* Mostly platform independent upcall operations to Venus:
* -- upcalls
* -- upcall routines
*
* Linux 2.0 version
* Copyright (C) 1996 Peter J. Braam <braam@maths.ox.ac.uk>,
* Michael Callahan <callahan@maths.ox.ac.uk>
*
* Redone for Linux 2.1
* Copyright (C) 1997 Carnegie Mellon University
*
* Carnegie Mellon University encourages users of this code to contribute
* improvements to the Coda project. Contact Peter Braam <coda@cs.cmu.edu>.
*/
#include <linux/signal.h>
#include <linux/sched/signal.h>
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/time.h>
#include <linux/fs.h>
#include <linux/file.h>
#include <linux/stat.h>
#include <linux/errno.h>
#include <linux/string.h>
#include <linux/slab.h>
#include <linux/mutex.h>
#include <linux/uaccess.h>
#include <linux/vmalloc.h>
#include <linux/vfs.h>
#include <linux/coda.h>
#include "coda_psdev.h"
#include "coda_linux.h"
#include "coda_cache.h"
#include "coda_int.h"
static int coda_upcall(struct venus_comm *vc, int inSize, int *outSize,
union inputArgs *buffer);
static void *alloc_upcall(int opcode, int size)
{
union inputArgs *inp;
inp = kvzalloc(size, GFP_KERNEL);
if (!inp)
return ERR_PTR(-ENOMEM);
inp->ih.opcode = opcode;
inp->ih.pid = task_pid_nr_ns(current, &init_pid_ns);
inp->ih.pgid = task_pgrp_nr_ns(current, &init_pid_ns);
inp->ih.uid = from_kuid(&init_user_ns, current_fsuid());
return (void*)inp;
}
#define UPARG(op)\
do {\
inp = (union inputArgs *)alloc_upcall(op, insize); \
if (IS_ERR(inp)) { return PTR_ERR(inp); }\
outp = (union outputArgs *)(inp); \
outsize = insize; \
} while (0)
#define INSIZE(tag) sizeof(struct coda_ ## tag ## _in)
#define OUTSIZE(tag) sizeof(struct coda_ ## tag ## _out)
#define SIZE(tag) max_t(unsigned int, INSIZE(tag), OUTSIZE(tag))
int venus_rootfid(struct super_block *sb, struct CodaFid *fidp)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(root);
UPARG(CODA_ROOT);
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error)
*fidp = outp->coda_root.VFid;
kvfree(inp);
return error;
}
int venus_getattr(struct super_block *sb, struct CodaFid *fid,
struct coda_vattr *attr)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(getattr);
UPARG(CODA_GETATTR);
inp->coda_getattr.VFid = *fid;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error)
*attr = outp->coda_getattr.attr;
kvfree(inp);
return error;
}
int venus_setattr(struct super_block *sb, struct CodaFid *fid,
struct coda_vattr *vattr)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(setattr);
UPARG(CODA_SETATTR);
inp->coda_setattr.VFid = *fid;
inp->coda_setattr.attr = *vattr;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_lookup(struct super_block *sb, struct CodaFid *fid,
const char *name, int length, int * type,
struct CodaFid *resfid)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset;
offset = INSIZE(lookup);
insize = max_t(unsigned int, offset + length +1, OUTSIZE(lookup));
UPARG(CODA_LOOKUP);
inp->coda_lookup.VFid = *fid;
inp->coda_lookup.name = offset;
inp->coda_lookup.flags = CLU_CASE_SENSITIVE;
memcpy((char *)(inp) + offset, name, length);
*((char *)inp + offset + length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error) {
*resfid = outp->coda_lookup.VFid;
*type = outp->coda_lookup.vtype;
}
kvfree(inp);
return error;
}
int venus_close(struct super_block *sb, struct CodaFid *fid, int flags,
kuid_t uid)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(release);
UPARG(CODA_CLOSE);
inp->ih.uid = from_kuid(&init_user_ns, uid);
inp->coda_close.VFid = *fid;
