NetBSD-5.0.2/usr.sbin/puffs/mount_psshfs/node.c
/* $NetBSD: node.c,v 1.54.4.1 2009/01/16 01:52:17 snj Exp $ */
/*
* Copyright (c) 2006 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 1.54.4.1 2009/01/16 01:52:17 snj Exp $");
#endif /* !lint */
#include <assert.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include "psshfs.h"
#include "sftp_proto.h"
int
psshfs_node_lookup(struct puffs_usermount *pu, puffs_cookie_t opc,
struct puffs_newinfo *pni, const struct puffs_cn *pcn)
{
struct psshfs_ctx *pctx = puffs_getspecific(pu);
struct puffs_node *pn_dir = opc;
struct psshfs_node *psn, *psn_dir = pn_dir->pn_data;
struct puffs_node *pn;
struct psshfs_dir *pd;
struct vattr va;
int rv;
if (PCNISDOTDOT(pcn)) {
psn = psn_dir->parent->pn_data;
psn->stat &= ~PSN_RECLAIMED;
puffs_newinfo_setcookie(pni, psn_dir->parent);
puffs_newinfo_setvtype(pni, VDIR);
return 0;
}
rv = sftp_readdir(pu, pctx, pn_dir);
if (rv) {
if (rv != EPERM)
return rv;
/*
* Can't read the directory. We still might be
* able to find the node with getattr in -r+x dirs
*/
rv = getpathattr(pu, PCNPATH(pcn), &va);
if (rv)
return rv;
/* guess */
if (va.va_type == VDIR)
va.va_nlink = 2;
else
va.va_nlink = 1;
pn = allocnode(pu, pn_dir, pcn->pcn_name, &va);
psn = pn->pn_data;
psn->attrread = time(NULL);
} else {
pd = lookup(psn_dir->dir, psn_dir->dentnext, pcn->pcn_name);
if (!pd) {
return ENOENT;
}
if (pd->entry)
pn = pd->entry;
else
pn = makenode(pu, pn_dir, pd, &pd->va);
psn = pn->pn_data;
}
psn->stat &= ~PSN_RECLAIMED;
puffs_newinfo_setcookie(pni, pn);
puffs_newinfo_setvtype(pni, pn->pn_va.va_type);
puffs_newinfo_setsize(pni, pn->pn_va.va_size);
return 0;
}
int
psshfs_node_getattr(struct puffs_usermount *pu, puffs_cookie_t opc,
struct vattr *vap, const struct puffs_cred *pcr)
{
struct puffs_node *pn = opc;
int rv;
rv = getnodeattr(pu, pn);
if (rv)
return rv;
memcpy(vap, &pn->pn_va, sizeof(struct vattr));
return 0;
}
int
psshfs_node_setattr(struct puffs_usermount *pu, puffs_cookie_t opc,
const struct vattr *va, const struct puffs_cred *pcr)
{
PSSHFSAUTOVAR(pu);
struct vattr kludgeva;
struct puffs_node *pn = opc;
psbuf_req_str(pb, SSH_FXP_SETSTAT, reqid, PNPATH(pn));
memcpy(&kludgeva, va, sizeof(struct vattr));
/* XXX: kludge due to openssh server implementation */
if (va->va_atime.tv_sec != PUFFS_VNOVAL
&& va->va_mtime.tv_sec == PUFFS_VNOVAL) {
if (pn->pn_va.va_mtime.tv_sec != PUFFS_VNOVAL)
kludgeva.va_mtime.tv_sec = pn->pn_va.va_mtime.tv_sec;
else
kludgeva.va_mtime.tv_sec = va->va_atime.tv_sec;
}
if (va->va_mtime.tv_sec != PUFFS_VNOVAL
&& va->va_atime.tv_sec == PUFFS_VNOVAL) {
if (pn->pn_va.va_atime.tv_sec != PUFFS_VNOVAL)
kludgeva.va_atime.tv_sec = pn->pn_va.va_atime.tv_sec;
else
kludgeva.va_atime.tv_sec = va->va_mtime.tv_sec;
}
psbuf_put_vattr(pb, &kludgeva);
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv == 0)
puffs_setvattr(&pn->pn_va, &kludgeva);
out:
PSSHFSRETURN(rv);
}
int
psshfs_node_create(struct puffs_usermount *pu, puffs_cookie_t opc,
struct puffs_newinfo *pni, const struct puffs_cn *pcn,
const struct vattr *va)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn = opc;
struct puffs_node *pn_new;
char *fhand = NULL;
uint32_t fhandlen;
/* Create node on server first */
psbuf_req_str(pb, SSH_FXP_OPEN, reqid, PCNPATH(pcn));
psbuf_put_4(pb, SSH_FXF_WRITE | SSH_FXF_CREAT | SSH_FXF_TRUNC);
psbuf_put_vattr(pb, va);
GETRESPONSE(pb);
rv = psbuf_expect_handle(pb, &fhand, &fhandlen);
if (rv)
goto out;
/*
* Do *not* create the local node before getting a response
* from the server. Otherwise we might screw up consistency,
* namely that the node can be looked up before create has
* returned (mind you, the kernel will unlock the directory
* before the create call from userspace returns).
