/* Unix SMB/Netbios implementation. Version 1.9. VFS initialisation and support functions Copyright (C) Tim Potter 1999 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 "includes.h" #ifdef HAVE_LIBDL #include #endif extern int DEBUGLEVEL; /* Some structures to help us initialise the vfs operations table */ struct vfs_syminfo { char *name; void *fptr; }; /* Default vfs hooks. WARNING: The order of these initialisers is very important. They must be in the same order as defined in vfs.h. Change at your own peril. */ struct vfs_ops default_vfs_ops = { /* Disk operations */ vfswrap_dummy_connect, vfswrap_dummy_disconnect, vfswrap_disk_free, /* Directory operations */ vfswrap_opendir, vfswrap_readdir, vfswrap_mkdir, vfswrap_rmdir, vfswrap_closedir, /* File operations */ vfswrap_open, vfswrap_close, vfswrap_read, vfswrap_write, vfswrap_lseek, vfswrap_rename, vfswrap_sync_file, vfswrap_stat, vfswrap_fstat, vfswrap_lstat, vfswrap_fcntl_lock, vfswrap_unlink, vfswrap_chmod, vfswrap_utime }; /**************************************************************************** initialise default vfs hooks ****************************************************************************/ int vfs_init_default(connection_struct *conn) { DEBUG(3, ("Initialising default vfs hooks\n")); memcpy(&conn->vfs_ops, &default_vfs_ops, sizeof(conn->vfs_ops)); return True; } /**************************************************************************** initialise custom vfs hooks ****************************************************************************/ #ifdef HAVE_LIBDL BOOL vfs_init_custom(connection_struct *conn) { void *handle; struct vfs_ops *ops, *(*fptr)(struct vfs_options *options); DEBUG(3, ("Initialising custom vfs hooks from %s\n", lp_vfsobj(SNUM(conn)))); /* Open object file */ handle = dlopen(lp_vfsobj(SNUM(conn)), RTLD_NOW); if (!handle) { DEBUG(0, ("Error opening %s: %s\n", lp_vfsobj(SNUM(conn)), dlerror())); return False; } /* Get handle on vfs_init() symbol */ fptr = dlsym(handle, "vfs_init"); if (fptr == NULL) { DEBUG(0, ("No vfs_init() symbol found in %s\n", lp_vfsobj(SNUM(conn)))); return False; } dlclose(handle); /* Initialise vfs_ops structure */ if ((ops = fptr(lp_vfsoptions(SNUM(conn)))) == NULL) { return False; } /* Fill in unused operations with default (disk based) ones. There's probably a neater way to do this then a whole bunch of if statements. */ memcpy(&conn->vfs_ops, ops, sizeof(conn->vfs_ops)); if (conn->vfs_ops.connect == NULL) { conn->vfs_ops.connect = default_vfs_ops.connect; } if (conn->vfs_ops.disconnect == NULL) { conn->vfs_ops.disconnect = default_vfs_ops.disconnect; } if (conn->vfs_ops.disk_free == NULL) { conn->vfs_ops.disk_free = default_vfs_ops.disk_free; } if (conn->vfs_ops.opendir == NULL) { conn->vfs_ops.opendir = default_vfs_ops.opendir; } if (conn->vfs_ops.readdir == NULL) { conn->vfs_ops.readdir = default_vfs_ops.readdir; } if (conn->vfs_ops.mkdir == NULL) { conn->vfs_ops.mkdir = default_vfs_ops.mkdir; } if (conn->vfs_ops.rmdir == NULL) { conn->vfs_ops.rmdir = default_vfs_ops.rmdir; } if (conn->vfs_ops.closedir == NULL) { conn->vfs_ops.closedir = default_vfs_ops.closedir; } if (conn->vfs_ops.open == NULL) { conn->vfs_ops.open = default_vfs_ops.open; } if (conn->vfs_ops.close == NULL) { conn->vfs_ops.close = default_vfs_ops.close; } if (conn->vfs_ops.read == NULL) { conn->vfs_ops.read = default_vfs_ops.read; } if (conn->vfs_ops.write == NULL) { conn->vfs_ops.write = default_vfs_ops.write; } if (conn->vfs_ops.lseek == NULL) { conn->vfs_ops.lseek = default_vfs_ops.lseek; } if (conn->vfs_ops.rename == NULL) { conn->vfs_ops.rename = default_vfs_ops.rename; } if (conn->vfs_ops.sync == NULL) { conn->vfs_ops.sync = default_vfs_ops.sync; } if (conn->vfs_ops.stat == NULL) { conn->vfs_ops.stat = default_vfs_ops.stat; } if (conn->vfs_ops.fstat == NULL) { conn->vfs_ops.fstat = default_vfs_ops.fstat; } if (conn->vfs_ops.lstat == NULL) { conn->vfs_ops.lstat = default_vfs_ops.lstat; } if (conn->vfs_ops.lock == NULL) { conn->vfs_ops.lock = default_vfs_ops.lock; } if (conn->vfs_ops.unlink == NULL) { conn->vfs_ops.unlink = default_vfs_ops.unlink; } if (conn->vfs_ops.chmod == NULL) { conn->vfs_ops.chmod = default_vfs_ops.chmod; } if (conn->vfs_ops.utime == NULL) { conn->vfs_ops.utime = default_vfs_ops.utime; } return True; } #endif /******************************************************************* check if a vfs file exists ********************************************************************/ BOOL vfs_file_exist(connection_struct *conn,char *fname,SMB_STRUCT_STAT *sbuf) { SMB_STRUCT_STAT st; if (!sbuf) sbuf = &st; if (conn->vfs_ops.stat(fname,sbuf) != 0) return(False); return(S_ISREG(sbuf->st_mode)); } /**************************************************************************** write data to a fd on the vfs ****************************************************************************/ ssize_t vfs_write_data(files_struct *fsp,char *buffer,size_t N) { size_t total=0; ssize_t ret; int fd = fsp->fd_ptr->fd; while (total < N) { ret = fsp->conn->vfs_ops.write(fd,buffer + total,N - total); if (ret == -1) return -1; if (ret == 0) return total; total += ret; } return (ssize_t)total; } /**************************************************************************** transfer some data between two file_struct's ****************************************************************************/ SMB_OFF_T vfs_transfer_file(int in_fd, files_struct *in_fsp, int out_fd, files_struct *out_fsp, SMB_OFF_T n, char *header, int headlen, int align) { static char *buf=NULL; static int size=0; char *buf1,*abuf; SMB_OFF_T total = 0; DEBUG(4,("vfs_transfer_file n=%.0f (head=%d) called\n",(double)n,headlen)); /* Check we have at least somewhere to read from */ SMB_ASSERT((in_fd != -1) || (in_fsp != NULL)); if (size == 0) { size = lp_readsize(); size = MAX(size,1024); } while (!buf && size>0) { buf = (char *)Realloc(buf,size+8); if (!buf) size /= 2; } if (!buf) { DEBUG(0,("Can't allocate transfer buffer!\n")); exit(1); } abuf = buf + (align%8); if (header) n += headlen; while (n > 0) { int s = (int)MIN(n,(SMB_OFF_T)size); int ret,ret2=0; ret = 0; if (header && (headlen >= MIN(s,1024))) { buf1 = header; s = headlen; ret = headlen; headlen = 0; header = NULL; } else { buf1 = abuf; } if (header && headlen > 0) { ret = MIN(headlen,size); memcpy(buf1,header,ret); headlen -= ret; header += ret; if (headlen <= 0) header = NULL; } if (s > ret) { ret += in_fsp ? in_fsp->conn->vfs_ops.read(in_fsp->fd_ptr->fd,buf1+ret,s-ret) : read(in_fd,buf1+ret,s-ret); } if (ret > 0) { if (out_fsp) { ret2 = out_fsp->conn->vfs_ops.write(out_fsp->fd_ptr->fd,buf1,ret); } else { ret2= (out_fd != -1) ? write_data(out_fd,buf1,ret) : ret; } } if (ret2 > 0) total += ret2; /* if we can't write then dump excess data */ if (ret2 != ret) vfs_transfer_file(in_fd, in_fsp, -1,NULL,n-(ret+headlen),NULL,0,0); if (ret <= 0 || ret2 != ret) return(total); n -= ret; } return(total); } /******************************************************************* a vfs_readdir wrapper which just returns the file name ********************************************************************/ char *vfs_readdirname(connection_struct *conn, void *p) { struct dirent *ptr; char *dname; if (!p) return(NULL); ptr = (struct dirent *)conn->vfs_ops.readdir(p); if (!ptr) return(NULL); dname = ptr->d_name; #ifdef NEXT2 if (telldir(p) < 0) return(NULL); #endif #ifdef HAVE_BROKEN_READDIR /* using /usr/ucb/cc is BAD */ dname = dname - 2; #endif { static pstring buf; memcpy(buf, dname, NAMLEN(ptr)+1); unix_to_dos(buf, True); dname = buf; } unix_to_dos(dname, True); return(dname); }