inp->coda_close.flags = flags;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_open(struct super_block *sb, struct CodaFid *fid,
int flags, struct file **fh)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(open_by_fd);
UPARG(CODA_OPEN_BY_FD);
inp->coda_open_by_fd.VFid = *fid;
inp->coda_open_by_fd.flags = flags;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error)
*fh = outp->coda_open_by_fd.fh;
kvfree(inp);
return error;
}
int venus_mkdir(struct super_block *sb, struct CodaFid *dirfid,
const char *name, int length,
struct CodaFid *newfid, struct coda_vattr *attrs)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset;
offset = INSIZE(mkdir);
insize = max_t(unsigned int, offset + length + 1, OUTSIZE(mkdir));
UPARG(CODA_MKDIR);
inp->coda_mkdir.VFid = *dirfid;
inp->coda_mkdir.attr = *attrs;
inp->coda_mkdir.name = offset;
memcpy((char *)(inp) + offset, name, length);
*((char *)inp + offset + length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error) {
*attrs = outp->coda_mkdir.attr;
*newfid = outp->coda_mkdir.VFid;
}
kvfree(inp);
return error;
}
int venus_rename(struct super_block *sb, struct CodaFid *old_fid,
struct CodaFid *new_fid, size_t old_length,
size_t new_length, const char *old_name,
const char *new_name)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset, s;
offset = INSIZE(rename);
insize = max_t(unsigned int, offset + new_length + old_length + 8,
OUTSIZE(rename));
UPARG(CODA_RENAME);
inp->coda_rename.sourceFid = *old_fid;
inp->coda_rename.destFid = *new_fid;
inp->coda_rename.srcname = offset;
s = ( old_length & ~0x3) +4;
memcpy((char *)(inp) + offset, old_name, old_length);
*((char *)inp + offset + old_length) = '\0';
offset += s;
inp->coda_rename.destname = offset;
s = ( new_length & ~0x3) +4;
memcpy((char *)(inp) + offset, new_name, new_length);
*((char *)inp + offset + new_length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_create(struct super_block *sb, struct CodaFid *dirfid,
const char *name, int length, int excl, int mode,
struct CodaFid *newfid, struct coda_vattr *attrs)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset;
offset = INSIZE(create);
insize = max_t(unsigned int, offset + length + 1, OUTSIZE(create));
UPARG(CODA_CREATE);
inp->coda_create.VFid = *dirfid;
inp->coda_create.attr.va_mode = mode;
inp->coda_create.excl = excl;
inp->coda_create.mode = mode;
inp->coda_create.name = offset;
memcpy((char *)(inp) + offset, name, length);
*((char *)inp + offset + length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error) {
*attrs = outp->coda_create.attr;
*newfid = outp->coda_create.VFid;
}
kvfree(inp);
return error;
}
int venus_rmdir(struct super_block *sb, struct CodaFid *dirfid,
const char *name, int length)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset;
offset = INSIZE(rmdir);
insize = max_t(unsigned int, offset + length + 1, OUTSIZE(rmdir));
UPARG(CODA_RMDIR);
inp->coda_rmdir.VFid = *dirfid;
inp->coda_rmdir.name = offset;
memcpy((char *)(inp) + offset, name, length);
*((char *)inp + offset + length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_remove(struct super_block *sb, struct CodaFid *dirfid,
const char *name, int length)
{
union inputArgs *inp;
union outputArgs *outp;
int error=0, insize, outsize, offset;
offset = INSIZE(remove);
insize = max_t(unsigned int, offset + length + 1, OUTSIZE(remove));
UPARG(CODA_REMOVE);
inp->coda_remove.VFid = *dirfid;
inp->coda_remove.name = offset;
memcpy((char *)(inp) + offset, name, length);
*((char *)inp + offset + length) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_readlink(struct super_block *sb, struct CodaFid *fid,