*/
pn_new = allocnode(pu, pn, pcn->pcn_name, va);
if (!pn_new) {
struct puffs_framebuf *pb2 = psbuf_makeout();
reqid = NEXTREQ(pctx);
psbuf_req_str(pb2, SSH_FXP_REMOVE, reqid, PCNPATH(pcn));
JUSTSEND(pb2);
rv = ENOMEM;
}
if (pn_new)
puffs_newinfo_setcookie(pni, pn_new);
reqid = NEXTREQ(pctx);
psbuf_recycleout(pb);
psbuf_req_data(pb, SSH_FXP_CLOSE, reqid, fhand, fhandlen);
JUSTSEND(pb);
free(fhand);
return rv;
out:
free(fhand);
PSSHFSRETURN(rv);
}
/*
* Open a file handle. This is used for read and write. We do not
* wait here for the success or failure of this operation. This is
* because otherwise opening and closing file handles would block
* reading potentially cached information. Rather, we defer the wait
* to read/write and therefore allow cached access without a wait.
*
* If we have not yet succesfully opened a type of handle, we do wait
* here. Also, if a lazy open fails, we revert back to the same
* state of waiting.
*/
int
psshfs_node_open(struct puffs_usermount *pu, puffs_cookie_t opc, int mode,
const struct puffs_cred *pcr)
{
struct puffs_cc *pcc = puffs_cc_getcc(pu);
struct psshfs_ctx *pctx = puffs_getspecific(pu);
struct puffs_framebuf *pb, *pb2;
struct vattr va;
struct puffs_node *pn = opc;
struct psshfs_node *psn = pn->pn_data;
uint32_t reqid;
int didread, didwrite;
int rv = 0;
if (pn->pn_va.va_type == VDIR)
return 0;
puffs_setback(pcc, PUFFS_SETBACK_INACT_N1);
puffs_vattr_null(&va);
didread = didwrite = 0;
if (mode & FREAD && psn->fhand_r == NULL && psn->lazyopen_r == NULL) {
pb = psbuf_makeout();
reqid = NEXTREQ(pctx);
psbuf_req_str(pb, SSH_FXP_OPEN, reqid, PNPATH(pn));
psbuf_put_4(pb, SSH_FXF_READ);
psbuf_put_vattr(pb, &va);
if (puffs_framev_enqueue_cb(pu, pctx->sshfd, pb,
lazyopen_rresp, psn, 0) == -1) {
puffs_framebuf_destroy(pb);
rv = errno;
goto out;
}
psn->lazyopen_r = pb;
didread = 1;
}
if (mode & FWRITE && psn->fhand_w == NULL && psn->lazyopen_w == NULL) {
pb2 = psbuf_makeout();
reqid = NEXTREQ(pctx);
psbuf_req_str(pb2, SSH_FXP_OPEN, reqid, PNPATH(pn));
psbuf_put_4(pb2, SSH_FXF_WRITE);
psbuf_put_vattr(pb2, &va);
if (puffs_framev_enqueue_cb(pu, pctx->sshfd, pb2,
lazyopen_wresp, psn, 0) == -1) {
puffs_framebuf_destroy(pb2);
rv = errno;
goto out;
}
psn->lazyopen_w = pb2;
didwrite = 1;
}
psn->stat &= ~PSN_HANDLECLOSE;
out:
/* wait? */
if (didread && (psn->stat & PSN_DOLAZY_R) == 0) {
assert(psn->lazyopen_r);
rv = puffs_framev_framebuf_ccpromote(psn->lazyopen_r, pcc);
lazyopen_rresp(pu, psn->lazyopen_r, psn, rv);
if (psn->fhand_r) {
psn->stat |= PSN_DOLAZY_R;
} else {
if (psn->lazyopen_err_r)
return psn->lazyopen_err_r;
return EINVAL;
}
}
/* wait? */
if (didwrite && (psn->stat & PSN_DOLAZY_W) == 0) {
assert(psn->lazyopen_w);
rv = puffs_framev_framebuf_ccpromote(psn->lazyopen_w, pcc);
lazyopen_wresp(pu, psn->lazyopen_w, psn, rv);
if (psn->fhand_w) {
psn->stat |= PSN_DOLAZY_W;
} else {
if (psn->lazyopen_err_w)
return psn->lazyopen_err_w;
return EINVAL;
}
}
return rv;
}
int
psshfs_node_inactive(struct puffs_usermount *pu, puffs_cookie_t opc)
{
struct puffs_node *pn = opc;
closehandles(pu, pn->pn_data, HANDLE_READ | HANDLE_WRITE);
return 0;
