[v0.1.0] pack into one PyPI package

Complete all basic functions, including:
- find dolphin, init shared memory
- read/write raw bytes
- read/write struct
- read/write single value (uint32/16/8, int32/16/8, float)
This commit is contained in:
sup39 2022-06-25 03:22:49 +09:00
parent 0b7bfc2e81
commit 2527142f07
15 changed files with 368 additions and 564 deletions

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.gitignore vendored Normal file
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__pycache__/
*.egg-info/
/dist/
/build/

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CHANGELOG.md Normal file
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# Change Log
## \[v0.1.0] pack into one PyPI package (2022/06/25)
Complete all basic functions, including:
- find dolphin, init shared memory
- read/write raw bytes
- read/write struct
- read/write single value (uint32/16/8, int32/16/8, float)
## Base
This library is based on [Yoshi2's dolphin-memory-lib](https://github.com/RenolY2/dolphin-memory-lib)
```
Copyright (c) 2022 Yoshi2, NerduMiner
```
and [aldelaro5's Dolphin-memory-engine](https://github.com/aldelaro5/Dolphin-memory-engine)
```
Copyright (c) 2017 aldelaro5
```

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@ -1,6 +1,8 @@
MIT License
Copyright (c) 2022 sup39
Copyright (c) 2022 Yoshi2, NerduMiner
Copyright (c) 2017 aldelaro5
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

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# dolphin-memory-lib
A Python library for reading and writing the memory of an emulated game in Dolphin.
## Usage
```python
from dolphin.memorylib import Dolphin
if dolphin.hook() is None:
print('No game is running')
addr = 0x80000000
dolphin.write_uint32(addr, 39)
result = dolphin.read_uint32(0x80000000)
# assert result == 39
```

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__name__
__doc__
__package__
__loader__
__spec__
__path__
__file__
__cached__
__builtins__
_os
_sys
_types
__version__
Union
Structure
Array
_Pointer
_CFuncPtr
_ctypes_version
RTLD_LOCAL
RTLD_GLOBAL
ArgumentError
_calcsize
FormatError
DEFAULT_MODE
_FUNCFLAG_CDECL
_FUNCFLAG_PYTHONAPI
_FUNCFLAG_USE_ERRNO
_FUNCFLAG_USE_LASTERROR
create_string_buffer
c_buffer
_c_functype_cache
CFUNCTYPE
_dlopen
_FUNCFLAG_STDCALL
_win_functype_cache
WINFUNCTYPE
sizeof
byref
addressof
alignment
resize
get_errno
set_errno
_SimpleCData
_check_size
py_object
c_short
c_ushort
c_long
c_ulong
c_int
c_uint
c_float
c_double
c_longdouble
c_longlong
c_ulonglong
c_ubyte
c_byte
c_char
c_char_p
c_void_p
c_voidp
c_bool
POINTER
pointer
_pointer_type_cache
c_wchar_p
c_wchar
_reset_cache
create_unicode_buffer
SetPointerType
ARRAY
CDLL
PyDLL
WinDLL
_check_HRESULT
HRESULT
OleDLL
LibraryLoader
cdll
pydll
pythonapi
windll
oledll
GetLastError
get_last_error
set_last_error
WinError
c_size_t
c_ssize_t
_memmove_addr
_memset_addr
_string_at_addr
_cast_addr
memmove
memset
PYFUNCTYPE
_cast
cast
_string_at
string_at
_wstring_at_addr
_wstring_at
wstring_at
DllGetClassObject
DllCanUnloadNow
_endian
BigEndianStructure
LittleEndianStructure
c_int8
c_uint8
c_int16
c_int32
c_int64
c_uint16
c_uint32
c_uint64
wintypes