char *buffer, int *length)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int retlen;
char *result;
insize = max_t(unsigned int,
INSIZE(readlink), OUTSIZE(readlink)+ *length);
UPARG(CODA_READLINK);
inp->coda_readlink.VFid = *fid;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
if (!error) {
retlen = outp->coda_readlink.count;
if (retlen >= *length)
retlen = *length - 1;
*length = retlen;
result = (char *)outp + (long)outp->coda_readlink.data;
memcpy(buffer, result, retlen);
*(buffer + retlen) = '\0';
}
kvfree(inp);
return error;
}
int venus_link(struct super_block *sb, struct CodaFid *fid,
struct CodaFid *dirfid, const char *name, int len )
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset;
offset = INSIZE(link);
insize = max_t(unsigned int, offset + len + 1, OUTSIZE(link));
UPARG(CODA_LINK);
inp->coda_link.sourceFid = *fid;
inp->coda_link.destFid = *dirfid;
inp->coda_link.tname = offset;
memcpy((char *)(inp) + offset, name, len);
*((char *)inp + offset + len) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_symlink(struct super_block *sb, struct CodaFid *fid,
const char *name, int len,
const char *symname, int symlen)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int offset, s;
offset = INSIZE(symlink);
insize = max_t(unsigned int, offset + len + symlen + 8, OUTSIZE(symlink));
UPARG(CODA_SYMLINK);
inp->coda_symlink.VFid = *fid;
inp->coda_symlink.srcname = offset;
s = ( symlen & ~0x3 ) + 4;
memcpy((char *)(inp) + offset, symname, symlen);
*((char *)inp + offset + symlen) = '\0';
offset += s;
inp->coda_symlink.tname = offset;
s = (len & ~0x3) + 4;
memcpy((char *)(inp) + offset, name, len);
*((char *)inp + offset + len) = '\0';
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_fsync(struct super_block *sb, struct CodaFid *fid)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize=SIZE(fsync);
UPARG(CODA_FSYNC);
inp->coda_fsync.VFid = *fid;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_access(struct super_block *sb, struct CodaFid *fid, int mask)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(access);
UPARG(CODA_ACCESS);
inp->coda_access.VFid = *fid;
inp->coda_access.flags = mask;
error = coda_upcall(coda_vcp(sb), insize, &outsize, inp);
kvfree(inp);
return error;
}
int venus_pioctl(struct super_block *sb, struct CodaFid *fid,
unsigned int cmd, struct PioctlData *data)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
int iocsize;
insize = VC_MAXMSGSIZE;
UPARG(CODA_IOCTL);
if (data->vi.in_size > VC_MAXDATASIZE) {
error = -EINVAL;
goto exit;
}
if (data->vi.out_size > VC_MAXDATASIZE) {
error = -EINVAL;
goto exit;
}
inp->coda_ioctl.VFid = *fid;
* reflect the path and follow args. We need to subtract that
* out before sending the command to Venus. */
inp->coda_ioctl.cmd = (cmd & ~(PIOCPARM_MASK << 16));
iocsize = ((cmd >> 16) & PIOCPARM_MASK) - sizeof(char *) - sizeof(int);
inp->coda_ioctl.cmd |= (iocsize & PIOCPARM_MASK) << 16;
inp->coda_ioctl.len = data->vi.in_size;
inp->coda_ioctl.data = (char *)(INSIZE(ioctl));
if (copy_from_user((char *)inp + (long)inp->coda_ioctl.data,
data->vi.in, data->vi.in_size)) {
error = -EINVAL;
goto exit;
}
error = coda_upcall(coda_vcp(sb), SIZE(ioctl) + data->vi.in_size,
&outsize, inp);
if (error) {
pr_warn("%s: Venus returns: %d for %s\n",
__func__, error, coda_f2s(fid));
goto exit;
}
if (outsize < (long)outp->coda_ioctl.data + outp->coda_ioctl.len) {
error = -EINVAL;
goto exit;
}
if (outp->coda_ioctl.len > data->vi.out_size) {
error = -EINVAL;
goto exit;
}
