shithub: c9

ref: a9bd8e333995a54eeac6ebcca4bbdd3928a589f2
dir: /c9.c/

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/*
 * This is 9p client and server implementation which aims to be
 * correct, small and secure. It's the lowest level implementation.
 * It doesn't have much comments, mostly because it doesn't make
 * any sense to copy-paste protocol documentation, which
 * you can read at http://man.cat-v.org/plan_9/5/, see 'intro'.
 */
#include <stdint.h>
#include <string.h>
#include "c9.h"

enum
{
	Svver = 1<<0,
};

#define safestrlen(s) (s == NULL ? 0 : (uint32_t)strlen(s))
#define maxread(c) (c->msize-4-4-1-2)
#define maxwrite(c) maxread(c)

static void
w08(uint8_t **p, uint8_t x)
{
	(*p)[0] = x;
	*p += 1;
}

static void
w16(uint8_t **p, uint16_t x)
{
	(*p)[0] = x;
	(*p)[1] = x>>8;
	*p += 2;
}

static void
w32(uint8_t **p, uint32_t x)
{
	(*p)[0] = x;
	(*p)[1] = x>>8;
	(*p)[2] = x>>16;
	(*p)[3] = x>>24;
	*p += 4;
}

static void
w64(uint8_t **p, uint64_t x)
{
	(*p)[0] = x;
	(*p)[1] = x>>8;
	(*p)[2] = x>>16;
	(*p)[3] = x>>24;
	(*p)[4] = x>>32;
	(*p)[5] = x>>40;
	(*p)[6] = x>>48;
	(*p)[7] = x>>56;
	*p += 8;
}

static void
wcs(uint8_t **p, const char *s, int len)
{
	w16(p, len);
	if(s != NULL){
		memmove(*p, s, len);
		*p += len;
	}
}

static uint8_t
r08(uint8_t **p)
{
	*p += 1;
	return (*p)[-1];
}

static uint16_t
r16(uint8_t **p)
{
	*p += 2;
	return (uint16_t)(*p)[-2]<<0 | (uint16_t)(*p)[-1]<<8;
}

static uint32_t
r32(uint8_t **p)
{
	return r16(p) | (uint32_t)r16(p)<<16;
}

static uint64_t
r64(uint8_t **p)
{
	return r32(p) | (uint64_t)r32(p)<<32;
}

#ifndef C9_NO_CLIENT

static C9error
newtag(C9ctx *c, C9ttype type, C9tag *tag)
{
	uint32_t i;

	if(type == Tversion){
		*tag = 0xffff;
		return 0;
	}

	if(c->lowfreetag < C9maxtags){
		uint32_t d = c->lowfreetag / C9tagsbits, m = c->lowfreetag % C9tagsbits;
		if((c->tags[d] & 1<<m) != 0){
			c->tags[d] &= ~(1<<m);
			*tag = c->lowfreetag++;
			return 0;
		}
	}

	for(i = 0; i < (int)sizeof(c->tags)/sizeof(c->tags[0]); i++){
		uint32_t x, j;
		if((x = c->tags[i]) == 0)
			continue;
		for(j = 0; j < C9tagsbits; j++){
			if((x & (1<<j)) != 0){
				c->tags[i] &= ~(1<<j);
				*tag = i*C9tagsbits + j;
				c->lowfreetag = *tag + 1;
				return 0;
			}
		}
	}

	c->error("newtag: no free tags");
	return C9Etag;
}

static int
freetag(C9ctx *c, C9tag tag)
{
	if(tag != 0xffff){
		uint32_t d = tag / C9tagsbits, m = tag % C9tagsbits;
		if(tag >= C9maxtags){
			c->error("freetag: invalid tag %u", (uint32_t)tag);
			return -1;
		}
		if((c->tags[d] & 1<<m) != 0){
			c->error("freetag: double free for tag %u", (uint32_t)tag);
			return -1;
		}
		if(c->lowfreetag > tag)
			c->lowfreetag = tag;
		c->tags[d] |= 1<<m;
	}
	return 0;
}

