ref: d3512f60df5d7a2ea5c4cad3cdef797f1f95a182
dir: /sys/src/cmd/9nfs/server.c/
#include "all.h" #include <ndb.h> static int alarmflag; static int Iconv(Fmt*); static void cachereply(Rpccall*, void*, int); static int replycache(int, Rpccall*, long (*)(int, void*, long)); static void udpserver(int, Progmap*); static void tcpserver(int, Progmap*); static void getendpoints(Udphdr*, char*); static long readtcp(int, void*, long); static long writetcp(int, void*, long); static int servemsg(int, long (*)(int, void*, long), long (*)(int, void*, long), int, Progmap*); void (*rpcalarm)(void); int rpcdebug; int rejectall; int p9debug; int nocache; uchar buf[9000]; uchar rbuf[9000]; uchar resultbuf[9000]; static int tcp; char *commonopts = "[-9CDrtv]"; /* for usage() messages */ /* * this recognises common, nominally rcp-related options. * they may not take arguments. */ int argopt(int c) { switch(c){ case '9': ++p9debug; return 0; case 'C': ++nocache; return 0; case 'D': ++rpcdebug; return 0; case 'r': ++rejectall; return 0; case 't': tcp = 1; return 0; case 'v': ++chatty; return 0; default: return -1; } } /* * all option parsing is now done in (*pg->init)(), which can call back * here to argopt for common options. */ void server(int argc, char **argv, int myport, Progmap *progmap) { Progmap *pg; fmtinstall('I', Iconv); fmtinstall('F', fcallfmt); fmtinstall('D', dirfmt); switch(rfork(RFNOWAIT|RFENVG|RFNAMEG|RFNOTEG|RFFDG|RFPROC)){ case -1: panic("fork"); default: _exits(0); case 0: break; } switch(rfork(RFMEM|RFPROC)){ case 0: for(;;){ sleep(30*1000); alarmflag = 1; } case -1: sysfatal("rfork: %r"); } for(pg=progmap; pg->init; pg++) (*pg->init)(argc, argv); if(tcp) tcpserver(myport, progmap); else udpserver(myport, progmap); } static void udpserver(int myport, Progmap *progmap) { char service[128]; char data[128]; char devdir[40]; int ctlfd, datafd; snprint(service, sizeof service, "udp!*!%d", myport); ctlfd = announce(service, devdir); if(ctlfd < 0) panic("can't announce %s: %r\n", service); if(fprint(ctlfd, "headers") < 0) panic("can't set header mode: %r\n"); snprint(data, sizeof data, "%s/data", devdir); datafd = open(data, ORDWR); if(datafd < 0) panic("can't open udp data: %r\n"); close(ctlfd); chatsrv(0); clog("%s: listening to port %d\n", argv0, myport); while (servemsg(datafd, read, write, myport, progmap) >= 0) continue; exits(0); } static void tcpserver(int myport, Progmap *progmap) { char adir[40]; char ldir[40]; char ds[40]; int actl, lctl, data; snprint(ds, sizeof ds, "tcp!*!%d", myport); chatsrv(0); actl = -1; for(;;){ if(actl < 0){ actl = announce(ds, adir); if(actl < 0){ clog("%s: listening to tcp port %d\n", argv0, myport); clog("announcing: %r"); break; } } lctl = listen(adir, ldir); if(lctl < 0){ close(actl); actl = -1; continue; } switch(fork()){ case -1: clog("%s!%d: %r\n", argv0, myport); /* fall through */ default: close(lctl); continue; case 0: close(actl); data = accept(lctl, ldir); close(lctl); if(data < 0) exits(0); /* pretend it's udp; fill in Udphdr */ getendpoints((Udphdr*)buf, ldir); while (servemsg(data, readtcp, writetcp, myport, progmap) >= 0) continue; close(data); exits(0); } } exits(0); } static int servemsg(int fd, long (*readmsg)(int, void*, long), long (*writemsg)(int, void*, long), int myport, Progmap * progmap) { int i, n, nreply; Rpccall rcall, rreply; int vlo, vhi; Progmap *pg; Procmap *pp; char errbuf[ERRMAX]; if(alarmflag){ alarmflag = 0; if(rpcalarm) (*rpcalarm)(); } n = (*readmsg)(fd, buf, sizeof buf); if(n < 0){ errstr(errbuf, sizeof errbuf); if(strcmp(errbuf, "interrupted") == 0) return 0; clog("port %d: error: %s\n", myport, errbuf); return -1; } if(n == 0){ clog("port %d: EOF\n", myport); return -1; } if(rpcdebug == 1) fprint(2, "%s: rpc from %d.