#include <u.h>
#include <libc.h>
#include <oventi.h>
#include "session.h"
struct {
int version;
char *s;
} vtVersions[] = {
VtVersion02, "02",
0, 0,
};
static char EBigString[] = "string too long";
static char EBigPacket[] = "packet too long";
static char ENullString[] = "missing string";
static char EBadVersion[] = "bad format in version string";
static Packet *vtRPC(VtSession *z, int op, Packet *p);
VtSession *
vtAlloc(void)
{
VtSession *z;
z = vtMemAllocZ(sizeof(VtSession));
z->lk = vtLockAlloc();
// z->inHash = vtSha1Alloc();
z->inLock = vtLockAlloc();
z->part = packetAlloc();
// z->outHash = vtSha1Alloc();
z->outLock = vtLockAlloc();
z->fd = -1;
z->uid = vtStrDup("anonymous");
z->sid = vtStrDup("anonymous");
return z;
}
void
vtReset(VtSession *z)
{
vtLock(z->lk);
z->cstate = VtStateAlloc;
if(z->fd >= 0){
vtFdClose(z->fd);
z->fd = -1;
}
vtUnlock(z->lk);
}
int
vtConnected(VtSession *z)
{
return z->cstate == VtStateConnected;
}
void
vtDisconnect(VtSession *z, int error)
{
Packet *p;
uchar *b;
vtDebug(z, "vtDisconnect\n");
vtLock(z->lk);
if(z->cstate == VtStateConnected && !error && z->vtbl == nil) {
/* clean shutdown */
p = packetAlloc();
b = packetHeader(p, 2);
b[0] = VtQGoodbye;
b[1] = 0;
vtSendPacket(z, p);
}
if(z->fd >= 0)
vtFdClose(z->fd);
z->fd = -1;
z->cstate = VtStateClosed;
vtUnlock(z->lk);
}
void
vtClose(VtSession *z)
{
vtDisconnect(z, 0);
}
void
vtFree(VtSession *z)
{
if(z == nil)
return;
vtLockFree(z->lk);
vtSha1Free(z->inHash);
vtLockFree(z->inLock);
packetFree(z->part);
vtSha1Free(z->outHash);
vtLockFree(z->outLock);
vtMemFree(z->uid);
vtMemFree(z->sid);
vtMemFree(z->vtbl);
memset(z, 0, sizeof(VtSession));
z->fd = -1;
vtMemFree(z);
}
char *
vtGetUid(VtSession *s)
{
return s->uid;
}
char *
vtGetSid(VtSession *z)
{
return z->sid;
}
int
vtSetDebug(VtSession *z, int debug)
{
int old;
vtLock(z->lk);
old = z->debug;
z->debug = debug;
vtUnlock(z->lk);
return old;
}
int
vtSetFd(VtSession *z, int fd)
{
vtLock(z->lk);
if(z->cstate != VtStateAlloc) {
vtSetError("bad state");
vtUnlock(z->lk);
return 0;
}
if(z->fd >= 0)
vtFdClose(z->fd);
z->fd = fd;
vtUnlock(z->lk);
return 1;
}
int
vtGetFd(VtSession *z)
{
return z->fd;
}
int
vtSetCryptoStrength(VtSession *z, int c)
{
if(z->cstate != VtStateAlloc) {
vtSetError("bad state");
return 0;
}
if(c != VtCryptoStrengthNone) {
vtSetError("not supported yet");
return 0;
}
return 1;
}
int
vtGetCryptoStrength(VtSession *s)
{
return s->cryptoStrength;
}
int
vtSetCompression(VtSession *z, int fd)
{
vtLock(z->lk);
if(z->cstate != VtStateAlloc) {
vtSetError("bad state");
vtUnlock(z->lk);
return 0;
}
z->fd = fd;
vtUnlock(z->lk);
return 1;
}
int
vtGetCompression(VtSession *s)
{
return s->compression;
}
int
vtGetCrypto(VtSession *s)
{
return s->crypto;
}
int
vtGetCodec(VtSession *s)
{
return s->codec;
}
char *
vtGetVersion(VtSession *z)
{
int v, i;
v = z->version;
if(v == 0)
return "unknown";
for(i=0; vtVersions[i].version; i++)
if(vtVersions[i].version == v)
return vtVersions[i].s;
assert(0);
return 0;
}
/* hold z->inLock */
static int
vtVersionRead(VtSession *z, char *prefix, int *ret)
{
char c;
char buf[VtMaxStringSize];
char *q, *p, *pp;
int i;
q = prefix;
p = buf;
for(;;) {
if(p >= buf + sizeof(buf)) {
vtSetError(EBadVersion);
return 0;
}
if(!vtFdReadFully(z->fd, (uchar*)&c, 1))
return 0;
if(z->inHash)
vtSha1Update(z->inHash, (uchar*)&c, 1);
if(c == '\n') {
*p = 0;
break;
}
if(c < ' ' || *q && c != *q) {
vtSetError(EBadVersion);
