NetBSD-5.0.2/usr.sbin/puffs/mount_9p/node.c
/* $NetBSD: node.c,v 1.20 2008/08/22 17:44:14 pooka Exp $ */
/*
* Copyright (c) 2007 Antti Kantee. All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
#ifndef lint
__RCSID("$NetBSD: node.c,v 1.20 2008/08/22 17:44:14 pooka Exp $");
#endif /* !lint */
#include <assert.h>
#include <errno.h>
#include <puffs.h>
#include <stdio.h>
#include <stdlib.h>
#include "ninepuffs.h"
#include "nineproto.h"
static void *
nodecmp(struct puffs_usermount *pu, struct puffs_node *pn, void *arg)
{
struct vattr *vap = &pn->pn_va;
struct qid9p *qid = arg;
if (vap->va_fileid == qid->qidpath && vap->va_gen == qid->qidvers)
return pn;
return NULL;
}
static int
do_getattr(struct puffs_usermount *pu, struct puffs_node *pn, struct vattr *vap)
{
AUTOVAR(pu);
struct p9pnode *p9n = pn->pn_data;
p9pbuf_put_1(pb, P9PROTO_T_STAT);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n->fid_base);
GETRESPONSE(pb);
rv = proto_expect_stat(pb, vap);
out:
RETURN(rv);
}
int
puffs9p_node_getattr(struct puffs_usermount *pu, void *opc, struct vattr *vap,
const struct puffs_cred *pcr)
{
struct puffs_node *pn = opc;
int rv;
rv = do_getattr(pu, pn, &pn->pn_va);
if (rv == 0)
memcpy(vap, &pn->pn_va, sizeof(struct vattr));
return rv;
}
int
puffs9p_node_lookup(struct puffs_usermount *pu, void *opc, struct puffs_newinfo *pni,
const struct puffs_cn *pcn)
{
AUTOVAR(pu);
struct vattr va;
struct puffs_node *pn, *pn_dir = opc;
struct p9pnode *p9n_dir = pn_dir->pn_data;
p9ptag_t tfid = NEXTFID(p9p);
struct qid9p newqid;
uint16_t nqid;
p9pbuf_put_1(pb, P9PROTO_T_WALK);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n_dir->fid_base);
p9pbuf_put_4(pb, tfid);
p9pbuf_put_2(pb, 1);
p9pbuf_put_str(pb, pcn->pcn_name);
GETRESPONSE(pb);
rv = proto_expect_walk_nqids(pb, &nqid);
if (rv) {
rv = ENOENT;
goto out;
}
if (nqid != 1) {
rv = EPROTO;
goto out;
}
if ((rv = proto_getqid(pb, &newqid)))
goto out;
/* we get the parent vers in walk(?) compensate */
p9pbuf_recycleout(pb);
tag = NEXTTAG(p9p);
p9pbuf_put_1(pb, P9PROTO_T_STAT);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, tfid);
GETRESPONSE(pb);
if ((rv = proto_expect_stat(pb, &va)) != 0) {
proto_cc_clunkfid(pu, tfid, 0);
rv = ENOENT;
goto out;
}
if (newqid.qidpath != va.va_fileid) {
proto_cc_clunkfid(pu, tfid, 0);
rv = EPROTO;
goto out;
}
newqid.qidvers = va.va_gen;
pn = puffs_pn_nodewalk(pu, nodecmp, &newqid);
if (pn == NULL)
pn = newp9pnode_qid(pu, &newqid, tfid);
else
proto_cc_clunkfid(pu, tfid, 0);
/* assert pn */
memcpy(&pn->pn_va, &va, sizeof(va));
puffs_newinfo_setcookie(pni, pn);
puffs_newinfo_setvtype(pni, pn->pn_va.va_type);
puffs_newinfo_setsize(pni, pn->pn_va.va_size);
puffs_newinfo_setrdev(pni, pn->pn_va.va_rdev);
out:
RETURN(rv);
}
/*
* Problem is that 9P doesn't allow seeking into a directory. So we
* maintain a list of active fids for any given directory. They
* start living at the first read and exist either until the directory
* is closed or until they reach the end.
