Proton/lsteamclient/gen_wrapper.py
2024-02-15 15:53:24 +02:00

1499 lines
50 KiB
Python
Executable File

#!/usr/bin/env python3
#NOTE: If you make modifications here, consider whether they should
#be duplicated in ../vrclient/gen_wrapper.py
CLANG_PATH='/usr/lib/clang/15'
from clang.cindex import Cursor, CursorKind, Index, Type, TypeKind
from collections import namedtuple
import concurrent.futures
import os
import re
SDK_VERSIONS = [
"158",
"157",
"156",
"155",
"154",
"153a",
"152",
"151",
"150",
"149",
"148a",
"147",
"146",
"145",
"144",
"143y",
"143x",
"143",
"142",
"141",
"140",
"139",
"138a",
"138",
"137",
"136",
"135a",
"135",
"134",
"133x",
"133b",
"133a",
"133",
"132x",
"132",
"131",
"130x",
"130",
"129a",
"129",
"128x",
"128",
"127",
"126a",
"126",
"125",
"124",
"123a",
"123",
"122",
"121x",
"121",
"120",
"119x",
"119",
"118",
"117",
"116x",
"116",
"115",
"114",
"113",
"112x",
"112",
"111x",
"111",
"110",
"109",
"108",
"107",
"106",
"105",
"104",
"103",
"102x",
"102",
"101x",
"101",
"100",
"099y",
"099x",
"099w",
"099v",
"099u",
]
ABIS = ['u32', 'u64', 'w32', 'w64']
SDK_SOURCES = {
"steam_api.h": [
"ISteamApps",
"ISteamAppList",
"ISteamClient",
"ISteamController",
"ISteamGameSearch",
"ISteamFriends",
"ISteamHTMLSurface",
"ISteamHTTP",
"ISteamInput",
"ISteamInventory",
"ISteamMatchmaking",
"ISteamMatchmakingServers",
"ISteamMusic",
"ISteamMusicRemote",
"ISteamNetworking",
"ISteamParties",
"ISteamRemotePlay",
"ISteamRemoteStorage",
"ISteamScreenshots",
"ISteamUGC",
"ISteamUnifiedMessages",
"ISteamUser",
"ISteamUserStats",
"ISteamUtils",
"ISteamVideo"
],
"isteamappticket.h": [
"ISteamAppTicket"
],
"isteamgameserver.h": [
"ISteamGameServer"
],
"isteamgameserverstats.h": [
"ISteamGameServerStats"
],
"isteamgamestats.h": [
"ISteamGameStats"
],
"isteammasterserverupdater.h": [
"ISteamMasterServerUpdater"
],
"isteamgamecoordinator.h": [
"ISteamGameCoordinator"
],
"isteamparentalsettings.h": [
"ISteamParentalSettings"
],
"isteamnetworkingmessages.h": [
"ISteamNetworkingMessages"
],
"isteamnetworkingsockets.h": [
"ISteamNetworkingSockets"
],
"isteamnetworkingsocketsserialized.h": [
"ISteamNetworkingSocketsSerialized"
],
"isteamnetworkingutils.h": [
"ISteamNetworkingUtils"
],
"steamnetworkingfakeip.h": [
"ISteamNetworkingFakeUDPPort"
],
}
SDK_CLASSES = {klass: source for source, klasses in SDK_SOURCES.items()
for klass in klasses}
VERSION_ALIASES = {
#these interfaces are undocumented and binary compatible
#"target interface": ["alias 1", "alias 2"],
"SteamUtils004":["SteamUtils003"],
"SteamUtils002":["SteamUtils001"],
"SteamGameServer008":["SteamGameServer007","SteamGameServer006"],
"SteamNetworkingSocketsSerialized002":["SteamNetworkingSocketsSerialized001"],
"STEAMAPPS_INTERFACE_VERSION001":["SteamApps001"],
"SteamNetworkingSockets002":["SteamNetworkingSockets003"],
}
# these structs are manually confirmed to be equivalent
EXEMPT_STRUCTS = [
"CSteamID",
"CGameID",
"CCallbackBase",
"SteamPS3Params_t",
"ValvePackingSentinel_t"
]
# we have converters for these written by hand because they're too complicated to generate
MANUAL_STRUCTS = [
"SteamNetworkingMessage_t"
]
Method = namedtuple('Method', ['name', 'version_func'], defaults=[lambda _: True])
MANUAL_METHODS = {
#TODO: 001 005 007
#NOTE: 003 never appeared in a public SDK, but is an alias for 002 (the version in SDK 1.45 is actually 004 but incorrectly versioned as 003)
