ref: 52cacba37c6f3a125ef931afa4b9c2cdb7438fef
dir: /sys/src/cmd/cpu.c/
/* * cpu.c - Make a connection to a cpu server * * Invoked by listen as 'cpu -R | -N service net netdir' * by users as 'cpu [-h system] [-c cmd args ...]' */ #include <u.h> #include <libc.h> #include <auth.h> #include <fcall.h> #include <libsec.h> #define Maxfdata 8192 #define MaxStr 128 void remoteside(void); void fatal(char*, ...); void lclnoteproc(int); void rmtnoteproc(void); void catcher(void*, char*); void usage(void); void writestr(int, char*, char*, int); int readstr(int, char*, int); char *rexcall(int*, char*, char*); int setamalg(char*); char *keyspec = ""; int notechan; int exportpid; char *system; int cflag; int nflag; int dbg; char *user; char *patternfile; char *origargs; char *srvname = "ncpu"; char *exportfs = "/bin/exportfs"; char *ealgs = "rc4_256 sha1"; /* message size for exportfs; may be larger so we can do big graphics in CPU window */ int msgsize = Maxfdata+IOHDRSZ; /* encryption mechanisms */ static int clear(int); int (*encryption)(int) = clear; /* authentication mechanisms */ static int netkeyauth(int); static int netkeysrvauth(int, char*); static int p9auth(int); static int srvp9auth(int, char*); static int noauth(int); static int srvnoauth(int, char*); typedef struct AuthMethod AuthMethod; struct AuthMethod { char *name; /* name of method */ int (*cf)(int); /* client side authentication */ int (*sf)(int, char*); /* server side authentication */ } authmethod[] = { { "p9", p9auth, srvp9auth,}, { "netkey", netkeyauth, netkeysrvauth,}, { "none", noauth, srvnoauth,}, { nil, nil} }; AuthMethod *am = authmethod; /* default is p9 */ int setam(char*); char *aan = "/bin/aan"; char *anstring = "tcp!*!0"; char *filterp = nil; int filter(int fd, char *host); void usage(void) { fprint(2, "usage: cpu [-p] [-h system] [-u user] [-a authmethod] " "[-e 'crypt hash'] [-k keypattern] [-P patternfile] " "[-c cmd arg ...]\n"); exits("usage"); } /* * reading /proc/pid/args yields either "name args" or "name [display args]", * so return only args or display args. */ static char * procgetname(void) { int fd, n; char *lp, *rp; char buf[256]; snprint(buf, sizeof buf, "#p/%d/args", getpid()); if((fd = open(buf, OREAD)) < 0) return strdup(""); *buf = '\0'; n = read(fd, buf, sizeof buf-1); close(fd); if (n >= 0) buf[n] = '\0'; if ((lp = strchr(buf, '[')) == nil || (rp = strrchr(buf, ']')) == nil) { lp = strchr(buf, ' '); if (lp == nil) return strdup(""); else return strdup(lp+1); } *rp = '\0'; return strdup(lp+1); } /* * based on libthread's threadsetname, but drags in less library code. * actually just sets the arguments displayed. */ void procsetname(char *fmt, ...) { int fd; char *cmdname; char buf[128]; va_list arg; va_start(arg, fmt); cmdname = vsmprint(fmt, arg); va_end(arg); if (cmdname == nil) return; snprint(buf, sizeof buf, "#p/%d/args", getpid()); if((fd = open(buf, OWRITE)) >= 0){ write(fd, cmdname, strlen(cmdname)+1); close(fd); } free(cmdname); } void main(int argc, char **argv) { char dat[MaxStr], buf[MaxStr], cmd[MaxStr], *p, *s, *err; int ac, fd, ms, data; char *av[10]; quotefmtinstall(); origargs = procgetname(); /* see if we should use a larger message size */ fd = open("/dev/draw", OREAD); if(fd > 0){ ms = iounit(fd); if(msgsize < ms+IOHDRSZ) msgsize = ms+IOHDRSZ; close(fd); } user = getuser(); if(user == nil) fatal("can't read user name: %r"); ARGBEGIN{ case 'a': p = EARGF(usage()); if(setam(p) < 0) fatal("unknown auth method %s", p); break; case 'e': ealgs = EARGF(usage()); if(*ealgs == 0 || strcmp(ealgs, "clear") == 0) ealgs = nil; break; case 'd': dbg++; break; case 'f': /* ignored but accepted for compatibility */ break; case 'n': /* must be specified before -R/-O */ nflag++; break; case 'A': anstring = EARGF(usage()); break; case 'R': /* From listen */ remoteside(); break; case 'h': system = EARGF(usage()); break; case 'c': cflag++; s = cmd; *s++ = '!'; *s = 0; while(p = ARGF()) s = seprint(s, cmd+sizeof(cmd), " %q", p); break; case 'k': keyspec = smprint("%s %s", keyspec, EARGF(usage())); break; case 'P': patternfile = EARGF(usage()); break; case 'u': user = EARGF(usage()); keyspec = smprint("%s user=%s", keyspec, user); break; case 'p': filterp = aan; break; default: usage(); }ARGEND; if(argc != 0) usage(); if(system == nil) { p = getenv("cpu"); if(p == 0) fatal("set $cpu"); system = p; } if(err = rexcall(&data, system, srvname)) fatal("%s: %s: %r", err, system); procsetname("%s", origargs); /* Tell the remote side the command to execute and where our working directory is */ if(cflag) writestr(data, cmd, "command", 0); if(getwd(dat, sizeof(dat)) == 0) writestr(data, "NO", "dir", 0); else writestr(data, dat, "dir", 0); /* start up a process to pass along notes */ lclnoteproc(data); /* * Wait for the other end to execute and start our file service * of /mnt/term */ if(readstr(data, buf, sizeof(buf)) < 0) fatal("waiting for FS: %r"); if(strncmp("FS", buf, 2) != 0) { print("remote cpu: %s", buf); exits(buf); } /* Begin serving the gnot namespace */ close(0); dup(data, 0); close(data); sprint(buf, "%d", msgsize); ac = 0; av[ac++] = exportfs; av[ac++] = "-m"; av[ac++] = buf; if(dbg) av[ac++] = "-d"; if(patternfile != nil){ av[ac++] = "-P"; av[ac++] = patternfile; } av[ac] = nil; exec(exportfs, av); fatal("starting exportfs: %r"); } void fatal(char *fmt, ...) { char buf[1024]; va_list arg; va_start(arg, fmt); vsnprint(buf, sizeof(buf), fmt, arg); va_end(arg); fprint(2, "cpu: %s\n", buf); syslog(0, "cpu", "%s", buf); exits(buf); } char *negstr = "negotiating authentication method"; /* Invoked with stdin and stdout connected to the network connection */ void remoteside(void) { char user[MaxStr], buf[MaxStr], xdir[MaxStr], cmd[MaxStr]; int i, n, fd, badchdir, gotcmd; rfork(RFENVG); putenv("service", "cpu"); fd = 0; /* negotiate authentication mechanism */ n = readstr(fd, cmd, sizeof(cmd)); if(n < 0) fatal("authenticating: %r"); filterp = nil; if(strcmp(cmd, "aan") == 0){ filterp = aan; writestr(fd, "", nil, 1); n = readstr(fd, cmd, sizeof(cmd)); if(n < 0) fatal("authenticating: %r"); } if(setamalg(cmd) < 0 || (nflag == 0 && am->sf == srvnoauth)) { writestr(fd, "unsupported auth method", nil, 0); fatal("bad auth method %s", cmd); } else