#!/usr/bin/env python # Copyright (C) 2001 Jeff Epler # Copyright (C) 2006 Csaba Henk # # This program can be distributed under the terms of the GNU LGPL. # See the file COPYING. # import os, sys from errno import * from stat import * import fcntl import time # pull in some spaghetti to make this stuff work without fuse-py being installed try: import _find_fuse_parts except ImportError: pass import fuse from fuse import Fuse if not hasattr(fuse, '__version__'): raise RuntimeError, \ "your fuse-py doesn't know of fuse.__version__, probably it's too old." fuse.fuse_python_api = (0, 2) fuse.feature_assert('stateful_files', 'has_init') def flag2mode(flags): md = {os.O_RDONLY: 'r', os.O_WRONLY: 'w', os.O_RDWR: 'w+'} m = md[flags & (os.O_RDONLY | os.O_WRONLY | os.O_RDWR)] if flags | os.O_APPEND: m = m.replace('w', 'a', 1) return m class Xmp(Fuse): def __init__(self, *args, **kw): Fuse.__init__(self, *args, **kw) # do stuff to set up your filesystem here, if you want import thread print "starting thread" thread.start_new_thread(self.mythread, ()) self.root = '/' def mythread(self): """ The beauty of the FUSE python implementation is that with the python interp running in foreground, you can have threads """ print "mythread: started" sys.stdout.flush() t = open('testfile', 'w') t.write('ticking\n') t.flush() for i in range(10): t.write('tick %d\n' % i) t.flush() time.sleep(1) print "mythread: ticking" sys.stdout.flush() raise NotImplementedError def getattr(self, path): return os.lstat("." + path) def readlink(self, path): return os.readlink("." + path) def readdir(self, path, offset): for e in os.listdir("." + path): yield fuse.Direntry(e) def unlink(self, path): os.unlink("." + path) def rmdir(self, path): os.rmdir("." + path) def symlink(self, path, path1): os.symlink(path, "." + path1) def rename(self, path, path1): os.rename("." + path, "." + path1) def link(self, path, path1): os.link("." + path, "." + path1) def chmod(self, path, mode): os.chmod("." + path, mode) def chown(self, path, user, group): os.chown("." + path, user, group) def truncate(self, path, len): f = open("." + path, "a") f.truncate(len) f.close() def mknod(self, path, mode, dev): os.mknod("." + path, mode, dev) def mkdir(self, path, mode): os.mkdir("." + path, mode) def utime(self, path, times): os.utime("." + path, times) # The following utimens method would do the same as the above utime method. # We can't make it better though as the Python stdlib doesn't know of # subsecond preciseness in acces/modify times. # # def utimens(self, path, ts_acc, ts_mod): # os.utime("." + path, (ts_acc.tv_sec, ts_mod.tv_sec)) def access(self, path, mode): if not os.access("." + path, mode): return -EACCES # This is how we could add stub extended attribute handlers... # (We can't have ones which aptly delegate requests to the underlying fs # because Python lacks a standard xattr interface.) # # def getxattr(self, path, name, size): # val = name.swapcase() + '@' + path # if size == 0: # # We are asked for size of the value. # return len(val) # return val # # def listxattr(self, path, size): # # We use the "user" namespace to please XFS utils # aa = ["user." + a for a in ("foo", "bar")] # if size == 0: # # We are asked for size of the attr list, ie. joint size of attrs # # plus null separators. # return len("".join(aa)) + len(aa) # return aa def statfs(self): """ Should return an object with statvfs attributes (f_bsize, f_frsize...). Eg., the return value of os.statvfs() is such a thing (since py 2.2). If you are not reusing an existing statvfs object, start with fuse.StatVFS(), and define the attributes. To provide usable information (ie., you want sensible df(1) output, you are suggested to specify the following attributes: - f_bsize - preferred size of file blocks, in bytes - f_frsize - fundamental size of file blcoks, in bytes [if you have no idea, use the same as blocksize] - f_blocks - total number of blocks in the filesystem - f_bfree - number of free blocks - f_files - total number of file inodes - f_ffree - nunber of free file inodes """ return os.statvfs(".") def fsinit(self): os.chdir(self.root) class XmpFile(object): def __init__(self, path, flags, *mode): self.file = os.fdopen(os.open("." + path, flags, *mode), flag2mode(flags)) self.fd = self.file.fileno() def read(self, length, offset): self.file.seek(offset) return self.file.read(length) def write(self, buf, offset): self.file.seek(offset) self.file.write(buf) return len(buf) def release(self, flags): self.file.close() def _fflush(self): if 'w' in self.file.mode or 'a' in self.file.mode: self.file.flush() def fsync(self, isfsyncfile): self._fflush() if isfsyncfile and hasattr(os, 'fdatasync'): os.fdatasync(self.fd) else: os.fsync(self.fd) def flush(self): self._fflush() # cf. xmp_flush() in fusexmp_fh.c os.close(os.dup(self.fd)) def fgetattr(self): return os.fstat(self.fd) def ftruncate(self, len): self.file.truncate(len) def lock(self, cmd, owner, **kw): # The code here is much rather just a demonstration of the locking # API than something which actually was seen to be useful. # Advisory file locking is pretty messy in Unix, and the Python # interface to this doesn't make it better. # We can't do fcntl(2)/F_GETLK from Python in a platfrom independent # way. The following implementation *might* work under Linux. # # if cmd == fcntl.F_GETLK: # import struct # # lockdata = struct.pack('hhQQi', kw['l_type'], os.SEEK_SET, # kw['l_start'], kw['l_len'], kw['l_pid']) # ld2 = fcntl.fcntl(self.fd, fcntl.F_GETLK, lockdata) # flockfields = ('l_type', 'l_whence', 'l_start', 'l_len', 'l_pid') # uld2 = struct.unpack('hhQQi', ld2) # res = {} # for i in xrange(len(uld2)): # res[flockfields[i]] = uld2[i] # # return fuse.Flock(**res) # Convert fcntl-ish lock parameters to Python's weird # lockf(3)/flock(2) medley locking API... op = { fcntl.F_UNLCK : fcntl.LOCK_UN, fcntl.F_RDLCK : fcntl.LOCK_SH, fcntl.F_WRLCK : fcntl.LOCK_EX }[kw['l_type']] if cmd == fcntl.F_GETLK: return -EOPNOTSUPP elif cmd == fcntl.F_SETLK: if op != fcntl.LOCK_UN: op |= fcntl.LOCK_NB elif cmd == fcntl.F_SETLKW: pass else: return -EINVAL fcntl.lockf(self.fd, op, kw['l_start'], kw['l_len']) def main(self, *a, **kw): self.file_class = self.XmpFile return Fuse.main(self, *a, **kw) def main(): usage = """ Userspace nullfs-alike: mirror the filesystem tree from some point on. """ + Fuse.fusage server = Xmp(version="%prog " + fuse.__version__, usage=usage, dash_s_do='setsingle') server.parser.add_option(mountopt="root", metavar="PATH", default='/', help="mirror filesystem from under PATH [default: %default]") server.parse(values=server, errex=1) try: if server.fuse_args.mount_expected(): os.chdir(server.root) except OSError: print >> sys.stderr, "can't enter root of underlying filesystem" sys.exit(1) time.sleep(5) server.main() if __name__ == '__main__': main()