cemu-idapython/pywraps/py_custdata.py
elias.bachaalany@gmail.com 223e4a5268 Applied patches from Hex-Rays:
- added MakeYword
- wrap obsolete IDA API functions too, so that old scripts continue to work
- added debugger trace related functions in idc.py
BUGFIX: IDAPython would fail with a cryptic error message if there was no free space on the current disk
BUGFIX: site-packages directory was missing from sys.path
BUGFIX: functions for working with additional lines (LineA/LineB etc) were broken
BUGFIX: GetFixup* functions from idc.py were broken
BUGFIX: IDA could not start if another python27.dll was present in PATH and importing site.py for that Python installation failed
BUGFIX: SaveBase() was broken
BUGFIX: IDAPython would fail with a cryptic error message if there was no free space on the current disk
BUGFIX: IDAPython: site-packages directory was missing from sys.path
BUGFIX: IDAPython: functions for working with additional lines (LineA/LineB etc) were broken
BUGFIX: IDAPython: GetFixup* functions from idc.py were broken
BUGFIX: IDAPython: IDA could not start if another python27.dll was present in PATH and importing site.py for that Python installation failed
BUGFIX: IDAPython: SaveBase() was broken
BUGFIX: Dbg/Idp hooks automatically unhook when hook object is not referenced anymore

note: these patches are already applied in IDAPython that comes with IDA Pro 6.4
2013-03-06 07:44:10 +00:00