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import ctypes
import struct
from struct import pack, unpack
from ctypes import wintypes, sizeof, addressof, POINTER, pointer
from ctypes.wintypes import DWORD, ULONG, LONG, WORD
from multiprocessing import shared_memory
# Various Windows structs/enums needed for operation
NULL = 0
TH32CS_SNAPHEAPLIST = 0x00000001
TH32CS_SNAPPROCESS = 0x00000002
TH32CS_SNAPTHREAD = 0x00000004
TH32CS_SNAPMODULE = 0x00000008
TH32CS_SNAPALL = TH32CS_SNAPHEAPLIST | TH32CS_SNAPPROCESS | TH32CS_SNAPTHREAD | TH32CS_SNAPMODULE
assert TH32CS_SNAPALL == 0xF
PROCESS_QUERY_INFORMATION = 0x0400
PROCESS_VM_OPERATION = 0x0008
PROCESS_VM_READ = 0x0010
PROCESS_VM_WRITE = 0x0020
MEM_MAPPED = 0x40000
ULONG_PTR = ctypes.c_ulonglong
class PROCESSENTRY32(ctypes.Structure):
_fields_ = [ ( 'dwSize' , DWORD ) ,
( 'cntUsage' , DWORD) ,
( 'th32ProcessID' , DWORD) ,
( 'th32DefaultHeapID' , ctypes.POINTER(ULONG)) ,
( 'th32ModuleID' , DWORD) ,
( 'cntThreads' , DWORD) ,
( 'th32ParentProcessID' , DWORD) ,
( 'pcPriClassBase' , LONG) ,
( 'dwFlags' , DWORD) ,
( 'szExeFile' , ctypes.c_char * 260 ) ]
class MEMORY_BASIC_INFORMATION(ctypes.Structure):
_fields_ = [ ( 'BaseAddress' , ctypes.c_void_p),
( 'AllocationBase' , ctypes.c_void_p),
( 'AllocationProtect' , DWORD),
( 'PartitionID' , WORD),
( 'RegionSize' , ctypes.c_size_t),
( 'State' , DWORD),
( 'Protect' , DWORD),
( 'Type' , DWORD)]
class PSAPI_WORKING_SET_EX_BLOCK(ctypes.Structure):
_fields_ = [ ( 'Flags', ULONG_PTR),
( 'Valid', ULONG_PTR),
( 'ShareCount', ULONG_PTR),
( 'Win32Protection', ULONG_PTR),
( 'Shared', ULONG_PTR),
( 'Node', ULONG_PTR),
( 'Locked', ULONG_PTR),
( 'LargePage', ULONG_PTR),
( 'Reserved', ULONG_PTR),
( 'Bad', ULONG_PTR),
( 'ReservedUlong', ULONG_PTR)]
#class PSAPI_WORKING_SET_EX_INFORMATION(ctypes.Structure):
# _fields_ = [ ( 'VirtualAddress' , ctypes.c_void_p),
# ( 'VirtualAttributes' , PSAPI_WORKING_SET_EX_BLOCK)]
class PSAPI_WORKING_SET_EX_INFORMATION(ctypes.Structure):
_fields_ = [ ( 'VirtualAddress' , ctypes.c_void_p),
#( 'Flags', ULONG_PTR),
( 'Valid', ULONG_PTR, 1)]
#( 'ShareCount', ULONG_PTR),
#( 'Win32Protection', ULONG_PTR),
#( 'Shared', ULONG_PTR),
#( 'Node', ULONG_PTR),
#( 'Locked', ULONG_PTR),
#( 'LargePage', ULONG_PTR),
#( 'Reserved', ULONG_PTR),
#( 'Bad', ULONG_PTR),
#( 'ReservedUlong', ULONG_PTR)]
#def print_values(self):
# for i,v in self._fields_:
# print(i, getattr(self, i))
# The find_dolphin function is based on WindowsDolphinProcess::findPID() from
# aldelaro5's Dolphin memory engine
# https://github.com/aldelaro5/Dolphin-memory-engine
"""
MIT License
Copyright (c) 2017 aldelaro5