static uint8_t *
T(C9ctx *c, uint32_t size, C9ttype type, C9tag *tag, C9error *err)
{
	uint8_t *p = NULL;

	if(size > c->msize-4-1-2){
		c->error("T: invalid size %u", size);
		*err = C9Esize;
	}else if((*err = newtag(c, type, tag)) == 0){
		size += 4+1+2;
		if((p = c->begin(c, size)) == NULL){
			c->error("T: no buffer for %u bytes", size);
			freetag(c, *tag);
			*err = C9Ebuf;
		}else{
			*err = 0;
			w32(&p, size);
			w08(&p, type);
			w16(&p, *tag);
		}
	}
	return p;
}

C9error
c9version(C9ctx *c, C9tag *tag, uint32_t msize)
{
	uint8_t *b;
	C9error err;

	if(msize < C9minmsize){
		c->error("c9version: msize too small: %u", msize);
		return C9Einit;
	}
	memset(c->tags, 0xff, sizeof(c->tags));
	memset(c->flush, 0xff, sizeof(c->flush));
	c->lowfreetag = 0;
	c->msize = msize;

	if((b = T(c, 4+2+6, Tversion, tag, &err)) != NULL){
		w32(&b, msize);
		wcs(&b, "9P2000", 6);
		err = c->end(c);
	}
	return err;
}

C9error
c9auth(C9ctx *c, C9tag *tag, C9fid afid, const char *uname, const char *aname)
{
	uint8_t *b;
	uint32_t ulen = safestrlen(uname), alen = safestrlen(aname);
	C9error err;

	if(ulen > C9maxstr || alen > C9maxstr){
		c->error("c9auth: string too long: %u chars", ulen > alen ? ulen : alen);
		return C9Estr;
	}
	if((b = T(c, 4+2+ulen+2+alen, Tauth, tag, &err)) != NULL){
		w32(&b, afid);
		wcs(&b, uname, ulen);
		wcs(&b, aname, alen);
		err = c->end(c);
	}
	return err;
}

C9error
c9flush(C9ctx *c, C9tag *tag, C9tag oldtag)
{
	uint8_t *b;
	C9error err;
	int i;

	for(i = 0; i < C9maxflush && c->flush[i] != (uint32_t)~0; i++);
	if(i == C9maxflush){
		c->error("c9flush: no free flush slots");
		return C9Eflush;
	}
	if((b = T(c, 2, Tflush, tag, &err)) != NULL){
		w16(&b, oldtag);
		err = c->end(c);
		if(err == 0)
			c->flush[i] = (uint32_t)oldtag<<16 | *tag;
	}
	return err;
}

C9error
c9attach(C9ctx *c, C9tag *tag, C9fid fid, C9fid afid, const char *uname, const char *aname)
{
	uint32_t ulen = safestrlen(uname), alen = safestrlen(aname);
	uint8_t *b;
	C9error err;

	if(ulen > C9maxstr || alen > C9maxstr){
		c->error("c9attach: string too long: %u chars", ulen > alen ? ulen : alen);
		return C9Estr;
	}
	if((b = T(c, 4+4+2+ulen+2+alen, Tattach, tag, &err)) != NULL){
		w32(&b, fid);
		w32(&b, afid);
		wcs(&b, uname, ulen);
		wcs(&b, aname, alen);
		err = c->end(c);
	}
	return err;
}

C9error
c9walk(C9ctx *c, C9tag *tag, C9fid fid, C9fid newfid, const char *path[])
{
	uint32_t i, j, sz;
	uint32_t len[C9maxpathel];
	uint8_t *b;
	C9error err;

	for(sz = i = 0; i < (int)sizeof(len)/sizeof(len[0]) && path[i] != NULL; i++){
		len[i] = safestrlen(path[i]);
		if(len[i] == 0 || len[i] > C9maxstr){
			c->error("c9walk: invalid path element: %u chars", len[i]);
			return C9Epath;
		}
		sz += 2 + len[i];
	}
	if(path[i] != NULL || i == 0){
		c->error("c9walk: invalid elements !(0 < %u <= %u)", i, C9maxpathel);
		return C9Epath;
	}

	if((b = T(c, 4+4+2+sz, Twalk, tag, &err)) != NULL){
		w32(&b, fid);
		w32(&b, newfid);
		w16(&b, i);
		for(j = 0; j < i; j++)
			wcs(&b, path[j], len[j]);
		err = c->end(c);
	}
	return err;
}