writestr(fd, "", "", 1); if((fd = (*am->sf)(fd, user)) < 0) fatal("srvauth: %r"); if((fd = filter(fd, nil)) < 0) fatal("filter: %r"); if((fd = encryption(fd)) < 0) fatal("encrypt: %r"); /* Now collect invoking cpu's current directory or possibly a command */ gotcmd = 0; if(readstr(fd, xdir, sizeof(xdir)) < 0) fatal("dir/cmd: %r"); if(xdir[0] == '!') { strcpy(cmd, &xdir[1]); gotcmd = 1; if(readstr(fd, xdir, sizeof(xdir)) < 0) fatal("dir: %r"); } /* Establish the new process at the current working directory of the gnot */ badchdir = 0; if(strcmp(xdir, "NO") != 0) if(chdir(xdir) < 0) badchdir = 1; /* Start the gnot serving its namespace */ writestr(fd, "FS", "FS", 0); writestr(fd, "/", "exportfs dir", 0); n = read(fd, buf, sizeof(buf)); if(n != 2 || buf[0] != 'O' || buf[1] != 'K') exits("remote tree"); /* make sure buffers are big by doing fversion explicitly; pick a huge number; other side will trim */ strcpy(buf, VERSION9P); if(fversion(fd, 64*1024, buf, sizeof buf) < 0) exits("fversion failed"); if(mount(fd, -1, "/mnt/term", MCREATE|MREPL, "") < 0) exits("mount failed"); close(fd); /* the remote noteproc uses the mount so it must follow it */ rmtnoteproc(); for(i = 0; i < 3; i++) close(i); if(open("/mnt/term/dev/cons", OREAD) != 0) exits("open stdin"); if(open("/mnt/term/dev/cons", OWRITE) != 1) exits("open stdout"); dup(1, 2); if(badchdir) print("cpu: failed to chdir to '%s'\n", xdir); if(gotcmd) execl("/bin/rc", "rc", "-lc", cmd, nil); else execl("/bin/rc", "rc", "-li", nil); fatal("exec shell: %r"); } char* rexcall(int *fd, char *host, char *service) { char *na; char err[ERRMAX]; char msg[MaxStr]; int n; na = netmkaddr(host, 0, service); procsetname("dialing %s", na); if((*fd = dial(na, 0, 0, 0)) < 0) return "can't dial"; /* negotiate aan filter extension */ if(filterp == aan){ writestr(*fd, "aan", "negotiating aan", 0); n = readstr(*fd, err, sizeof err); if(n < 0) return "negotiating aan"; if(*err){ errstr(err, sizeof err); return negstr; } } /* negotiate authentication mechanism */ if(ealgs != nil) snprint(msg, sizeof(msg), "%s %s", am->name, ealgs); else snprint(msg, sizeof(msg), "%s", am->name); procsetname("writing %s", msg); writestr(*fd, msg, negstr, 0); procsetname("awaiting auth method"); n = readstr(*fd, err, sizeof err); if(n < 0) return negstr; if(*err){ errstr(err, sizeof err); return negstr; } /* authenticate */ procsetname("%s: auth via %s", origargs, am->name); if((*fd = (*am->cf)(*fd)) < 0) return "can't authenticate"; if((*fd = filter(*fd, system)) < 0) return "can't filter"; if((*fd = encryption(*fd)) < 0) return "can't encrypt"; return nil; } void writestr(int fd, char *str, char *thing, int ignore) { int l, n; l = strlen(str); n = write(fd, str, l+1); if(!ignore && n < 0) fatal("writing network: %s: %r", thing); } int readstr(int fd, char *str, int len) { int n; while(len) { n = read(fd, str, 1); if(n < 0) return -1; if(*str == '\0') return 0; str++; len--; } return -1; } static int readln(char *buf, int n) { int i; char *p; n--; /* room for \0 */ p = buf; for(i=0; i<n; i++){ if(read(0, p, 1) != 1) break; if(*p == '\n' || *p == '\r') break; p++; } *p = '\0'; return p-buf; } /* * user level challenge/response */ static int netkeyauth(int fd) { char chall[32]; char resp[32]; strecpy(chall, chall+sizeof chall, getuser()); print("user[%s]: ", chall); if(readln(resp, sizeof(resp)) < 0) return -1; if(*resp != 0) strcpy(chall, resp); writestr(fd, chall, "challenge/response", 1); for(;;){ if(readstr(fd, chall, sizeof chall) < 0) break; if(*chall == 0) return fd; print("challenge: %s\nresponse: ", chall); if(readln(resp, sizeof(resp)) < 0) break; writestr(fd, resp, "challenge/response", 1); } return -1; } static int netkeysrvauth(int fd, char *user) { char response[32]; Chalstate *ch; int tries; AuthInfo *ai; if(readstr(fd, user, MaxStr) < 0) return -1; ai = nil; ch = nil; for(tries = 0; tries < 10; tries++){ if((ch = auth_challenge("proto=p9cr role=server user=%q", user)) == nil) return -1; writestr(fd, ch->chal, "challenge", 1); if(readstr(fd, response, sizeof response) < 0) return -1; ch->resp = response; ch->nresp = strlen(response); if((ai = auth_response(ch)) != nil) break; } auth_freechal(ch); if(ai == nil) return -1; writestr(fd, "", "challenge", 1); if(auth_chuid(ai, 0) < 0) fatal("newns: %r"); auth_freeAI(ai); return fd; } static int clear(int fd) { return fd; } static char sslsecret[2][21]; static int sslencrypt(int fd) { return pushssl(fd, ealgs, sslsecret[0], sslsecret[1], nil); } static void mksecret(char *t, uchar *f) { sprint(t, "%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux%2.2ux", f[0], f[1], f[2], f[3], f[4], f[5], f[6], f[7], f[8], f[9]); } static int sslsetup(int fd, uchar *secret, int nsecret, int isclient) { uchar key[16], digest[SHA1dlen]; int i; if(ealgs == nil) return fd; if(nsecret < 8){ werrstr("secret too small to ssl"); return -1; } memmove(key+4, secret, 8); /* exchange random numbers */ srand(truerand()); if(isclient){ for(i = 0; i < 4; i++) key[i] = rand(); if(write(fd, key, 4) != 4) return -1; if(readn(fd, key+12, 4) != 4) return -1; } else { for(i = 0; i < 4; i++) key[i+12] = rand(); if(readn(fd, key, 4) != 4) return -1; if(write(fd, key+12, 4) != 4) return -1; } /* scramble into two secrets */ sha1(key, sizeof(key), digest, nil); mksecret(sslsecret[isclient == 0], digest); mksecret(sslsecret[isclient != 0], digest+10); encryption = sslencrypt; return fd; } /* * plan9 authentication followed by rc4 encryption */ static int p9auth(int fd) { AuthInfo *ai; ai = auth_proxy(fd, auth_getkey, "proto=p9any role=client %s", keyspec); if(ai == nil) return -1; fd = sslsetup(fd, ai->secret, ai->nsecret, 1); auth_freeAI(ai); return fd; } static int noauth(int fd) { ealgs = nil; return fd; } static int srvnoauth(int fd, char *user) { strecpy(user, user+MaxStr, getuser()); ealgs = nil; newns(user, nil); return fd; } static int srvp9auth(int fd, char *user) { AuthInfo *ai; ai = auth_proxy(fd, nil, "proto=p9any role=server %s", keyspec); if(ai == nil) return -1; if(auth_chuid(ai, nil) < 0) fatal("newns: %r"); snprint(user, MaxStr, "%s", ai->cuid); fd = sslsetup(fd, ai->secret, ai->nsecret, 0); auth_freeAI(ai); return fd; } /* * set authentication mechanism */ int setam(char *name) { for(am = authmethod; am->name != nil; am++) if(strcmp(am->name, name) == 0) return 0; am = authmethod; return -1; } /* * set authentication mechanism and encryption/hash algs */ int setamalg(char *s) { ealgs = strchr(s, ' '); if(ealgs != nil) *ealgs++ = 0; return setam(s); } int filter(int fd, char *host) { char addr[128], buf[256], *s, *file, *argv[16]; int p[2], lfd, flags, len, argc; if(filterp == nil) return fd; procsetname("filter %s", filterp); flags = RFNOWAIT|RFPROC|RFMEM|RFFDG|RFREND; if(host == nil){ /* remote side */ if(announce(anstring, addr) < 0) fatal("filter: Cannot announce %s: %r", anstring); snprint(buf, sizeof(buf), "%s/local", addr); if((lfd = open(buf, OREAD)) < 0) fatal("filter: Cannot open %s: %r", buf); if((len = read(lfd, buf, sizeof buf - 1)) < 0) fatal("filter: Cannot read %s: %r", buf); close(lfd); buf[len] = 0; if(s = strchr(buf, '\n')) len = s - buf; if(write(fd, buf, len) != len) fatal("filter: cannot write port; %r"); } else { /* client side */ flags |= RFNOTEG; if((len = read(fd, buf, sizeof buf - 1)) < 0) fatal("filter: cannot read port; %r"); buf[len] = '\0'; if((s = strrchr(buf, '!')) == nil) fatal("filter: malformed remote port: %s", buf); strecpy(addr, addr+sizeof(addr), netmkaddr(host, "tcp", s+1)); strecpy(strrchr(addr, '!'), addr+sizeof(addr), s); } snprint(buf, sizeof(buf), "%s", filterp); if((argc = tokenize(buf, argv, nelem(argv)-3)) <= 0) fatal("filter: empty command"); if(host) argv[argc++] = "-c"; argv[argc++] = addr; argv[argc] = nil; file = argv[0]; if(s = strrchr(argv[0], '/')) argv[0] = s+1; if(pipe(p) < 0) fatal("filter: pipe; %r"); switch(rfork(flags)) { case -1: fatal("filter: rfork; %r\n"); case 0: if (dup(p[0], 1) < 0) fatal("filter: Cannot dup to 1; %r"); if (dup(p[0], 0) < 0) fatal("filter: Cannot dup to 0; %r"); close(p[0]); close(p[1]); exec(file, argv); fatal("filter: exec; %r"); default: close(fd); close(p[0]); } return p[1]; } char *rmtnotefile = "/mnt/term/dev/cpunote"; /* * loop reading /mnt/term/dev/note looking for notes. * The child returns to start the shell. */ void rmtnoteproc(void) { int n, fd, pid, notepid; char buf[256]; /* new proc returns to start shell */ pid = rfork(RFPROC|RFFDG|RFNOTEG|RFNAMEG|RFMEM); switch(pid){ case -1: syslog(0, "cpu", "cpu -R: can't start noteproc: %r"); return; case 0: return; } /* new proc reads notes from other side and posts them to shell */ switch(notepid = rfork(RFPROC|RFFDG|RFMEM)){ case -1: syslog(0, "cpu", "cpu -R: can't start wait proc: %r"); _exits(0); case 0: fd = open(rmtnotefile, OREAD); if(fd < 0) _exits(0); for(;;){ n = read(fd, buf, sizeof(buf)-1); if(n <= 0){ postnote(PNGROUP, pid, "hangup"); _exits(0); } buf[n] = 0; postnote(PNGROUP, pid, buf); } } /* original proc waits for shell proc to die and kills note proc */ for(;;){ n = waitpid(); if(n < 0 || n == pid) break; } postnote(PNPROC, notepid, "kill"); _exits(0); } enum { Qdir, Qcpunote, Nfid = 32, }; struct { char *name; Qid qid; ulong perm; } fstab[] = { [Qdir] { ".", {Qdir, 0, QTDIR}, DMDIR|0555 }, [Qcpunote] { "cpunote", {Qcpunote, 0}, 0444 }, }; typedef struct Note Note; struct Note { Note *next; char