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE."""
class Dolphin(object):
def __init__(self):
self.pid = -1
self.memory = None
def reset(self):
self.pid = -1
self.memory = None
def find_dolphin(self, skip_pids=[]):
entry = PROCESSENTRY32()
entry.dwSize = sizeof(PROCESSENTRY32)
snapshot = ctypes.windll.kernel32.CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, NULL)
print(addressof(entry), hex(addressof(entry)))
a = ULONG(addressof(entry))
self.pid = -1
if ctypes.windll.kernel32.Process32First(snapshot, pointer(entry)):
if entry.th32ProcessID not in skip_pids and entry.szExeFile in (b"Dolphin.exe", b"DolphinQt2.exe", b"DolphinWx.exe"):
self.pid = entry.th32ProcessID
else:
while ctypes.windll.kernel32.Process32Next(snapshot, pointer(entry)):
if entry.th32ProcessID in skip_pids:
continue
if entry.szExeFile in (b"Dolphin.exe", b"DolphinQt2.exe", b"DolphinWx.exe"):
self.pid = entry.th32ProcessID
ctypes.windll.kernel32.CloseHandle(snapshot)
if self.pid == -1:
return False
return True
def init_shared_memory(self):
try:
self.memory = shared_memory.SharedMemory('dolphin-emu.'+str(self.pid))
return True
except FileNotFoundError:
return False
def read_ram(self, offset, size):
return self.memory.buf[offset:offset+size]
def write_ram(self, offset, data):
self.memory.buf[offset:offset+len(data)] = data
def read_uint32(self, addr):
assert addr >= 0x80000000
value = self.read_ram(addr-0x80000000, 4)
return unpack(">I", value)[0]
def write_uint32(self, addr, val):
assert addr >= 0x80000000
return self.write_ram(addr - 0x80000000, pack(">I", val))
def read_float(self, addr):
assert addr >= 0x80000000
value = self.read_ram(addr - 0x80000000, 4)
return unpack(">f", value)[0]
def write_float(self, addr, val):
assert addr >= 0x80000000
return self.write_ram(addr - 0x80000000, pack(">f", val))
"""with open("ctypes.txt", "w") as f:
for a in ctypes.__dict__:
f.write(str(a))
f.write("\n")"""
if __name__ == "__main__":
dolphin = Dolphin()
import multiprocessing
if dolphin.find_dolphin():
print("Found Dolphin!")
else:
print("Didn't find Dolphin")
print(dolphin.pid)
dolphin.init_shared_memory()
if dolphin.init_shared_memory():
print("We found MEM1 and/or MEM2!")
else:
print("We didn't find it...")
import random
randint = random.randint
from timeit import default_timer
start = default_timer()
print("Testing Shared Memory Method")
start = default_timer()
count = 500000
for i in range(count):
value = randint(0, 2**32-1)
dolphin.write_uint32(0x80000000, value)
result = dolphin.read_uint32(0x80000000)
assert result == value
diff = default_timer()-start
print(count/diff, "per sec")
print("time: ", diff)