C9error
c9open(C9ctx *c, C9tag *tag, C9fid fid, C9mode mode)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4+1, Topen, tag, &err)) != NULL){
		w32(&b, fid);
		w08(&b, mode);
		err = c->end(c);
	}
	return err;
}

C9error
c9create(C9ctx *c, C9tag *tag, C9fid fid, const char *name, uint32_t perm, C9mode mode)
{
	uint32_t nlen = strlen(name);
	uint8_t *b;
	C9error err;

	if(nlen == 0 || nlen > C9maxstr){
		c->error("c9create: invalid name: %u chars", nlen);
		return C9Epath;
	}
	if((b = T(c, 4+2+nlen+4+1, Tcreate, tag, &err)) != NULL){
		w32(&b, fid);
		wcs(&b, name, nlen);
		w32(&b, perm);
		w08(&b, mode);
		err = c->end(c);
	}
	return err;
}

C9error
c9read(C9ctx *c, C9tag *tag, C9fid fid, uint64_t offset, uint32_t count)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4+8+4, Tread, tag, &err)) != NULL){
		w32(&b, fid);
		w64(&b, offset);
		w32(&b, count);
		err = c->end(c);
	}
	return err;
}

C9error
c9write(C9ctx *c, C9tag *tag, C9fid fid, uint64_t offset, const void *in, uint32_t count)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4+8+4+count, Twrite, tag, &err)) != NULL){
		w32(&b, fid);
		w64(&b, offset);
		w32(&b, count);
		memmove(b, in, count);
		err = c->end(c);
	}
	return err;
}

C9error
c9wrstr(C9ctx *c, C9tag *tag, C9fid fid, const char *s)
{
	return c9write(c, tag, fid, 0, s, strlen(s));
}

C9error
c9clunk(C9ctx *c, C9tag *tag, C9fid fid)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4, Tclunk, tag, &err)) != NULL){
		w32(&b, fid);
		err = c->end(c);
	}
	return err;
}

C9error
c9remove(C9ctx *c, C9tag *tag, C9fid fid)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4, Tremove, tag, &err)) != NULL){
		w32(&b, fid);
		err = c->end(c);
	}
	return err;
}

C9error
c9stat(C9ctx *c, C9tag *tag, C9fid fid)
{
	uint8_t *b;
	C9error err;

	if((b = T(c, 4, Tstat, tag, &err)) != NULL){
		w32(&b, fid);
		err = c->end(c);
	}
	return err;
}

C9error
c9wstat(C9ctx *c, C9tag *tag, C9fid fid, const C9stat *s)
{
	uint32_t nlen = safestrlen(s->name), ulen = safestrlen(s->uid), glen = safestrlen(s->gid);
	uint32_t unusedsz = 2+4+13, statsz = unusedsz+4+4+4+8+2+nlen+2+ulen+2+glen+2;
	uint8_t *b;
	C9error err;

	if(nlen == 0 || nlen > C9maxstr){
		c->error("c9wstat: invalid name: %u chars", nlen);
		return C9Epath;
	}
	if(ulen > C9maxstr || glen > C9maxstr){
		c->error("c9wstat: string too long: %u chars", ulen > glen ? ulen : glen);
		return C9Estr;
	}
	if((b = T(c, 4+2+2+statsz, Twstat, tag, &err)) != NULL){
		w32(&b, fid);
		w16(&b, statsz+2);
		w16(&b, statsz);
		memset(b, 0xff, unusedsz); /* leave type(2), dev(4) and qid(13) unchanged */
		b += unusedsz;
		w32(&b, s->mode);
		w32(&b, s->atime);
		w32(&b, s->mtime);
		w64(&b, s->size);
		wcs(&b, s->name, nlen);
		wcs(&b, s->uid, ulen);
		wcs(&b, s->gid, glen);
		wcs(&b, NULL, 0); /* muid unchanged */
		err = c->end(c);
	}
	return err;
}

