def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
# get fs flags
dos_type = self.boot.dos_type
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = FSString(self.root.name)
# build meta info
self.meta_info = RootMetaInfo(self.root.create_ts,
self.root.disk_ts,
self.root.mod_ts)
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self,
name,
meta_info=None,
dos_type=None,
boot_code=None,
is_ffs=False,
is_intl=False,
is_dircache=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
if is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
# update flags
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# convert and check volume name
if not isinstance(name, FSString):
raise ValueError("create's name must be a FSString")
fn = FileName(name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name.get_ami_str(), create_ts, disk_ts, mod_ts)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
# get fs flags
dos_type = self.boot.dos_type
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# build meta info
self.meta_info = RootMetaInfo( self.root.create_ts, self.root.disk_ts, self.root.mod_ts )
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self,
name,
create_time=None,
dos_type=BootBlock.DOS0,
boot_code=None):
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create()
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.create(name, create_time)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
self.is_ffs = self.boot.dos_type > BootBlock.DOS0
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self, name, meta_info=None, dos_type=None, boot_code=None, is_ffs=False, is_intl=False, is_dircache=False, is_longname=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_longname:
dos_type = DosType.DOS6
elif is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
# update flags
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
self.is_longname = DosType.is_longname(dos_type)
# convert and check volume name
if not isinstance(name, FSString):
raise ValueError("create's name must be a FSString")
fn = FileName(name, is_intl=self.is_intl, is_longname=False) # Volumes don't support long names
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name.get_ami_str(), create_ts, disk_ts, mod_ts, fstype=dos_type)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def create(self, name, create_time=None, dos_type=BootBlock.DOS0, boot_code=None): # create a boot block self.boot = BootBlock(self.blkdev) self.boot.create() self.boot.write() # create a root block self.root = RootBlock(self.blkdev, self.boot.calc_root_blk) self.root.create(name, create_time) self.name = name # create bitmap self.bitmap = ADFSBitmap(self.root) self.bitmap.create() self.bitmap.write() # writes root block, too # create empty root dir self.root_dir = ADFSVolDir(self, self.root) self.root_dir.read() # all ok self.valid = True
def create(self, name, meta_info=None, dos_type=None, boot_code=None, is_ffs=False, is_intl=False, is_dircache=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
if is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
# create a boot block
self.boot = BootBlock(self.blkdev, )
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name, create_ts, disk_ts, mod_ts)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
self.is_ffs = self.boot.dos_type > BootBlock.DOS0
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
class ADFSVolume:
root_path_aliases = ("", "/", ":")
def __init__(self, blkdev):
self.blkdev = blkdev
self.boot = None
self.root = None
self.root_dir = None
self.bitmap = None
self.valid = False
self.is_ffs = None
self.is_intl = None
self.is_dircache = None
self.name = None
self.meta_info = None
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
# get fs flags
dos_type = self.boot.dos_type
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# build meta info
self.meta_info = RootMetaInfo( self.root.create_ts, self.root.disk_ts, self.root.mod_ts )
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self, name, meta_info=None, dos_type=None, boot_code=None, is_ffs=False, is_intl=False, is_dircache=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
if is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
# create a boot block
self.boot = BootBlock(self.blkdev, )
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name, create_ts, disk_ts, mod_ts)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def close(self):
pass
def get_info(self):
"""return an array of strings with information on the volume"""
res = []
total = self.get_total_blocks()
free = self.get_free_blocks()
used = total - free
bb = self.blkdev.block_bytes
btotal = total * bb
bfree = free * bb
bused = used * bb
prc_free = 10000 * free / total
prc_used = 10000 - prc_free
res.append("total: %10d %s %12d" % (total, ByteSize.to_byte_size_str(btotal), btotal))
res.append("used: %10d %s %12d %5.2f%%" % (used, ByteSize.to_byte_size_str(bused), bused, prc_used / 100.0))
res.append("free: %10d %s %12d %5.2f%%" % (free, ByteSize.to_byte_size_str(bfree), bfree, prc_free / 100.0))
return res
def get_path_name(self, path_name, allow_file=True, allow_dir=True):
if path_name in self.root_path_aliases:
return self.root_dir
pc = path_name.split("/")
fn = []
for path in pc:
fn.append(FileName(path))
return self.root_dir.get_path(fn, allow_file, allow_dir)
def get_dir_path_name(self, path_name):
return self.get_path_name(path_name, allow_file=False)
def get_file_path_name(self, path_name):
return self.get_path_name(path_name, allow_dir=False)
def get_create_path_name(self, path_name, suggest_name=None):
"""get a parent node and path name for creation
return: parent_node_or_none, file_name_or_none
"""
if path_name in self.root_path_aliases:
return self.root_dir, suggest_name
else:
# try to get path_name as a directory
node = self.get_dir_path_name(path_name)
if node != None:
return node, suggest_name
# is a file name appended?
pos = path_name.rfind('/')
if pos != -1:
dir_name = path_name[0:pos]
file_name = path_name[pos+1:]
if len(file_name) == 0:
file_name = suggest_name
node = self.get_dir_path_name(dir_name)
return node, file_name
else:
# its a file name
return self.root_dir, path_name
# ----- convenience API -----
def get_volume_name(self):
return self.name
def get_root_dir(self):
return self.root_dir
def get_dos_type(self):
return self.boot.dos_type
def get_boot_code(self):
return self.boot.boot_code
def get_free_blocks(self):
return self.bitmap.get_num_free()
def get_used_blocks(self):
free = self.bitmap.get_num_free()
total = self.blkdev.num_blocks
return total - free
def get_total_blocks(self):
return self.blkdev.num_blocks
def get_meta_info(self):
return self.meta_info
def update_disk_time(self):
mi = RootMetaInfo()
mi.set_current_as_disk_time()
self.change_meta_info(mi)
def change_meta_info(self, meta_info):
if self.root != None and self.root.valid:
dirty = False
# update create_ts
create_ts = meta_info.get_create_ts()
if create_ts != None:
self.root.create_ts = meta_info.get_create_ts()
dirty = True
# update disk_ts
disk_ts = meta_info.get_disk_ts()
if disk_ts != None:
self.root.disk_ts = disk_ts
dirty = True
# update mod_ts
mod_ts = meta_info.get_mod_ts()
if mod_ts != None:
self.root.mod_ts = mod_ts
dirty = True
# update if something changed
if dirty:
self.root.write()
self.meta_info = RootMetaInfo( self.root.create_ts, self.root.disk_ts, self.root.mod_ts )
return True
else:
return False
def change_create_ts(self, create_ts):
return self.change_meta_info(RootMetaInfo(create_ts=create_ts))
def change_disk_ts(self, disk_ts):
return self.change_meta_info(RootMetaInfo(disk_ts=disk_ts))
def change_mod_ts(self, mod_ts):
return self.change_meta_info(RootMetaInfo(mod_ts=mod_ts))
def change_create_ts_by_string(self, create_ts_str):
t = TimeStamp()
t.parse(create_ts_str)
return self.change_meta_info(RootMetaInfo(create_ts=t))
def change_disk_ts_by_string(self, disk_ts_str):
t = TimeStamp()
t.parse(disk_ts_str)
return self.change_meta_info(RootMetaInfo(disk_ts=t))
def change_mod_ts_by_string(self, mod_ts_str):
t = TimeStamp()
t.parse(mod_ts_str)
return self.change_meta_info(RootMetaInfo(mod_ts=t))
def relabel(self, new_name):
fn = FileName(new_name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
self.root.name = new_name
self.root.write()
self.name = new_name
self.root_dir.name = new_name
def create_dir(self, ami_path):
pc = ami_path.split("/")
# no directory given
if len(pc) == 0:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
# no parent dir found
node = self.get_dir_path_name("/".join(pc[:-1]))
if node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
node.create_dir(pc[-1])
def write_file(self, data, ami_path=None, file_name=None, cache=False):
parent_node, file_name = self.get_create_path_name(ami_path, file_name)
if parent_node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
if file_name == None:
raise FSError(INVALID_FILE_NAME, file_name=file_name)
# create file
node = parent_node.create_file(file_name, data)
if not cache:
node.flush()
def read_file(self, ami_path, cache=False):
node = self.get_file_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
data = node.get_file_data()
if not cache:
node.flush()
return data
def delete(self, ami_path, wipe=False, all=False):
node = self.get_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
node.delete(wipe=wipe, all=all)
class ADFSVolume:
def __init__(self, blkdev):
self.blkdev = blkdev
self.boot = None
self.root = None
self.root_dir = None
self.bitmap = None
self.valid = False
self.is_ffs = None
self.is_intl = None
self.is_dircache = None
self.name = None
self.meta_info = None
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
# get fs flags
dos_type = self.boot.dos_type
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = FSString(self.root.name)
# build meta info
self.meta_info = RootMetaInfo( self.root.create_ts, self.root.disk_ts, self.root.mod_ts )
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self, name, meta_info=None, dos_type=None, boot_code=None, is_ffs=False, is_intl=False, is_dircache=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