%d.%d.%d/%d\n", argv0, buf[12], buf[13], buf[14], buf[15], (buf[32]<<8)|buf[33]); i = rpcM2S(buf, &rcall, n); if(i != 0){ clog("udp port %d: message format error %d\n", myport, i); return 0; } if(rpcdebug > 1) rpcprint(2, &rcall); if(rcall.mtype != CALL) return 0; if(replycache(fd, &rcall, writemsg)) return 0; nreply = 0; rreply.host = rcall.host; rreply.port = rcall.port; rreply.lhost = rcall.lhost; rreply.lport = rcall.lport; rreply.xid = rcall.xid; rreply.mtype = REPLY; if(rcall.rpcvers != 2){ rreply.stat = MSG_DENIED; rreply.rstat = RPC_MISMATCH; rreply.rlow = 2; rreply.rhigh = 2; goto send_reply; } if(rejectall){ rreply.stat = MSG_DENIED; rreply.rstat = AUTH_ERROR; rreply.authstat = AUTH_TOOWEAK; goto send_reply; } i = n - (((uchar *)rcall.args) - buf); if(rpcdebug > 1) fprint(2, "arg size = %d\n", i); rreply.stat = MSG_ACCEPTED; rreply.averf.flavor = 0; rreply.averf.count = 0; rreply.results = resultbuf; vlo = 0x7fffffff; vhi = -1; for(pg=progmap; pg->pmap; pg++){ if(pg->progno != rcall.prog) continue; if(pg->vers == rcall.vers) break; if(pg->vers < vlo) vlo = pg->vers; if(pg->vers > vhi) vhi = pg->vers; } if(pg->pmap == 0){ if(vhi < 0) rreply.astat = PROG_UNAVAIL; else{ rreply.astat = PROG_MISMATCH; rreply.plow = vlo; rreply.phigh = vhi; } goto send_reply; } for(pp = pg->pmap; pp->procp; pp++) if(rcall.proc == pp->procno){ if(rpcdebug > 1) fprint(2, "process %d\n", pp->procno); rreply.astat = SUCCESS; nreply = (*pp->procp)(i, &rcall, &rreply); goto send_reply; } rreply.astat = PROC_UNAVAIL; send_reply: if(nreply >= 0){ i = rpcS2M(&rreply, nreply, rbuf); if(rpcdebug > 1) rpcprint(2, &rreply); (*writemsg)(fd, rbuf, i); cachereply(&rreply, rbuf, i); } return 0; } static void getendpoint(char *dir, char *file, uchar *addr, uchar *port) { int fd, n; char buf[128]; char *sys, *serv; sys = serv = 0; snprint(buf, sizeof buf, "%s/%s", dir, file); fd = open(buf, OREAD); if(fd >= 0){ n = read(fd, buf, sizeof(buf)-1); if(n>0){ buf[n-1] = 0; serv = strchr(buf, '!'); if(serv){ *serv++ = 0; serv = strdup(serv); } sys = strdup(buf); } close(fd); } if(serv == 0) serv = strdup("unknown"); if(sys == 0) sys = strdup("unknown"); parseip(addr, sys); n = atoi(serv); hnputs(port, n); } /* set Udphdr values from protocol dir local & remote files */ static void getendpoints(Udphdr *ep, char *dir) { getendpoint(dir, "local", ep->laddr, ep->lport); getendpoint(dir, "remote", ep->raddr, ep->rport); } static long readtcp(int fd, void *vbuf, long blen) { uchar mk[4]; int n, m, sofar; ulong done; char *buf; buf = vbuf; buf += Udphdrsize; blen -= Udphdrsize; done = 0; for(sofar = 0; !done; sofar += n){ m = readn(fd, mk, 4); if(m < 4) return 0; done = (mk[0]<<24)|(mk[1]<<16)|(mk[2]<<8)|mk[3]; m = done & 0x7fffffff; done &= 0x80000000; if(m > blen-sofar) return -1; n = readn(fd, buf+sofar, m); if(m != n) return 0; } return sofar + Udphdrsize; } static long writetcp(int fd, void *vbuf, long len) { char *buf; buf = vbuf; buf += Udphdrsize; len -= Udphdrsize; buf -= 4; buf[0] = 0x80 | (len>>24); buf[1] = len>>16; buf[2] = len>>8; buf[3] = len; len += 4; return write(fd, buf, len); } /* *long *niwrite(int fd, void *buf, long count) *{ * char errbuf[ERRLEN]; * long n; * * for(;;){ * n = write(fd, buf, count); * if(n < 0){ * errstr(errbuf); * if(strcmp(errbuf, "interrupted") == 0) * continue; * clog("niwrite error: %s\n", errbuf); * werrstr(errbuf); * } * break; * } * return n; *} */ long niwrite(int fd, void *buf, long n) { // int savalarm; // savalarm = alarm(0); n = write(fd, buf, n); // if(savalarm > 0) // alarm(savalarm); return n; } typedef struct Namecache Namecache; struct Namecache { char dom[256]; ulong ipaddr; Namecache *next; }; Namecache *dnscache; static Namecache* domlookupl(void *name, int len) { Namecache *n, **ln; if(len >= sizeof(n->dom)) return nil; for(ln=&dnscache, n=*ln; n; ln=&(*ln)->next, n=*ln) { if(strncmp(n->dom, name, len) == 0 && n->dom[len] == 0) { *ln = n->next; n->next = dnscache; dnscache = n; return n; } } return nil; } static Namecache* iplookup(ulong ip) { Namecache *n, **ln; for(ln=&dnscache, n=*ln; n; ln=&(*ln)->next, n=*ln) { if(n->ipaddr == ip) { *ln = n->next; n->next = dnscache; dnscache = n; return n; } } return nil; } static Namecache* addcacheentry(void *name, int len, ulong ip) { Namecache *n; if(len >= sizeof(n->dom)) return nil; n = malloc(sizeof(*n)); if(n == nil) return nil; strncpy(n->dom, name, len); n->dom[len] = 0; n->ipaddr = ip; n->next = dnscache; dnscache = n; return nil; } int getdnsdom(ulong ip, char *name, int len) { char buf[128]; Namecache *nc; char *p; if(nc=iplookup(ip)) { strncpy(name, nc->dom, len); name[len-1] = 0; return 0; } clog("getdnsdom: %I\n", ip); snprint(buf, sizeof buf, "%I", ip); p = csgetvalue("/net", "ip", buf, "dom", nil); if(p == nil) return -1; strncpy(name, p, len-1); name[len] = 0; free(p); addcacheentry(name, strlen(name), ip); return 0; } int getdom(ulong ip, char *dom, int len) { int i; static char *prefix[] = { "", "gate-", "fddi-", "u-", 0 }; char **pr; if(getdnsdom(ip, dom, len)<0) return -1; for(pr=prefix; *pr; pr++){ i = strlen(*pr); if(strncmp(dom, *pr, i) == 0) { memmove(dom, dom+i, len-i); break; } } return 0; } #define MAXCACHE 64 static Rpccache *head, *tail; static int ncache; static void cachereply(Rpccall *rp, void *buf, int len) { Rpccache *cp; if(nocache) return; if(ncache >= MAXCACHE){ if(rpcdebug) fprint(2, "%s: drop %I/%ld, xid %uld, len %d\n", argv0, tail->host, tail->port, tail->xid, tail->n); tail = tail->prev; free(tail->next); tail->next = 0; --ncache; } cp = malloc(sizeof(Rpccache)+len-4); if(cp == 0){ clog("cachereply: malloc %d failed\n", len); return; } ++ncache; cp->prev = 0; cp->next = head; if(head) head->prev = cp; else tail = cp; head = cp; cp->host = rp->host; cp->port = rp->port; cp->xid = rp->xid; cp->n = len; memmove(cp->data, buf, len); if(rpcdebug) fprint(2, "%s: cache %I/%ld, xid %uld, len %d\n", argv0, cp->host, cp->port, cp->xid, cp->n); } static int replycache(int fd, Rpccall *rp, long (*writemsg)(int, void*, long)) { Rpccache *cp; for(cp=head; cp; cp=cp->next) if(cp->host == rp->host && cp->port == rp->port && cp->xid == rp->xid) break; if(cp == 0) return 0; if(cp->prev){ /* move to front */ cp->prev->next = cp->next; if(cp->next) cp->next->prev = cp->prev; else tail = cp->prev; cp->prev = 0; cp->next = head; head->prev = cp; head = cp; } (*writemsg)(fd, cp->data, cp->n); if(rpcdebug) fprint(2, "%s: reply %I/%ld, xid %uld, len %d\n", argv0, cp->host, cp->port, cp->xid, cp->n); return 1; } static int Iconv(Fmt *f) { char buf[16]; ulong h; h = va_arg(f->args, ulong); snprint(buf, sizeof buf, "%ld.%ld.%ld.%ld", (h>>24)&0xff, (h>>16)&0xff, (h>>8)&0xff, h&0xff); return fmtstrcpy(f, buf); }