C9error
c9proc(C9ctx *c)
{
	uint32_t i, sz, cnt, msize;
	uint8_t *b;
	int err;
	C9r r;

	err = -1;
	if((b = c->read(c, 4, &err)) == NULL){
		if(err != 0)
			c->error("c9proc: short read");
		return err == 0 ? 0 : C9Epkt;
	}

	sz = r32(&b);
	if(sz < 7 || sz > c->msize){
		c->error("c9proc: invalid packet size !(7 <= %u <= %u)", sz, c->msize);
		return C9Epkt;
	}
	sz -= 4;
	err = -1;
	if((b = c->read(c, sz, &err)) == NULL){
		if(err != 0)
			c->error("c9proc: short read");
		return err == 0 ? 0 : C9Epkt;
	}

	r.type = r08(&b);
	r.tag = r16(&b);
	if(r.type != Rversion){
		if(r.tag >= C9maxtags){
			c->error("c9proc: invalid tag %u", (uint32_t)r.tag);
			return C9Epkt;
		}
		if(freetag(c, r.tag) != 0)
			return C9Etag;
	}
	sz -= 3;
	r.numqid = 0;

	switch(r.type){
	case Rread:
		if(sz < 4 || (cnt = r32(&b)) > sz-4)
			goto error;
		r.read.data = b;
		r.read.size = cnt;
		c->r(c, &r);
		break;

	case Rwrite:
		if(sz < 4 || (cnt = r32(&b)) > c->msize)
			goto error;
		r.write.size = cnt;
		c->r(c, &r);
		break;

	case Rwalk:
		if(sz < 2+13 || (cnt = r16(&b))*13 > sz-2)
			goto error;
		if(cnt > C9maxpathel){
			c->error("c9proc: Rwalk !(%u <= %u)", cnt, C9maxpathel);
			return C9Epath;
		}
		for(i = 0; i < cnt; i++){
			r.qid[i].type = r08(&b);
			r.qid[i].version = r32(&b);
			r.qid[i].path = r64(&b);
		}
		r.numqid = cnt;
		c->r(c, &r);
		break;

	case Rstat:
		b += 2; sz -= 2;
		if((err = c9parsedir(c, &r.stat, &b, &sz)) != 0)
			return err;
		r.numqid = 1;
		c->r(c, &r);
		break;

	case Rflush:
		for(i = 0; i < C9maxflush; i++){
			if((c->flush[i] & 0xffff) == r.tag){
				freetag(c, c->flush[i]>>16);
				c->flush[i] = 0xffffffff;
				break;
			}
		}
		/* fallthrough */
	case Rclunk:
	case Rremove:
	case Rwstat:
		c->r(c, &r);
		break;

	case Ropen:
	case Rcreate:
		if(sz < 17)
			goto error;
		r.qid[0].type = r08(&b);
		r.qid[0].version = r32(&b);
		r.qid[0].path = r64(&b);
		r.iounit = r32(&b);
		r.numqid = 1;
		c->r(c, &r);
		break;

	case Rerror:
		if(sz < 2 || (cnt = r16(&b)) > sz-2)
			goto error;
		r.error = memmove(b-1, b, cnt);
		r.error[cnt] = 0;
		c->r(c, &r);
		break;

	case Rauth:
	case Rattach:
		if(sz < 13)
			goto error;
		r.qid[0].type = r08(&b);
		r.qid[0].version = r32(&b);
		r.qid[0].path = r64(&b);
		r.numqid = 1;
		c->r(c, &r);
		break;

	case Rversion:
		if(sz < 4+2 || (msize = r32(&b)) < C9minmsize || (cnt = r16(&b)) > sz-4-2)
			goto error;
		if(cnt < 6 || memcmp(b, "9P2000", 6) != 0){
			c->error("invalid version");
			return C9Ever;
		}
		if(msize < c->msize)
			c->msize = msize;
		c->r(c, &r);
		break;

	default:
		goto error;
	}
	return 0;
error:
	c->error("c9proc: invalid packet type %u", r.type);
	return C9Epkt;
}

