SickGear/lib/hachoir/field/generic_field_set.py

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from hachoir.field import (MissingField, BasicFieldSet, Field, ParserError,
createRawField, createNullField, createPaddingField, FakeArray)
from hachoir.core.dict import Dict, UniqKeyError
from hachoir.core.tools import lowerBound, makeUnicode
import hachoir.core.config as config
class GenericFieldSet(BasicFieldSet):
"""
Ordered list of fields. Use operator [] to access fields using their
name (field names are unique in a field set, but not in the whole
document).
Class attributes:
- endian: Bytes order (L{BIG_ENDIAN}, L{LITTLE_ENDIAN} or L{MIDDLE_ENDIAN}).
Optional if the field set has a parent ;
- static_size: (optional) Size of FieldSet in bits. This attribute should
be used in parser of constant size.
Instance attributes/methods:
- _fields: Ordered dictionnary of all fields, may be incomplete
because feeded when a field is requested ;
- stream: Input stream used to feed fields' value
- root: The root of all field sets ;
- __len__(): Number of fields, may need to create field set ;
- __getitem__(): Get an field by it's name or it's path.
And attributes inherited from Field class:
- parent: Parent field (may be None if it's the root) ;
- name: Field name (unique in parent field set) ;
- value: The field set ;
- address: Field address (in bits) relative to parent ;
- description: A string describing the content (can be None) ;
- size: Size of field set in bits, may need to create field set.
Event handling:
- "connectEvent": Connect an handler to an event ;
- "raiseEvent": Raise an event.
To implement a new field set, you need to:
- create a class which inherite from FieldSet ;
- write createFields() method using lines like:
yield Class(self, "name", ...) ;
- and maybe set endian and static_size class attributes.
"""
_current_size = 0
def __init__(self, parent, name, stream, description=None, size=None):
"""
Constructor
@param parent: Parent field set, None for root parser
@param name: Name of the field, have to be unique in parent. If it ends
with "[]", end will be replaced with "[new_id]" (eg. "raw[]"
becomes "raw[0]", next will be "raw[1]", and then "raw[2]", etc.)
@type name: str
@param stream: Input stream from which data are read
@type stream: L{InputStream}
@param description: Optional string description
@type description: str|None
@param size: Size in bits. If it's None, size will be computed. You
can also set size with class attribute static_size
"""
BasicFieldSet.__init__(self, parent, name, stream, description, size)
self._fields = Dict()
self._field_generator = self.createFields()
self._array_cache = {}
self.__is_feeding = False
def array(self, key):
try:
return self._array_cache[key]
except KeyError:
array = FakeArray(self, key)
self._array_cache[key] = array
return self._array_cache[key]
def reset(self):
"""
Reset a field set:
* clear fields ;
* restart field generator ;
* set current size to zero ;
* clear field array count.
But keep: name, value, description and size.
"""
BasicFieldSet.reset(self)
self._fields = Dict()
self._field_generator = self.createFields()
self._current_size = 0
self._array_cache = {}
def __str__(self):
return '<%s path=%s, current_size=%s, current length=%s>' % \
(self.__class__.__name__, self.path,
self._current_size, len(self._fields))
def __len__(self):
"""
Returns number of fields, may need to create all fields
if it's not done yet.
"""
if self._field_generator is not None:
self._feedAll()
return len(self._fields)
def _getCurrentLength(self):
return len(self._fields)
current_length = property(_getCurrentLength)
def _getSize(self):
if self._size is None:
self._feedAll()
return self._size
size = property(
_getSize, doc="Size in bits, may create all fields to get size")
def _getCurrentSize(self):
assert not (self.done)
return self._current_size
current_size = property(_getCurrentSize)
eof = property(lambda self: self._checkSize(
self._current_size + 1, True) < 0)
def _checkSize(self, size, strict):
field = self
while field._size is None:
if not field._parent:
assert self.stream.size is None
if not strict:
return None
if self.stream.sizeGe(size):
return 0
break
size += field._address
field = field._parent
return field._size - size
autofix = property(lambda self: self.root.autofix)
def _addField(self, field):
"""
Add a field to the field set:
* add it into _fields
* update _current_size
May raise a StopIteration() on error
"""
if not issubclass(field.__class__, Field):
raise ParserError("Field type (%s) is not a subclass of 'Field'!"
