 0); m = c->mux; if(m == nil) error(Enoversion); } c = mntchan(); if(waserror()) { /* Close must not be called since it will * call mnt recursively */ chanfree(c); nexterror(); } r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = Tattach; r->request.fid = c->fid; if(ac == nil) r->request.afid = NOFID; else r->request.afid = ac->fid; r->request.uname = up->user; r->request.aname = spec; mountrpc(m, r); c->qid = r->reply.qid; c->mchan = m->c; incref(m->c); c->mqid = c->qid; poperror(); /* r */ mntfree(r); poperror(); /* c */ if(flags&MCACHE) c->flag |= CCACHE; return c; } static Chan* noattach(char *) { error(Enoattach); return nil; } static Chan* mntchan(void) { Chan *c; c = devattach('M', 0); lock(&mntalloc); c->dev = mntalloc.id++; unlock(&mntalloc); if(c->mchan != nil) panic("mntchan non-zero %p", c->mchan); return c; } static Walkqid* mntwalk(Chan *c, Chan *nc, char **name, int nname) { int i, alloc; Mnt *m; Mntrpc *r; Walkqid *wq; if(nc != nil) print("mntwalk: nc != nil\n"); if(nname > MAXWELEM) error("devmnt: too many name elements"); alloc = 0; wq = smalloc(sizeof(Walkqid)+(nname-1)*sizeof(Qid)); if(waserror()){ if(alloc && wq->clone!=nil) cclose(wq->clone); free(wq); return nil; } alloc = 0; m = mntchk(c); r = mntralloc(c); if(nc == nil){ nc = devclone(c); /* * Until the other side accepts this fid, we can't mntclose it. * Therefore set type to 0 for now; rootclose is known to be safe. */ nc->type = 0; nc->flag |= (c->flag & CCACHE); alloc = 1; } wq->clone = nc; if(waserror()) { mntfree(r); nexterror(); } r->request.type = Twalk; r->request.fid = c->fid; r->request.newfid = nc->fid; r->request.nwname = nname; memmove(r->request.wname, name, nname*sizeof(char*)); mountrpc(m, r); if(r->reply.nwqid > nname) error("too many QIDs returned by walk"); if(r->reply.nwqid < nname){ if(alloc) cclose(nc); wq->clone = nil; if(r->reply.nwqid == 0){ free(wq); wq = nil; goto Return; } } /* move new fid onto mnt device and update its qid */ if(wq->clone != nil){ if(wq->clone != c){ wq->clone->type = c->type; wq->clone->mchan = c->mchan; incref(c->mchan); } if(r->reply.nwqid > 0) wq->clone->qid = r->reply.wqid[r->reply.nwqid-1]; } wq->nqid = r->reply.nwqid; for(i=0; i<wq->nqid; i++) wq->qid[i] = r->reply.wqid[i]; Return: poperror(); mntfree(r); poperror(); return wq; } static int mntstat(Chan *c, uchar *dp, int n) { Mnt *m; Mntrpc *r; if(n < BIT16SZ) error(Eshortstat); m = mntchk(c); r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = Tstat; r->request.fid = c->fid; mountrpc(m, r); if(r->reply.nstat > n){ n = BIT16SZ; PBIT16((uchar*)dp, r->reply.nstat-2); }else{ n = r->reply.nstat; memmove(dp, r->reply.stat, n); validstat(dp, n); mntdirfix(dp, c); } poperror(); mntfree(r); return n; } static Chan* mntopencreate(int type, Chan *c, char *name, int omode, ulong perm) { Mnt *m; Mntrpc *r; m = mntchk(c); r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = type; r->request.fid = c->fid; r->request.mode = omode; if(type == Tcreate){ r->request.perm = perm; r->request.name = name; } mountrpc(m, r); c->qid = r->reply.qid; c->offset = 0; c->mode = openmode(omode); c->iounit = r->reply.iounit; if(c->iounit == 0 || c->iounit > m->msize-IOHDRSZ) c->iounit = m->msize-IOHDRSZ; c->flag |= COPEN; poperror(); mntfree(r); if(c->flag & CCACHE) copen(c); return c; } static Chan* mntopen(Chan *c, int omode) { return mntopencreate(Topen, c, nil, omode, 0); } static Chan* mntcreate(Chan *c, char *name, int omode, ulong perm) { return mntopencreate(Tcreate, c, name, omode, perm); } static void mntclunk(Chan *c, int t) { Mnt *m; Mntrpc *r; cclunk(c); m = mntchk(c); r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = t; r->request.fid = c->fid; mountrpc(m, r); mntfree(r); poperror(); } void muxclose(Mnt *m) { Mnt *f, **l; Mntrpc *r; while((r = m->queue) != nil){ m->queue = r->list; mntfree(r); } m->id = 0; free(m->version); m->version = nil; qfree(m->q); m->q = nil; lock(&mntalloc); l = &mntalloc.list; for(f = *l; f != nil; f = f->list) { if(f == m) { *l = m->list; break; } l = &f->list; } m->list = mntalloc.mntfree; mntalloc.mntfree = m; unlock(&mntalloc); } static void mntclose(Chan *c) { mntclunk(c, Tclunk); } static void mntremove(Chan *c) { mntclunk(c, Tremove); } static int mntwstat(Chan *c, uchar *dp, int n) { Mnt *m; Mntrpc *r; m = mntchk(c); r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = Twstat; r->request.fid = c->fid; r->request.nstat = n; r->request.stat = dp; mountrpc(m, r); poperror(); mntfree(r); return n; } static long mntread(Chan *c, void *buf, long n, vlong off) { uchar *p, *e; int dirlen; p = buf; n = mntrdwr(Tread, c, p, n, off); if(c->qid.type & QTDIR) { for(e = &p[n]; p+BIT16SZ < e; p += dirlen){ dirlen = BIT16SZ+GBIT16(p); if(p+dirlen > e) break; validstat(p, dirlen); mntdirfix(p, c); } if(p != e) error(Esbadstat); } return n; } static long mntwrite(Chan *c, void *buf, long n, vlong off) { return mntrdwr(Twrite, c, buf, n, off); } static void mntcache(Mntrpc *r) { ulong n, m; vlong off; Block *b; Chan *c; c = r->c; if((c->flag & CCACHE) == 0 || c->mcp == nil) return; off = r->request.offset; switch(r->reply.type){ case Rread: m = r->reply.count; if(m > r->request.count) m = r->request.count; for(b = r->b; m > 0 && b != nil; m -= n, b = b->next) { n = BLEN(b); if(m < n) n = m; cupdate(c, b->rp, n, off); off += n; } break; case Rwrite: if(convM2S(r->rpc, r->rpclen, &r->request) == 0) panic("convM2S"); cwrite(c, (uchar*)r->request.data, r->request.count, off); break; } } static long mntrdwr(int type, Chan *c, void *buf, long n, vlong off) { Mnt *m; Mntrpc *r; char *uba; ulong cnt, nr, nreq; m = mntchk(c); uba = buf; cnt = 0; for(;;) { nreq = n; if(nreq > c->iounit) nreq = c->iounit; if(type == Tread && (c->flag&CCACHE) != 0) { nr = cread(c, (uchar*)uba, nreq, off); if(nr > 0) { nreq = nr; goto Next; } } r = mntralloc(c); if(waserror()) { mntfree(r); nexterror(); } r->request.type = type; r->request.fid = c->fid; r->request.offset = off; r->request.data = uba; r->request.count = nreq; mountrpc(m, r); mntcache(r); nr = r->reply.count; if(nr > nreq) nr = nreq; if(type == Tread) r->b = bl2mem((uchar*)uba, r->b, nr); mntfree(r); poperror(); Next: off += nr; uba += nr; cnt += nr; n -= nr; if(nr != nreq || n == 0 || up->nnote) break; } return cnt; } static int mntprocwork(void *a) { Mntproc *p = a; return p->f != nil; } static void mntproc(void *a) { Mntproc *p = a; Chan *c; Mnt *m; while(waserror()) ; m = p->m; for(;;){ tsleep(p, mntprocwork, p, 500); lock(m); if(p->f == nil){ p->m = nil; unlock(m); pexit("no