if is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
# update flags
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# convert and check volume name
if not isinstance(name, FSString):
raise ValueError("create's name must be a FSString")
fn = FileName(name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name.get_ami_str(), create_ts, disk_ts, mod_ts)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def close(self):
pass
def get_info(self):
"""return an array of strings with information on the volume"""
res = []
total = self.get_total_blocks()
free = self.get_free_blocks()
used = total - free
bb = self.blkdev.block_bytes
btotal = total * bb
bfree = free * bb
bused = used * bb
prc_free = 10000 * free / total
prc_used = 10000 - prc_free
res.append("total: %10d %s %12d" % (total, ByteSize.to_byte_size_str(btotal), btotal))
res.append("used: %10d %s %12d %5.2f%%" % (used, ByteSize.to_byte_size_str(bused), bused, prc_used / 100.0))
res.append("free: %10d %s %12d %5.2f%%" % (free, ByteSize.to_byte_size_str(bfree), bfree, prc_free / 100.0))
return res
# ----- Path Queries -----
def get_path_name(self, path_name, allow_file=True, allow_dir=True):
"""get node for given path"""
# make sure path name is a FSString
if not isinstance(path_name, FSString):
raise ValueError("get_path_name's path must be a FSString")
# create and check file name
fn = FileName(path_name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=path_name, node=self)
# find node
if fn.is_root_path_alias():
# its the root node
return self.root_dir
else:
# find a sub node
path = fn.split_path()
return self.root_dir.get_path(path, allow_file, allow_dir)
def get_dir_path_name(self, path_name):
"""get node for given path and ensure its a directory"""
return self.get_path_name(path_name, allow_file=False)
def get_file_path_name(self, path_name):
"""get node for given path and ensure its a file"""
return self.get_path_name(path_name, allow_dir=False)
def get_create_path_name(self, path_name, suggest_name=None):
"""get a parent node and path name for creation
return: parent_node_or_none, file_name_or_none
"""
# make sure input is correct
if not isinstance(path_name, FSString):
raise ValueError("get_create_path_name's path_name must be a FSString")
if suggest_name != None and not isinstance(suggest_name, FSString):
raise ValueError("get_create_path_name's suggest_name must be a FSString")
# is root path?
fn = FileName(path_name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=path_name, node=self)
# find node
if fn.is_root_path_alias():
return self.root_dir, suggest_name
else:
# try to get path_name as a directory
node = self.get_dir_path_name(path_name)
if node != None:
return node, suggest_name
else:
# split into dir and file name
dn, fn = fn.get_dir_and_base_name()
if dn != None:
# has a directory -> try to fetch it
node = self.get_dir_path_name(dn)
else:
# no dir -> assume root dir
node = self.root_dir
if fn != None:
# take given name
return node, fn
else:
# use suggested name
return node, suggest_name
# ----- convenience API -----
def get_volume_name(self):
return self.name
def get_root_dir(self):
return self.root_dir
def get_dos_type(self):
return self.boot.dos_type
def get_boot_code(self):
return self.boot.boot_code
def get_free_blocks(self):
return self.bitmap.get_num_free()
def get_used_blocks(self):
free = self.bitmap.get_num_free()
total = self.blkdev.num_blocks
return total - free
def get_total_blocks(self):
return self.blkdev.num_blocks
def get_meta_info(self):
return self.meta_info
def update_disk_time(self):
mi = RootMetaInfo()
mi.set_current_as_disk_time()
self.change_meta_info(mi)
def change_meta_info(self, meta_info):
if self.root != None and self.root.valid:
dirty = False
# update create_ts
create_ts = meta_info.get_create_ts()
if create_ts != None:
self.root.create_ts = meta_info.get_create_ts()
dirty = True
# update disk_ts
disk_ts = meta_info.get_disk_ts()
if disk_ts != None:
self.root.disk_ts = disk_ts
dirty = True
# update mod_ts
mod_ts = meta_info.get_mod_ts()
if mod_ts != None:
self.root.mod_ts = mod_ts
dirty = True
# update if something changed
if dirty:
self.root.write()