if (copy_to_user(data->vi.out,
(char *)outp + (long)outp->coda_ioctl.data,
outp->coda_ioctl.len)) {
error = -EFAULT;
goto exit;
}
exit:
kvfree(inp);
return error;
}
int venus_statfs(struct dentry *dentry, struct kstatfs *sfs)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
insize = SIZE(statfs);
UPARG(CODA_STATFS);
error = coda_upcall(coda_vcp(dentry->d_sb), insize, &outsize, inp);
if (!error) {
sfs->f_blocks = outp->coda_statfs.stat.f_blocks;
sfs->f_bfree = outp->coda_statfs.stat.f_bfree;
sfs->f_bavail = outp->coda_statfs.stat.f_bavail;
sfs->f_files = outp->coda_statfs.stat.f_files;
sfs->f_ffree = outp->coda_statfs.stat.f_ffree;
}
kvfree(inp);
return error;
}
int venus_access_intent(struct super_block *sb, struct CodaFid *fid,
bool *access_intent_supported,
size_t count, loff_t ppos, int type)
{
union inputArgs *inp;
union outputArgs *outp;
int insize, outsize, error;
bool finalizer =
type == CODA_ACCESS_TYPE_READ_FINISH ||
type == CODA_ACCESS_TYPE_WRITE_FINISH;
if (!*access_intent_supported && !finalizer)
return 0;
insize = SIZE(access_intent);
UPARG(CODA_ACCESS_INTENT);
inp->coda_access_intent.VFid = *fid;
inp->coda_access_intent.count = count;
inp->coda_access_intent.pos = ppos;
inp->coda_access_intent.type = type;
error = coda_upcall(coda_vcp(sb), insize,
finalizer ? NULL : &outsize, inp);
* we have to free the request buffer for synchronous upcalls
* or when asynchronous upcalls fail, but not when asynchronous
* upcalls succeed
*/
if (!finalizer || error)
kvfree(inp);
if (error == -EOPNOTSUPP) {
*access_intent_supported = false;
error = 0;
}
return error;
}
* coda_upcall and coda_downcall routines.
*/
static void coda_block_signals(sigset_t *old)
{
spin_lock_irq(¤t->sighand->siglock);
*old = current->blocked;
sigfillset(¤t->blocked);
sigdelset(¤t->blocked, SIGKILL);
sigdelset(¤t->blocked, SIGSTOP);
sigdelset(¤t->blocked, SIGINT);
recalc_sigpending();
spin_unlock_irq(¤t->sighand->siglock);
}
static void coda_unblock_signals(sigset_t *old)
{
spin_lock_irq(¤t->sighand->siglock);
current->blocked = *old;
recalc_sigpending();
spin_unlock_irq(¤t->sighand->siglock);
}
* has seen them,
* - CODA_CLOSE or CODA_RELEASE upcall (to avoid reference count problems)
* - CODA_STORE (to avoid data loss)
* - CODA_ACCESS_INTENT (to avoid reference count problems)
*/
#define CODA_INTERRUPTIBLE(r) (!coda_hard && \
(((r)->uc_opcode != CODA_CLOSE && \
(r)->uc_opcode != CODA_STORE && \
(r)->uc_opcode != CODA_ACCESS_INTENT && \
(r)->uc_opcode != CODA_RELEASE) || \
(r)->uc_flags & CODA_REQ_READ))
static inline void coda_waitfor_upcall(struct venus_comm *vcp,
struct upc_req *req)
{
DECLARE_WAITQUEUE(wait, current);
unsigned long timeout = jiffies + coda_timeout * HZ;
sigset_t old;
int blocked;
coda_block_signals(&old);
blocked = 1;
add_wait_queue(&req->uc_sleep, &wait);
for (;;) {
if (CODA_INTERRUPTIBLE(req))
set_current_state(TASK_INTERRUPTIBLE);
else
set_current_state(TASK_UNINTERRUPTIBLE);
if (req->uc_flags & (CODA_REQ_WRITE | CODA_REQ_ABORT))
break;
if (blocked && time_after(jiffies, timeout) &&
CODA_INTERRUPTIBLE(req))
{
coda_unblock_signals(&old);
blocked = 0;
}
if (signal_pending(current)) {
list_del(&req->uc_chain);
break;
}
mutex_unlock(&vcp->vc_mutex);
if (blocked)
schedule_timeout(HZ);
else
schedule();
mutex_lock(&vcp->vc_mutex);
}
if (blocked)
coda_unblock_signals(&old);
remove_wait_queue(&req->uc_sleep, &wait);
set_current_state(TASK_RUNNING);
}
* coda_upcall will return an error in the case of
* failed communication with Venus _or_ will peek at Venus
* reply and return Venus' error.