248 lines
9.1 KiB
Python

# -----------------------------------------------------------------------
# Standalone and testing code
import sys
try:
import pywraps
pywraps_there = True
print "Using pywraps"
except:
pywraps_there = False
print "Not using pywraps"
try:
import _idaapi
except:
print "Please try me from inside IDA"
sys.exit(0)
import struct
if pywraps_there:
_idaapi.register_custom_data_type = pywraps.register_custom_data_type
_idaapi.unregister_custom_data_type = pywraps.unregister_custom_data_type
_idaapi.register_custom_data_format = pywraps.register_custom_data_format
_idaapi.unregister_custom_data_format = pywraps.unregister_custom_data_format
_idaapi.get_custom_data_format = pywraps.get_custom_data_format
_idaapi.get_custom_data_type = pywraps.get_custom_data_type
# -----------------------------------------------------------------------
#<pycode(py_bytes)>
DTP_NODUP = 0x0001
class data_type_t(object):
"""
Custom data type definition. All data types should inherit from this class.
"""
def __init__(self, name, value_size = 0, menu_name = None, hotkey = None, asm_keyword = None, props = 0):
"""Please refer to bytes.hpp / data_type_t in the SDK"""
self.name = name
self.props = props
self.menu_name = menu_name
self.hotkey = hotkey
self.asm_keyword = asm_keyword
self.value_size = value_size
self.id = -1 # Will be initialized after registration
"""Contains the data type id after the data type is registered"""
def register(self):
"""Registers the data type and returns the type id or < 0 on failure"""
return _idaapi.register_custom_data_type(self)
def unregister(self):
"""Unregisters the data type and returns True on success"""
# Not registered?
if self.id < 0:
return True
# Try to unregister
r = _idaapi.unregister_custom_data_type(self.id)
# Clear the ID
if r:
self.id = -1
return r
#<pydoc>
# def may_create_at(self, ea, nbytes):
# """
# (optional) If this callback is not defined then this means always may create data type at the given ea.
# @param ea: address of the future item
# @param nbytes: size of the future item
# @return: Boolean
# """
#
# return False
#
# def calc_item_size(self, ea, maxsize):
# """
# (optional) If this callback is defined it means variable size datatype
# This function is used to determine size of the (possible) item at 'ea'
# @param ea: address of the item
# @param maxsize: maximal size of the item
# @return: integer
# Returns: 0-no such item can be created/displayed
# this callback is required only for varsize datatypes
# """
# return 0
#</pydoc>
# -----------------------------------------------------------------------
# Uncomment the corresponding callbacks in the inherited class
class data_format_t(object):
"""Information about a data format"""
def __init__(self, name, value_size = 0, menu_name = None, props = 0, hotkey = None, text_width = 0):
"""Custom data format definition.
@param name: Format name, must be unique
@param menu_name: Visible format name to use in menus
@param props: properties (currently 0)
@param hotkey: Hotkey for the corresponding menu item
@param value_size: size of the value in bytes. 0 means any size is ok
@text_width: Usual width of the text representation
"""
self.name = name
self.menu_name = menu_name
self.props = props
self.hotkey = hotkey
self.value_size = value_size
self.text_width = text_width
self.id = -1 # Will be initialized after registration
"""contains the format id after the format gets registered"""
def register(self, dtid):
"""Registers the data format with the given data type id and returns the type id or < 0 on failure"""
return _idaapi.register_custom_data_format(dtid, self)
def unregister(self, dtid):
"""Unregisters the data format with the given data type id"""
# Not registered?
if self.id < 0:
return True
# Unregister
r = _idaapi.unregister_custom_data_format(dtid, self.id)
# Clear the ID
if r:
self.id = -1
return r
#<pydoc>
# def printf(self, value, current_ea, operand_num, dtid):
# """
# Convert a value buffer to colored string.
#
# @param value: The value to be printed
# @param current_ea: The ea of the value
# @param operand_num: The affected operand
# @param dtid: custom data type id (0-standard built-in data type)
# @return: a colored string representing the passed 'value' or None on failure
# """
# return None
#
# def scan(self, input, current_ea, operand_num):
# """
# Convert from uncolored string 'input' to byte value
#
# @param input: input string
# @param current_ea: current address (BADADDR if unknown)
# @param operand_num: current operand number (-1 if unknown)
#
# @return: tuple (Boolean, string)
# - (False, ErrorMessage) if conversion fails
# - (True, Value buffer) if conversion succeeds
# """
# return (False, "Not implemented")
#
# def analyze(self, current_ea, operand_num):
# """
# (optional) Analyze custom data format occurrence.
# It can be used to create xrefs from the current item.
#
# @param current_ea: current address (BADADDR if unknown)
# @param operand_num: current operand number
# @return: None
# """
#
# pass
#</pydoc>
# -----------------------------------------------------------------------
def __walk_types_and_formats(formats, type_action, format_action, installing):
broken = False
for f in formats:
if len(f) == 1:
if not format_action(f[0], 0):
broken = True
break
else:
dt = f[0]
dfs = f[1:]
# install data type before installing formats
if installing and not type_action(dt):
broken = True
break
# process formats using the correct dt.id
for df in dfs:
if not format_action(df, dt.id):
broken = True
break
# uninstall data type after uninstalling formats
if not installing and not type_action(dt):
broken = True
break
return not broken
# -----------------------------------------------------------------------
def register_data_types_and_formats(formats):
"""
Registers multiple data types and formats at once.
To register one type/format at a time use register_custom_data_type/register_custom_data_format
It employs a special table of types and formats described below:
The 'formats' is a list of tuples. If a tuple has one element then it is the format to be registered with dtid=0
If the tuple has more than one element, then tuple[0] is the data type and tuple[1:] are the data formats. For example:
many_formats = [
(pascal_data_type(), pascal_data_format()),
(simplevm_data_type(), simplevm_data_format()),
(makedword_data_format(),),
(simplevm_data_format(),)
]
The first two tuples describe data types and their associated formats.
The last two tuples describe two data formats to be used with built-in data types.
"""
def __reg_format(df, dtid):
df.register(dtid)
if dtid == 0:
print "Registered format '%s' with built-in types, ID=%d" % (df.name, df.id)
else:
print " Registered format '%s', ID=%d (dtid=%d)" % (df.name, df.id, dtid)
return df.id != -1
def __reg_type(dt):
dt.register()
print "Registered type '%s', ID=%d" % (dt.name, dt.id)
return dt.id != -1
ok = __walk_types_and_formats(formats, __reg_type, __reg_format, True)
return 1 if ok else -1
# -----------------------------------------------------------------------
def unregister_data_types_and_formats(formats):
"""As opposed to register_data_types_and_formats(), this function
unregisters multiple data types and formats at once.
"""
def __unreg_format(df, dtid):
print "%snregistering format '%s'" % ("U" if dtid == 0 else " u", df.name)
df.unregister(dtid)
return True
def __unreg_type(dt):
print "Unregistering type '%s', ID=%d" % (dt.name, dt.id)
dt.unregister()
return True
ok = __walk_types_and_formats(formats, __unreg_type, __unreg_format, False)
return 1 if ok else -1
#</pycode(py_bytes)>
# -----------------------------------------------------------------------