#endif /* C9_NO_CLIENT */

C9error
c9parsedir(C9ctx *c, C9stat *stat, uint8_t **t, uint32_t *size)
{
	uint8_t *b;
	uint32_t cnt, sz;

	sz = 0;
	if(*size < 49 || (sz = r16(t)) < 47 || *size < 2+sz)
		goto error;
	*size -= 2+sz;
	*t += 6; /* skip type(2) and dev(4) */
	stat->qid.type = r08(t);
	stat->qid.version = r32(t);
	stat->qid.path = r64(t);
	stat->mode = r32(t);
	stat->atime = r32(t);
	stat->mtime = r32(t);
	stat->size = r64(t);
	sz -= 39;
	if((cnt = r16(t)) > sz-2)
		goto error;
	stat->name = (char*)*t; b = *t = *t+cnt; sz -= 2+cnt;
	if(sz < 2 || (cnt = r16(t)) > sz-2)
		goto error;
	stat->uid = (char*)*t; *b = 0; b = *t = *t+cnt; sz -= 2+cnt;
	if(sz < 2 || (cnt = r16(t)) > sz-2)
		goto error;
	stat->gid = (char*)*t; *b = 0; b = *t = *t+cnt; sz -= 2+cnt;
	if(sz < 2 || (cnt = r16(t)) > sz-2)
		goto error;
	stat->muid = memmove(*t-1, *t, cnt); *b = stat->muid[cnt] = 0; *t = *t+cnt; sz -= 2+cnt;
	*t += sz;
	return 0;
error:
	c->error("c9parsedir: invalid size: size=%u sz=%u", *size, sz);
	return C9Epkt;
}

#ifndef C9_NO_SERVER

static uint8_t *
R(C9ctx *c, uint32_t size, C9rtype type, C9tag tag, C9error *err)
{
	uint8_t *p = NULL;

	if(size > c->msize-4-1-2){
		c->error("R: invalid size %u", size);
		*err = C9Esize;
	}else{
		size += 4+1+2;
		if((p = c->begin(c, size)) == NULL){
			c->error("R: no buffer for %u bytes", size);
			*err = C9Ebuf;
		}else{
			*err = 0;
			w32(&p, size);
			w08(&p, type);
			w16(&p, tag);
		}
	}
	return p;
}

C9error
s9version(C9ctx *c)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 4+2+6, Rversion, 0xffff, &err)) != NULL){
		w32(&b, c->msize);
		wcs(&b, "9P2000", 6);
		err = c->end(c);
	};
	return err;
}

C9error
s9auth(C9ctx *c, C9tag tag, const C9qid *aqid)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 13, Rauth, tag, &err)) != NULL){
		w08(&b, aqid->type);
		w32(&b, aqid->version);
		w64(&b, aqid->path);
		err = c->end(c);
	}
	return err;
}

C9error
s9error(C9ctx *c, C9tag tag, const char *ename)
{
	uint32_t len = safestrlen(ename);
	uint8_t *b;
	C9error err;

	if(len > C9maxstr){
		c->error("s9error: invalid ename: %u chars", len);
		return C9Estr;
	}
	if((b = R(c, 2+len, Rerror, tag, &err)) != NULL){
		wcs(&b, ename, len);
		err = c->end(c);
	}
	return err;
}

C9error
s9attach(C9ctx *c, C9tag tag, const C9qid *qid)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 13, Rattach, tag, &err)) != NULL){
		w08(&b, qid->type);
		w32(&b, qid->version);
		w64(&b, qid->path);
		err = c->end(c);
	}
	return err;
}

C9error
s9flush(C9ctx *c, C9tag tag)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 0, Rflush, tag, &err)) != NULL)
		err = c->end(c);
	return err;
}

