SickGear/lib/hachoir/field/generic_field_set.py

538 lines
19 KiB
Python

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)