self.meta_info = RootMetaInfo( self.root.create_ts, self.root.disk_ts, self.root.mod_ts )
return True
else:
return False
def change_create_ts(self, create_ts):
return self.change_meta_info(RootMetaInfo(create_ts=create_ts))
def change_disk_ts(self, disk_ts):
return self.change_meta_info(RootMetaInfo(disk_ts=disk_ts))
def change_mod_ts(self, mod_ts):
return self.change_meta_info(RootMetaInfo(mod_ts=mod_ts))
def change_create_ts_by_string(self, create_ts_str):
t = TimeStamp()
t.parse(create_ts_str)
return self.change_meta_info(RootMetaInfo(create_ts=t))
def change_disk_ts_by_string(self, disk_ts_str):
t = TimeStamp()
t.parse(disk_ts_str)
return self.change_meta_info(RootMetaInfo(disk_ts=t))
def change_mod_ts_by_string(self, mod_ts_str):
t = TimeStamp()
t.parse(mod_ts_str)
return self.change_meta_info(RootMetaInfo(mod_ts=t))
def relabel(self, name):
"""Relabel the volume"""
# make sure its a FSString
if not isinstance(name, FSString):
raise ValueError("relabel's name must be a FSString")
# validate file name
fn = FileName(name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# update root block
ami_name = name.get_ami_str()
self.root.name = ami_name
self.root.write()
# store internally
self.name = name
self.root_dir.name = name
def create_dir(self, ami_path):
"""Create a new directory"""
# make sure its a FSString
if not isinstance(ami_path, FSString):
raise ValueError("create_dir's ami_path must be a FSString")
# check file path
fn = FileName(ami_path, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
# split into dir and base name
dir_name, base_name = fn.get_dir_and_base_name()
if base_name == None:
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
# find parent of dir
if dir_name == None:
node = self.root_dir
else:
# no parent dir found
node = self.get_dir_path_name(dir_name)
if node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path, extra="not found: "+dir_name)
node.create_dir(base_name)
def write_file(self, data, ami_path, suggest_name=None, cache=False):
"""Write given data as a file"""
# get parent node and file_name
parent_node, file_name = self.get_create_path_name(ami_path, suggest_name)
if parent_node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
if file_name == None:
raise FSError(INVALID_FILE_NAME, file_name=file_name)
# create file
node = parent_node.create_file(file_name, data)
if not cache:
node.flush()
def read_file(self, ami_path, cache=False):
"""Read a file and return data"""
# get node of file
node = self.get_file_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
data = node.get_file_data()
if not cache:
node.flush()
return data
def delete(self, ami_path, wipe=False, all=False):
"""Delete a file or directory at given path"""
node = self.get_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
node.delete(wipe=wipe, all=all)
class ADFSVolume:
def __init__(self, blkdev):
self.blkdev = blkdev
self.boot = None
self.root = None
self.root_dir = None
self.bitmap = None
self.valid = False
self.is_ffs = None
self.is_intl = None
self.is_dircache = None
self.name = None
self.meta_info = None
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
# get fs flags
dos_type = self.boot.dos_type
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = FSString(self.root.name)
# build meta info
self.meta_info = RootMetaInfo(self.root.create_ts,
self.root.disk_ts,
self.root.mod_ts)
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self,
name,
meta_info=None,
dos_type=None,
boot_code=None,
is_ffs=False,
is_intl=False,
is_dircache=False):
# determine dos_type
if dos_type == None:
dos_type = DosType.DOS0
if is_ffs:
dos_type |= DosType.DOS_MASK_FFS
if is_dircache:
dos_type |= DosType.DOS_MASK_DIRCACHE
elif is_intl:
dos_type |= DosType.DOS_MASK_INTL
# update flags
self.is_ffs = DosType.is_ffs(dos_type)
self.is_intl = DosType.is_intl(dos_type)
self.is_dircache = DosType.is_dircache(dos_type)
# convert and check volume name
if not isinstance(name, FSString):
raise ValueError("create's name must be a FSString")
fn = FileName(name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create(dos_type=dos_type, boot_code=boot_code)
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
if meta_info == None:
meta_info = RootMetaInfo()
meta_info.set_current_as_create_time()
