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|
/*
* linux/fs/nfs/proc.c
*
* Copyright (C) 1992, 1993, 1994 Rick Sladkey
*
* OS-independent nfs remote procedure call functions
*
* Tuned by Alan Cox <A.Cox@swansea.ac.uk> for >3K buffers
* so at last we can have decent(ish) throughput off a
* Sun server.
*
* Coding optimized and cleaned up by Florian La Roche.
* Note: Error returns are optimized for NFS_OK, which isn't translated via
* nfs_stat_to_errno(), but happens to be already the right return code.
*
* FixMe: We ought to define a sensible small max size for
* things like getattr that are tiny packets and use the
* old get_free_page stuff with it.
*
* Also, the code currently doesn't check the size of the packet, when
* it decodes the packet.
*
* Feel free to fix it and mail me the diffs if it worries you.
*/
/*
* Defining NFS_PROC_DEBUG causes a lookup of a file named
* "xyzzy" to toggle debugging. Just cd to an NFS-mounted
* filesystem and type 'ls xyzzy' to turn on debugging.
*/
#if 0
#define NFS_PROC_DEBUG
#endif
#include <linux/config.h>
#include <linux/param.h>
#include <linux/sched.h>
#include <linux/mm.h>
#include <linux/malloc.h>
#include <linux/nfs_fs.h>
#include <linux/utsname.h>
#include <linux/errno.h>
#include <linux/string.h>
#include <linux/in.h>
#include <asm/segment.h>
#ifdef NFS_PROC_DEBUG
static int proc_debug = 0;
#define PRINTK(format, args...) \
do { \
if (proc_debug) \
printk(format , ## args); \
} while (0)
#else /* !NFS_PROC_DEBUG */
#define PRINTK(format, args...) do ; while (0)
#endif /* !NFS_PROC_DEBUG */
/* Mapping from NFS error code to "errno" error code. */
#define errno_NFSERR_IO EIO
static int *nfs_rpc_header(int *p, int procedure, int ruid);
static int *nfs_rpc_verify(int *p);
static int nfs_stat_to_errno(int stat);
/*
* Our memory allocation and release functions.
*/
#define NFS_SLACK_SPACE 1024 /* Total overkill */
/* !!! Be careful, this constant is now also used in sock.c...
We should easily convert to not using it anymore for most cases... */
static inline int *nfs_rpc_alloc(int size)
{
int *i;
while (!(i = (int *)kmalloc(size+NFS_SLACK_SPACE,GFP_NFS))) {
schedule();
}
return i;
}
static inline void nfs_rpc_free(int *p)
{
kfree((void *)p);
}
/*
* Here are a bunch of xdr encode/decode functions that convert
* between machine dependent and xdr data formats.
*/
#define QUADLEN(len) (((len) + 3) >> 2)
static inline int *xdr_encode_fhandle(int *p, struct nfs_fh *fhandle)
{
*((struct nfs_fh *) p) = *fhandle;
return p + QUADLEN(sizeof(*fhandle));
}
static inline int *xdr_decode_fhandle(int *p, struct nfs_fh *fhandle)
{
*fhandle = *((struct nfs_fh *) p);
return p + QUADLEN(sizeof(*fhandle));
}
static inline int *xdr_encode_string(int *p, const char *string)
{
int len = strlen(string);
int quadlen = QUADLEN(len);
p[quadlen] = 0;
*p++ = htonl(len);
memcpy(p, string, len);
return p + quadlen;
}
static inline int *xdr_decode_string(int *p, char *string, unsigned int maxlen)
{
unsigned int len = ntohl(*p++);
if (len > maxlen)
return NULL;
memcpy(string, p, len);
string[len] = '\0';
return p + QUADLEN(len);
}
static inline int *xdr_decode_string2(int *p, char **string, unsigned int *len,
unsigned int maxlen)
{
*len = ntohl(*p++);
if (*len > maxlen)
return NULL;
*string = (char *) p;
return p + QUADLEN(*len);
}
static inline int *xdr_encode_data(int *p, char *data, int len)
{
int quadlen = QUADLEN(len);
p[quadlen] = 0;
*p++ = htonl(len);
memcpy_fromfs(p, data, len);
return p + quadlen;
}
static inline int *xdr_decode_data(int *p, char *data, int *lenp, int maxlen,
int fs)
{
unsigned len = *lenp = ntohl(*p++);
if (len > maxlen)
return NULL;
if (fs)
memcpy_tofs(data, p, len);
else
memcpy(data, p, len);
return p + QUADLEN(len);
}
static int *xdr_decode_fattr(int *p, struct nfs_fattr *fattr)
{
fattr->type = (enum nfs_ftype) ntohl(*p++);
fattr->mode = ntohl(*p++);
fattr->nlink = ntohl(*p++);
fattr->uid = ntohl(*p++);
fattr->gid = ntohl(*p++);
fattr->size = ntohl(*p++);
fattr->blocksize = ntohl(*p++);
fattr->rdev = ntohl(*p++);
fattr->blocks = ntohl(*p++);
fattr->fsid = ntohl(*p++);
fattr->fileid = ntohl(*p++);
fattr->atime.seconds = ntohl(*p++);
fattr->atime.useconds = ntohl(*p++);
fattr->mtime.seconds = ntohl(*p++);
fattr->mtime.useconds = ntohl(*p++);
fattr->ctime.seconds = ntohl(*p++);
fattr->ctime.useconds = ntohl(*p++);
return p;
}
static int *xdr_encode_sattr(int *p, struct nfs_sattr *sattr)
{
*p++ = htonl(sattr->mode);
*p++ = htonl(sattr->uid);
*p++ = htonl(sattr->gid);
*p++ = htonl(sattr->size);
*p++ = htonl(sattr->atime.seconds);
*p++ = htonl(sattr->atime.useconds);
*p++ = htonl(sattr->mtime.seconds);
*p++ = htonl(sattr->mtime.useconds);
return p;
}
static int *xdr_decode_entry(int *p, struct nfs_entry *entry)
{
entry->fileid = ntohl(*p++);
if (!(p = xdr_decode_string(p, entry->name, NFS_MAXNAMLEN)))
return NULL;
entry->cookie = ntohl(*p++);
entry->eof = 0;
return p;
}
static int *xdr_decode_fsinfo(int *p, struct nfs_fsinfo *res)
{