work", 1); } c = p->r->c; unlock(m); (*p->f)(p->r, p->a); lock(m); p->r = nil; p->a = nil; p->f = nil; unlock(m); cclose(c); } } static int mntdefer(void (*f)(Mntrpc*, void*), Mntrpc *r, void *a) { Mntproc *p; Mnt *m; int i; m = mntchk(r->c); lock(m); for(i = 0; i < nelem(m->defered); i++){ p = &m->defered[i]; if(p->f != nil) continue; incref(r->c); r->m = m; p->r = r; p->a = a; p->f = f; if(p->m == nil){ p->m = m; unlock(m); kproc("mntproc", mntproc, p); } else { unlock(m); wakeup(p); } return 1; } unlock(m); return 0; } static void rahproc(Mntrpc *r, void *a) { Mntrah *rah = a; if(!waserror()){ mountrpc(r->m, r); poperror(); } r->done = 2; wakeup(rah); } static int rahdone(void *v) { Mntrpc *r = v; return r->done == 2; } static Mntrpc* rahfindrpc(Mntrah *rah, vlong off) { Mntrpc *r; int i, n; vlong o; for(i=0; i<nelem(rah->r); i++){ if((r = rah->r[i]) == nil) continue; n = r->request.count; o = r->request.offset; if(off >= o && off < o+n) return r; } return nil; } void mntrahinit(Mntrah *rah) { Mntrpc *r; int i; while(waserror()) ; for(i=0; i<nelem(rah->r); i++){ if((r = rah->r[i]) != nil){ while(!rahdone(r)) sleep(rah, rahdone, r); rah->r[i] = nil; mntfree(r); } } rah->i = 0; rah->off = 0; rah->seq = 0; poperror(); } long mntrahread(Mntrah *rah, Chan *c, uchar *buf, long len, vlong off) { Mntrpc *r, **rr; vlong o, w, e; long n, tot; if(len <= 0) return 0; if(off != rah->off){ rah->off = off; if(rahfindrpc(rah, off) == nil) rah->seq = 0; } rah->off += len; rah->seq += len; if(rah->seq >= 2*c->iounit){ w = (off / c->iounit) * c->iounit; e = w + rah->seq; for(o = w; o < e; o += c->iounit){ if(rahfindrpc(rah, o) != nil) continue; rr = &rah->r[rah->i % nelem(rah->r)]; if((r = *rr) != nil){ if(!rahdone(r) || (r->request.offset >= w && r->request.offset < e)) break; *rr = nil; mntfree(r); } r = mntralloc(c); r->request.type = Tread; r->request.fid = c->fid; r->request.offset = o; r->request.count = c->iounit; if(!mntdefer(rahproc, r, rah)){ mntfree(r); break; } *rr = r; rah->i++; } } tot = 0; while(len > 0 && (r = rahfindrpc(rah, off)) != nil){ while(!rahdone(r)) sleep(rah, rahdone, r); switch(r->reply.type){ default: error(Emountrpc); case Rflush: error(Eintr); case Rerror: error(r->reply.ename); case Rread: break; } mntcache(r); n = r->request.count; o = r->request.offset; if(r->reply.count < n) n = r->reply.count; n -= (off - o); if(n <= 0) break; if(len < n) n = len; n = readblist(r->b, buf, n, off - o); buf += n; off += n; tot += n; len -= n; } if(tot > 0){ rah->off -= len; rah->seq -= len; } return tot; } static void mountrpc(Mnt *m, Mntrpc *r) { int t; r->reply.tag = 0; r->reply.type = Tmax; /* can't ever be a valid message type */ mountio(m, r); t = r->reply.type; switch(t) { case Rerror: error(r->reply.ename); case Rflush: error(Eintr); default: if(t == r->request.type+1) break; print("mnt: proc %s %lud: mismatch from %s %s rep %#p tag %d fid %d T%d R%d rp %d\n", up->text, up->pid, chanpath(m->c), chanpath(r->c), r, r->request.tag, r->request.fid, r->request.type, r->reply.type, r->reply.tag); error(Emountrpc); } } static void mountio(Mnt *m, Mntrpc *r) { int n; while(waserror()) { if(m->rip == up) mntgate(m); if(strcmp(up->errstr, Eintr) != 0 || waserror()){ r = mntflushfree(m, r); switch(r->request.type){ case Tremove: case Tclunk: /* botch, abandon fid */ if(strcmp(up->errstr, Ehungup) != 0) r->c->fid = 0; } nexterror(); } r = mntflushalloc(r); poperror(); } lock(m); r->z = &up->sleep; r->m = m; r->list = m->queue; m->queue = r; unlock(m); /* Transmit a file system rpc */ n = sizeS2M(&r->request); if(n > r->rpclen) { free(r->rpc); r->rpc = mallocz(((uint)n+127) & ~127, 0); if(r->rpc == nil) { r->rpclen = 0; exhausted("mount rpc buffer"); } r->rpclen = msize(r->rpc); } n = convS2M(&r->request, r->rpc, r->rpclen); if(n <= 0 || n > m->msize) { print("mountio: proc %s %lud: convS2M returned %d for tag %d fid %d T%d\n", up->text, up->pid, n, r->request.tag, r->request.fid, r->request.type); error(Emountrpc); } if(devtab[m->c->type]->write(m->c, r->rpc, n, 0) != n) error(Emountrpc); /* Gate readers onto the mount point one at a time */ for(;;) { lock(m); if(m->rip == nil) break; unlock(m); sleep(r->z, rpcattn, r); if(r->done) { poperror(); mntflushfree(m, r); return; } } m->rip = up; unlock(m); while(r->done == 0) { if(mntrpcread(m, r) < 0) error(Emountrpc); mountmux(m, r); } mntgate(m); poperror(); mntflushfree(m, r); } static int doread(Mnt *m, int len) { Block *b; while(qlen(m->q) < len){ b = devtab[m->c->type]->bread(m->c, m->msize, 0); if(b == nil) return -1; if(blocklen(b) == 0){ freeblist(b); return -1; } qaddlist(m->q, b); } return 0; } static int mntrpcread(Mnt *m, Mntrpc *r) { int i, t, len, hlen; Block *b, **l, *nb; r->reply.type = 0; r->reply.tag = 0; /* read at least length, type, and tag and pullup to a single block */ if(doread(m, BIT32SZ+BIT8SZ+BIT16SZ) < 0) return -1; nb = pullupqueue(m->q, BIT32SZ+BIT8SZ+BIT16SZ); /* read in the rest of the message, avoid ridiculous (for now) message sizes */ len = GBIT32(nb->rp); if(len > m->msize){ qdiscard(m->q, qlen(m->q)); return -1; } if(doread(m, len) < 0) return -1; /* pullup the header (i.e. everything except data) */ t = nb->rp[BIT32SZ]; switch(t){ case Rread: hlen = BIT32SZ+BIT8SZ+BIT16SZ+BIT32SZ; break; default: hlen = len; break; } nb = pullupqueue(m->q, hlen); if(convM2S(nb->rp, len, &r->reply) <= 0){ /* bad message, dump it */ print("mntrpcread: convM2S failed\n"); qdiscard(m->q, len); return -1; } /* hang the data off of the fcall struct */ l = &r->b; *l = nil; do { b = qremove(m->q); if(hlen > 0){ b->rp += hlen; len -= hlen; hlen = 0; } i = BLEN(b); if(i <= len){ len -= i; *l = b; l = &(b->next); } else { /* split block and put unused bit back */ nb = allocb(i-len); memmove(nb->wp, b->rp+len, i-len); b->wp = b->rp+len; nb->wp += i-len; qputback(m->q, nb); *l = b; return 0; } }while(len > 0); return 0; } static void mntgate(Mnt *m) { Mntrpc *q; lock(m); m->rip = nil; for(q = m->queue; q != nil; q = q->list) { if(q->done == 0) if(wakeup(q->z)) break; } unlock(m); } static void mountmux(Mnt *m, Mntrpc *r) { Mntrpc **l, *q; Rendez *z; lock(m); l = &m->queue; for(q = *l; q != nil; q = q->list) { /* look for a reply to a message */ if(q->request.tag == r->reply.tag) { *l = q->list; if(q == r) { q->done = 1; unlock(m); return; } /* * Completed someone else. * Trade pointers to receive buffer. */ q->reply = r->reply; q->b = r->b; r->b = nil; z = q->z; coherence(); q->done = 1; wakeup(z); unlock(m); return; } l = &q->list; } unlock(m); print("unexpected