}
int
psshfs_node_readdir(struct puffs_usermount *pu, puffs_cookie_t opc,
struct dirent *dent, off_t *readoff, size_t *reslen,
const struct puffs_cred *pcr, int *eofflag,
off_t *cookies, size_t *ncookies)
{
struct puffs_cc *pcc = puffs_cc_getcc(pu);
struct psshfs_ctx *pctx = puffs_getspecific(pu);
struct puffs_node *pn = opc;
struct psshfs_node *psn = pn->pn_data;
struct psshfs_dir *pd;
int i, rv, set_readdir;
restart:
if (psn->stat & PSN_READDIR) {
struct psshfs_wait pw;
set_readdir = 0;
pw.pw_cc = pcc;
pw.pw_type = PWTYPE_READDIR;
TAILQ_INSERT_TAIL(&psn->pw, &pw, pw_entries);
puffs_cc_yield(pcc);
goto restart;
} else {
psn->stat |= PSN_READDIR;
set_readdir = 1;
}
*ncookies = 0;
rv = sftp_readdir(pu, pctx, pn);
if (rv)
goto out;
/* find next dirent */
for (i = *readoff;;i++) {
if (i >= psn->dentnext)
goto out;
pd = &psn->dir[i];
if (pd->valid)
break;
}
for (;;) {
*readoff = i;
if (!puffs_nextdent(&dent, pd->entryname,
pd->va.va_fileid, puffs_vtype2dt(pd->va.va_type), reslen)) {
rv = 0;
goto out;
}
/* find next entry, store possible nfs key */
do {
if (++i >= psn->dentnext)
goto out;
pd = &psn->dir[i];
} while (pd->valid == 0);
PUFFS_STORE_DCOOKIE(cookies, ncookies, (off_t)i);
}
out:
if (rv == 0) {
if (i >= psn->dentnext)
*eofflag = 1;
*readoff = i;
}
if (set_readdir) {
struct psshfs_wait *pw;
/* all will likely run to completion because of cache */
TAILQ_FOREACH(pw, &psn->pw, pw_entries) {
assert(pw->pw_type == PWTYPE_READDIR);
puffs_cc_schedule(pw->pw_cc);
TAILQ_REMOVE(&psn->pw, pw, pw_entries);
}
psn->stat &= ~PSN_READDIR;
}
return rv;
}
int
psshfs_node_read(struct puffs_usermount *pu, puffs_cookie_t opc, uint8_t *buf,
off_t offset, size_t *resid, const struct puffs_cred *pcr,
int ioflag)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn = opc;
struct psshfs_node *psn = pn->pn_data;
struct psshfs_wait *pwp;
uint32_t readlen;
if (pn->pn_va.va_type == VDIR) {
rv = EISDIR;
goto farout;
}
/* check that a lazyopen didn't fail */
if (!psn->fhand_r && !psn->lazyopen_r) {
rv = psn->lazyopen_err_r;
goto farout;
}
/* if someone is already waiting for the lazyopen, "just" wait */
if (psn->stat & PSN_LAZYWAIT_R) {
struct psshfs_wait pw;
assert(psn->lazyopen_r);
pw.pw_cc = pcc;
pw.pw_type = PWTYPE_READ1;
TAILQ_INSERT_TAIL(&psn->pw, &pw, pw_entries);
puffs_cc_yield(pcc);
}
/* if lazyopening, wait for the result */
if (psn->lazyopen_r) {
psn->stat |= PSN_LAZYWAIT_R;
rv = puffs_framev_framebuf_ccpromote(psn->lazyopen_r, pcc);
lazyopen_rresp(pu, psn->lazyopen_r, psn, rv);
/* schedule extra waiters */
TAILQ_FOREACH(pwp, &psn->pw, pw_entries)
if (pwp->pw_type == PWTYPE_READ1) {
puffs_cc_schedule(pwp->pw_cc);
TAILQ_REMOVE(&psn->pw, pwp, pw_entries);
}
psn->stat &= ~PSN_LAZYWAIT_R;
if ((rv = psn->lazyopen_err_r) != 0)
goto farout;
}
/* if there is still no handle, just refuse to live with this */
if (!psn->fhand_r) {
rv = EINVAL;
goto farout;
}
readlen = *resid;
psbuf_req_data(pb, SSH_FXP_READ, reqid, psn->fhand_r, psn->fhand_r_len);
psbuf_put_8(pb, offset);
psbuf_put_4(pb, readlen);
/*
* Do this *after* accessing the file, the handle might not
* exist after blocking.
