mc/vfs/mcfs.c
1998-02-27 04:54:42 +00:00

1155 lines
26 KiB
C

/* Virtual File System: Midnight Commander file system.
Copyright (C) 1995, 1996, 1997 The Free Software Foundation
Written by Miguel de Icaza
Andrej Borsenkow
Norbert Warmuth
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <config.h>
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <unistd.h>
#include <stdlib.h>
#include <stdarg.h>
#include <fcntl.h>
#include <pwd.h>
#include "../src/fs.h"
#include "../src/mad.h"
#include <netdb.h> /* struct hostent */
#include <sys/socket.h> /* AF_INET */
#include <netinet/in.h> /* struct in_addr */
#include <arpa/inet.h>
#ifdef SCO_FLAVOR
#include <sys/timeb.h> /* alex: for struct timeb definition */
#endif /* SCO_FLAVOR */
#include <time.h>
#ifdef USE_TERMNET
#include <termnet.h>
#endif
#include "../src/mem.h"
#include "vfs.h"
#include "mcfs.h"
#include "tcputil.h"
#include "../src/util.h"
#include "../src/dialog.h"
#define MCFS_MAX_CONNECTIONS 32
#define mcserver_port 9876
static mcfs_open_connections = 0;
struct _mcfs_connection {
char *host;
char *user;
char *home;
int sock;
int port;
int version;
} mcfs_connections [MCFS_MAX_CONNECTIONS];
typedef struct _mcfs_connection mcfs_connection;
typedef struct { int handle; mcfs_connection *conn; } mcfs_handle;
static int mcfs_errno_var;
static mcfs_connection *current_dir_connection;
char *mcfs_current_dir = 0;
/* Extract the hostname and username from the path */
/* path is in the form: hostname:user/remote-dir */
char *mcfs_get_host_and_username (char *path, char **host, char **user,
int *port, char **pass)
{
return get_host_and_username (path, host, user, port, 0, 0, pass);
}
void mcfs_fill_names (void (*func)(char *))
{
int i;
char *name;
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++){
if (mcfs_connections [i].host == 0)
continue;
name = copy_strings ("mc:", mcfs_connections [i].user,
"@", mcfs_connections [i].host, 0);
(*func) (name);
free (name);
}
}
void mcfs_free_bucket (int bucket)
{
free (mcfs_connections [bucket].host);
free (mcfs_connections [bucket].user);
free (mcfs_connections [bucket].home);
/* Set all the fields to zero */
mcfs_connections [bucket].host =
mcfs_connections [bucket].user =
mcfs_connections [bucket].home = 0;
mcfs_connections [bucket].sock =
mcfs_connections [bucket].version = 0;
}
/* FIXME: This part should go to another c module, perhaps tcp.c */
int mcfs_invalidate_socket (int);
void tcp_invalidate_socket (int sock)
{
mcfs_invalidate_socket (sock);
}
/* FIXME end: 'cause it is used not only by mcfs */
int mcfs_invalidate_socket (int sock)
{
int i, j = -1;
extern int mc_chdir (char *);
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++)
if (mcfs_connections [i].sock == sock) {
mcfs_free_bucket (i);
j = 0;
}
if (j == -1)
return -1; /* It was not our sock */
/* Break from any possible loop */
mc_chdir ("/");
return 0;
}
extern char *last_current_dir;
/* This routine checks the server RPC version and logs the user in */
static int mcfs_login_server (int my_socket, char *user, int port,
int port_autodetected, char *netrcpass,
int *version)
{
int result;
char *pass;
/* Send the version number */
rpc_send (my_socket, RPC_INT, *version, RPC_END);
if (0 == rpc_get (my_socket, RPC_INT, &result, RPC_END))
return 0;
if (result != MC_VERSION_OK){
message_1s (1, " MCFS ", " The server does not support this version ");
close (my_socket);
return 0;
}
rpc_send (my_socket, RPC_INT, MC_LOGIN, RPC_STRING, last_current_dir,
RPC_STRING, user, RPC_END);
if (0 == rpc_get (my_socket, RPC_INT, &result, RPC_END))
return 0;
if (result == MC_NEED_PASSWORD){