meta_info.set_current_as_mod_time()
meta_info.set_current_as_disk_time()
create_ts = meta_info.get_create_ts()
disk_ts = meta_info.get_disk_ts()
mod_ts = meta_info.get_mod_ts()
self.meta_info = meta_info
self.root.create(name.get_ami_str(), create_ts, disk_ts, mod_ts)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def close(self):
pass
def get_info(self):
"""return an array of strings with information on the volume"""
res = []
total = self.get_total_blocks()
free = self.get_free_blocks()
used = total - free
bb = self.blkdev.block_bytes
btotal = total * bb
bfree = free * bb
bused = used * bb
prc_free = 10000 * free / total
prc_used = 10000 - prc_free
res.append("total: %10d %s %12d" %
(total, ByteSize.to_byte_size_str(btotal), btotal))
res.append(
"used: %10d %s %12d %5.2f%%" %
(used, ByteSize.to_byte_size_str(bused), bused, prc_used / 100.0))
res.append(
"free: %10d %s %12d %5.2f%%" %
(free, ByteSize.to_byte_size_str(bfree), bfree, prc_free / 100.0))
return res
# ----- Path Queries -----
def get_path_name(self, path_name, allow_file=True, allow_dir=True):
"""get node for given path"""
# make sure path name is a FSString
if not isinstance(path_name, FSString):
raise ValueError("get_path_name's path must be a FSString")
# create and check file name
fn = FileName(path_name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=path_name, node=self)
# find node
if fn.is_root_path_alias():
# its the root node
return self.root_dir
else:
# find a sub node
path = fn.split_path()
return self.root_dir.get_path(path, allow_file, allow_dir)
def get_dir_path_name(self, path_name):
"""get node for given path and ensure its a directory"""
return self.get_path_name(path_name, allow_file=False)
def get_file_path_name(self, path_name):
"""get node for given path and ensure its a file"""
return self.get_path_name(path_name, allow_dir=False)
def get_create_path_name(self, path_name, suggest_name=None):
"""get a parent node and path name for creation
return: parent_node_or_none, file_name_or_none
"""
# make sure input is correct
if not isinstance(path_name, FSString):
raise ValueError(
"get_create_path_name's path_name must be a FSString")
if suggest_name != None and not isinstance(suggest_name, FSString):
raise ValueError(
"get_create_path_name's suggest_name must be a FSString")
# is root path?
fn = FileName(path_name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=path_name, node=self)
# find node
if fn.is_root_path_alias():
return self.root_dir, suggest_name
else:
# try to get path_name as a directory
node = self.get_dir_path_name(path_name)
if node != None:
return node, suggest_name
else:
# split into dir and file name
dn, fn = fn.get_dir_and_base_name()
if dn != None:
# has a directory -> try to fetch it
node = self.get_dir_path_name(dn)
else:
# no dir -> assume root dir
node = self.root_dir
if fn != None:
# take given name
return node, fn
else:
# use suggested name
return node, suggest_name
# ----- convenience API -----
def get_volume_name(self):
return self.name
def get_root_dir(self):
return self.root_dir
def get_dos_type(self):
return self.boot.dos_type
def get_boot_code(self):
return self.boot.boot_code
def get_free_blocks(self):
return self.bitmap.get_num_free()
def get_used_blocks(self):
free = self.bitmap.get_num_free()
total = self.blkdev.num_blocks
return total - free
def get_total_blocks(self):
return self.blkdev.num_blocks
def get_meta_info(self):
return self.meta_info
def update_disk_time(self):
mi = RootMetaInfo()
mi.set_current_as_disk_time()
self.change_meta_info(mi)
def change_meta_info(self, meta_info):
if self.root != None and self.root.valid:
dirty = False
# update create_ts
create_ts = meta_info.get_create_ts()
if create_ts != None:
self.root.create_ts = meta_info.get_create_ts()
dirty = True
# update disk_ts
disk_ts = meta_info.get_disk_ts()
if disk_ts != None:
self.root.disk_ts = disk_ts
dirty = True
# update mod_ts
mod_ts = meta_info.get_mod_ts()
if mod_ts != None:
self.root.mod_ts = mod_ts
dirty = True
# update if something changed
if dirty:
self.root.write()
self.meta_info = RootMetaInfo(self.root.create_ts,
self.root.disk_ts,
self.root.mod_ts)
return True
else:
return False
def change_create_ts(self, create_ts):