*/
if (max_reads && ++psn->readcount > max_reads) {
struct psshfs_wait pw;
pw.pw_cc = pcc;
pw.pw_type = PWTYPE_READ2;
TAILQ_INSERT_TAIL(&psn->pw, &pw, pw_entries);
puffs_cc_yield(pcc);
}
GETRESPONSE(pb);
rv = psbuf_do_data(pb, buf, &readlen);
if (rv == 0)
*resid -= readlen;
out:
if (max_reads && --psn->readcount >= max_reads) {
TAILQ_FOREACH(pwp, &psn->pw, pw_entries)
if (pwp->pw_type == PWTYPE_READ2)
break;
assert(pwp != NULL);
puffs_cc_schedule(pwp->pw_cc);
TAILQ_REMOVE(&psn->pw, pwp, pw_entries);
}
farout:
/* check if we need a lazyclose */
if (psn->stat & PSN_HANDLECLOSE && psn->fhand_r) {
TAILQ_FOREACH(pwp, &psn->pw, pw_entries)
if (pwp->pw_type == PWTYPE_READ1)
break;
if (pwp == NULL)
closehandles(pu, psn, HANDLE_READ);
}
PSSHFSRETURN(rv);
}
/* XXX: we should getattr for size */
int
psshfs_node_write(struct puffs_usermount *pu, puffs_cookie_t opc, uint8_t *buf,
off_t offset, size_t *resid, const struct puffs_cred *cred,
int ioflag)
{
PSSHFSAUTOVAR(pu);
struct psshfs_wait *pwp;
struct puffs_node *pn = opc;
struct psshfs_node *psn = pn->pn_data;
uint32_t writelen;
if (pn->pn_va.va_type == VDIR) {
rv = EISDIR;
goto out;
}
/* check that a lazyopen didn't fail */
if (!psn->fhand_w && !psn->lazyopen_w) {
rv = psn->lazyopen_err_w;
goto out;
}
if (psn->stat & PSN_LAZYWAIT_W) {
struct psshfs_wait pw;
assert(psn->lazyopen_w);
pw.pw_cc = pcc;
pw.pw_type = PWTYPE_WRITE;
TAILQ_INSERT_TAIL(&psn->pw, &pw, pw_entries);
puffs_cc_yield(pcc);
}
/*
* If lazyopening, wait for the result.
* There can still be more than oen writer at a time in case
* the kernel issues write FAFs.