if (port > 1024 && port_autodetected){
int v;
v = query_dialog (" Warning ",
" The remote server is not running on a system port \n"
" you need a password to log in, but the information may \n"
" not be safe on the remote side. Continue? \n", 3, 2,
" Yes ", " No ");
if (v == 1){
close (my_socket);
return 0;
}
}
if (netrcpass != NULL)
pass = strdup (netrcpass);
else
pass = input_dialog (" MCFS Password required ", "Password:", "");
if (!pass){
rpc_send (my_socket, RPC_INT, MC_QUIT, RPC_END);
close (my_socket);
return 0;
}
rpc_send (my_socket, RPC_INT, MC_PASS, RPC_STRING, pass, RPC_END);
wipe_password (pass);
if (0 == rpc_get (my_socket, RPC_INT, &result, RPC_END))
return 0;
if (result != MC_LOGINOK){
message_1s (1, " MCFS ", " Invalid password ");
rpc_send (my_socket, RPC_INT, MC_QUIT, RPC_END);
close (my_socket);
return 0;
}
}
return my_socket;
}
static int mcfs_open_tcp_link (char *host, char *user,
int *port, char *netrcpass, int *version)
{
int my_socket;
int old_port = *port;
my_socket = open_tcp_link (host, port, version, " MCfs ");
if (my_socket <= 0)
return 0;
/* We got the connection to the server, verify if the server
implements our version of the RPC mechanism and then login
the user.
*/
return mcfs_login_server (my_socket, user, *port, old_port == 0,
netrcpass, version);
}
static int mcfs_get_free_bucket_init = 1;
static mcfs_connection *mcfs_get_free_bucket ()
{
int i;
if (mcfs_get_free_bucket_init) {
mcfs_get_free_bucket_init = 0;
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++)
mcfs_connections [i].host = 0;
}
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++){
if (!mcfs_connections [i].host)
return &mcfs_connections [i];
}
/* This can't happend, since we have checked for max connections before */
fprintf (stderr, "Internal error: mcfs_get_free_bucket");
return 0;
}
/* This routine keeps track of open connections */
/* Returns a connected socket to host */
static mcfs_connection *mcfs_open_link (char *host, char *user, int *port, char *netrcpass)
{
int i, sock, version;
mcfs_connection *bucket;
/* Is the link actually open? */
if (mcfs_get_free_bucket_init) {
mcfs_get_free_bucket_init = 0;
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++)
mcfs_connections [i].host = 0;
} else for (i = 0; i < MCFS_MAX_CONNECTIONS; i++){
if (!mcfs_connections [i].host)
continue;
if ((strcmp (host, mcfs_connections [i].host) == 0) &&
(strcmp (user, mcfs_connections [i].user) == 0))
return &mcfs_connections [i];
}
if (mcfs_open_connections == MCFS_MAX_CONNECTIONS){
message_1s (1, " Error ", " Too many open connections ");
return 0;
}
if (!(sock = mcfs_open_tcp_link (host, user, port, netrcpass, &version)))
return 0;
bucket = mcfs_get_free_bucket ();
mcfs_open_connections++;
bucket->host = strdup (host);
bucket->user = strdup (user);
bucket->home = 0;
bucket->port = *port;
bucket->sock = sock;
bucket->version = version;
return bucket;
}
static int is_error (int result, int errno_num)
{
if (!(result == -1))
return mcfs_errno_var = 0;
else
mcfs_errno_var = errno_num;
return 1;
}
static int the_error (int result, int errno_num)
{
if (result == -1)
mcfs_errno_var = errno_num;
else
mcfs_errno_var = 0;
return result;
}
static char *mcfs_get_path (mcfs_connection **mc, char *path)
{
char *user, *host, *remote_path;
char *pass;
int port;
/* An absolute path name, try to determine connection socket */
if (strncmp (path, "mc:", 3) == 0){
path += 3;
/* 1.11.96 bor: add mc:// URL syntax */
if (path[0] == '/' && path[1] == '/')
path += 2;
/* Port = 0 means that open_tcp_link will try to contact the
* remote portmapper to get the port number