"cppISteamNetworkingSockets_SteamNetworkingSockets": [
Method("ReceiveMessagesOnConnection"),
Method("ReceiveMessagesOnListenSocket"),
Method("ReceiveMessagesOnPollGroup"),
Method("SendMessages"),
Method("CreateFakeUDPPort"),
],
"cppISteamNetworkingUtils_SteamNetworkingUtils": [
Method("AllocateMessage"),
Method("SetConfigValue", lambda version: version >= 3)
],
"cppISteamNetworkingMessages_SteamNetworkingMessages": [
Method("ReceiveMessagesOnChannel"),
],
"cppISteamInput_SteamInput": [
Method("EnableActionEventCallbacks"),
Method("GetGlyphForActionOrigin"),
Method("GetGlyphPNGForActionOrigin"),
Method("GetGlyphSVGForActionOrigin"),
Method("GetGlyphForActionOrigin_Legacy"),
Method("GetGlyphForXboxOrigin"),
],
"cppISteamController_SteamController": [
Method("GetGlyphForActionOrigin"),
Method("GetGlyphForXboxOrigin"),
],
"cppISteamNetworkingFakeUDPPort_SteamNetworkingFakeUDPPort": [
Method("DestroyFakeUDPPort"),
Method("ReceiveMessages"),
],
"cppISteamUser_SteamUser": [
#TODO: Do we need the the value -> pointer conversion for other versions of the interface?
Method("InitiateGameConnection", lambda version: version == 8),
],
#"cppISteamClient_SteamClient": [
# Method("BShutdownIfAllPipesClosed"),
#],
}
POST_EXEC_FUNCS = {
"ISteamClient_BShutdownIfAllPipesClosed" : "after_shutdown",
"ISteamClient_CreateSteamPipe" : "after_steam_pipe_create",
}
INTERFACE_NAME_VERSION = re.compile(r'^(?P<name>.+?)(?P<version>\d*)$')
DEFINE_INTERFACE_VERSION = re.compile(r'^#define\s*(?P<name>STEAM(?:\w*)_VERSION(?:\w*))\s*"(?P<version>.*)"')
def method_needs_manual_handling(interface_with_version, method_name):
match_dict = INTERFACE_NAME_VERSION.match(interface_with_version).groupdict()
interface = match_dict['name']
version = int(match_dict['version']) if match_dict['version'] else None
method_list = MANUAL_METHODS.get(interface, [])
method = next(filter(lambda m: m.name == method_name, method_list), None)
return method and method.version_func(version)
def post_execution_function(classname, method_name):
return POST_EXEC_FUNCS.get(classname + "_" + method_name, '')
# manual converters for simple types (function pointers)
MANUAL_TYPES = [
"FSteamNetworkingSocketsDebugOutput",
"SteamAPIWarningMessageHook_t",
"SteamAPI_CheckCallbackRegistered_t"
]
# manual converters for specific parameters
MANUAL_PARAMS = [
"nNativeKeyCode"
]
#struct_conversion_cache = {
# '142': {
# 'SteamUGCDetails_t': True,
# 'SteamUGCQueryCompleted_t': False
# }
#}
struct_conversion_cache = {}
converted_structs = []
# callback classes for which we have a linux wrapper
WRAPPED_CLASSES = [
"ISteamMatchmakingServerListResponse",
"ISteamMatchmakingPingResponse",
"ISteamMatchmakingPlayersResponse",
"ISteamMatchmakingRulesResponse",
"ISteamNetworkingFakeUDPPort",
]
all_classes = {}
all_records = {}
all_sources = {}
all_versions = {}
PATH_CONV = [
{
"parent_name": "GetAppInstallDir",
"l2w_names": ["pchDirectory"],
"l2w_lens": ["cchNameMax"],
"l2w_urls": [False],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": True
},
{
"parent_name": "GetAppInstallDir",
"l2w_names": ["pchFolder"],
"l2w_lens": ["cchFolderBufferSize"],
"l2w_urls": [False],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": True
},
{
"parent_name": "GetFileDetails",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszFileName"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": True