*/
if (psn->lazyopen_w) {
psn->stat |= PSN_LAZYWAIT_W;
rv = puffs_framev_framebuf_ccpromote(psn->lazyopen_w, pcc);
lazyopen_wresp(pu, psn->lazyopen_w, psn, rv);
/* schedule extra waiters */
TAILQ_FOREACH(pwp, &psn->pw, pw_entries)
if (pwp->pw_type == PWTYPE_WRITE) {
puffs_cc_schedule(pwp->pw_cc);
TAILQ_REMOVE(&psn->pw, pwp, pw_entries);
}
psn->stat &= ~PSN_LAZYWAIT_W;
if ((rv = psn->lazyopen_err_w) != 0)
goto out;
}
if (!psn->fhand_w) {
abort();
rv = EINVAL;
goto out;
}
writelen = *resid;
psbuf_req_data(pb, SSH_FXP_WRITE, reqid, psn->fhand_w,psn->fhand_w_len);
psbuf_put_8(pb, offset);
psbuf_put_data(pb, buf, writelen);
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv == 0)
*resid = 0;
if (pn->pn_va.va_size < offset + writelen)
pn->pn_va.va_size = offset + writelen;
out:
/* check if we need a lazyclose */
if (psn->stat & PSN_HANDLECLOSE && psn->fhand_w) {
TAILQ_FOREACH(pwp, &psn->pw, pw_entries)
if (pwp->pw_type == PWTYPE_WRITE)
break;
if (pwp == NULL)
closehandles(pu, psn, HANDLE_WRITE);
}
PSSHFSRETURN(rv);
}
int
psshfs_node_readlink(struct puffs_usermount *pu, puffs_cookie_t opc,
const struct puffs_cred *cred, char *linkvalue, size_t *linklen)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn = opc;
struct psshfs_node *psn = pn->pn_data;
uint32_t count;
if (pctx->protover < 3) {
rv = EOPNOTSUPP;
goto out;
}
/*
* check if we can use a cached version
*
* XXX: we might end up reading the same link multiple times
* from the server if we get many requests at once, but that's
* quite harmless as this routine is reentrant.
*/
if (psn->symlink && !REFRESHTIMEOUT(pctx, time(NULL) - psn->slread))
goto copy;
if (psn->symlink) {
free(psn->symlink);
psn->symlink = NULL;
psn->slread = 0;
}
psbuf_req_str(pb, SSH_FXP_READLINK, reqid, PNPATH(pn));
GETRESPONSE(pb);
rv = psbuf_expect_name(pb, &count);
if (rv)
goto out;
if (count != 1) {
rv = EPROTO;
goto out;
}
rv = psbuf_get_str(pb, &psn->symlink, NULL);
if (rv)
goto out;
psn->slread = time(NULL);
copy:
*linklen = strlen(psn->symlink);
(void) memcpy(linkvalue, psn->symlink, *linklen);
out:
PSSHFSRETURN(rv);
}
static int
doremove(struct puffs_usermount *pu, struct puffs_node *pn_dir,
struct puffs_node *pn, const char *name)
{
PSSHFSAUTOVAR(pu);
int op;
if (pn->pn_va.va_type == VDIR)
op = SSH_FXP_RMDIR;
else
op = SSH_FXP_REMOVE;
psbuf_req_str(pb, op, reqid, PNPATH(pn));
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv == 0)
nukenode(pn, name, 0);
out:
PSSHFSRETURN(rv);
}
int
psshfs_node_remove(struct puffs_usermount *pu, puffs_cookie_t opc,
puffs_cookie_t targ, const struct puffs_cn *pcn)
{
struct puffs_node *pn_targ = targ;
int rv;
assert(pn_targ->pn_va.va_type != VDIR);
rv = doremove(pu, opc, targ, pcn->pcn_name);
if (rv == 0)
puffs_setback(puffs_cc_getcc(pu), PUFFS_SETBACK_NOREF_N2);
return rv;
}
int
psshfs_node_rmdir(struct puffs_usermount *pu, puffs_cookie_t opc,
puffs_cookie_t targ, const struct puffs_cn *pcn)
{
struct puffs_node *pn_targ = targ;
int rv;
assert(pn_targ->pn_va.va_type == VDIR);
rv = doremove(pu, opc, targ, pcn->pcn_name);
if (rv == 0)
puffs_setback(puffs_cc_getcc(pu), PUFFS_SETBACK_NOREF_N2);
return rv;
}
int
psshfs_node_mkdir(struct puffs_usermount *pu, puffs_cookie_t opc,
struct puffs_newinfo *pni, const struct puffs_cn *pcn,
const struct vattr *va)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn = opc;
struct puffs_node *pn_new;
psbuf_req_str(pb, SSH_FXP_MKDIR, reqid, PCNPATH(pcn));
psbuf_put_vattr(pb, va);
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv)
goto out;
pn_new = allocnode(pu, pn, pcn->pcn_name, va);
if (pn_new) {
puffs_newinfo_setcookie(pni, pn_new);
} else {
struct puffs_framebuf *pb2 = psbuf_makeout();
reqid = NEXTREQ(pctx);
psbuf_recycleout(pb2);
psbuf_req_str(pb2, SSH_FXP_RMDIR, reqid, PCNPATH(pcn));
JUSTSEND(pb2);
rv = ENOMEM;
}
out:
PSSHFSRETURN(rv);
}
int
psshfs_node_symlink(struct puffs_usermount *pu, puffs_cookie_t opc,
struct puffs_newinfo *pni, const struct puffs_cn *pcn,
const struct vattr *va, const char *link_target)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn = opc;
struct puffs_node *pn_new;
if (pctx->protover < 3) {
rv = EOPNOTSUPP;
goto out;
}
/*
* XXX: ietf says: source, target. openssh says: ietf who?