res->tsize = ntohl(*p++);
res->bsize = ntohl(*p++);
res->blocks = ntohl(*p++);
res->bfree = ntohl(*p++);
res->bavail = ntohl(*p++);
return p;
}
/*
* One function for each procedure in the NFS protocol.
*/
int nfs_proc_getattr(struct nfs_server *server, struct nfs_fh *fhandle,
struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call getattr\n");
if (!(p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_GETATTR, ruid);
p = xdr_encode_fhandle(p, fhandle);
if ((status = nfs_rpc_call(server, p0, p, server->rsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply getattr\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply getattr failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_setattr(struct nfs_server *server, struct nfs_fh *fhandle,
struct nfs_sattr *sattr, struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call setattr\n");
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_SETATTR, ruid);
p = xdr_encode_fhandle(p, fhandle);
p = xdr_encode_sattr(p, sattr);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply setattr\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply setattr failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_lookup(struct nfs_server *server, struct nfs_fh *dir, const char *name,
struct nfs_fh *fhandle, struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call lookup %s\n", name);
#ifdef NFS_PROC_DEBUG
if (!strcmp(name, "xyzzy"))
proc_debug = 1 - proc_debug;
#endif
if (!(p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_LOOKUP, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
if ((status = nfs_rpc_call(server, p0, p, server->rsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fhandle(p, fhandle);
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply lookup\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply lookup failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_readlink(struct nfs_server *server, struct nfs_fh *fhandle,
int **p0, char **string, unsigned int *len, unsigned int maxlen)
{
int *p;
int status, ruid = 0;
PRINTK("NFS call readlink\n");
if (!(*p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(*p0, NFSPROC_READLINK, ruid);
p = xdr_encode_fhandle(p, fhandle);
if ((status = nfs_rpc_call(server, *p0, p, server->rsize)) < 0)
return status;
if (!(p = nfs_rpc_verify(*p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
if (!(p = xdr_decode_string2(p, string, len, maxlen))) {
printk("nfs_proc_readlink: giant pathname\n");
status = -errno_NFSERR_IO;
}
else /* status = 0, */
PRINTK("NFS reply readlink\n");
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply readlink failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
return status;
}
int nfs_proc_read(struct nfs_server *server, struct nfs_fh *fhandle,
int offset, int count, char *data, struct nfs_fattr *fattr, int fs)
{
int *p, *p0;
int status;
int ruid = 0;
int len;
PRINTK("NFS call read %d @ %d\n", count, offset);
if (!(p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_READ, ruid);
p = xdr_encode_fhandle(p, fhandle);
*p++ = htonl(offset);
*p++ = htonl(count);
*p++ = htonl(count); /* traditional, could be any value */
if ((status = nfs_rpc_call(server, p0, p, server->rsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fattr(p, fattr);
if (!(p = xdr_decode_data(p, data, &len, count, fs))) {
printk("nfs_proc_read: giant data size\n");
status = -errno_NFSERR_IO;
}
else {
status = len;
PRINTK("NFS reply read %d\n", len);
}
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply read failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_write(struct nfs_server *server, struct nfs_fh *fhandle,
int offset, int count, char *data, struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call write %d @ %d\n", count, offset);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_WRITE, ruid);
p = xdr_encode_fhandle(p, fhandle);
*p++ = htonl(offset); /* traditional, could be any value */
*p++ = htonl(offset);
*p++ = htonl(count); /* traditional, could be any value */
p = xdr_encode_data(p, data, count);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply write\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply write failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_create(struct nfs_server *server, struct nfs_fh *dir,
const char *name, struct nfs_sattr *sattr,
struct nfs_fh *fhandle, struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call create %s\n", name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_CREATE, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
p = xdr_encode_sattr(p, sattr);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fhandle(p, fhandle);
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply create\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply create failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_remove(struct nfs_server *server, struct nfs_fh *dir, const char *name)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call remove %s\n", name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_REMOVE, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