msg[ERRMAX]; }; typedef struct Request Request; struct Request { Request *next; Fcall f; }; typedef struct Fid Fid; struct Fid { int fid; int file; int omode; }; Fid fids[Nfid]; struct { Lock; Note *nfirst, *nlast; Request *rfirst, *rlast; } nfs; int fsreply(int fd, Fcall *f) { uchar buf[IOHDRSZ+Maxfdata]; int n; if(dbg) fprint(2, "notefs: <-%F\n", f); n = convS2M(f, buf, sizeof buf); if(n > 0){ if(write(fd, buf, n) != n){ close(fd); return -1; } } return 0; } /* match a note read request with a note, reply to the request */ int kick(int fd) { Request *rp; Note *np; int rv; for(;;){ lock(&nfs); rp = nfs.rfirst; np = nfs.nfirst; if(rp == nil || np == nil){ unlock(&nfs); break; } nfs.rfirst = rp->next; nfs.nfirst = np->next; unlock(&nfs); rp->f.type = Rread; rp->f.count = strlen(np->msg); rp->f.data = np->msg; rv = fsreply(fd, &rp->f); free(rp); free(np); if(rv < 0) return -1; } return 0; } void flushreq(int tag) { Request **l, *rp; lock(&nfs); for(l = &nfs.rfirst; *l != nil; l = &(*l)->next){ rp = *l; if(rp->f.tag == tag){ *l = rp->next; unlock(&nfs); free(rp); return; } } unlock(&nfs); } Fid* getfid(int fid) { int i, freefid; freefid = -1; for(i = 0; i < Nfid; i++){ if(freefid < 0 && fids[i].file < 0) freefid = i; if(fids[i].fid == fid) return &fids[i]; } if(freefid >= 0){ fids[freefid].fid = fid; return &fids[freefid]; } return nil; } int fsstat(int fd, Fid *fid, Fcall *f) { Dir d; uchar statbuf[256]; memset(&d, 0, sizeof(d)); d.name = fstab[fid->file].name; d.uid = user; d.gid = user; d.muid = user; d.qid = fstab[fid->file].qid; d.mode = fstab[fid->file].perm; d.atime = d.mtime = time(0); f->stat = statbuf; f->nstat = convD2M(&d, statbuf, sizeof statbuf); return fsreply(fd, f); } int fsread(int fd, Fid *fid, Fcall *f) { Dir d; uchar buf[256]; Request *rp; switch(fid->file){ default: return -1; case Qdir: if(f->offset == 0 && f->count >0){ memset(&d, 0, sizeof(d)); d.name = fstab[Qcpunote].name; d.uid = user; d.gid = user; d.muid = user; d.qid = fstab[Qcpunote].qid; d.mode = fstab[Qcpunote].perm; d.atime = d.mtime = time(0); f->count = convD2M(&d, buf, sizeof buf); f->data = (char*)buf; } else f->count = 0; return fsreply(fd, f); case Qcpunote: rp = mallocz(sizeof(*rp), 1); if(rp == nil) return -1; rp->f = *f; lock(&nfs); if(nfs.rfirst == nil) nfs.rfirst = rp; else nfs.rlast->next = rp; nfs.rlast = rp; unlock(&nfs); return kick(fd);; } } char Eperm[] = "permission denied"; char Enofile[] = "out of files"; char Enotdir[] = "not a directory"; void notefs(int fd) { uchar buf[IOHDRSZ+Maxfdata]; int i, n, ncpunote; Fcall f; Qid wqid[MAXWELEM]; Fid *fid, *nfid; int doreply; rfork(RFNOTEG); fmtinstall('F', fcallfmt); for(n = 0; n < Nfid; n++){ fids[n].file = -1; fids[n].omode = -1; } ncpunote = 0; for(;;){ n = read9pmsg(fd, buf, sizeof(buf)); if(n <= 0 || convM2S(buf, n, &f) != n) break; if(dbg) fprint(2, "notefs: ->%F\n", &f); doreply = 1; fid = getfid(f.fid); if(fid == nil){ nofids: f.type = Rerror; f.ename = Enofile; fsreply(fd, &f); continue; } switch(f.type++){ default: f.type = Rerror; f.ename = "unknown type"; break; case Tflush: flushreq(f.oldtag); break; case