*/
port = 0;
if (!(remote_path = mcfs_get_host_and_username
(path, &host, &user, &port, &pass))){
free (host);
free (user);
if (pass)
wipe_password (pass);
return 0;
}
if (!(*mc = mcfs_open_link (host, user, &port, pass))){
free (remote_path);
free (host);
free (user);
if (pass)
wipe_password (pass);
return 0;
}
free (host);
free (user);
if (pass)
wipe_password (pass);
return remote_path;
}
*mc = current_dir_connection;
return strdup (path);
}
/* Simple function for routines returning only an integer from the server */
static int mcfs_handle_simple_error (int sock, int return_status)
{
int status, error;
if (0 == rpc_get (sock, RPC_INT, &status, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
if (is_error (status, error))
return -1;
if (return_status)
return status;
return 0;
}
/* Nice wrappers */
static int mcfs_rpc_two_paths (int command, char *s1, char *s2)
{
mcfs_connection *mc;
char *r1, *r2;
if ((r1 = mcfs_get_path (&mc, s1)) == 0)
return -1;
if ((r2 = mcfs_get_path (&mc, s2)) == 0){
free (r1);
return -1;
}
rpc_send (mc->sock,
RPC_INT, command,
RPC_STRING, r1,
RPC_STRING, r2,
RPC_END);
free (r1);
free (r2);
return mcfs_handle_simple_error (mc->sock, 0);
}
static int mcfs_rpc_path (int command, char *path)
{
mcfs_connection *mc;
char *remote_file;
if ((remote_file = mcfs_get_path (&mc, path)) == 0)
return -1;
rpc_send (mc->sock,
RPC_INT, command,
RPC_STRING, remote_file,
RPC_END);
free (remote_file);
return mcfs_handle_simple_error (mc->sock, 0);
}
static int mcfs_rpc_path_int (int command, char *path, int data)
{
mcfs_connection *mc;
char *remote_file;
if ((remote_file = mcfs_get_path (&mc, path)) == 0)
return -1;
rpc_send (mc->sock,
RPC_INT, command,
RPC_STRING, remote_file,
RPC_INT, data, RPC_END);
free (remote_file);
return mcfs_handle_simple_error (mc->sock, 0);
}
static int mcfs_rpc_path_int_int (int command, char *path, int n1, int n2)
{
mcfs_connection *mc;
char *remote_file;
if ((remote_file = mcfs_get_path (&mc, path)) == 0)
return -1;
rpc_send (mc->sock,
RPC_INT, command,
RPC_STRING, remote_file,
RPC_INT, n1,
RPC_INT, n2,
RPC_END);
free (remote_file);
return mcfs_handle_simple_error (mc->sock, 0);
}
char *mcfs_gethome (char *servername)
{
char *remote_file;
char *buffer;
mcfs_connection *mc;
if (!(remote_file = mcfs_get_path (&mc, servername)))
return 0;
free (remote_file);
if (mc->home)
return strdup (mc->home);
else {
rpc_send (mc->sock, RPC_INT, MC_GETHOME, RPC_END);
if (0 == rpc_get (mc->sock, RPC_STRING, &buffer, RPC_END))
return strdup ("/");
mc->home = buffer;
return strdup (buffer);
}
}
char *mcfs_getupdir (char *servername)
{
char *remote_file;
mcfs_connection *mc;
char *buffer;
if (!(remote_file = mcfs_get_path (&mc, servername)))
return 0;
free (remote_file);
rpc_send (mc->sock, RPC_INT, MC_GETUPDIR, RPC_END);
if (0 == rpc_get (mc->sock, RPC_STRING, &buffer, RPC_END)) {
return strdup ("/");
}
return buffer;
}
/* The callbacks */
static void *mcfs_open (char *file, int flags, int mode)
{
char *remote_file;
mcfs_connection *mc;
int result, error_num;
mcfs_handle *remote_handle;
if (!(remote_file = mcfs_get_path (&mc, file)))
return 0;
rpc_send (mc->sock, RPC_INT, MC_OPEN, RPC_STRING, remote_file,
RPC_INT, flags, RPC_INT, mode, RPC_END);
free (remote_file);
if (0 == rpc_get (mc->sock, RPC_INT, &result, RPC_INT, &error_num, RPC_END))
return 0;
if (is_error (result, error_num))
return 0;
remote_handle = (mcfs_handle *) xmalloc (2 * sizeof (mcfs_handle), "mcfs_handle");
remote_handle->handle = result;
remote_handle->conn = mc;
return remote_handle;
}
static int mcfs_read (void *data, char *buffer, int count)