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import ctypes
import struct
import os
import sys
from subprocess import check_output
from ctypes import sizeof, addressof, POINTER, pointer
# Various Linux structs needed for operation
class iovec(ctypes.Structure):
_fields_ = [("iov_base",ctypes.c_void_p),("iov_len",ctypes.c_size_t)]
libc = ctypes.cdll.LoadLibrary("libc.so.6")
vm = libc.process_vm_readv
vm.argtypes = [ctypes.c_int, POINTER(iovec), ctypes.c_ulong, POINTER(iovec), ctypes.c_ulong, ctypes.c_ulong]
vmwrite = libc.process_vm_writev
vmwrite.argtypes = [ctypes.c_int, POINTER(iovec), ctypes.c_ulong, POINTER(iovec), ctypes.c_ulong, ctypes.c_ulong]
# The following code is a port of aldelaro5's Dolphin memory access methods
# for Linux into Python+ctypes.
# https://github.com/aldelaro5/Dolphin-memory-engine
"""
MIT License
Copyright (c) 2017 aldelaro5
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE."""
class Dolphin(object):
def __init__(self):
self.pid = -1
self.handle = -1
self.address_start = 0
self.mem1_start = 0
self.mem2_start = 0
self.mem2_exists = False
def find_dolphin(self):
try:
if check_output(["pidof", "dolphin-emu"]) != '\n':
self.pid = int(check_output(["pidof", "dolphin-emu"]))
if check_output(["pidof", "dolphin-emu-qt2"]) != '\n':
self.pid = int(check_output(["pidof", "dolphin-emu-qt2"]))
if check_output(["pidof", "dolphin-emu-wx"]) != '\n':
self.pid = int(check_output(["pidof", "dolphin-emu-wx"]))
except Exception: #subprocess.CalledProcessError
# Do nothing because self.pid cant be modified until a successful run of pidof
pass
if self.pid == -1:
return False
return True
def get_emu_info(self):
MEM1_found = False
try:
maps_file = open("/proc/{}/maps".format(self.pid), 'r')
except IOError:
print("Cant open maps for process {}".format(self.pid))
heap_info = None
for line in maps_file:
foundDevShmDolphin = False
if '/dev/shm/dolphinmem' in line:
heap_info = line.split()
if '/dev/shm/dolphin-emu' in line:
heap_info = line.split()
if heap_info is None:
continue
else:
offset = 0
offset_str = "0x" + str(heap_info[2])
offset = int(offset_str, 16)
if offset != 0 and offset != 0x2000000:
continue
first_address = 0
second_address = 0
index_dash = heap_info[0].find('-')
first_address_str = "0x" + str(heap_info[0][: index_dash])
second_address_str = "0x" + str(heap_info[0][(index_dash + 1):])
first_address = int(first_address_str, 16)
second_address = int(second_address_str, 16)
if (second_address - first_address) == 0x4000000 and offset == 0x2000000:
self.mem2_start = first_address
self.mem2_exists = True
if (second_address - first_address) == 0x2000000 and offset == 0x0:
self.address_start = first_address
if self.address_start == 0:
return False
return True
def read_ram(self, offset, size):
buffer_ = (ctypes.c_char*size)()
nread = ctypes.c_size_t
local = (iovec*1)()
remote = (iovec*1)()
local[0].iov_base = ctypes.addressof(buffer_)
local[0].iov_len = size
remote[0].iov_base = ctypes.c_void_p(self.address_start + offset)
remote[0].iov_len = size
nread = vm(self.pid, local, 1, remote, 1, 0)
if nread != size:
return False, buffer_
return True, buffer_
def write_ram(self, offset, data):
buffer_ = (ctypes.c_char*len(data))(*data)
nwrote = ctypes.c_size_t
local = (iovec*1)()
remote = (iovec*1)()
local[0].iov_base = ctypes.addressof(buffer_)
local[0].iov_len = len(data)
remote[0].iov_base = ctypes.c_void_p(self.address_start + offset)
remote[0].iov_len = len(data)
nwrote = vmwrite(self.pid, local, 1, remote, 1, 0)
if nwrote != len(data):
return False
return True
def read_uint32(self, addr):
assert addr >= 0x80000000
success, value = self.read_ram(addr-0x80000000, 4)
if success:
return struct.unpack(">I", value)[0]
else:
return None
def read_float(self, addr):
assert addr >= 0x80000000
success, value = self.read_ram(addr - 0x80000000, 4)
if success:
return struct.unpack(">f", value)[0]
else:
return None
def write_float(self, addr, val):
assert addr >= 0x80000000
return self.write_ram(addr - 0x80000000, struct.pack(">f", val))
if __name__ == "__main__":
dolphin = Dolphin()
if dolphin.find_dolphin():
print("Found Dolphin! ")
else:
print("Didn't find Dolphin")
print(dolphin.pid)
if dolphin.get_emu_info():
print("We found MEM1 and/or MEM2!", dolphin.address_start, dolphin.mem2_start)
else:
print("We didn't find it...")
print(dolphin.write_ram(0, b"GMS"))
success, result = dolphin.read_ram(0, 8)
print(result[0:8])
print(dolphin.write_ram(0, b"AWA"))
success, result = dolphin.read_ram(0, 8)
print(result[0:8])