return 0;
}
*p++ = c;
if(*q)
q++;
}
vtDebug(z, "version string in: %s\n", buf);
p = buf + strlen(prefix);
for(;;) {
for(pp=p; *pp && *pp != ':' && *pp != '-'; pp++)
;
for(i=0; vtVersions[i].version; i++) {
if(strlen(vtVersions[i].s) != pp-p)
continue;
if(memcmp(vtVersions[i].s, p, pp-p) == 0) {
*ret = vtVersions[i].version;
return 1;
}
}
p = pp;
if(*p != ':')
return 0;
p++;
}
}
Packet*
vtRecvPacket(VtSession *z)
{
uchar buf[10], *b;
int n;
Packet *p;
int size, len;
if(z->cstate != VtStateConnected) {
vtSetError("session not connected");
return 0;
}
vtLock(z->inLock);
p = z->part;
/* get enough for head size */
size = packetSize(p);
while(size < 2) {
b = packetTrailer(p, MaxFragSize);
assert(b != nil);
n = vtFdRead(z->fd, b, MaxFragSize);
if(n <= 0)
goto Err;
size += n;
packetTrim(p, 0, size);
}
if(!packetConsume(p, buf, 2))
goto Err;
len = (buf[0] << 8) | buf[1];
size -= 2;
while(size < len) {
n = len - size;
if(n > MaxFragSize)
n = MaxFragSize;
b = packetTrailer(p, n);
if(!vtFdReadFully(z->fd, b, n))
goto Err;
size += n;
}
p = packetSplit(p, len);
vtUnlock(z->inLock);
return p;
Err:
vtUnlock(z->inLock);
return nil;
}
int
vtSendPacket(VtSession *z, Packet *p)
{
IOchunk ioc;
int n;
uchar buf[2];
/* add framing */
n = packetSize(p);
if(n >= (1<<16)) {
vtSetError(EBigPacket);
packetFree(p);
return 0;
}
buf[0] = n>>8;
buf[1] = n;
packetPrefix(p, buf, 2);
for(;;) {
n = packetFragments(p, &ioc, 1, 0);
if(n == 0)
break;
if(!vtFdWrite(z->fd, ioc.addr, ioc.len)) {
packetFree(p);
return 0;
}
packetConsume(p, nil, n);
}
packetFree(p);
return 1;
}
int
vtGetString(Packet *p, char **ret)
{
uchar buf[2];
int n;
char *s;
if(!packetConsume(p, buf, 2))
return 0;
n = (buf[0]<<8) + buf[1];
if(n > VtMaxStringSize) {
vtSetError(EBigString);
return 0;
}
s = vtMemAlloc(n+1);
if(!packetConsume(p, (uchar*)s, n)) {
vtMemFree(s);
return 0;
}
s[n] = 0;
*ret = s;
return 1;
}
int
vtAddString(Packet *p, char *s)
{
uchar buf[2];
int n;
if(s == nil) {
vtSetError(ENullString);
return 0;
}
n = strlen(s);
if(n > VtMaxStringSize) {
vtSetError(EBigString);
return 0;
}
buf[0] = n>>8;
buf[1] = n;
packetAppend(p, buf, 2);
packetAppend(p, (uchar*)s, n);
return 1;
}
int
vtConnect(VtSession *z, char *password)
{
char buf[VtMaxStringSize], *p, *ep, *prefix;
int i;
USED(password);
vtLock(z->lk);
if(z->cstate != VtStateAlloc) {
vtSetError("bad session state");
vtUnlock(z->lk);
return 0;
}
if(z->fd < 0){
vtSetError("%s", z->fderror);
vtUnlock(z->lk);
return 0;
}
/* be a little anal */
vtLock(z->inLock);
vtLock(z->outLock);
prefix = "venti-";
p = buf;
ep = buf + sizeof(buf);
p = seprint(p, ep, "%s", prefix);
p += strlen(p);
for(i=0; vtVersions[i].version; i++) {
if(i != 0)
*p++ = ':';
p = seprint(p, ep, "%s", vtVersions[i].s);
}
p = seprint(p, ep, "-libventi\n");
assert(p-buf < sizeof(buf));
if(z->outHash)
vtSha1Update(z->outHash, (uchar*)buf, p-buf);
if(!vtFdWrite(z->fd, (uchar*)buf, p-buf))
goto Err;
vtDebug(z, "version string out: %s", buf);
if(!vtVersionRead(z, prefix, &z->version))
goto Err;
vtDebug(z, "version = %d: %s\n", z->version, vtGetVersion(z));
vtUnlock(z->inLock);
vtUnlock(z->outLock);
z->cstate = VtStateConnected;
vtUnlock(z->lk);
if(z->vtbl)
return 1;
if(!vtHello(z))
goto Err;
return 1;
Err:
if(z->fd >= 0)
vtFdClose(z->fd);
z->fd = -1;
vtUnlock(z->inLock);
vtUnlock(z->outLock);
z->cstate = VtStateClosed;
vtUnlock(z->lk);
return 0;
}
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