C9error
s9walk(C9ctx *c, C9tag tag, C9qid *qids[])
{
	uint32_t i, n;
	uint8_t *b;
	C9error err;

	for(n = 0; n < C9maxpathel && qids[n] != NULL; n++);
	if(n > C9maxpathel){
		c->error("s9walk: invalid elements !(0 <= %u <= %u)", n, C9maxpathel);
		return C9Epath;
	}

	if((b = R(c, 2+n*13, Rwalk, tag, &err)) != NULL){
		w16(&b, n);
		for(i = 0; i < n; i++){
			w08(&b, qids[i]->type);
			w32(&b, qids[i]->version);
			w64(&b, qids[i]->path);
		}
		err = c->end(c);
	}
	return err;
}

C9error
s9open(C9ctx *c, C9tag tag, const C9qid *qid, uint32_t iounit)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 13+4, Ropen, tag, &err)) != NULL){
		w08(&b, qid->type);
		w32(&b, qid->version);
		w64(&b, qid->path);
		w32(&b, iounit);
		err = c->end(c);
	}
	return err;
}

C9error
s9create(C9ctx *c, C9tag tag, const C9qid *qid, uint32_t iounit)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 13+4, Rcreate, tag, &err)) != NULL){
		w08(&b, qid->type);
		w32(&b, qid->version);
		w64(&b, qid->path);
		w32(&b, iounit);
		err = c->end(c);
	}
	return err;
}

C9error
s9read(C9ctx *c, C9tag tag, const void *data, uint32_t size)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 4+size, Rread, tag, &err)) != NULL){
		w32(&b, size);
		memmove(b, data, size);
		err = c->end(c);
	}
	return err;
}

C9error
s9write(C9ctx *c, C9tag tag, uint32_t size)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 4, Rwrite, tag, &err)) != NULL){
		w32(&b, size);
		err = c->end(c);
	}
	return err;
}

C9error
s9readdir(C9ctx *c, C9tag tag, C9stat *st[], int *num, uint64_t *offset, uint32_t size)
{
	uint8_t *b;
	const C9stat *s;
	uint32_t nlen, ulen, glen, mulen, m, n;
	C9error err;
	int i;

	if(size > c->msize-4-1-2)
		size = c->msize-4-1-2;

	m = 0;
	for(i = 0; i < *num; i++){
		s = st[i];
		nlen = safestrlen(s->name);
		ulen = safestrlen(s->uid);
		glen = safestrlen(s->gid);
		mulen = safestrlen(s->muid);

		if(nlen == 0 || nlen > C9maxstr){
			c->error("s9readdir: invalid name: %u chars", nlen);
			return C9Epath;
		}
		if(ulen > C9maxstr || glen > C9maxstr || mulen > C9maxstr){
			ulen = ulen > glen ? ulen : glen;
			ulen = ulen > mulen ? ulen : mulen;
			c->error("s9readdir: string too long: %u chars", ulen);
			return C9Estr;
		}

		n = 2 + 2+4+13+4+4+4+8+2+nlen+2+ulen+2+glen+2+mulen;
		if(4+m+n > size)
			break;
		m += n;
	}

	if((b = R(c, 4+m, Rread, tag, &err)) != NULL){
		*num = i;
		w32(&b, m);
		for(i = 0; i < *num; i++){
			s = st[i];
			nlen = safestrlen(s->name);
			ulen = safestrlen(s->uid);
			glen = safestrlen(s->gid);
			mulen = safestrlen(s->muid);
			w16(&b, 2+4+13+4+4+4+8+2+nlen+2+ulen+2+glen+2+mulen);
			w16(&b, 0xffff); /* type */
			w32(&b, 0xffffffff); /* dev */
			w08(&b, s->qid.type);
			w32(&b, s->qid.version);
			w64(&b, s->qid.path);
			w32(&b, s->mode);
			w32(&b, s->atime);
			w32(&b, s->mtime);
			w64(&b, s->size);
			wcs(&b, s->name, nlen);
			wcs(&b, s->uid, ulen);
			wcs(&b, s->gid, glen);
			wcs(&b, s->muid, mulen);
		}
		err = c->end(c);
		if(err == 0)
			*offset += m;
	}
	return err;
}

C9error
s9clunk(C9ctx *c, C9tag tag)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 0, Rclunk, tag, &err)) != NULL)
		err = c->end(c);
	return err;
}