{
mcfs_handle *info = (mcfs_handle *) data;
int result, error;
int handle;
mcfs_connection *mc;
mc = info->conn;
handle = info->handle;
rpc_send (mc->sock, RPC_INT, MC_READ, RPC_INT, handle,
RPC_INT, count, RPC_END);
if (0 == rpc_get (mc->sock, RPC_INT, &result, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
if (is_error (result, error))
return 0;
if (0 == rpc_get (mc->sock, RPC_BLOCK, result, buffer, RPC_END))
return the_error (-1, EIO);
return result;
}
int mcfs_write (void *data, char *buf, int nbyte)
{
mcfs_handle *info = (mcfs_handle *) data;
mcfs_connection *mc;
int handle;
mc = info->conn;
handle = info->handle;
rpc_send (mc->sock,
RPC_INT, MC_WRITE,
RPC_INT, handle,
RPC_INT, nbyte,
RPC_BLOCK, nbyte, buf,
RPC_END);
return mcfs_handle_simple_error (mc->sock, 1);
}
static int mcfs_close (void *data)
{
mcfs_handle *info = (mcfs_handle *) data;
mcfs_connection *mc;
int handle, result, error;
if (!data)
return -1;
handle = info->handle;
mc = info->conn;
rpc_send (mc->sock, RPC_INT, MC_CLOSE, RPC_INT, handle, RPC_END);
if (0 == rpc_get (mc->sock, RPC_INT, &result, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
is_error (result, error);
free (data);
return result;
}
static int mcfs_errno (void)
{
return mcfs_errno_var;
}
typedef struct dir_entry {
char *text;
struct dir_entry *next;
struct stat my_stat;
int merrno;
} dir_entry;
typedef struct {
mcfs_connection *conn;
int handle;
dir_entry *entries;
dir_entry *current;
} opendir_info;
static void *mcfs_opendir (char *dirname)
{
opendir_info *mcfs_info;
mcfs_connection *mc;
int handle, error_num;
char *remote_dir;
int result;
if (!(remote_dir = mcfs_get_path (&mc, dirname)))
return 0;
rpc_send (mc->sock, RPC_INT, MC_OPENDIR, RPC_STRING, remote_dir, RPC_END);
free (remote_dir);
if (0 == rpc_get (mc->sock, RPC_INT, &result, RPC_INT, &error_num, RPC_END))
return 0;
if (is_error (result, error_num))
return 0;
handle = result;
mcfs_info = (opendir_info *) xmalloc (sizeof(opendir_info),"mcfs_opendir");
mcfs_info->conn = mc;
mcfs_info->handle = handle;
mcfs_info->entries = 0;
mcfs_info->current = 0;
return mcfs_info;
}
static int get_stat_info (mcfs_connection *mc, struct stat *buf);
static int mcfs_loaddir (opendir_info *mcfs_info)
{
int status, error;
mcfs_connection *mc = mcfs_info->conn;
int link = mc->sock;
int first = 1;
rpc_send (link, RPC_INT, MC_READDIR, RPC_INT, mcfs_info->handle, RPC_END);
for (;;){
int entry_len;
dir_entry *new_entry;
if (!rpc_get (link, RPC_INT, &entry_len, RPC_END))
return 0;
if (entry_len == 0)
break;
new_entry = xmalloc (sizeof (dir_entry), "mcfs_loaddir");
new_entry->text = xmalloc (entry_len + 1, "mcfs_loaddir");
new_entry->text [entry_len] = 0;
new_entry->next = 0;
if (first){
mcfs_info->entries = new_entry;
mcfs_info->current = new_entry;
first = 0;
} else {
mcfs_info->current->next = new_entry;
mcfs_info->current = new_entry;
}
if (!rpc_get (link, RPC_BLOCK, entry_len, new_entry->text, RPC_END))
return 0;
/* Then we get the status from the lstat */
if (!rpc_get (link, RPC_INT, &status, RPC_INT, &error, RPC_END))
return 0;
if (is_error (status, error))
new_entry->merrno = error;
else {
new_entry->merrno = 0;
if (!get_stat_info (mc, &(new_entry->my_stat)))
return 0;
}
}
mcfs_info->current = mcfs_info->entries;
return 1;
}
void mcfs_free_dir (dir_entry *de)
{
if (!de)
return;
mcfs_free_dir (de->next);
free (de->text);
free (de);
}
/* Explanation:
* On some operating systems (Slowaris 2 for example)
* the d_name member is just a char long (Nice trick that break everything,
* so we need to set up some space for the filename.