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[build-system]
requires = ["setuptools>=42"]
build-backend = "setuptools.build_meta"

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python memorylib.py
pause

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run.sh
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#!/bin/bash
echo "dolphin-memory-lib requires sudo permission to read and write to the emulator process memory."
sudo python memtest_lin.py
read -n1 -r

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[metadata]
name = sup-dolphin-memory-lib
version = 0.1.0
author = sup39
author_email = sms@sup39.dev
description = A Python library for reading and writing the memory of an emulated game in Dolphin
long_description = file: README.md
long_description_content_type = text/markdown
url = https://github.com/sup39/dolphin-memory-lib
project_urls =
Bug Tracker = https://github.com/sup39/dolphin-memory-lib/issues
classifiers =
Programming Language :: Python :: 3
License :: OSI Approved :: MIT License
Operating System :: OS Independent
[options]
package_dir =
= src
packages = find:
python_requires = >=3.8
install_requires =
[options.packages.find]
where = src

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src/dolphin/__init__.py Normal file
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src/dolphin/memorylib.py Normal file
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# SPDX-License-Identifier: MIT
'''
Copyright (c) 2022 sup39
This file is based on Yoshi2's dolphin-memory-lib
https://github.com/RenolY2/dolphin-memory-lib
Copyright (c) 2022 Yoshi2, NerduMiner
The find_dolphin function is based on WindowsDolphinProcess::findPID() from
aldelaro5's Dolphin memory engine
https://github.com/aldelaro5/Dolphin-memory-engine
Copyright (c) 2017 aldelaro5
'''
import os
from struct import pack, unpack, calcsize
from multiprocessing.shared_memory import SharedMemory
if os.name == 'nt':
# windows
from ctypes import Structure, POINTER, sizeof, byref, windll
from ctypes.wintypes import DWORD, ULONG, LONG, CHAR, MAX_PATH
kernel32 = windll.kernel32
NULL = 0
## https://docs.microsoft.com/ja-jp/windows/win32/api/tlhelp32/ns-tlhelp32-processentry32
class PROCESSENTRY32(Structure):
_fields_ = [
('dwSize', DWORD),
('cntUsage', DWORD),
('th32ProcessID', DWORD),
('th32DefaultHeapID', POINTER(ULONG)),
('th32ModuleID', DWORD),
('cntThreads', DWORD),
('th32ParentProcessID', DWORD),
('pcPriClassBase', LONG),
('dwFlags', DWORD),
('szExeFile', CHAR*MAX_PATH),
]
## https://docs.microsoft.com/en-us/windows/win32/api/tlhelp32/nf-tlhelp32-createtoolhelp32snapshot
TH32CS_SNAPPROCESS = 2
## find pids of dolphin
def find_dolphin():
# prepare entry struct
entry = PROCESSENTRY32()
entry.dwSize = sizeof(PROCESSENTRY32)
# prepare snapshot
snapshot = kernel32.CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, NULL)
# find pids
pids = []
if kernel32.Process32First(snapshot, byref(entry)):
while True:
if entry.szExeFile in (b'Dolphin.exe', b'DolphinQt2.exe', b'DolphinWx.exe'):
pids.append(entry.th32ProcessID)
if not kernel32.Process32Next(snapshot, byref(entry)): break
kernel32.CloseHandle(snapshot);
# done
return pids
else:
# UNIX
import psutil
def find_dolphin():
return [
proc.pid
for proc in psutil.process_iter()
if proc.name() in ('dolphin-emu', 'dolphin-emu-qt2', 'dolphin-emu-wx')
]
'''
@typedef {(int|str) | [(int|str), ...int[]]} Addr
-- address or symbol name with arbitrary offsets
-- e.g. 0x8040A378, 'gpMarioOriginal',
-- (0x8040A2A8, 0x54), ('gpMap', 0x10, 0x04)
'''
class Dolphin():
def __init__(self):
self.pid = None
self.memory = None
def reset(self):
self.pid = None
self.memory = None
def hook(self, pids=None):
'''
@params pids {None|int|Iterable<int>}
-- pid or pid array of dolphin
@returns {int|None}
-- pid of hooked dolphin
'''
self.memory = None
# init pids
if pids is None: # auto-detect
pids = Dolphin.find_dolphin()
elif type(pids) is int: # pid -> [pid]
pids = [pids]
## no process found
if len(pids) == 0: return None
# init memory
for pid in pids:
memory = Dolphin.init_shared_memory(pid)
if memory is not None:
self.pid = pid
self.memory = memory
return pid
## no memory found
return None
# virtual methods
def get_symb_addr(self, name):
'''
@params {str} name
-- name of the symbol
@returns {int|never}
-- addr of the symbol
'''
raise NotImplemented
# private methods
def _get_slice(self, addr, size):
'''
@params {int} addr
-- memory address
@params {int} size
-- size of memory slice
@returns {slice|never}
-- slice object for self.memory at the address
'''
idx = addr - 0x8000_0000