% field.__class__.__name__)
assert isinstance(field._name, str)
if field._name.endswith("[]"):
self.setUniqueFieldName(field)
if config.debug:
self.info("[+] DBG: _addField(%s)" % field.name)
# required for the msoffice parser
if field._address != self._current_size:
self.warning("Fix address of %s to %s (was %s)" %
(field.path, self._current_size, field._address))
field._address = self._current_size
ask_stop = False
# Compute field size and check that there is enough place for it
self.__is_feeding = True
try:
field.size
except Exception as err:
if field.is_field_set and field.current_length and field.eof:
self.warning(
"Error when getting size of '%s': %s" % (field.name, err))
field._stopFeeding()
ask_stop = True
else:
self.warning(
"Error when getting size of '%s': delete it" % field.name)
self.__is_feeding = False
raise
self.__is_feeding = False
# No more place?
dsize = self._checkSize(field._address + field.size, False)
if (dsize is not None and dsize < 0) or (field.is_field_set and field.size <= 0):
if self.autofix and self._current_size:
self._fixFieldSize(field, field.size + dsize)
else:
raise ParserError("Field %s is too large!" % field.path)
self._current_size += field.size
try:
self._fields.append(field._name, field)
except UniqKeyError as err:
self.warning("Duplicate field name " + str(err))
field._name += "[]"
self.setUniqueFieldName(field)
self._fields.append(field._name, field)
if ask_stop:
raise StopIteration()
def _fixFieldSize(self, field, new_size):
if new_size > 0:
if field.is_field_set and 0 < field.size:
field._truncate(new_size)
return
# Don't add the field <=> delete item
if self._size is None:
self._size = self._current_size + new_size
self.warning("[Autofix] Delete '%s' (too large)" % field.path)
raise StopIteration()
def _getField(self, name, const):
field = Field._getField(self, name, const)
if field is None:
if name in self._fields:
field = self._fields[name]
elif self._field_generator is not None and not const:
field = self._feedUntil(name)
return field
def getField(self, key, const=True):
if isinstance(key, int):
if key < 0:
raise KeyError("Key must be positive!")
if not const:
self.readFirstFields(key + 1)
if len(self._fields.values) <= key:
raise MissingField(self, key)
return self._fields.values[key]
return Field.getField(self, key, const)
def _truncate(self, size):
assert size > 0
if size < self._current_size:
self._size = size
while True:
field = self._fields.values[-1]
if field._address < size:
break
del self._fields[-1]
self._current_size = field._address
size -= field._address
if size < field._size:
if field.is_field_set:
field._truncate(size)
else:
del self._fields[-1]
field = createRawField(self, size, "raw[]")
self._fields.append(field._name, field)
self._current_size = self._size
else:
assert self._size is None or size < self._size
self._size = size
if self._size == self._current_size:
self._field_generator = None
def _deleteField(self, index):
field = self._fields.values[index]
size = field.size
self._current_size -= size
del self._fields[index]
return field
def _fixLastField(self):
"""
Try to fix last field when we know current field set size.
Returns new added field if any, or None.
"""
assert self._size is not None
# Stop parser
message = ["stop parser"]
self._field_generator = None
# If last field is too big, delete it
while self._size < self._current_size:
field = self._deleteField(len(self._fields) - 1)
message.append("delete field %s" % field.path)
assert self._current_size <= self._size
# If field size current is smaller: add a raw field
size = self._size - self._current_size
if size:
field = createRawField(self, size, "raw[]")
message.append("add padding")
self._current_size += field.size
self._fields.append(field._name, field)
else:
field = None
message = ", ".join(message)
self.warning("[Autofix] Fix parser error: " + message)
assert self._current_size == self._size
return field
def _stopFeeding(self):
new_field = None
if self._size is None:
if self._parent:
self._size = self._current_size
elif self._size != self._current_size:
if self.autofix:
new_field = self._fixLastField()
else:
raise ParserError("Invalid parser \"%s\" size!" % self.path)
self._field_generator = None
return new_field
def _fixFeedError(self, exception):
"""
Try to fix a feeding error. Returns False if error can't be fixed,
otherwise returns new field if any, or None.
"""
if self._size is None or not self.autofix:
return False
self.warning(makeUnicode(exception))
return self._fixLastField()
def _feedUntil(self, field_name):
"""
Return the field if it was found, None else
"""
if self.__is_feeding \
or (self._field_generator and self._field_generator.gi_running):
self.warning("Unable to get %s (and generator is already running)"
% field_name)
return None
try:
while True:
field = next(self._field_generator)
self._addField(field)
if field.name == field_name:
return field
except StopIteration:
self._stopFeeding()
except Exception as err:
if self._fixFeedError(err) is False:
raise
return None
def readMoreFields(self, number):
"""
Read more number fields, or do nothing if parsing is done.
Returns number of new added fields.