*/
static struct {
struct dirent dent;
#ifdef NEED_EXTRA_DIRENT_BUFFER
char extra_buffer [MC_MAXPATHLEN];
#endif
} mcfs_readdir_data;
/* The readdir routine loads the complete directory */
/* It's too slow to ask the server each time */
/* It now also sends the complete lstat information for each file */
static struct stat *cached_lstat_info;
static void *mcfs_readdir (void *info)
{
opendir_info *mcfs_info;
char *dirent_dest;
mcfs_info = (opendir_info *) info;
if (!mcfs_info->entries)
if (!mcfs_loaddir (mcfs_info))
return NULL;
if (mcfs_info->current == 0){
cached_lstat_info = 0;
mcfs_free_dir (mcfs_info->entries);
mcfs_info->entries = 0;
return NULL;
}
dirent_dest = &(mcfs_readdir_data.dent.d_name [0]);
strcpy (dirent_dest, mcfs_info->current->text);
cached_lstat_info = &mcfs_info->current->my_stat;
mcfs_info->current = mcfs_info->current->next;
#ifndef DIRENT_LENGTH_COMPUTED
mcfs_readdir_data.dent.d_namlen = strlen (mcfs_readdir_data.dent.d_name);
#endif
return &mcfs_readdir_data;
}
static int mcfs_closedir (void *info)
{
opendir_info *mcfs_info = (opendir_info *) info;
dir_entry *p, *q;
rpc_send (mcfs_info->conn->sock, RPC_INT, MC_CLOSEDIR,
RPC_INT, mcfs_info->handle, RPC_END);
for (p = mcfs_info->entries; p;){
q = p;
p = p->next;
free (q->text);
free (q);
}
free (info);
return 0;
}
static time_t mcfs_get_time (mcfs_connection *mc)
{
int sock = mc->sock;
if (mc->version == 1) {
struct tm tt;
rpc_get (sock,
RPC_INT, &tt.tm_sec,
RPC_INT, &tt.tm_min,
RPC_INT, &tt.tm_hour,
RPC_INT, &tt.tm_mday,
RPC_INT, &tt.tm_year,
RPC_INT, &tt.tm_mon,
RPC_END);
tt.tm_year -= 1900;
tt.tm_isdst = 0;
return mktime (&tt);
} else {
char *buf;
long tm;
rpc_get (sock,
RPC_STRING, &buf,
RPC_END);
sscanf (buf, "%lx", &tm);
free (buf);
return (time_t) tm;
}
}
static int get_stat_info (mcfs_connection *mc, struct stat *buf)
{
long mylong;
int sock = mc->sock;
#ifdef HAVE_ST_RDEV
buf->st_rdev = 0;
#endif
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_dev = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_ino = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_mode = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_nlink = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_uid = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_gid = mylong;
rpc_get (sock, RPC_INT, &mylong, RPC_END);
buf->st_size = mylong;
if (!rpc_get (sock, RPC_INT, &mylong, RPC_END))
return 0;
#ifdef HAVE_ST_BLOCKS
buf->st_blocks = mylong;
#endif
buf->st_atime = mcfs_get_time (mc);
buf->st_mtime = mcfs_get_time (mc);
buf->st_ctime = mcfs_get_time (mc);
return 1;
}
static int mcfs_stat_cmd (int cmd, char *path, struct stat *buf)
{
char *remote_file;
mcfs_connection *mc;
int status, error;
if ((remote_file = mcfs_get_path (&mc, path)) == 0)
return -1;
rpc_send (mc->sock, RPC_INT, cmd, RPC_STRING, remote_file, RPC_END);
free (remote_file);
if (!rpc_get (mc->sock, RPC_INT, &status, RPC_INT, &error, RPC_END))
return the_error (-1, errno);