*/
int
puffs9p_node_readdir(struct puffs_usermount *pu, void *opc, struct dirent *dent,
off_t *readoff, size_t *reslen, const struct puffs_cred *pcr,
int *eofflag, off_t *cookies, size_t *ncookies)
{
AUTOVAR(pu);
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
struct vattr va;
struct dirfid *dfp;
char *name;
uint32_t count;
uint16_t statsize;
rv = getdfwithoffset(pu, p9n, *readoff, &dfp);
if (rv)
goto out;
tag = NEXTTAG(p9p);
p9pbuf_put_1(pb, P9PROTO_T_READ);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, dfp->fid);
p9pbuf_put_8(pb, *readoff);
p9pbuf_put_4(pb, *reslen); /* XXX */
GETRESPONSE(pb);
p9pbuf_get_4(pb, &count);
/*
* if count is 0, assume we at end-of-dir. dfp is no longer
* useful, so nuke it
*/
if (count == 0) {
*eofflag = 1;
releasedf(pu, dfp);
goto out;
}
while (count > 0) {
if ((rv = proto_getstat(pb, &va, &name, &statsize))) {
/*
* If there was an error, it's unlikely we'll be
* coming back, so just nuke the dfp. If we do
* come back for some strange reason, we'll just
* regen it.
*/
releasedf(pu, dfp);
goto out;
}
puffs_nextdent(&dent, name, va.va_fileid,
puffs_vtype2dt(va.va_type), reslen);
count -= statsize;
*readoff += statsize;
dfp->seekoff += statsize;
free(name);
}
storedf(p9n, dfp);
out:
RETURN(rv);
}
int
puffs9p_node_setattr(struct puffs_usermount *pu, void *opc,
const struct vattr *va, const struct puffs_cred *pcr)
{
AUTOVAR(pu);
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
p9pbuf_put_1(pb, P9PROTO_T_WSTAT);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n->fid_base);
proto_make_stat(pb, va, NULL, pn->pn_va.va_type);
GETRESPONSE(pb);
if (p9pbuf_get_type(pb) != P9PROTO_R_WSTAT)
rv = EPROTO;
out:
RETURN(rv);
}
/*
* Ok, time to get clever. There are two possible cases: we are
* opening a file or we are opening a directory.
*
* If it's a directory, don't bother opening it here, but rather
* wait until readdir, since it's probable we need to be able to
* open a directory there in any case.
*
* If it's a regular file, open it here with whatever credentials
* we happen to have. Let the upper layers of the kernel worry
* about permission control.
*/
int
puffs9p_node_open(struct puffs_usermount *pu, void *opc, int mode,
const struct puffs_cred *pcr)
{
struct puffs_cc *pcc = puffs_cc_getcc(pu);
struct puffs9p *p9p = puffs_getspecific(pu);
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
p9pfid_t nfid;
int error = 0;
puffs_setback(pcc, PUFFS_SETBACK_INACT_N1);
if (pn->pn_va.va_type != VDIR) {
if (mode & FREAD && p9n->fid_read == P9P_INVALFID) {
nfid = NEXTFID(p9p);
error = proto_cc_open(pu, p9n->fid_base, nfid,
P9PROTO_OMODE_READ);
if (error)
return error;
p9n->fid_read = nfid;
}
if (mode & FWRITE && p9n->fid_write == P9P_INVALFID) {
nfid = NEXTFID(p9p);
error = proto_cc_open(pu, p9n->fid_base, nfid,
P9PROTO_OMODE_WRITE);
if (error)
return error;
p9n->fid_write = nfid;
}
}
return 0;
}
int
puffs9p_node_inactive(struct puffs_usermount *pu, void *opc)
{
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
if (pn->pn_va.va_type == VDIR) {
nukealldf(pu, p9n);
} else {
if (p9n->fid_read != P9P_INVALFID) {
proto_cc_clunkfid(pu, p9n->fid_read, 0);
p9n->fid_read = P9P_INVALFID;
}
if (p9n->fid_write != P9P_INVALFID) {
proto_cc_clunkfid(pu, p9n->fid_write, 0);
p9n->fid_write = P9P_INVALFID;
}
}
return 0;
}
int
puffs9p_node_read(struct puffs_usermount *pu, void *opc, uint8_t *buf,
off_t offset, size_t *resid, const struct puffs_cred *pcr,
int ioflag)
{
AUTOVAR(pu);
