ref: 83aa7ba70933335cd579b560a793b7741d5e3931
dir: /sys/src/cmd/ratfs/proto.c/
#include "ratfs.h" /* * 9P protocol interface */ enum { RELOAD = 0, /* commands written to ctl file */ RDEBUG, RNODEBUG, RNONE, }; static void rflush(Fcall*), rauth(Fcall*), rattach(Fcall*), rclone(Fcall*), rwalk(Fcall*), ropen(Fcall*), rcreate(Fcall*), rread(Fcall*), rwrite(Fcall*), rclunk(Fcall*), rremove(Fcall*), rstat(Fcall*), rwstat(Fcall*), rversion(Fcall*); static Fid* newfid(int); static void reply(Fcall*, char*); static void (*fcalls[])(Fcall*) = { [Tversion] rversion, [Tflush] rflush, [Tauth] rauth, [Tattach] rattach, [Twalk] rwalk, [Topen] ropen, [Tcreate] rcreate, [Tread] rread, [Twrite] rwrite, [Tclunk] rclunk, [Tremove] rremove, [Tstat] rstat, [Twstat] rwstat, }; static Keyword cmds[] = { "reload", RELOAD, "debug", RDEBUG, "nodebug", RNODEBUG, 0, RNONE, }; /* * Main protocol loop */ void io(void) { Fcall rhdr; int n; while((n = read9pmsg(srvfd, rbuf, sizeof rbuf-1)) != 0){ if(n < 0) fatal("mount read: %r"); if(convM2S(rbuf, n, &rhdr) != n){ if(debugfd >= 0) fprint(2, "%s: malformed message\n", argv0); fatal("convM2S format error: %r"); } if(debugfd >= 0) fprint(debugfd, "<-%F\n", &rhdr);/**/ if(!fcalls[rhdr.type]) reply(&rhdr, "bad fcall type"); else (*fcalls[rhdr.type])(&rhdr); } } /* * write a protocol reply to the client */ static void reply(Fcall *r, char *error) { int n; if(error == nil) r->type++; else { r->type = Rerror; r->ename = error; } if(debugfd >= 0) fprint(debugfd, "->%F\n", r);/**/ n = convS2M(r, rbuf, sizeof rbuf); if(n == 0) fatal("convS2M: %r"); if(write(srvfd, rbuf, n) < 0) fatal("reply: %r"); } /* * lookup a fid. if not found, create a new one. */ static Fid* newfid(int fid) { Fid *f, *ff; static Fid *fids; ff = 0; for(f = fids; f; f = f->next){ if(f->fid == fid){ if(!f->busy) f->node = 0; return f; } else if(!ff && !f->busy) ff = f; } if(ff == 0){ ff = mallocz(sizeof(*f), 1); ff->next = fids; fids = ff; } ff->node = 0; ff->fid = fid; return ff; } static void rversion(Fcall *f) { f->version = "9P2000"; if(f->msize > MAXRPC) f->msize = MAXRPC; reply(f, 0); } static void rauth(Fcall *f) { reply(f, "ratfs: authentication not required"); } static void rflush(Fcall *f) { reply(f, 0); } static void rattach(Fcall *f) { Fid *fidp; Dir *d; if((d=dirstat(conffile)) != nil && d->mtime > lastconftime) getconf(); free(d); if((d=dirstat(ctlfile)) != nil && d->mtime > lastctltime) reload(); free(d); cleantrusted(); fidp = newfid(f->fid); fidp->busy = 1; fidp->node = root; fidp->name = root->d.name; fidp->uid = atom(f->uname); f->qid = root->d.qid; reply(f,0); } static void rclone(Fcall *f) { Fid *fidp, *nf; fidp = newfid(f->fid); if(fidp->node && fidp->node->d.type == Dummynode){ reply(f, "can't clone an address"); return; } nf = newfid(f->newfid); nf->busy = 1; nf->node = fidp->node; nf->uid = fidp->uid; nf->name = fidp->name; if(debugfd >= 0) printfid(nf); reply(f,0); } static void rwalk(Fcall *f) { int i, j; Fcall r; Fid *fidp, *nf; char *err; fidp = newfid(f->fid); if(fidp->node && fidp->node->d.type == Dummynode){ reply(f, "can't walk an address node"); return; } if(f->fid == f->newfid) nf = fidp; else{ nf = newfid(f->newfid); nf->busy = 1; nf->node = fidp->node; nf->uid = fidp->uid; nf->name = fidp->name; if(debugfd >= 0) printfid(nf); } err = nil; for(i=0; i<f->nwname; i++){ err = walk(f->wname[i], nf); if(err) break; r.wqid[i] = nf->node->d.qid; } if(i < f->nwname && f->fid != f->newfid){ nf->busy = 0; nf->node = 0; nf->name = 0; nf->uid = 0; } if(i > 0 && i < f->nwname && f->fid == f->newfid){ /* * try to put things back; * we never get this sort of call from the kernel */ for(j=0; j<i; j++) walk("..", nf); } memmove(f->wqid, r.wqid, sizeof f->wqid); f->nwqid = i; if(err && i==0) reply(f, err); else reply(f, 0); } /* * We don't have to do full permission checking because most files * have restricted semantics: * The ctl file is only writable * All others, including directories, are only readable */ static void