*
* As venus has 2 types of errors, normal errors (positive) and internal
* errors (negative), normal errors are negated, while internal errors
* are all mapped to -EINTR, while showing a nice warning message. (jh)
*/
static int coda_upcall(struct venus_comm *vcp,
int inSize, int *outSize,
union inputArgs *buffer)
{
union outputArgs *out;
union inputArgs *sig_inputArgs;
struct upc_req *req = NULL, *sig_req;
int error;
mutex_lock(&vcp->vc_mutex);
if (!vcp->vc_inuse) {
pr_notice("Venus dead, not sending upcall\n");
error = -ENXIO;
goto exit;
}
req = kmalloc(sizeof(struct upc_req), GFP_KERNEL);
if (!req) {
error = -ENOMEM;
goto exit;
}
buffer->ih.unique = ++vcp->vc_seq;
req->uc_data = (void *)buffer;
req->uc_flags = outSize ? 0 : CODA_REQ_ASYNC;
req->uc_inSize = inSize;
req->uc_outSize = (outSize && *outSize) ? *outSize : inSize;
req->uc_opcode = buffer->ih.opcode;
req->uc_unique = buffer->ih.unique;
init_waitqueue_head(&req->uc_sleep);
list_add_tail(&req->uc_chain, &vcp->vc_pending);
wake_up_interruptible(&vcp->vc_waitq);
if (req->uc_flags & CODA_REQ_ASYNC) {
mutex_unlock(&vcp->vc_mutex);
return 0;
}
* our request. If the interrupt occurs before Venus has read
* the request, we dequeue and return. If it occurs after the
* read but before the reply, we dequeue, send a signal
* message, and return. If it occurs after the reply we ignore
* it. In no case do we want to restart the syscall. If it
* was interrupted by a venus shutdown (psdev_close), return
* ENODEV. */
coda_waitfor_upcall(vcp, req);
if (req->uc_flags & CODA_REQ_WRITE) {
out = (union outputArgs *)req->uc_data;
error = -out->oh.result;
*outSize = req->uc_outSize;
goto exit;
}
error = -EINTR;
if ((req->uc_flags & CODA_REQ_ABORT) || !signal_pending(current)) {
pr_warn("Unexpected interruption.\n");
goto exit;
}
if (!(req->uc_flags & CODA_REQ_READ))
goto exit;
if (!vcp->vc_inuse) {
pr_info("Venus dead, not sending signal.\n");
goto exit;
}
error = -ENOMEM;
sig_req = kmalloc(sizeof(struct upc_req), GFP_KERNEL);
if (!sig_req) goto exit;
sig_inputArgs = kvzalloc(sizeof(*sig_inputArgs), GFP_KERNEL);
if (!sig_inputArgs) {
kfree(sig_req);
goto exit;
}
error = -EINTR;
sig_inputArgs->ih.opcode = CODA_SIGNAL;
sig_inputArgs->ih.unique = req->uc_unique;
sig_req->uc_flags = CODA_REQ_ASYNC;
sig_req->uc_opcode = sig_inputArgs->ih.opcode;
sig_req->uc_unique = sig_inputArgs->ih.unique;
sig_req->uc_data = (void *)sig_inputArgs;
sig_req->uc_inSize = sizeof(struct coda_in_hdr);
sig_req->uc_outSize = sizeof(struct coda_in_hdr);
list_add(&(sig_req->uc_chain), &vcp->vc_pending);
wake_up_interruptible(&vcp->vc_waitq);
exit:
kfree(req);
mutex_unlock(&vcp->vc_mutex);
return error;
}
The statements below are part of the Coda opportunistic
programming -- taken from the Mach/BSD kernel code for Coda.