C9error
s9remove(C9ctx *c, C9tag tag)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 0, Rremove, tag, &err)) != NULL)
		err = c->end(c);
	return err;
}

C9error
s9stat(C9ctx *c, C9tag tag, const C9stat *s)
{
	uint32_t nlen = safestrlen(s->name), ulen = safestrlen(s->uid);
	uint32_t glen = safestrlen(s->gid), mulen = safestrlen(s->name);
	uint32_t statsz = 2+4+13+4+4+4+8+2+nlen+2+ulen+2+glen+2+mulen;
	uint8_t *b;
	C9error err;

	if(nlen == 0 || nlen > C9maxstr){
		c->error("s9stat: invalid name: %u chars", nlen);
		return C9Epath;
	}
	if(ulen > C9maxstr || glen > C9maxstr || mulen > C9maxstr){
		ulen = ulen > glen ? ulen : glen;
		ulen = ulen > mulen ? ulen : mulen;
		c->error("s9stat: string too long: %u chars", ulen);
		return C9Estr;
	}

	if((b = R(c, 2+2+statsz, Rstat, tag, &err)) != NULL){
		w16(&b, statsz+2);
		w16(&b, statsz);
		w16(&b, 0xffff); /* type */
		w32(&b, 0xffffffff); /* dev */
		w08(&b, s->qid.type);
		w32(&b, s->qid.version);
		w64(&b, s->qid.path);
		w32(&b, s->mode);
		w32(&b, s->atime);
		w32(&b, s->mtime);
		w64(&b, s->size);
		wcs(&b, s->name, nlen);
		wcs(&b, s->uid, ulen);
		wcs(&b, s->gid, glen);
		wcs(&b, s->muid, mulen);
		err = c->end(c);
	}
	return err;
}

C9error
s9wstat(C9ctx *c, C9tag tag)
{
	uint8_t *b;
	C9error err;

	if((b = R(c, 0, Rwstat, tag, &err)) != NULL)
		err = c->end(c);
	return err;
}

C9error
s9proc(C9ctx *c)
{
	uint32_t i, sz, cnt, n, msize;
	int readerr;
	uint8_t *b;
	C9error err;
	C9t t;

	readerr = -1;
	if((b = c->read(c, 4, &readerr)) == NULL){
		if(readerr != 0)
			c->error("s9proc: short read");
		return readerr == 0 ? 0 : C9Epkt;
	}

	sz = r32(&b);
	if(sz < 7 || sz > c->msize){
		c->error("s9proc: invalid packet size !(7 <= %u <= %u)", sz, c->msize);
		return C9Epkt;
	}
	sz -= 4;
	readerr = -1;
	if((b = c->read(c, sz, &readerr)) == NULL){
		if(readerr != 0)
			c->error("s9proc: short read");
		return readerr == 0 ? 0 : C9Epkt;
	}

	t.type = r08(&b);
	t.tag = r16(&b);
	sz -= 3;

	if((c->svflags & Svver) == 0 && t.type != Tversion){
		c->error("s9proc: expected Tversion, got %u", t.type);
		return C9Epkt;
	}

	switch(t.type){
	case Tread:
		if(sz < 4+8+4)
			goto error;
		t.fid = r32(&b);
		t.read.offset = r64(&b);
		t.read.size = r32(&b);
		if(t.read.size > maxread(c))
		  t.read.size = maxread(c);
		c->t(c, &t);
		break;

	case Twrite:
		if(sz < 4+8+4)
			goto error;
		t.fid = r32(&b);
		t.write.offset = r64(&b);
		if((t.write.size = r32(&b)) < sz-4-8-4)
			goto error;
		if(t.write.size > maxwrite(c))
		  t.write.size = maxwrite(c);
		t.write.data = b;
		c->t(c, &t);
		break;

	case Tclunk:
	case Tstat:
	case Tremove:
		if(sz < 4)
			goto error;
		t.fid = r32(&b);
		c->t(c, &t);
		break;