* Let's go with openssh and build quirk tables later if we care
*/
psbuf_req_str(pb, SSH_FXP_SYMLINK, reqid, link_target);
psbuf_put_str(pb, PCNPATH(pcn));
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv)
goto out;
pn_new = allocnode(pu, pn, pcn->pcn_name, va);
if (pn_new) {
puffs_newinfo_setcookie(pni, pn_new);
} else {
struct puffs_framebuf *pb2 = psbuf_makeout();
reqid = NEXTREQ(pctx);
psbuf_recycleout(pb2);
psbuf_req_str(pb2, SSH_FXP_REMOVE, reqid, PCNPATH(pcn));
JUSTSEND(pb2);
rv = ENOMEM;
}
out:
PSSHFSRETURN(rv);
}
int
psshfs_node_rename(struct puffs_usermount *pu, puffs_cookie_t opc,
puffs_cookie_t src, const struct puffs_cn *pcn_src,
puffs_cookie_t targ_dir, puffs_cookie_t targ,
const struct puffs_cn *pcn_targ)
{
PSSHFSAUTOVAR(pu);
struct puffs_node *pn_sf = src;
struct puffs_node *pn_td = targ_dir, *pn_tf = targ;
struct psshfs_node *psn_src = pn_sf->pn_data;
struct psshfs_node *psn_targdir = pn_td->pn_data;
if (pctx->protover < 2) {
rv = EOPNOTSUPP;
goto out;
}
if (pn_tf) {
rv = doremove(pu, targ_dir, pn_tf, pcn_targ->pcn_name);
if (rv)
goto out;
}
psbuf_req_str(pb, SSH_FXP_RENAME, reqid, PCNPATH(pcn_src));
psbuf_put_str(pb, PCNPATH(pcn_targ));
GETRESPONSE(pb);
rv = psbuf_expect_status(pb);
if (rv == 0) {
struct psshfs_dir *pd;
/*
* XXX: interfaces didn't quite work with rename..
* the song remains the same. go figure .. ;)
*/
nukenode(pn_sf, pcn_src->pcn_name, 0);
pd = direnter(pn_td, pcn_targ->pcn_name);
pd->entry = pn_sf;
puffs_setvattr(&pd->va, &pn_sf->pn_va);
if (opc != targ_dir) {
psn_targdir->childcount++;
psn_src->parent = pn_td;
if (pn_sf->pn_va.va_type == VDIR)
pn_td->pn_va.va_nlink++;
}
}
out:
PSSHFSRETURN(rv);
}
/*
* So this file system happened to be written in such a way that
* lookup for ".." is hard if we lose the in-memory node. We'd
* need to recreate the entire directory structure from the root
* node up to the ".." node we're looking up.
*
* And since our entire fs structure is purely fictional (i.e. it's
* only in-memory, not fetchable from the server), the easiest way
* to deal with it is to not allow nodes with children to be
* reclaimed.
*
* If a node with children is being attempted to be reclaimed, we
* just mark it "reclaimed" but leave it as is until all its children
* have been reclaimed. If a lookup for that node is done meanwhile,
* it will be found by lookup() and we just remove the "reclaimed"
* bit.
*/
int
psshfs_node_reclaim(struct puffs_usermount *pu, puffs_cookie_t opc)
{
struct puffs_node *pn = opc, *pn_next, *pn_root;
struct psshfs_node *psn = pn->pn_data;
/*
* don't reclaim if we have file handle issued, otherwise
* we can't do fhtonode
*/
if (psn->stat & PSN_HASFH)
return 0;
psn->stat |= PSN_RECLAIMED;
pn_root = puffs_getroot(pu);
for (; pn != pn_root; pn = pn_next) {
psn = pn->pn_data;
if ((psn->stat & PSN_RECLAIMED) == 0 || psn->childcount != 0)
break;
pn_next = psn->parent;
doreclaim(pn);
}
return 0;
}