return self.change_meta_info(RootMetaInfo(create_ts=create_ts))
def change_disk_ts(self, disk_ts):
return self.change_meta_info(RootMetaInfo(disk_ts=disk_ts))
def change_mod_ts(self, mod_ts):
return self.change_meta_info(RootMetaInfo(mod_ts=mod_ts))
def change_create_ts_by_string(self, create_ts_str):
t = TimeStamp()
t.parse(create_ts_str)
return self.change_meta_info(RootMetaInfo(create_ts=t))
def change_disk_ts_by_string(self, disk_ts_str):
t = TimeStamp()
t.parse(disk_ts_str)
return self.change_meta_info(RootMetaInfo(disk_ts=t))
def change_mod_ts_by_string(self, mod_ts_str):
t = TimeStamp()
t.parse(mod_ts_str)
return self.change_meta_info(RootMetaInfo(mod_ts=t))
def relabel(self, name):
"""Relabel the volume"""
# make sure its a FSString
if not isinstance(name, FSString):
raise ValueError("relabel's name must be a FSString")
# validate file name
fn = FileName(name, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_VOLUME_NAME, file_name=name, node=self)
# update root block
ami_name = name.get_ami_str()
self.root.name = ami_name
self.root.write()
# store internally
self.name = name
self.root_dir.name = name
def create_dir(self, ami_path):
"""Create a new directory"""
# make sure its a FSString
if not isinstance(ami_path, FSString):
raise ValueError("create_dir's ami_path must be a FSString")
# check file path
fn = FileName(ami_path, is_intl=self.is_intl)
if not fn.is_valid():
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
# split into dir and base name
dir_name, base_name = fn.get_dir_and_base_name()
if base_name == None:
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
# find parent of dir
if dir_name == None:
node = self.root_dir
else:
# no parent dir found
node = self.get_dir_path_name(dir_name)
if node == None:
raise FSError(INVALID_PARENT_DIRECTORY,
file_name=ami_path,
extra="not found: " + dir_name)
node.create_dir(base_name)
def write_file(self, data, ami_path, suggest_name=None, cache=False):
"""Write given data as a file"""
# get parent node and file_name
parent_node, file_name = self.get_create_path_name(
ami_path, suggest_name)
if parent_node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
if file_name == None:
raise FSError(INVALID_FILE_NAME, file_name=file_name)
# create file
node = parent_node.create_file(file_name, data)
if not cache:
node.flush()
def read_file(self, ami_path, cache=False):
"""Read a file and return data"""
# get node of file
node = self.get_file_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
data = node.get_file_data()
if not cache:
node.flush()
return data
def delete(self, ami_path, wipe=False, all=False):
"""Delete a file or directory at given path"""
node = self.get_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
node.delete(wipe=wipe, all=all)
class ADFSVolume:
def __init__(self, blkdev):
self.blkdev = blkdev
self.boot = None
self.root = None
self.root_dir = None
self.bitmap = None
self.valid = False
self.is_ffs = None
self.name = None
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
self.is_ffs = self.boot.dos_type > BootBlock.DOS0
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self, name, create_time=None, dos_type=BootBlock.DOS0, boot_code=None):
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create()
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.create(name, create_time)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def close(self):
pass
def get_path_name(self, path_name, allow_file=True, allow_dir=True):
if path_name == "" or path_name == "/":
return self.root_dir
pc = path_name.split("/")
fn = []
for path in pc:
fn.append(FileName(path))
return self.root_dir.get_path(fn, allow_file, allow_dir)
def get_dir_path_name(self, path_name):
return self.get_path_name(path_name, allow_file=False)
def get_file_path_name(self, path_name):
return self.get_path_name(path_name, allow_dir=False)
def get_create_path_name(self, path_name, suggest_name=None):
"""get a parent node and path name for creation
return: parent_node_or_none, file_name_or_none
"""
if path_name == None or path_name == "":
return self.root_dir, suggest_name
else:
# try to get path_name as a directory
node = self.get_dir_path_name(path_name)
if node != None:
return node, suggest_name
# is a file name appended?
pos = path_name.rfind('/')
if pos != -1:
dir_name = path_name[0:pos]
file_name = path_name[pos+1:]
if len(file_name) == 0:
file_name = suggest_name
node = self.get_dir_path_name(dir_name)
return node, file_name
else:
# its a file name
return self.root_dir, path_name
# ----- convenience API -----
def create_dir(self, ami_path):
pc = ami_path.split("/")
# no directory given
if len(pc) == 0:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
# no parent dir found
node = self.get_dir_path_name("/".join(pc[:-1]))
if node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
node.create_dir(pc[-1])
def write_file(self, data, ami_path=None, file_name=None, cache=False):
parent_node, file_name = self.get_create_path_name(ami_path, file_name)
if parent_node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
if file_name == None:
raise FSError(INVALID_FILE_NAME, file_name=file_name)
# create file
node = parent_node.create_file(file_name, data)
if not cache:
node.flush()
def read_file(self, ami_path, cache=False):
node = self.get_file_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
data = node.get_file_data()
if not cache:
node.flush()
return data
def delete(self, ami_path, wipe=False, all=False):
node = self.get_path_name(ami_path)
if node == None:
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
node.delete(wipe=wipe, all=all)
class ADFSVolume:
def __init__(self, blkdev):
self.blkdev = blkdev
self.boot = None
self.root = None
self.root_dir = None
self.bitmap = None
self.valid = False
self.is_ffs = None
self.name = None
def open(self):
# read boot block
self.boot = BootBlock(self.blkdev)
self.boot.read()
# valid root block?
if self.boot.valid:
self.is_ffs = self.boot.dos_type > BootBlock.DOS0
# read root
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.read()
if self.root.valid:
self.name = self.root.name
# create root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.read()
self.valid = True
else:
raise FSError(INVALID_ROOT_BLOCK, block=self.root)
else:
raise FSError(INVALID_BOOT_BLOCK, block=self.boot)
def create(self,
name,
create_time=None,
dos_type=BootBlock.DOS0,
boot_code=None):
# create a boot block
self.boot = BootBlock(self.blkdev)
self.boot.create()
self.boot.write()
# create a root block
self.root = RootBlock(self.blkdev, self.boot.calc_root_blk)
self.root.create(name, create_time)
self.name = name
# create bitmap
self.bitmap = ADFSBitmap(self.root)
self.bitmap.create()
self.bitmap.write() # writes root block, too
# create empty root dir
self.root_dir = ADFSVolDir(self, self.root)
self.root_dir.read()
# all ok
self.valid = True
def close(self):
pass
def get_path_name(self, path_name, allow_file=True, allow_dir=True):
if path_name == "" or path_name == "/":
return self.root_dir
pc = path_name.split("/")
fn = []
for path in pc:
fn.append(FileName(path))
return self.root_dir.get_path(fn, allow_file, allow_dir)
def get_dir_path_name(self, path_name):
return self.get_path_name(path_name, allow_file=False)
def get_file_path_name(self, path_name):
return self.get_path_name(path_name, allow_dir=False)
def get_create_path_name(self, path_name, suggest_name=None):
"""get a parent node and path name for creation
return: parent_node_or_none, file_name_or_none
"""
if path_name == None or path_name == "":
return self.root_dir, suggest_name
else:
# try to get path_name as a directory
node = self.get_dir_path_name(path_name)
if node != None:
return node, suggest_name
# is a file name appended?
pos = path_name.rfind('/')
if pos != -1:
dir_name = path_name[0:pos]
file_name = path_name[pos + 1:]
if len(file_name) == 0:
file_name = suggest_name
node = self.get_dir_path_name(dir_name)
return node, file_name
else:
# its a file name
return self.root_dir, path_name
# ----- convenience API -----
def create_dir(self, ami_path):
pc = ami_path.split("/")
# no directory given
if len(pc) == 0:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
# no parent dir found
node = self.get_dir_path_name("/".join(pc[:-1]))
if node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
node.create_dir(pc[-1])
def write_file(self, data, ami_path=None, file_name=None, cache=False):
parent_node, file_name = self.get_create_path_name(ami_path, file_name)
if parent_node == None:
raise FSError(INVALID_PARENT_DIRECTORY, file_name=ami_path)
if file_name == None:
raise FSError(INVALID_FILE_NAME, file_name=file_name)
# create file
node = parent_node.create_file(file_name, data)
if not cache:
node.flush()
def read_file(self, ami_path, cache=False):
node = self.get_file_path_name(ami_path)
if node == None:
raise FSError(FILE_NOT_FOUND, file_name=ami_path)
data = node.get_file_data()
if not cache:
node.flush()
return data
def delete(self, ami_path, wipe=False, all=False):
node = self.get_path_name(ami_path)
if node == None:
raise FSError(INVALID_FILE_NAME, file_name=ami_path)
node.delete(wipe=wipe, all=all)