},
### ISteamGameServer::SetModDir - "Just the folder name, not the whole path. I.e. "Spacewar"."
{
"parent_name": "LoadURL",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchURL"],
"w2l_arrays": [False],
"w2l_urls": [True],
"return_is_size": False
},
{
"parent_name": "FileLoadDialogResponse",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchSelectedFiles"],
"w2l_arrays": [True],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "HTML_StartRequest_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_URLChanged_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_FinishedRequest_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_OpenLinkInNewTab_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_LinkAtPosition_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_FileOpenDialog_t",
"l2w_names": ["pchInitialFile"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "HTML_NewWindow_t",
"l2w_names": ["pchURL"],
"l2w_lens": [None],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "PublishWorkshopFile",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchFile", "pchPreviewFile"],
"w2l_arrays": [False, False],
"w2l_urls": [False, False],
"return_is_size": False
},
{
"parent_name": "UpdatePublishedFileFile",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "UpdatePublishedFilePreviewFile",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchPreviewFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "PublishVideo",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchPreviewFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "AddScreenshotToLibrary",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchFilename", "pchThumbnailFilename"],
"w2l_arrays": [False, False],
"w2l_urls": [False, False],
"return_is_size": False
},
{
"parent_name": "AddVRScreenshotToLibrary",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchFilename", "pchVRFilename"],
"w2l_arrays": [False, False],
"w2l_urls": [False, False],
"return_is_size": False
},
{
"parent_name": "UGCDownloadToLocation",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchLocation"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "GetQueryUGCAdditionalPreview",
"l2w_names": ["pchURLOrVideoID"],
"l2w_lens": ["cchURLSize"],
"l2w_urls": [True],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "SetItemContent",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszContentFolder"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "SetItemPreview",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszPreviewFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "AddItemPreviewFile",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszPreviewFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "UpdateItemPreviewFile",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszPreviewFile"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "GetItemInstallInfo",
"l2w_names": ["pchFolder"],
"l2w_lens": ["cchFolderSize"],
"l2w_urls": [False],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "BInitWorkshopForGameServer",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pszFolder"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "GetUserDataFolder",
"l2w_names": ["pchBuffer"],
"l2w_lens": ["cubBuffer"],
"l2w_urls": [False],
"w2l_names": [],
"w2l_arrays": [],
"w2l_urls": [],
"return_is_size": False
},
{
"parent_name": "CheckFileSignature",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["szFileName"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "Init",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchAbsolutePathToControllerConfigVDF"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
{
"parent_name": "SetInputActionManifestFilePath",
"l2w_names": [],
"l2w_lens": [],
"l2w_urls": [],
"w2l_names": ["pchInputActionManifestAbsolutePath"],
"w2l_arrays": [False],
"w2l_urls": [False],
"return_is_size": False
},
]
class Method:
def __init__(self, sdkver, abi, cursor, index, override):
self._sdkver = sdkver
self._abi = abi
self._cursor = cursor
self._index = index
self._override = override
self.result_type = cursor.result_type