"""
if self._field_generator is None:
return 0
oldlen = len(self._fields)
try:
for index in range(number):
self._addField(next(self._field_generator))
except StopIteration:
self._stopFeeding()
except Exception as err:
if self._fixFeedError(err) is False:
raise
return len(self._fields) - oldlen
def _feedAll(self):
if self._field_generator is None:
return
try:
while True:
field = next(self._field_generator)
self._addField(field)
except StopIteration:
self._stopFeeding()
except Exception as err:
if self._fixFeedError(err) is False:
raise
def __iter__(self):
"""
Create a generator to iterate on each field, may create new
fields when needed
"""
try:
done = 0
while True:
if done == len(self._fields):
if self._field_generator is None:
break
self._addField(next(self._field_generator))
for field in self._fields.values[done:]:
yield field
done += 1
except StopIteration:
field = self._stopFeeding()
if isinstance(field, Field):
yield field
elif hasattr(field, '__iter__'):
for f in field:
yield f
except Exception as err:
field = self._fixFeedError(err)
if isinstance(field, Field):
yield field
elif hasattr(field, '__iter__'):
for f in field:
yield f
elif field is False:
raise
def _isDone(self):
return (self._field_generator is None)
done = property(_isDone, doc="Boolean to know if parsing is done or not")
#
# FieldSet_SeekUtility
#
def seekBit(self, address, name="padding[]",
description=None, relative=True, null=False):
"""
Create a field to seek to specified address,
or None if it's not needed.
May raise an (ParserError) exception if address is invalid.
"""
if relative:
nbits = address - self._current_size
else:
nbits = address - (self.absolute_address + self._current_size)
if nbits < 0:
raise ParserError("Seek error, unable to go back!")
if 0 < nbits:
if null:
return createNullField(self, nbits, name, description)
else:
return createPaddingField(self, nbits, name, description)
else:
return None
def seekByte(self, address, name="padding[]", description=None, relative=True, null=False):
"""
Same as seekBit(), but with address in byte.
"""
return self.seekBit(address * 8, name, description, relative, null=null)
#
# RandomAccessFieldSet
#
def replaceField(self, name, new_fields):
# TODO: Check in self and not self.field
# Problem is that "generator is already executing"
if name not in self._fields:
raise ParserError(
"Unable to replace %s: field doesn't exist!" % name)
assert 1 <= len(new_fields)
old_field = self[name]
total_size = sum((field.size for field in new_fields))
if old_field.size != total_size:
raise ParserError("Unable to replace %s: "
"new field(s) hasn't same size (%u bits instead of %u bits)!"
% (name, total_size, old_field.size))
field = new_fields[0]
if field._name.endswith("[]"):
self.setUniqueFieldName(field)
field._address = old_field.address
if field.name != name and field.name in self._fields:
raise ParserError(
"Unable to replace %s: name \"%s\" is already used!"
% (name, field.name))
self._fields.replace(name, field.name, field)
self.raiseEvent("field-replaced", old_field, field)
if 1 < len(new_fields):
index = self._fields.index(new_fields[0].name) + 1
address = field.address + field.size
for field in new_fields[1:]:
if field._name.endswith("[]"):
self.setUniqueFieldName(field)
field._address = address
if field.name in self._fields:
raise ParserError(
"Unable to replace %s: name \"%s\" is already used!"
% (name, field.name))
self._fields.insert(index, field.name, field)
self.raiseEvent("field-inserted", index, field)
index += 1
address += field.size
def getFieldByAddress(self, address, feed=True):
"""
Only search in existing fields
"""
if feed and self._field_generator is not None:
self._feedAll()
if address < self._current_size:
i = lowerBound(self._fields.values,
lambda x: x.address + x.size <= address)
if i is not None:
return self._fields.values[i]
return None
def writeFieldsIn(self, old_field, address, new_fields):
"""
Can only write in existing fields (address < self._current_size)
"""
# Check size
total_size = sum(field.size for field in new_fields)
if old_field.size < total_size:
raise ParserError(
"Unable to write fields at address %s "
"(too big)!" % (address))
# Need padding before?
replace = []
size = address - old_field.address
assert 0 <= size
if 0 < size:
padding = createPaddingField(self, size)
padding._address = old_field.address
replace.append(padding)
# Set fields address
for field in new_fields:
field._address = address
address += field.size
replace.append(field)
# Need padding after?
size = (old_field.address + old_field.size) - address
assert 0 <= size
if 0 < size:
padding = createPaddingField(self, size)
padding._address = address
replace.append(padding)
self.replaceField(old_field.name, replace)
def nextFieldAddress(self):
return self._current_size
def getFieldIndex(self, field):
return self._fields.index(field._name)