Tversion: if(f.msize > IOHDRSZ+Maxfdata) f.msize = IOHDRSZ+Maxfdata; break; case Tauth: f.type = Rerror; f.ename = "authentication not required"; break; case Tattach: f.qid = fstab[Qdir].qid; fid->file = Qdir; break; case Twalk: nfid = nil; if(f.newfid != f.fid){ nfid = getfid(f.newfid); if(nfid == nil) goto nofids; nfid->file = fid->file; fid = nfid; } for(i=0; i<f.nwname && i<MAXWELEM; i++){ if(fid->file != Qdir){ f.type = Rerror; f.ename = Enotdir; break; } if(strcmp(f.wname[i], "..") == 0){ wqid[i] = fstab[Qdir].qid; continue; } if(strcmp(f.wname[i], "cpunote") != 0){ if(i == 0){ f.type = Rerror; f.ename = "file does not exist"; } break; } fid->file = Qcpunote; wqid[i] = fstab[Qcpunote].qid; } if(nfid != nil && (f.type == Rerror || i < f.nwname)) nfid ->file = -1; if(f.type != Rerror){ f.nwqid = i; for(i=0; i<f.nwqid; i++) f.wqid[i] = wqid[i]; } break; case Topen: if(f.mode != OREAD){ f.type = Rerror; f.ename = Eperm; break; } fid->omode = f.mode; if(fid->file == Qcpunote) ncpunote++; f.qid = fstab[fid->file].qid; f.iounit = 0; break; case Tread: if(fsread(fd, fid, &f) < 0) goto err; doreply = 0; break; case Tclunk: if(fid->omode != -1 && fid->file == Qcpunote){ ncpunote--; if(ncpunote == 0) /* remote side is done */ goto err; } fid->file = -1; fid->omode = -1; break; case Tstat: if(fsstat(fd, fid, &f) < 0) goto err; doreply = 0; break; case Tcreate: case Twrite: case Tremove: case Twstat: f.type = Rerror; f.ename = Eperm; break; } if(doreply) if(fsreply(fd, &f) < 0) break; } err: if(dbg) fprint(2, "notefs exiting: %r\n"); werrstr("success"); postnote(PNGROUP, exportpid, "kill"); if(dbg) fprint(2, "postnote PNGROUP %d: %r\n", exportpid); close(fd); } char notebuf[ERRMAX]; void catcher(void*, char *text) { int n; n = strlen(text); if(n >= sizeof(notebuf)) n = sizeof(notebuf)-1; memmove(notebuf, text, n); notebuf[n] = '\0'; noted(NCONT); } /* * mount in /dev a note file for the remote side to read. */ void lclnoteproc(int netfd) { Waitmsg *w; Note *np; int pfd[2]; int pid; if(pipe(pfd) < 0){ fprint(2, "cpu: can't start note proc: pipe: %r\n"); return; } /* new proc mounts and returns to start exportfs */ switch(pid = rfork(RFPROC|RFNAMEG|RFFDG|RFMEM)){ default: exportpid = pid; break; case -1: fprint(2, "cpu: can't start note proc: rfork: %r\n"); return; case 0: close(pfd[0]); if(mount(pfd[1], -1, "/dev", MBEFORE, "") < 0) fprint(2, "cpu: can't mount note proc: %r\n"); close(pfd[1]); return; } close(netfd); close(pfd[1]); /* new proc listens for note file system rpc's */ switch(rfork(RFPROC|RFNAMEG|RFMEM)){ case -1: fprint(2, "cpu: can't start note proc: rfork1: %r\n"); _exits(0); case 0: notefs(pfd[0]); _exits(0); } /* original proc waits for notes */ notify(catcher); w = nil; for(;;) { *notebuf = 0; free(w); w = wait(); if(w == nil) { if(*notebuf == 0) break; np = mallocz(sizeof(Note), 1); if(np != nil){ strcpy(np->msg, notebuf); lock(&nfs); if(nfs.nfirst == nil) nfs.nfirst = np; else nfs.nlast->next = np; nfs.nlast = np; unlock(&nfs); kick(pfd[0]); } unlock(&nfs); } else if(w->pid == exportpid) break; } if(w == nil) exits(nil); exits(0); /* exits(w->msg); */ }