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mirror of synced 2024-11-23 23:00:58 +01:00
popnhax_tools/omnimix/ida_find_addrs.py

342 lines
12 KiB
Python

import idc
import idaapi
import idautils
import struct
MUSIC_IDX = 0
CHART_IDX = 1
STYLE_IDX = 2
FLAVOR_IDX = 3
CHARA_IDX = 4
OFFSET_BLACKLIST = [
# These offsets are known bads
0x100be154,
0x100be346,
0x100bed91,
0x100e56ec,
0x100e56f5,
0x100e5a55,
0x100e5a5e,
0x100fa4e2,
]
def find_binary(search, search_head, search_idx):
ea = 0
found = -1
while True:
ea = idc.FindBinary(ea + 1, SEARCH_DOWN | SEARCH_NEXT, search)
if ea == idc.BADADDR:
break
found += 1
ea = ea + search_head
if found != search_idx:
continue
return ea
return None
def find_binary_xref(search, search_head, search_idx, xref_search_idx):
ea = 0
found = -1
while True:
ea = idc.FindBinary(ea + 1, SEARCH_DOWN | SEARCH_NEXT, search)
if ea == idc.BADADDR:
break
found += 1
ea = ea + search_head
if found != search_idx:
continue
for xref_idx, xref in enumerate(idautils.XrefsTo(ea)):
if xref_idx == xref_search_idx:
return xref.frm
return None
def get_table_size_by_xref(ea, entry_size):
# Skip 10 entries because why not. We're looking for the end anyway
orig_ea = ea
ea += entry_size * 10
found_end = False
while not found_end:
for xref_idx, xref in enumerate(idautils.XrefsTo(ea)):
found_end = True
break
if not found_end:
ea += entry_size
return (ea - orig_ea) // entry_size
def find_weird_update_patches(music_limit):
new = True if music_limit > 2040 else False
if new:
ea = find_binary("83 C4 04 89 44 24 14 C7", 0, 0)
else:
ea = find_binary("83 C4 04 3B C5 74 09", 0, 0)
orig_ea = ea
values = []
# Find previous PUSH
while orig_ea - ea < 0x1000:
if idc.GetMnem(ea) == "push":
values.append([MUSIC_IDX, 11, idc.GetOperandValue(ea, 0), ea])
break
ea = idc.PrevHead(ea)
# Find next CALL
ea = orig_ea
call_ea = None
while ea - orig_ea < 0x1000:
if idc.GetMnem(ea) == "call":
call_ea = idc.GetOperandValue(ea, 0)
break
ea = idc.NextHead(ea)
if call_ea is None:
print("Couldn't find call, can't finish")
exit(1)
ea = idc.FindFuncEnd(call_ea)
lea_values = []
if new:
lea_orders = [11, 11, 10, 10, 9, 9]
else:
lea_orders = [11, 10, 9]
while ea >= call_ea:
if idc.GetMnem(ea) == "lea" and idc.GetOpnd(ea, 1).startswith('[ebx+'):
lea_values.append([MUSIC_IDX, lea_orders[len(lea_values)], idc.GetOperandValue(ea, 1), ea])
# It is probably possible to pull a lot more from here
if new and len(lea_values) == 6:
break
elif not new and len(lea_values) == 3:
break
ea = idc.PrevHead(ea)
if new:
return lea_values[-1::-2] + values
else:
return lea_values[::-1] + values
# These all reference the first entry in their respective tables
music_table_addr = find_binary_xref("00 83 7C 83 62 83 76 83 58 00", 1, 0, 0)
chart_table_addr = find_binary_xref("00 70 6F 70 6E 31 00 00", 1, 0, 1)
style_table_addr = find_binary("01 00 00 00 FF 54 0C 00 1A 00 00 00 11 00 00 00", 0, 2)
flavor_table_addr = find_binary("00 82 BB 82 EA 82 A2 82 AF 81 5B 00 00 00 82 A4 82", 1, 0)
chara_table_addr = find_binary_xref("00 62 61 6D 62 5F 31 61 00", 1, 0, 0)
# Modify the entry sizes as required
buffer_addrs = [
# entry type, table address, entry size
[MUSIC_IDX, music_table_addr, 0xac],
[CHART_IDX, chart_table_addr, 0x20], # Probably won't change?
