ref: c184d2602d62225997fd1c5eae9fd602f7924d5b
dir: /sys/src/libventi/client.c/
#include <u.h> #include <libc.h> #include <venti.h> int ventidoublechecksha1 = 1; static int vtfcallrpc(VtConn *z, VtFcall *ou, VtFcall *in) { Packet *p; p = vtfcallpack(ou); if(p == nil) return -1; if((p = _vtrpc(z, p, ou)) == nil) return -1; if(vtfcallunpack(in, p) < 0){ packetfree(p); return -1; } if(chattyventi) fprint(2, "%s <- %F\n", argv0, in); if(in->msgtype == VtRerror){ werrstr("%s", in->error); vtfcallclear(in); packetfree(p); return -1; } if(in->msgtype != ou->msgtype+1){ werrstr("type mismatch: sent %c%d got %c%d", "TR"[ou->msgtype&1], ou->msgtype>>1, "TR"[in->msgtype&1], in->msgtype>>1); vtfcallclear(in); packetfree(p); return -1; } packetfree(p); return 0; } int vthello(VtConn *z) { VtFcall tx, rx; memset(&tx, 0, sizeof tx); tx.msgtype = VtThello; tx.version = z->version; tx.uid = z->uid; if(tx.uid == nil) tx.uid = "anonymous"; if(vtfcallrpc(z, &tx, &rx) < 0) return -1; z->sid = rx.sid; rx.sid = 0; vtfcallclear(&rx); return 0; } Packet* vtreadpacket(VtConn *z, uchar score[VtScoreSize], uint type, int n) { VtFcall tx, rx; if(memcmp(score, vtzeroscore, VtScoreSize) == 0) return packetalloc(); memset(&tx, 0, sizeof tx); tx.msgtype = VtTread; tx.blocktype = type; tx.count = n; memmove(tx.score, score, VtScoreSize); if(vtfcallrpc(z, &tx, &rx) < 0) return nil; if(packetsize(rx.data) > n){ werrstr("read returned too much data"); packetfree(rx.data); return nil; } if(ventidoublechecksha1){ packetsha1(rx.data, tx.score); if(memcmp(score, tx.score, VtScoreSize) != 0){ werrstr("read asked for %V got %V", score, tx.score); packetfree(rx.data); return nil; } } return rx.data; } int vtread(VtConn *z, uchar score[VtScoreSize], uint type, uchar *buf, int n) { int nn; Packet *p; if((p = vtreadpacket(z, score, type, n)) == nil) return -1; nn = packetsize(p); if(packetconsume(p, buf, nn) < 0) abort(); packetfree(p); return nn; } int vtwritepacket(VtConn *z, uchar score[VtScoreSize], uint type, Packet *p) { VtFcall tx, rx; if(packetsize(p) == 0){ memmove(score, vtzeroscore, VtScoreSize); return 0; } tx.msgtype = VtTwrite; tx.blocktype = type; tx.data = p; if(ventidoublechecksha1) packetsha1(p, score); if(vtfcallrpc(z, &tx, &rx) < 0) return -1; if(ventidoublechecksha1){ if(memcmp(score, rx.score, VtScoreSize) != 0){ werrstr("sha1 hash mismatch: want %V got %V", score, rx.score); return -1; } }else memmove(score, rx.score, VtScoreSize); return 0; } int vtwrite(VtConn *z, uchar score[VtScoreSize], uint type, uchar *buf, int n) { Packet *p; int nn; p = packetforeign(buf, n, 0, nil); nn = vtwritepacket(z, score, type, p); packetfree(p); return nn; } int vtsync(VtConn *z) { VtFcall tx, rx; tx.msgtype = VtTsync; return vtfcallrpc(z, &tx, &rx); } int vtping(VtConn *z) { VtFcall tx, rx; tx.msgtype = VtTping; return vtfcallrpc(z, &tx, &rx); } int vtconnect(VtConn *z) { if(vtversion(z) < 0) return -1; if(vthello(z) < 0) return -1; return 0; } int vtgoodbye(VtConn *z) { VtFcall tx, rx; tx.msgtype = VtTgoodbye; vtfcallrpc(z, &tx, &rx); /* always fails: no VtRgoodbye */ return 0; }