reply tag %ud; type %d\n", r->reply.tag, r->reply.type); } /* * Create a new flush request and chain the previous * requests from it */ static Mntrpc* mntflushalloc(Mntrpc *r) { Mntrpc *fr; fr = mntralloc(r->c); fr->request.type = Tflush; if(r->request.type == Tflush) fr->request.oldtag = r->request.oldtag; else fr->request.oldtag = r->request.tag; fr->flushed = r; return fr; } /* * Free a chain of flushes. Remove each unanswered * flush and the original message from the unanswered * request queue. Mark the original message as done * and if it hasn't been answered set the reply to to * Rflush. Return the original rpc. */ static Mntrpc* mntflushfree(Mnt *m, Mntrpc *r) { Mntrpc *fr; while(r != nil){ fr = r->flushed; if(!r->done){ r->reply.type = Rflush; mntqrm(m, r); } if(fr == nil) break; mntfree(r); r = fr; } return r; } static int alloctag(void) { int i, j; ulong v; for(i = 0; i < NMASK; i++){ v = mntalloc.tagmask[i]; if(v == ~0UL) continue; for(j = 0; j < 1<<TAGSHIFT; j++) if((v & (1<<j)) == 0){ mntalloc.tagmask[i] |= 1<<j; return (i<<TAGSHIFT) + j; } } panic("no friggin tags left"); return NOTAG; } static void freetag(int t) { mntalloc.tagmask[t>>TAGSHIFT] &= ~(1<<(t&TAGMASK)); } static Mntrpc* mntralloc(Chan *c) { Mntrpc *new; if(mntalloc.nrpcfree == 0) { Alloc: new = malloc(sizeof(Mntrpc)); if(new == nil) exhausted("mount rpc header"); new->rpc = nil; new->rpclen = 0; lock(&mntalloc); new->request.tag = alloctag(); } else { lock(&mntalloc); new = mntalloc.rpcfree; if(new == nil) { unlock(&mntalloc); goto Alloc; } mntalloc.rpcfree = new->list; mntalloc.nrpcfree--; } mntalloc.nrpcused++; unlock(&mntalloc); new->c = c; new->done = 0; new->flushed = nil; new->b = nil; return new; } static void mntfree(Mntrpc *r) { freeblist(r->b); lock(&mntalloc); mntalloc.nrpcused--; if(mntalloc.nrpcfree < 32) { r->list = mntalloc.rpcfree; mntalloc.rpcfree = r; mntalloc.nrpcfree++; unlock(&mntalloc); return; } freetag(r->request.tag); unlock(&mntalloc); free(r->rpc); free(r); } static void mntqrm(Mnt *m, Mntrpc *r) { Mntrpc **l, *f; lock(m); r->done = 1; l = &m->queue; for(f = *l; f != nil; f = f->list) { if(f == r) { *l = r->list; break; } l = &f->list; } unlock(m); } static Mnt* mntchk(Chan *c) { Mnt *m; /* This routine is mostly vestiges of prior lives; now it's just sanity checking */ if(c->mchan == nil) panic("mntchk 1: nil mchan c %s", chanpath(c)); m = c->mchan->mux; if(m == nil) print("mntchk 2: nil mux c %s c->mchan %s \n", chanpath(c), chanpath(c->mchan)); /* * Was it closed and reused (was error(Eshutdown); now, it cannot happen) */ if(m->id == 0 || m->id >= c->dev) panic("mntchk 3: can't happen"); return m; } /* * Rewrite channel type and dev for in-flight data to * reflect local values. These entries are known to be * the first two in the Dir encoding after the count. */ static void mntdirfix(uchar *dirbuf, Chan *c) { uint r; r = devtab[c->type]->dc; dirbuf += BIT16SZ; /* skip count */ PBIT16(dirbuf, r); dirbuf += BIT16SZ; PBIT32(dirbuf, c->dev); } static int rpcattn(void *v) { Mntrpc *r; r = v; return r->done || r->m->rip == nil; } Dev mntdevtab = { 'M', "mnt", mntreset, devinit, devshutdown, noattach, mntwalk, mntstat, mntopen, mntcreate, mntclose, mntread, devbread, mntwrite, devbwrite, mntremove, mntwstat, };