[STYLE_IDX, style_table_addr, 0x10], # Unlikely to change
[FLAVOR_IDX, flavor_table_addr, 0x60],
[CHARA_IDX, chara_table_addr, 0x4C],
]
limit_info_list = [
# buffer_addr + (buffer_entry_size * limit) should give you the very end of the array (after the last entry)
[MUSIC_IDX, get_table_size_by_xref(*buffer_addrs[MUSIC_IDX][1:])],
[CHART_IDX, get_table_size_by_xref(*buffer_addrs[CHART_IDX][1:])],
[STYLE_IDX, get_table_size_by_xref(*buffer_addrs[STYLE_IDX][1:])],
[FLAVOR_IDX, get_table_size_by_xref(*buffer_addrs[FLAVOR_IDX][1:])],
[CHARA_IDX, get_table_size_by_xref(*buffer_addrs[CHARA_IDX][1:])],
]
update_patches = [
[MUSIC_IDX, 0, limit_info_list[MUSIC_IDX][1] - 1],
[MUSIC_IDX, 0, limit_info_list[MUSIC_IDX][1]],
[CHART_IDX, 0, limit_info_list[CHART_IDX][1]],
[CHART_IDX, 0, limit_info_list[CHART_IDX][1] - 1],
[CHARA_IDX, 0, limit_info_list[CHARA_IDX][1]],
[FLAVOR_IDX, 0, limit_info_list[FLAVOR_IDX][1] - 1],
[FLAVOR_IDX, 0, limit_info_list[FLAVOR_IDX][1]],
# These values may change in a future patch, but they worked for Usaneko and Peace for now.
# These could possibly be done using something similar to the find_weird_update_patches code.
[MUSIC_IDX, 1, 0x1BD0 - (1780 - limit_info_list[MUSIC_IDX][1]) * 4],
[MUSIC_IDX, 1, 0x1Bcf - (1780 - limit_info_list[MUSIC_IDX][1]) * 4],
[MUSIC_IDX, 2, 0xA6E0 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x18],
[MUSIC_IDX, 3, 0x29B7 - (1780 - limit_info_list[MUSIC_IDX][1]) * 6],
[MUSIC_IDX, 4, 0x3E944 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x90],
[MUSIC_IDX, 4, 0x3E948 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x90],
[MUSIC_IDX, 5, 0x1F4F4 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x48],
[MUSIC_IDX, 5, 0x1F4C0 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x48],
[MUSIC_IDX, 5, 0x1F4F0 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x48],
[MUSIC_IDX, 6, 0x7D3D8 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x120],
[MUSIC_IDX, 6, 0x7D3D4 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x120],
[MUSIC_IDX, 7, 0x1D8E58 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x440],
[MUSIC_IDX, 7, 0x1D9188 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x440],
[MUSIC_IDX, 8, 0x5370 - (1780 - limit_info_list[MUSIC_IDX][1]) * 0x0c],
[FLAVOR_IDX, 8, limit_info_list[FLAVOR_IDX][1] * 0x0c],
[FLAVOR_IDX, 8, limit_info_list[FLAVOR_IDX][1] * 0x0c + 4],
]
hook_addrs = [
[0, find_binary("8B C6 E8 ?? ?? ?? ?? 83 F8 ?? 7D ?? 56 8A C3 E8 ?? ?? ?? ?? 83 C4 04 3D ?? ?? ?? ?? 7D ??", 0, 0)],
[1, find_binary("83 F8 ?? 0F 9C C0 E8", 0, 0)],
]
TARGETS = {
MUSIC_IDX: 'music',
CHART_IDX: 'chart',
STYLE_IDX: 'style',
FLAVOR_IDX: 'flavor',
CHARA_IDX: 'chara'
}
print("<?xml version='1.0' encoding='shift-jis'?>")
print("<patches>")
print("\t<limits>")
for limit_info in limit_info_list:
patch_target, limit_value = limit_info
if TARGETS[patch_target] == "music":
music_limit = limit_value
print('\t\t<%s __type="u32">%d</%s>' % (TARGETS[patch_target], limit_value, TARGETS[patch_target]))
print("\t</limits>")
print("\t<buffer_base_addrs>")
for buffer_info in buffer_addrs:
patch_target, buffer_addr, entry_size = buffer_info
print('\t\t<%s __type="str">0x%x</%s>' % (TARGETS[patch_target], buffer_addr, TARGETS[patch_target]))
print("\t</buffer_base_addrs>")
print("\t<buffers_patch_addrs>")
for buffer_info in buffer_addrs:
patch_target, search_value_base, entry_size = buffer_info
for search_value in range(search_value_base, search_value_base + entry_size + 1):
raw_search_value = bytearray(struct.pack("<I", search_value))
for xref in idautils.XrefsTo(search_value):
ea = xref.frm
# Find extact bytes to be patched
raw_bytes = bytearray([idc.Byte(ea + i) for i in range(0x10)])
if raw_search_value not in raw_bytes:
print('\t\t<!-- Couldn\t find raw bytes: ' + idc.GetDisasm(ea) + ' -->')
continue
if ea + raw_bytes.index(raw_search_value) in OFFSET_BLACKLIST:
continue
print('\t\t<!-- ' + idc.GetDisasm(ea) + ' -->')
print('\t\t<%s __type="str">0x%x</%s>' % (TARGETS[patch_target], ea + raw_bytes.index(raw_search_value), TARGETS[patch_target]))
print ""