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
uint32_t count;
size_t nread;
nread = 0;
while (*resid > 0 && offset+nread < pn->pn_va.va_size) {
p9pbuf_put_1(pb, P9PROTO_T_READ);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n->fid_read);
p9pbuf_put_8(pb, offset+nread);
p9pbuf_put_4(pb, MIN((uint32_t)*resid,p9p->maxreq-24));
GETRESPONSE(pb);
if (p9pbuf_get_type(pb) != P9PROTO_R_READ) {
rv = EPROTO;
break;
}
p9pbuf_get_4(pb, &count);
if ((rv = p9pbuf_read_data(pb, buf + nread, count)))
break;
if (count == 0)
break;
*resid -= count;
nread += count;
p9pbuf_recycleout(pb);
}
out:
RETURN(rv);
}
int
puffs9p_node_write(struct puffs_usermount *pu, void *opc, uint8_t *buf,
off_t offset, size_t *resid, const struct puffs_cred *cred,
int ioflag)
{
AUTOVAR(pu);
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
uint32_t chunk, count;
size_t nwrite;
if (ioflag & PUFFS_IO_APPEND)
offset = pn->pn_va.va_size;
nwrite = 0;
while (*resid > 0) {
chunk = MIN(*resid, p9p->maxreq-32);
p9pbuf_put_1(pb, P9PROTO_T_WRITE);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n->fid_write);
p9pbuf_put_8(pb, offset+nwrite);
p9pbuf_put_4(pb, chunk);
p9pbuf_write_data(pb, buf+nwrite, chunk);
GETRESPONSE(pb);
if (p9pbuf_get_type(pb) != P9PROTO_R_WRITE) {
rv = EPROTO;
break;
}
p9pbuf_get_4(pb, &count);
*resid -= count;
nwrite += count;
if (count != chunk) {
rv = EPROTO;
break;
}
p9pbuf_recycleout(pb);
}
out:
RETURN(rv);
}
static int
nodecreate(struct puffs_usermount *pu, struct puffs_node *pn,
struct puffs_newinfo *pni, const char *name,
const struct vattr *vap, uint32_t dirbit)
{
AUTOVAR(pu);
struct puffs_node *pn_new;
struct p9pnode *p9n = pn->pn_data;
p9pfid_t nfid = NEXTFID(p9p);
struct qid9p nqid;
int tries = 0;
again:
if (++tries > 5) {
rv = EPROTO;
goto out;
}
rv = proto_cc_dupfid(pu, p9n->fid_base, nfid);
if (rv)
goto out;
p9pbuf_put_1(pb, P9PROTO_T_CREATE);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, nfid);
p9pbuf_put_str(pb, name);
p9pbuf_put_4(pb, dirbit | (vap->va_mode & 0777));
p9pbuf_put_1(pb, 0);
GETRESPONSE(pb);
rv = proto_expect_qid(pb, P9PROTO_R_CREATE, &nqid);
if (rv)
goto out;
/*
* Now, little problem here: create returns an *open* fid.
* So, clunk it and walk the parent directory to get a fid
* which is not open for I/O yet.
*/
proto_cc_clunkfid(pu, nfid, 0);
nfid = NEXTFID(p9p);
p9pbuf_recycleout(pb);
p9pbuf_put_1(pb, P9PROTO_T_WALK);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n->fid_base);
p9pbuf_put_4(pb, nfid);
p9pbuf_put_2(pb, 1);
p9pbuf_put_str(pb, name);
GETRESPONSE(pb);
/*
* someone removed it already? try again
* note: this is kind of lose/lose
*/
if (p9pbuf_get_type(pb) != P9PROTO_R_WALK)
goto again;
pn_new = newp9pnode_va(pu, vap, nfid);
qid2vattr(&pn_new->pn_va, &nqid);
puffs_newinfo_setcookie(pni, pn_new);
out:
RETURN(rv);
}
int
puffs9p_node_create(struct puffs_usermount *pu, void *opc, struct puffs_newinfo *pni,
const struct puffs_cn *pcn, const struct vattr *va)
{
return nodecreate(pu, opc, pni, pcn->pcn_name, va, 0);
}
int
puffs9p_node_mkdir(struct puffs_usermount *pu, void *opc, struct puffs_newinfo *pni,
const struct puffs_cn *pcn, const struct vattr *va)
{
return nodecreate(pu, opc, pni, pcn->pcn_name,
va, P9PROTO_CPERM_DIR);
}
/*
* Need to be a bit clever again: the fid is clunked no matter if
* the remove succeeds or not. Re-getting a fid would be way too
* difficult in case the remove failed for a valid reason (directory
* not empty etcetc.). So walk ourselves another fid to prod the
* ice with.