if (is_error (status, error))
return -1;
if (get_stat_info (mc, buf))
return 0;
else
return the_error (-1, EIO);
}
static int mcfs_stat (char *path, struct stat *buf)
{
return mcfs_stat_cmd (MC_STAT, path, buf);
}
static int mcfs_lstat (char *path, struct stat *buf)
{
int path_len = strlen (path);
int entry_len = strlen (mcfs_readdir_data.dent.d_name);
/* Hack ... */
if (strcmp (path + path_len - entry_len,
mcfs_readdir_data.dent.d_name) == 0 &&
cached_lstat_info){
*buf = *cached_lstat_info;
return 0;
}
return mcfs_stat_cmd (MC_LSTAT, path, buf);
}
int mcfs_fstat (void *data, struct stat *buf)
{
mcfs_handle *info = (mcfs_handle *) data;
int result, error;
int handle, sock;
sock = info->conn->sock;
handle = info->handle;
rpc_send (sock, RPC_INT, MC_FSTAT, RPC_INT, handle, RPC_END);
if (!rpc_get (sock, RPC_INT, &result, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
if (is_error (result, error))
return -1;
if (get_stat_info (info->conn, buf))
return 0;
else
return the_error (-1, EIO);
}
int mcfs_chmod (char *path, int mode)
{
return mcfs_rpc_path_int (MC_CHMOD, path, mode);
}
int mcfs_chown (char *path, int owner, int group)
{
return mcfs_rpc_path_int_int (MC_CHOWN, path, owner, group);
}
int mcfs_utime (char *path, struct utimbuf *times)
{
mcfs_connection *mc;
int status;
char *file;
if (!(file = mcfs_get_path (&mc, path)))
return -1;
status = 0;
if (mc->version >= 2) {
char abuf[2*sizeof(long) + 1];
char mbuf[2*sizeof(long) + 1];
long atime, mtime;
atime = (long) times->actime;
mtime = (long) times->modtime;
sprintf (abuf, "%lx", atime);
sprintf (mbuf, "%lx", mtime);
rpc_send (mc->sock, RPC_INT, MC_UTIME,
RPC_STRING, file,
RPC_STRING, abuf,
RPC_STRING, mbuf,
RPC_END);
status = mcfs_handle_simple_error (mc->sock, 0);
}
free (file);
return (status);
}
static int mcfs_readlink (char *path, char *buf, int size)
{
char *remote_file, *stat_str;
int status, error;
mcfs_connection *mc;
if (!(remote_file = mcfs_get_path (&mc, path)))
return -1;
rpc_send (mc->sock, RPC_INT, MC_READLINK, RPC_STRING, remote_file, RPC_END);
free (remote_file);
if (!rpc_get (mc->sock, RPC_INT, &status, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
if (is_error (status, errno))
return -1;
if (!rpc_get (mc->sock, RPC_STRING, &stat_str, RPC_END))
return the_error (-1, EIO);
strncpy (buf, stat_str, size);
free (stat_str);
return strlen (buf);
}
int mcfs_unlink (char *path)
{
return mcfs_rpc_path (MC_UNLINK, path);
}
int mcfs_symlink (char *n1, char *n2)
{
return mcfs_rpc_two_paths (MC_SYMLINK, n1, n2);
}
int mcfs_rename (char *a, char *b)
{
return mcfs_rpc_two_paths (MC_RENAME, a, b);
}
static int mcfs_chdir (char *path)
{
char *remote_dir;
mcfs_connection *mc;
int status, error;
if (!(remote_dir = mcfs_get_path (&mc, path)))
return -1;
if (mcfs_current_dir)
free (mcfs_current_dir);
mcfs_current_dir = strdup (path);
current_dir_connection = mc;
rpc_send (mc->sock, RPC_INT, MC_CHDIR, RPC_STRING, remote_dir, RPC_END);