assert 0 <= idx < 0x0180_0000
return slice(idx, idx+size)
def _read_bytes(self, addr, size):
'''
@params {int} addr
-- memory address
@params {int} size
-- size to read
@returns {bytes|never}
-- bytes at the address
'''
return self.memory.buf[self._get_slice(addr, size)].tobytes()
def _write_bytes(self, addr, data):
'''
@params {int} addr
-- memory address
@params {bytes} data
-- bytes to write
'''
self.memory.buf[self._get_slice(addr, len(data))] = data
# public methods
def try_resolve_addr(self, addr):
'''
@params {Addr} addr
-- address or symbol name with arbitrary offsets
@returns {int|None}
-- (resolved address) or (None if NullPointerException occurred)
'''
try: addr, *offsets = addr
except TypeError: offsets = []
# resolve base
if type(addr) == str:
addr = self.get_symb_addr(addr)
# offset
for off in offsets:
# dereference
addr = unpack('>I', self._read_bytes(addr, 4))[0]
# check nullptr
if addr == 0: return None
# add offset
addr += off
return addr
def read_bytes(self, addr, size):
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@params {int} size
-- size to read
@returns {bytes|None}
-- (bytes at addr) or (None if NullPointerException occurred)
'''
addr = self.try_resolve_addr(addr)
if addr is None: return None
return self._read_bytes(addr, size)
def write_bytes(self, addr, data):
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@params {bytes} data
-- bytes to write
@returns {int|None}
-- (written address) or (None if NullPointerException occurred)
'''
addr = self.try_resolve_addr(addr)
if addr is None: return None
self._write_bytes(addr, data)
return addr
def read_struct(self, addr, fmt):
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@params {int} size
-- size to read
@returns {bytes|None}
## See `addr` of `read_bytes()`
'''
data = self.read_bytes(addr, calcsize(fmt))
return None if data is None else unpack(fmt, data)
def write_struct(self, addr, fmt, *args):
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@params {str} fmt
-- format string for struct.pack
@params {...} *args
-- args for struct.pack(fmt, *args)
@returns {int|None}
## See `addr` of `write_bytes()`
'''
return self.write_bytes(addr, pack(fmt, *args))
## read single value from memory
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@returns {bytes|None}
## See `addr` of `read_bytes()`
'''
def read_uint32(self, addr): return self.read_struct(addr, '>I')[0]
def read_uint16(self, addr): return self.read_struct(addr, '>H')[0]
def read_uint8(self, addr): return self.read_struct(addr, '>B')[0]
def read_int32(self, addr): return self.read_struct(addr, '>i')[0]
def read_int16(self, addr): return self.read_struct(addr, '>h')[0]
def read_int8(self, addr): return self.read_struct(addr, '>b')[0]
def read_float(self, addr): return self.read_struct(addr, '>f')[0]
## write single value to memory
'''
@params {Addr} addr
## See `addr` of `try_resolve_addr()`
@params {...} val
-- value to write
@returns {int|None}
## See `addr` of `write_bytes()`
'''
def write_uint32(self, addr, val): return self.write_struct(addr, '>I', val)
def write_uint16(self, addr, val): return self.write_struct(addr, '>H', val)
def write_uint8(self, addr, val): return self.write_struct(addr, '>B', val)
def write_int32(self, addr, val): return self.write_struct(addr, '>i', val)
def write_int16(self, addr, val): return self.write_struct(addr, '>h', val)
def write_int8(self, addr, val): return self.write_struct(addr, '>b', val)
def write_float(self, addr, val): return self.write_struct(addr, '>f', val)
# static methods
def init_shared_memory(pid):
try: return SharedMemory('dolphin-emu.'+str(pid))
except FileNotFoundError: return None
find_dolphin = find_dolphin

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tests/__init__.py Normal file
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tests/test_memorylib.py Normal file
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import unittest
from dolphin.memorylib import Dolphin
class TestMemorylib(unittest.TestCase):
def test_rw_uint32(self):
dolphin = Dolphin()
import multiprocessing
self.assertIsNotNone(dolphin.hook(), msg='No game is running')
from random import randint
from timeit import default_timer
start = default_timer()
print("Testing Shared Memory Method")
start = default_timer()
count = 500000
for i in range(count):
value = randint(0, 2**32-1)
dolphin.write_uint32(0x80000000, value)
result = dolphin.read_uint32(0x80000000)
self.assertEqual(result, value)
diff = default_timer()-start
print(count/diff, "per sec")
print("time: ", diff)
if __name__ == '__main__':
unittest.main()