PRINTK("NFS reply remove\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply remove failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_rename(struct nfs_server *server,
struct nfs_fh *old_dir, const char *old_name,
struct nfs_fh *new_dir, const char *new_name)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call rename %s -> %s\n", old_name, new_name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_RENAME, ruid);
p = xdr_encode_fhandle(p, old_dir);
p = xdr_encode_string(p, old_name);
p = xdr_encode_fhandle(p, new_dir);
p = xdr_encode_string(p, new_name);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
PRINTK("NFS reply rename\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply rename failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_link(struct nfs_server *server, struct nfs_fh *fhandle,
struct nfs_fh *dir, const char *name)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call link %s\n", name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_LINK, ruid);
p = xdr_encode_fhandle(p, fhandle);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
PRINTK("NFS reply link\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply link failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_symlink(struct nfs_server *server, struct nfs_fh *dir,
const char *name, const char *path, struct nfs_sattr *sattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call symlink %s -> %s\n", name, path);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_SYMLINK, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
p = xdr_encode_string(p, path);
p = xdr_encode_sattr(p, sattr);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
PRINTK("NFS reply symlink\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply symlink failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_mkdir(struct nfs_server *server, struct nfs_fh *dir,
const char *name, struct nfs_sattr *sattr,
struct nfs_fh *fhandle, struct nfs_fattr *fattr)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call mkdir %s\n", name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_MKDIR, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
p = xdr_encode_sattr(p, sattr);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fhandle(p, fhandle);
p = xdr_decode_fattr(p, fattr);
PRINTK("NFS reply mkdir\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply mkdir failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_rmdir(struct nfs_server *server, struct nfs_fh *dir, const char *name)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call rmdir %s\n", name);
if (!(p0 = nfs_rpc_alloc(server->wsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_RMDIR, ruid);
p = xdr_encode_fhandle(p, dir);
p = xdr_encode_string(p, name);
if ((status = nfs_rpc_call(server, p0, p, server->wsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
PRINTK("NFS reply rmdir\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply rmdir failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_readdir(struct nfs_server *server, struct nfs_fh *fhandle,
int cookie, int count, struct nfs_entry *entry)
{
int *p, *p0;
int status;
int ruid = 0;
int i;
int size;
int eof;
PRINTK("NFS call readdir %d @ %d\n", count, cookie);
size = server->rsize;
if (!(p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_READDIR, ruid);
p = xdr_encode_fhandle(p, fhandle);
*p++ = htonl(cookie);
*p++ = htonl(size);
if ((status = nfs_rpc_call(server, p0, p, server->rsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
for (i = 0; i < count && *p++; i++) {
if (!(p = xdr_decode_entry(p, entry++)))
break;
}
if (!p) {
printk("nfs_proc_readdir: giant filename\n");
status = -errno_NFSERR_IO;
}
else {
eof = (i == count && !*p++ && *p++)
|| (i < count && *p++);
if (eof && i)
entry[-1].eof = 1;
PRINTK("NFS reply readdir %d %s\n", i,
eof ? "eof" : "");
status = i;
}
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply readdir failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
int nfs_proc_statfs(struct nfs_server *server, struct nfs_fh *fhandle,
struct nfs_fsinfo *res)
{
int *p, *p0;
int status;
int ruid = 0;
PRINTK("NFS call statfs\n");
if (!(p0 = nfs_rpc_alloc(server->rsize)))
return -EIO;
retry:
p = nfs_rpc_header(p0, NFSPROC_STATFS, ruid);
p = xdr_encode_fhandle(p, fhandle);
if ((status = nfs_rpc_call(server, p0, p, server->rsize)) < 0) {
nfs_rpc_free(p0);
return status;
}
if (!(p = nfs_rpc_verify(p0)))
status = -errno_NFSERR_IO;
else if ((status = ntohl(*p++)) == NFS_OK) {
p = xdr_decode_fsinfo(p, res);
PRINTK("NFS reply statfs\n");
/* status = 0; */
}
else {
if (!ruid && current->fsuid == 0 && current->uid != 0) {
ruid = 1;
goto retry;
}
PRINTK("NFS reply statfs failed = %d\n", status);
status = -nfs_stat_to_errno(status);
}
nfs_rpc_free(p0);
return status;
}
/*
* Here are a few RPC-assist functions.
