ref: fe1eb39db7ae6904924f3ab1f6f9b34416f2eb1b
dir: /sys/src/cmd/9nfs/rpc.c/
#include "all.h" #define SHORT(x) r->x = (p[1] | (p[0]<<8)); p += 2 #define LONG(x) r->x = (p[3] | (p[2]<<8) |\ (p[1]<<16) | (p[0]<<24)); p += 4 #define SKIPLONG p += 4 #define PTR(x, n) r->x = (void *)(p); p += ROUNDUP(n) int rpcM2S(void *ap, Rpccall *r, int n) { int k; uchar *p; Udphdr *up; /* copy IPv4 header fields from Udphdr */ up = ap; p = &up->raddr[IPaddrlen - IPv4addrlen]; LONG(host); USED(p); p = &up->laddr[IPaddrlen - IPv4addrlen]; LONG(lhost); USED(p); /* ignore up->ifcaddr */ p = up->rport; SHORT(port); SHORT(lport); LONG(xid); LONG(mtype); switch(r->mtype){ case CALL: LONG(rpcvers); if(r->rpcvers != 2) break; LONG(prog); LONG(vers); LONG(proc); LONG(cred.flavor); LONG(cred.count); PTR(cred.data, r->cred.count); LONG(verf.flavor); LONG(verf.count); PTR(verf.data, r->verf.count); r->up = 0; k = n - (p - (uchar *)ap); if(k < 0) break; PTR(args, k); break; case REPLY: LONG(stat); switch(r->stat){ case MSG_ACCEPTED: LONG(averf.flavor); LONG(averf.count); PTR(averf.data, r->averf.count); LONG(astat); switch(r->astat){ case SUCCESS: k = n - (p - (uchar *)ap); if(k < 0) break; PTR(results, k); break; case PROG_MISMATCH: LONG(plow); LONG(phigh); break; } break; case MSG_DENIED: LONG(rstat); switch(r->rstat){ case RPC_MISMATCH: LONG(rlow); LONG(rhigh); break; case AUTH_ERROR: LONG(authstat); break; } break; } break; } n -= p - (uchar *)ap; return n; } int auth2unix(Auth *arg, Authunix *r) { int i, n; uchar *p; if(arg->flavor != AUTH_UNIX) return -1; p = arg->data; LONG(stamp); LONG(mach.n); PTR(mach.s, r->mach.n); LONG(uid); LONG(gid); LONG(gidlen); n = r->gidlen; for(i=0; i<n && i < nelem(r->gids); i++){ LONG(gids[i]); } for(; i<n; i++){ SKIPLONG; } return arg->count - (p - (uchar *)arg->data); } int string2S(void *arg, String *r) { uchar *p; char *s; p = arg; LONG(n); PTR(s, r->n); /* must NUL terminate */ s = malloc(r->n+1); if(s == nil) panic("malloc(%ld) failed in string2S\n", r->n+1); memmove(s, r->s, r->n); s[r->n] = '\0'; r->s = strstore(s); free(s); return p - (uchar *)arg; } #undef SHORT #undef LONG #undef PTR #define SHORT(x) p[1] = r->x; p[0] = r->x>>8; p += 2 #define LONG(x) p[3] = r->x; p[2] = r->x>>8; p[1] = r->x>>16; p[0] = r->x>>24; p += 4 #define PTR(x,n) memmove(p, r->x, n); p += ROUNDUP(n) int rpcS2M(Rpccall *r, int ndata, void *ap) { uchar *p; Udphdr *up; /* copy header fields to Udphdr */ up = ap; memmove(up->raddr, v4prefix, IPaddrlen); p = &up->raddr[IPaddrlen - IPv4addrlen]; LONG(host); USED(p); memmove(up->laddr, v4prefix, IPaddrlen); p = &up->laddr[IPaddrlen - IPv4addrlen]; LONG(lhost); USED(p); memmove(up->ifcaddr, IPnoaddr, sizeof up->ifcaddr); p = up->rport; SHORT(port); SHORT(lport); LONG(xid); LONG(mtype); switch(r->mtype){ case CALL: LONG(rpcvers); LONG(prog); LONG(vers); LONG(proc); LONG(cred.flavor); LONG(cred.count); PTR(cred.data, r->cred.count); LONG(verf.flavor); LONG(verf.count); PTR(verf.data, r->verf.count); PTR(args, ndata); break; case REPLY: LONG(stat); switch(r->stat){ case MSG_ACCEPTED: LONG(averf.flavor); LONG(averf.count); PTR(averf.data, r->averf.count); LONG(astat); switch(r->astat){ case SUCCESS: PTR(results, ndata); break; case PROG_MISMATCH: LONG(plow); LONG(phigh); break; } break; case MSG_DENIED: LONG(rstat); switch(r->rstat){ case RPC_MISMATCH: LONG(rlow); LONG(rhigh); break; case AUTH_ERROR: LONG(authstat); break; } break; } break; } return p - (uchar *)ap; } #undef SHORT #undef LONG #undef PTR #define LONG(m, x) fprint(fd, "%s = %ld\n", m, r->x) #define PTR(m, count) fprint(fd, "%s [%ld]\n", m, count) void rpcprint(int fd, Rpccall *r) { fprint(fd, "%s: host = %I, port = %ld\n", argv0, r->host, r->port); LONG("xid", xid); LONG("mtype", mtype); switch(r->mtype){ case CALL: LONG("rpcvers", rpcvers); LONG("prog", prog); LONG("vers", vers); LONG("proc", proc); LONG("cred.flavor", cred.flavor); PTR("cred.data", r->cred.count); LONG("verf.flavor", verf.flavor); PTR("verf.data", r->verf.count); fprint(fd, "args...\n"); break; case REPLY: LONG("stat", stat); switch(r->stat){ case MSG_ACCEPTED: LONG("averf.flavor", averf.flavor); PTR("averf.data", r->averf.count); LONG("astat", astat); switch(r->astat){ case SUCCESS: fprint(fd, "results...\n"); break; case PROG_MISMATCH: LONG("plow", plow); LONG("phigh", phigh); break; } break; case MSG_DENIED: LONG("rstat", rstat); switch(r->rstat){ case RPC_MISMATCH: LONG("rlow", rlow); LONG("rhigh", rhigh); break; case AUTH_ERROR: LONG("authstat", authstat); break; } break; } } } void showauth(Auth *ap) { Authunix au; int i; if(auth2unix(ap, &au) != 0){ chat("auth flavor=%ld, count=%ld", ap->flavor, ap->count); for(i=0; i<ap->count; i++) chat(" %.2ux", ((uchar *)ap->data)[i]); }else{ chat("auth: %ld %.*s u=%ld g=%ld", au.stamp, utfnlen(au.mach.s, au.mach.n), au.mach.s, au.uid, au.gid); for(i=0; i<au.gidlen; i++) chat(", %ld", au.gids[i]); } chat("..."); } int garbage(Rpccall *reply, char *msg) { chat("%s\n", msg ? msg : "garbage"); reply->astat = GARBAGE_ARGS; return 0; } int error(Rpccall *reply, int errno) { uchar *dataptr = reply->results; chat("error %d\n", errno); PLONG(errno); return dataptr - (uchar *)reply->results; }