self.spelling = cursor.spelling
@property
def name(self):
if self._override > 1: return f'{self.spelling}_{self._override}'
return self.spelling
def get_arguments(self):
return self._cursor.get_arguments()
def get_children(self):
return self._cursor.get_children()
class Destructor(Method):
def __init__(self, sdkver, abi, cursor, index, override):
super().__init__(sdkver, abi, cursor, index, override)
@property
def name(self):
if self._override > 1: return f'destructor_{self._override}'
return 'destructor'
class Class:
def __init__(self, sdkver, abi, cursor):
self._sdkver = sdkver
self._abi = abi
self._cursor = cursor
self.spelling = cursor.spelling
self.filename = SDK_CLASSES[self.spelling]
self.version = self.spelling[1:].upper()
self.version = all_versions[sdkver][self.version]
self._methods = None
@property
def methods(self):
if self._methods:
return self._methods
overrides = {}
is_method = lambda c: c.kind == CursorKind.CXX_METHOD and c.is_virtual_method()
in_vtable = lambda c: is_method(c) or c.kind == CursorKind.DESTRUCTOR
self._methods = []
for i, method in enumerate(filter(in_vtable, self._cursor.get_children())):
index, override = overrides.get(method.spelling, (i, 1))
overrides[method.spelling] = (index, override + 1)
if method.kind == CursorKind.DESTRUCTOR:
self._methods.append(Destructor(self._sdkver, self._abi, method, index, override))
else:
self._methods.append(Method(self._sdkver, self._abi, method, index, override))
return self._methods
def get_children(self):
return self._cursor.get_children()
def canonical_typename(cursor):
if type(cursor) is Cursor:
return canonical_typename(cursor.type)
name = cursor.get_canonical().spelling
return name.removeprefix("const ")
def find_struct_abis(name):
records = all_records[sdkver]
missing = [name not in records[abi] for abi in ABIS]
assert all(missing) or not any(missing)
if any(missing): return None
return {abi: records[abi][name].type for abi in ABIS}
def struct_needs_conversion_nocache(struct):
name = canonical_typename(struct)
if name in EXEMPT_STRUCTS:
return False
if name in MANUAL_STRUCTS:
return True
abis = find_struct_abis(name)
if abis is None:
return False
names = {a: [f.spelling for f in abis[a].get_fields()]
for a in ABIS}
assert names['u32'] == names['u64']
assert names['u32'] == names['w32']
assert names['u32'] == names['w64']
offsets = {a: {f: abis[a].get_offset(f) for f in names[a]}
for a in ABIS}
if offsets['u32'] != offsets['w32']:
return True
if offsets['u64'] != offsets['w64']:
return True
types = {a: [f.type.get_canonical() for f in abis[a].get_fields()]
for a in ABIS}
if any(t.kind == TypeKind.RECORD and struct_needs_conversion(t)
for t in types['u32']):
return True
if any(t.kind == TypeKind.RECORD and struct_needs_conversion(t)
for t in types['u64']):
return True
if get_path_converter(struct):
return True
return False
def struct_needs_conversion(struct):
name = canonical_typename(struct)
if not sdkver in struct_conversion_cache:
struct_conversion_cache[sdkver] = {}
if not name in struct_conversion_cache[sdkver]:
struct_conversion_cache[sdkver][name] = struct_needs_conversion_nocache(struct)
return struct_conversion_cache[sdkver][name]
def get_path_converter(parent):
for conv in PATH_CONV:
if conv["parent_name"] in parent.spelling:
if None in conv["l2w_names"]:
return conv
if type(parent) == Type:
children = list(parent.get_fields())
else:
children = list(parent.get_children())
for child in children:
if child.spelling in conv["w2l_names"] or \
child.spelling in conv["l2w_names"]:
return conv
return None
def underlying_type(decl):
if type(decl) is Cursor:
decl = decl.type
if decl.kind == TypeKind.LVALUEREFERENCE: return underlying_type(decl.get_pointee())
if decl.kind == TypeKind.CONSTANTARRAY: return underlying_type(decl.element_type)
if decl.kind == TypeKind.POINTER: return underlying_type(decl.get_pointee())
return decl
def param_needs_conversion(decl):
decl = underlying_type(decl)
return decl.spelling not in WRAPPED_CLASSES and \
decl.kind == TypeKind.RECORD and \
struct_needs_conversion(decl)
def declspec(decl, name):