# This is a hack for Usaneko.
# Usaneko's code is dumb.
# If it doesn't find *this* address it won't stop the loop.
random_lv7 = find_binary_xref("83 89 83 93 83 5F 83 80 20 4C 76 20 37 00 00 00", 0, 0, 0)
random_lv7_xrefs = idautils.XrefsTo(random_lv7) if random_lv7 is not None else []
for x in random_lv7_xrefs:
ea = x.frm
raw_bytes = bytearray([idc.Byte(ea + i) for i in range(0x10)])
raw_search_value = bytearray(struct.pack("<I", random_lv7))
if ea + raw_bytes.index(raw_search_value) in OFFSET_BLACKLIST:
continue
print('\t\t<!-- ' + idc.GetDisasm(ea) + ' -->')
print('\t\t<%s __type="str">0x%x</%s>' % (TARGETS[MUSIC_IDX], ea + raw_bytes.index(raw_search_value), TARGETS[MUSIC_IDX]))
print("\t</buffers_patch_addrs>")
print("\t<other_patches>")
for patch_info in update_patches:
patch_target, patch_type, search_value = patch_info
raw_search_value = bytearray(struct.pack("<I", search_value))
ea = 0
while ea != idc.BADADDR:
(ea, n) = idc.FindImmediate(ea, idc.SEARCH_DOWN, search_value)
if ea != idc.BADADDR:
if "%X" % search_value not in idc.GetDisasm(ea):
continue
if idc.GetMnem(ea) == "dd" or idc.GetDisasm(ea).strip().startswith("dd "):
# Skip non-code bits
continue
if "NumberOfBytesWritten" in idc.GetDisasm(ea):
# Skip known bad parts
continue
# Find extact bytes to be patched
raw_bytes = bytearray([idc.Byte(ea + i) for i in range(0x10)])
if raw_search_value not in raw_bytes:
continue
if ea + raw_bytes.index(raw_search_value) in OFFSET_BLACKLIST:
continue
print('\t\t<!-- ' + idc.GetDisasm(ea) + ' -->')
print('\t\t<%s __type="str" method="%d" expected="0x%x">0x%x</%s>' % (TARGETS[patch_target], patch_type, search_value, ea + raw_bytes.index(raw_search_value), TARGETS[patch_target]))
print ""
update_patches_weird = find_weird_update_patches(music_limit)
for patch_info in update_patches_weird:
patch_target, patch_type, search_value, ea = patch_info
raw_search_value = bytearray(struct.pack("<I", search_value))
# Find extact bytes to be patched
raw_bytes = bytearray([idc.Byte(ea + i) for i in range(0x10)])
if raw_search_value not in raw_bytes:
print('\t\t<!-- Couldn\t find raw bytes: ' + idc.GetDisasm(ea) + ' -->')
continue
if ea + raw_bytes.index(raw_search_value) in OFFSET_BLACKLIST:
continue
print('\t\t<!-- ' + idc.GetDisasm(ea) + ' -->')
print('\t\t<%s __type="str" method="%d" expected="0x%x">0x%x</%s>' % (TARGETS[patch_target], patch_type, search_value, ea + raw_bytes.index(raw_search_value), TARGETS[patch_target]))
print ""
print("\t</other_patches>")
print("\t<hook_addrs>")
for hook_info in hook_addrs:
hook_type, offset = hook_info
if offset is None:
continue
if hook_type == 1:
offset = idc.NextHead(offset)
offset = idc.NextHead(offset)
print('\t\t<!-- ' + idc.GetDisasm(offset) + ' -->')
print('\t\t<offset __type="str" method="%d">0x%x</offset>' % (hook_type, offset))
print ""
print("\t</hook_addrs>")
print("</patches>")