	case Twalk:
		if(sz < 4+4+2)
			goto error;
		t.fid = r32(&b);
		t.walk.newfid = r32(&b);
		if((n = r16(&b)) > 16){
			c->error("s9proc: Twalk !(%u <= 16)", n);
			return C9Epath;
		}
		sz -= 4+4+2;
		if(n > 0){
			for(i = 0; i < n; i++){
				if(sz < 2 || (cnt = r16(&b)) > sz-2)
					goto error;
				if(cnt < 1){
					c->error("s9proc: Twalk invalid element [%u]", i);
					return C9Epath;
				}
				b[-2] = 0;
				t.walk.wname[i] = (char*)b;
				b += cnt;
				sz -= 2 + cnt;
			}
			memmove(t.walk.wname[i-1]-1, t.walk.wname[i-1], (char*)b - t.walk.wname[i-1]);
			t.walk.wname[i-1]--;
			b[-1] = 0;
		}else
			i = 0;
		t.walk.wname[i] = NULL;
		c->t(c, &t);
		break;

	case Topen:
		if(sz < 4+1)
			goto error;
		t.fid = r32(&b);
		t.open.mode = r08(&b);
		c->t(c, &t);
		break;

	case Twstat:
		if(sz < 4+2)
			goto error;
		t.fid = r32(&b);
		if((cnt = r16(&b)) > sz-4)
			goto error;
		if((err = c9parsedir(c, &t.wstat, &b, &cnt)) != 0){
			c->error("s9proc");
			return err;
		}
		c->t(c, &t);
		break;

	case Tcreate:
		if(sz < 4+2+4+1)
			goto error;
		t.fid = r32(&b);
		if((cnt = r16(&b)) < 1 || cnt > sz-4-2-4-1)
			goto error;
		t.create.name = (char*)b;
		b += cnt;
		t.create.perm = r32(&b);
		t.create.mode = r08(&b);
		t.create.name[cnt] = 0;
		c->t(c, &t);
		break;

	case Tflush:
		if(sz < 2)
			goto error;
		t.flush.oldtag = r16(&b);
		c->t(c, &t);
		break;

	case Tversion:
		if(sz < 4+2 || (msize = r32(&b)) < C9minmsize || (cnt = r16(&b)) > sz-4-2)
			goto error;
		if(cnt < 6 || memcmp(b, "9P2000", 6) != 0){
			if((b = R(c, 4+2+7, Rversion, 0xffff, &err)) != NULL){
				w32(&b, 0);
				wcs(&b, "unknown", 7);
				err = c->end(c);
				c->error("s9proc: invalid version");
			}
			return C9Ever;
		}
		if(msize < c->msize)
			c->msize = msize;
		c->svflags |= Svver;
		c->t(c, &t);
		break;

	case Tattach:
		if(sz < 4+4+2+2)
			goto error;
		t.fid = r32(&b);
		t.attach.afid = r32(&b);
		cnt = r16(&b);
		sz -= 4+4+2;
		if(cnt+2 > sz)
			goto error;
		t.attach.uname = (char*)b;
		b += cnt;
		cnt = r16(&b);
		b[-2] = 0;
		sz -= cnt+2;
		if(cnt > sz)
			goto error;
		memmove(b-1, b, cnt);
		t.attach.aname = (char*)b-1;
		t.attach.aname[cnt] = 0;
		c->t(c, &t);
		break;

	case Tauth:
		if(sz < 4+2+2)
			goto error;
		t.auth.afid = r32(&b);
		cnt = r16(&b);
		sz -= 4+2;
		if(cnt+2 > sz)
			goto error;
		t.auth.uname = (char*)b;
		b += cnt;
		cnt = r16(&b);
		b[-2] = 0;
		sz -= cnt+2;
		if(cnt > sz)
			goto error;
		memmove(b-1, b, cnt);
		t.auth.aname = (char*)b-1;
		t.auth.aname[cnt] = 0;
		c->t(c, &t);
		break;

	default:
		goto error;
	}
	return 0;
error:
	c->error("s9proc: invalid packet (type=%u)", t.type);
	return C9Epkt;
}

#endif /* C9_NO_SERVER */