free (remote_dir);
if (!rpc_get (mc->sock, RPC_INT, &status, RPC_INT, &error, RPC_END))
return the_error (-1, EIO);
if (is_error (status, error))
return -1;
return 0;
}
int mcfs_lseek (void *data, off_t offset, int whence)
{
mcfs_handle *info = (mcfs_handle *) data;
int handle, sock;
sock = info->conn->sock;
handle = info->handle;
rpc_send (sock,
RPC_INT, MC_LSEEK,
RPC_INT, handle,
RPC_INT, offset,
RPC_INT, whence,
RPC_END);
return mcfs_handle_simple_error (sock, 1);
}
int mcfs_mknod (char *path, int mode, int dev)
{
return mcfs_rpc_path_int_int (MC_MKNOD, path, mode, dev);
}
int mcfs_mkdir (char *path, mode_t mode)
{
return mcfs_rpc_path_int (MC_MKDIR, path, mode);
}
int mcfs_rmdir (char *path)
{
return mcfs_rpc_path (MC_RMDIR, path);
}
int mcfs_link (char *p1, char *p2)
{
return mcfs_rpc_two_paths (MC_LINK, p1, p2);
}
/* We do not free anything right now: we free resources when we run
* out of them
*/
static vfsid mcfs_getid (char *p, struct vfs_stamping **parent)
{
*parent = NULL;
return (vfsid) -1;
}
static int mcfs_nothingisopen (vfsid id)
{
return 0;
}
static void mcfs_free (vfsid id)
{
/* FIXME: Should not be empty */
}
static char *mcfs_getlocalcopy (char *path)
{
return mc_def_getlocalcopy (path);
}
static void mcfs_ungetlocalcopy (char *path, char *local, int has_changed)
{
mc_def_ungetlocalcopy (path, local, has_changed);
}
/* Gives up on a socket and reopnes the connection, the child own the socket
* now
*/
void
mcfs_forget (char *path)
{
char *host, *user, *pass, *p;
int port, i, vers;
if (strncmp (path, "mc:", 3) != 0)
return;
path += 3;
if (path[0] == '/' && path[1] == '/')
path += 2;
if ((p = mcfs_get_host_and_username (path, &host, &user, &port, &pass)) == 0) {
free (host);
free (user);
if (pass)
wipe_password (pass);
return;
}
for (i = 0; i < MCFS_MAX_CONNECTIONS; i++){
if ((strcmp (host, mcfs_connections [i].host) == 0) &&
(strcmp (user, mcfs_connections [i].user) == 0) &&
(port == mcfs_connections [i].port)){
/* close socket: the child owns it now */
close (mcfs_connections [i].sock);
/* reopen the connection */
mcfs_connections [i].sock = mcfs_open_tcp_link (host, user, &port, pass, &vers);
}
}
free (p);
free (host);
free (user);
if (pass)
wipe_password (pass);
}
#ifdef HAVE_MMAP
caddr_t mcfs_mmap (caddr_t addr, size_t len, int prot, int flags, void *data, off_t offset)
{
return (caddr_t)-1; /* We do not mmap to far away */
}
int mcfs_munmap (caddr_t addr, size_t len, void *data)
{
return -1;
}
#endif
vfs mcfs_vfs_ops = {
mcfs_open,
mcfs_close,
mcfs_read,
mcfs_write,
mcfs_opendir,
mcfs_readdir,
mcfs_closedir,
mcfs_stat,
mcfs_lstat,
mcfs_fstat,
mcfs_chmod,
mcfs_chown,
mcfs_utime,
mcfs_readlink,
mcfs_symlink,
mcfs_link,
mcfs_unlink,
mcfs_rename,
mcfs_chdir,
mcfs_errno,
mcfs_lseek,
mcfs_mknod,
mcfs_getid,
mcfs_nothingisopen,
mcfs_free,
mcfs_getlocalcopy,
mcfs_ungetlocalcopy,
mcfs_mkdir,
mcfs_rmdir,
NULL,
NULL,
mcfs_forget
#ifdef HAVE_MMAP
, mcfs_mmap,
mcfs_munmap
#endif
};