*/
static int
noderemove(struct puffs_usermount *pu, struct puffs_node *pn)
{
AUTOVAR(pu);
struct p9pnode *p9n = pn->pn_data;
p9pfid_t testfid = NEXTFID(p9p);
rv = proto_cc_dupfid(pu, p9n->fid_base, testfid);
if (rv)
goto out;
p9pbuf_put_1(pb, P9PROTO_T_REMOVE);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, testfid);
/*
* XXX: error handling isn't very robust, but doom is impending
* anyway, so just accept we're going belly up and play dead
*/
GETRESPONSE(pb);
if (p9pbuf_get_type(pb) != P9PROTO_R_REMOVE) {
rv = EPROTO;
} else {
proto_cc_clunkfid(pu, p9n->fid_base, 0);
p9n->fid_base = P9P_INVALFID;
puffs_pn_remove(pn);
}
out:
if (rv == 0)
puffs_setback(pcc, PUFFS_SETBACK_NOREF_N2);
RETURN(rv);
}
int
puffs9p_node_remove(struct puffs_usermount *pu, void *opc, void *targ,
const struct puffs_cn *pcn)
{
struct puffs_node *pn = targ;
if (pn->pn_va.va_type == VDIR)
return EISDIR;
return noderemove(pu, pn);
}
int
puffs9p_node_rmdir(struct puffs_usermount *pu, void *opc, void *targ,
const struct puffs_cn *pcn)
{
struct puffs_node *pn = targ;
if (pn->pn_va.va_type != VDIR)
return ENOTDIR;
return noderemove(pu, pn);
}
/*
* 9P supports renames only for files within a directory
* from what I could tell. So just support in-directory renames
* for now.
*/
int
puffs9p_node_rename(struct puffs_usermount *pu, void *opc, void *src,
const struct puffs_cn *pcn_src, void *targ_dir, void *targ,
const struct puffs_cn *pcn_targ)
{
AUTOVAR(pu);
struct puffs_node *pn_src = src;
struct p9pnode *p9n_src = pn_src->pn_data;
if (opc != targ_dir) {
rv = EOPNOTSUPP;
goto out;
}
/* 9P doesn't allow to overwrite in rename */
if (targ) {
struct puffs_node *pn_targ = targ;
rv = noderemove(pu, pn_targ->pn_data);
if (rv)
goto out;
}
p9pbuf_put_1(pb, P9PROTO_T_WSTAT);
p9pbuf_put_2(pb, tag);
p9pbuf_put_4(pb, p9n_src->fid_base);
proto_make_stat(pb, NULL, pcn_targ->pcn_name, pn_src->pn_va.va_type);
GETRESPONSE(pb);
if (p9pbuf_get_type(pb) != P9PROTO_R_WSTAT)
rv = EPROTO;
out:
RETURN(rv);
}
/*
* - "here's one"
* - "9P"
* ~ "i'm not dead"
* - "you're not fooling anyone you know, you'll be stone dead in a minute
* - "he says he's not quite dead"
* - "isn't there anything you could do?"
* - *clunk*!
* - "thanks"
*/
int
puffs9p_node_reclaim(struct puffs_usermount *pu, void *opc)
{
struct puffs_node *pn = opc;
struct p9pnode *p9n = pn->pn_data;
assert(LIST_EMPTY(&p9n->dir_openlist));
assert(p9n->fid_read == P9P_INVALFID && p9n->fid_write == P9P_INVALFID);
proto_cc_clunkfid(pu, p9n->fid_base, 0);
free(p9n);
puffs_pn_put(pn);
return 0;
}