ropen(Fcall *f) { Fid *fidp; int mode; fidp = newfid(f->fid); if(debugfd >= 0) printfid(fidp); mode = f->mode&(OREAD|OWRITE|ORDWR); if(fidp->node->d.type == Ctlfile) { if(mode != OWRITE) { reply(f, "permission denied"); return; } } else if (mode != OREAD) { reply(f, "permission denied or operation not supported"); return; } f->qid = fidp->node->d.qid; fidp->open = 1; reply(f, 0); } static int permitted(Fid *fp, Node *np, int mask) { int mode; mode = np->d.mode; return (fp->uid==np->d.uid && (mode&(mask<<6))) || (fp->uid==np->d.gid && (mode&(mask<<3))) || (mode&mask); } /* * creates are only allowed in the "trusted" subdirectory * we also assume that the groupid == the uid */ static void rcreate(Fcall *f) { Fid *fidp; Node *np; fidp = newfid(f->fid); np = fidp->node; if((np->d.mode&DMDIR) == 0){ reply(f, "not a directory"); return; } if(!permitted(fidp, np, AWRITE)) { reply(f, "permission denied"); return; } /* Ignore the supplied mode and force it to be non-writable */ np = newnode(np, f->name, Trustedtemp, 0444, trustedqid++); if(trustedqid >= Qaddrfile) /* wrap QIDs */ trustedqid = Qtrustedfile; cidrparse(&np->ip, f->name); f->qid = np->d.qid; np->d.uid = fidp->uid; np->d.gid = np->d.uid; np->d.muid = np->d.muid; fidp->node = np; fidp->open = 1; reply(f, 0); return; } /* * only directories can be read. everthing else returns EOF. */ static void rread(Fcall *f) { long cnt; Fid *fidp; cnt = f->count; f->count = 0; fidp = newfid(f->fid); f->data = (char*)rbuf+IOHDRSZ; if(fidp->open == 0) { reply(f, "file not open"); return; } if ((fidp->node->d.mode&DMDIR) == 0){ reply(f, 0); /*EOF*/ return; } if(cnt > MAXRPC) cnt = MAXRPC; if(f->offset == 0) fidp->dirindex = 0; switch(fidp->node->d.type) { case Directory: case Addrdir: case Trusted: f->count = dread(fidp, cnt); break; case IPaddr: case Acctaddr: f->count = hread(fidp, cnt); break; default: reply(f, "can't read this type of file"); return; } reply(f, 0); } /* * only the 'ctl' file in the top level directory is writable */ static void rwrite(Fcall *f) { Fid *fidp; int n; char *err, *argv[10]; fidp = newfid(f->fid); if(fidp->node->d.mode & DMDIR){ reply(f, "directories are not writable"); return; } if(fidp->open == 0) { reply(f, "file not open"); return; } if (!permitted(fidp, fidp->node, AWRITE)) { reply(f, "permission denied"); return; } f->data[f->count] = 0; /* the extra byte in rbuf leaves room */ n = tokenize(f->data, argv, 10); err = 0; switch(findkey(argv[0], cmds)){ case RELOAD: getconf(); reload(); break; case RDEBUG: if(n > 1){ debugfd = create(argv[1], OWRITE, 0666); if(debugfd < 0) err = "create failed"; } else debugfd = 2; break; case RNODEBUG: if(debugfd >= 0) close(debugfd); debugfd = -1; break; default: err = "unknown command"; break; } reply(f, err); } static void rclunk(Fcall *f) { Fid *fidp; fidp = newfid(f->fid); fidp->open = 0; fidp->busy = 0; fidp->node = 0; fidp->name = 0; fidp->uid = 0; reply(f, 0); } /* * no files or directories are removable; this becomes clunk; */ static void rremove(Fcall *f) { Fid *fidp; Node *dir, *np; fidp = newfid(f->fid); /* * only trusted temporary files can be removed * and only by their owner. */ if(fidp->node->d.type != Trustedtemp){ reply(f, "can't be removed"); return; } if(fidp->uid != fidp->node->d.uid){ reply(f, "permission denied"); return; } dir = fidp->node->parent; for(np = dir->children; np; np = np->sibs) if(np->sibs == fidp->node) break; if(np) np->sibs = fidp->node->sibs; else dir->children = fidp->node->sibs; dir->count--; free(fidp->node); fidp->node = 0; fidp->open = 0; fidp->busy = 0; fidp->name = 0; fidp->uid = 0; reply(f, 0); } static void rstat(Fcall *f) { Fid *fidp; fidp = newfid(f->fid); if (fidp->node->d.type == Dummynode) dummy.d.name = fidp->name; f->stat = (uchar*)rbuf+4+1+2+2; /* knows about stat(5) */ f->nstat = convD2M(&fidp->node->d, f->stat, MAXRPC); if(f->nstat <= BIT16SZ) reply(f, "ratfs: convD2M"); else reply(f, 0); return; } static void rwstat(Fcall *f) { reply(f, "wstat not implemented"); }