You don't get correct semantics by stating what needs to be
done without guaranteeing the invariants needed for it to happen.
When will be have time to find out what exactly is going on? (pjb)
*/
* There are 7 cases where cache invalidations occur. The semantics
* of each is listed here:
*
* CODA_FLUSH -- flush all entries from the name cache and the cnode cache.
* CODA_PURGEUSER -- flush all entries from the name cache for a specific user
* This call is a result of token expiration.
*
* The next arise as the result of callbacks on a file or directory.
* CODA_ZAPFILE -- flush the cached attributes for a file.
* CODA_ZAPDIR -- flush the attributes for the dir and
* force a new lookup for all the children
of this dir.
*
* The next is a result of Venus detecting an inconsistent file.
* CODA_PURGEFID -- flush the attribute for the file
* purge it and its children from the dcache
*
* The last allows Venus to replace local fids with global ones
* during reintegration.
*
* CODA_REPLACE -- replace one CodaFid with another throughout the name cache */
int coda_downcall(struct venus_comm *vcp, int opcode, union outputArgs *out,
size_t nbytes)
{
struct inode *inode = NULL;
struct CodaFid *fid = NULL, *newfid;
struct super_block *sb;
* Make sure we have received enough data from the cache
* manager to populate the necessary fields in the buffer
*/
switch (opcode) {
case CODA_PURGEUSER:
if (nbytes < sizeof(struct coda_purgeuser_out))
return -EINVAL;
break;
case CODA_ZAPDIR:
if (nbytes < sizeof(struct coda_zapdir_out))
return -EINVAL;
break;
case CODA_ZAPFILE:
if (nbytes < sizeof(struct coda_zapfile_out))
return -EINVAL;
break;
case CODA_PURGEFID:
if (nbytes < sizeof(struct coda_purgefid_out))
return -EINVAL;
break;
case CODA_REPLACE:
if (nbytes < sizeof(struct coda_replace_out))
return -EINVAL;
break;
}
mutex_lock(&vcp->vc_mutex);
sb = vcp->vc_sb;
if (!sb || !sb->s_root)
goto unlock_out;
switch (opcode) {
case CODA_FLUSH:
coda_cache_clear_all(sb);
shrink_dcache_sb(sb);
if (d_really_is_positive(sb->s_root))
coda_flag_inode(d_inode(sb->s_root), C_FLUSH);
break;
case CODA_PURGEUSER:
coda_cache_clear_all(sb);
break;
case CODA_ZAPDIR:
fid = &out->coda_zapdir.CodaFid;
break;
case CODA_ZAPFILE:
fid = &out->coda_zapfile.CodaFid;
break;
case CODA_PURGEFID:
fid = &out->coda_purgefid.CodaFid;
break;
case CODA_REPLACE:
fid = &out->coda_replace.OldFid;
break;
}
if (fid)
inode = coda_fid_to_inode(fid, sb);
unlock_out:
mutex_unlock(&vcp->vc_mutex);
if (!inode)
return 0;
switch (opcode) {
case CODA_ZAPDIR:
coda_flag_inode_children(inode, C_PURGE);
coda_flag_inode(inode, C_VATTR);
break;
case CODA_ZAPFILE:
coda_flag_inode(inode, C_VATTR);
break;
case CODA_PURGEFID:
coda_flag_inode_children(inode, C_PURGE);
coda_flag_inode(inode, C_PURGE);
d_prune_aliases(inode);
break;
case CODA_REPLACE:
newfid = &out->coda_replace.NewFid;
coda_replace_fid(inode, fid, newfid);
break;
}
iput(inode);
return 0;
}