*/
static int *nfs_rpc_header(int *p, int procedure, int ruid)
{
int *p1, *p2;
int i;
static int xid = 0;
unsigned char *sys = (unsigned char *) system_utsname.nodename;
if (xid == 0) {
xid = CURRENT_TIME;
xid ^= (sys[3]<<24) | (sys[2]<<16) | (sys[1]<<8) | sys[0];
}
*p++ = htonl(++xid);
*p++ = htonl(RPC_CALL);
*p++ = htonl(RPC_VERSION);
*p++ = htonl(NFS_PROGRAM);
*p++ = htonl(NFS_VERSION);
*p++ = htonl(procedure);
*p++ = htonl(RPC_AUTH_UNIX);
p1 = p++;
*p++ = htonl(CURRENT_TIME); /* traditional, could be anything */
p = xdr_encode_string(p, (char *) sys);
*p++ = htonl(ruid ? current->uid : current->fsuid);
*p++ = htonl(current->egid);
p2 = p++;
for (i = 0; i < 16 && i < NGROUPS && current->groups[i] != NOGROUP; i++)
*p++ = htonl(current->groups[i]);
*p2 = htonl(i);
*p1 = htonl((p - (p1 + 1)) << 2);
*p++ = htonl(RPC_AUTH_NULL);
*p++ = htonl(0);
return p;
}
static int *nfs_rpc_verify(int *p)
{
unsigned int n;
p++;
if ((n = ntohl(*p++)) != RPC_REPLY) {
printk("nfs_rpc_verify: not an RPC reply: %d\n", n);
return NULL;
}
if ((n = ntohl(*p++)) != RPC_MSG_ACCEPTED) {
printk("nfs_rpc_verify: RPC call rejected: %d\n", n);
return NULL;
}
switch (n = ntohl(*p++)) {
case RPC_AUTH_NULL: case RPC_AUTH_UNIX: case RPC_AUTH_SHORT:
break;
default:
printk("nfs_rpc_verify: bad RPC authentication type: %d\n", n);
return NULL;
}
if ((n = ntohl(*p++)) > 400) {
printk("nfs_rpc_verify: giant auth size\n");
return NULL;
}
p += QUADLEN(n);
if ((n = ntohl(*p++)) != RPC_SUCCESS) {
printk("nfs_rpc_verify: RPC call failed: %d\n", n);
return NULL;
}
return p;
}
/*
* We need to translate between nfs status return values and
* the local errno values which may not be the same.
*/
static struct {
int stat;
int errno;
} nfs_errtbl[] = {
{ NFS_OK, 0 },
{ NFSERR_PERM, EPERM },
{ NFSERR_NOENT, ENOENT },
{ NFSERR_IO, errno_NFSERR_IO },
{ NFSERR_NXIO, ENXIO },
{ NFSERR_ACCES, EACCES },
{ NFSERR_EXIST, EEXIST },
{ NFSERR_NODEV, ENODEV },
{ NFSERR_NOTDIR, ENOTDIR },
{ NFSERR_ISDIR, EISDIR },
{ NFSERR_INVAL, EINVAL },
{ NFSERR_FBIG, EFBIG },
{ NFSERR_NOSPC, ENOSPC },
{ NFSERR_ROFS, EROFS },
{ NFSERR_NAMETOOLONG, ENAMETOOLONG },
{ NFSERR_NOTEMPTY, ENOTEMPTY },
{ NFSERR_DQUOT, EDQUOT },
{ NFSERR_STALE, ESTALE },
#ifdef EWFLUSH
{ NFSERR_WFLUSH, EWFLUSH },
#endif
{ -1, EIO }
};
static int nfs_stat_to_errno(int stat)
{
int i;
for (i = 0; nfs_errtbl[i].stat != -1; i++) {
if (nfs_errtbl[i].stat == stat)
return nfs_errtbl[i].errno;
}
printk("nfs_stat_to_errno: bad nfs status return value: %d\n", stat);
return nfs_errtbl[i].errno;
}
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