if type(decl) is Cursor:
decl = decl.type
const = 'const ' if decl.is_const_qualified() else ''
if decl.kind in (TypeKind.POINTER, TypeKind.LVALUEREFERENCE):
decl = decl.get_pointee()
return declspec(decl, f"*{const}{name}")
if decl.kind == TypeKind.CONSTANTARRAY:
decl, count = decl.element_type, decl.element_count
return declspec(decl, f"({const}{name})[{count}]")
if len(name):
name = f' {name}'
if decl.kind in (TypeKind.UNEXPOSED, TypeKind.FUNCTIONPROTO):
return f'void{name}'
if decl.kind == TypeKind.ENUM:
return f'{decl.spelling.split("::")[-1]}{name}'
if param_needs_conversion(decl):
return f"win{decl.spelling}_{sdkver}{name}"
if decl.spelling.startswith('const '):
const, type_name = 'const ', decl.spelling[6:]
else:
const, type_name = '', decl.spelling
if type_name.startswith('ISteam'):
return f'{const}void /*{type_name}*/{name}'
return f'{decl.spelling}{name}'
def handle_method_hpp(method, cppname, out):
ret = f'{declspec(method.result_type, "")} '
params = [declspec(p, "") for p in method.get_arguments()]
params = ['void *'] + params
out(f'extern {ret}{cppname}_{method.name}({", ".join(params)});\n')
def handle_method_cpp(method, classname, cppname, out):
returns_void = method.result_type.kind == TypeKind.VOID
ret = f'{declspec(method.result_type, "")} '
names = [p.spelling if p.spelling != "" else f'_{chr(0x61 + i)}'
for i, p in enumerate(method.get_arguments())]
params = [declspec(p, names[i]) for i, p in enumerate(method.get_arguments())]
need_convert = {n: p for n, p in zip(names, method.get_arguments())
if param_needs_conversion(p)}
manual_convert = {n: p for n, p in zip(names, method.get_arguments())
if underlying_type(p).spelling in MANUAL_TYPES
or p.spelling in MANUAL_PARAMS}
names = ['linux_side'] + names
params = ['void *linux_side'] + params
out(f'{ret}{cppname}_{method.name}({", ".join(params)})\n')
out(u'{\n')
if not returns_void:
out(f' {declspec(method.result_type, "_ret")};\n')
for name, param in sorted(need_convert.items()):
if param.type.kind == TypeKind.POINTER:
#handle single pointers, but not double pointers
real_type = param.type
while real_type.kind == TypeKind.POINTER:
real_type = real_type.get_pointee()
real_name = canonical_typename(real_type)
assert(param.type.get_pointee().kind == TypeKind.RECORD or real_name in MANUAL_STRUCTS)
pointee_name = canonical_typename(param.type.get_pointee())
out(f' {pointee_name} lin_{name};\n')
out(f' win_to_lin_struct_{real_name}_{sdkver}({name}, &lin_{name});\n')
else:
#raw structs
out(f' {param.type.spelling} lin_{name};\n')
out(f' win_to_lin_struct_{param.type.spelling}_{sdkver}(&{name}, &lin_{name});\n')
for name, param in sorted(manual_convert.items()):
if name in MANUAL_PARAMS:
out(f' {name} = manual_convert_{name}({name});\n')
else:
out(f' {name} = ({param.type.spelling})manual_convert_{param.type.spelling}((void*){name});\n')
if returns_void:
out(u' ')
else:
out(u' _ret = ')
def param_call(name, param):
pfx = '&' if param.type.kind == TypeKind.POINTER else ''
if name in need_convert: return f"{pfx}lin_{name}"
if param.type.kind == TypeKind.LVALUEREFERENCE: return f'*{name}'
return f"({param.type.spelling}){name}"
params = [param_call(n, p) for n, p in zip(names[1:], method.get_arguments())]
out(f'(({classname}*)linux_side)->{method.spelling}({", ".join(params)});\n')
for name, param in sorted(need_convert.items()):
if param.type.kind == TypeKind.POINTER:
if not "const " in param.type.spelling: #don't modify const arguments
real_type = param.type
while real_type.kind == TypeKind.POINTER:
real_type = real_type.get_pointee()
out(f' lin_to_win_struct_{real_type.spelling}_{sdkver}(&lin_{name}, {name});\n')
else:
out(f' lin_to_win_struct_{param.type.spelling}_{sdkver}(&lin_{name}, &{name});\n')
if method.result_type.kind != TypeKind.VOID:
post_exec = post_execution_function(classname, method.spelling)
out(f' return {post_exec}(_ret);\n')
out(u'}\n\n')
def handle_thiscall_wrapper(klass, method, out):
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
def param_stack_size(param):
if param.type.kind == TypeKind.LVALUEREFERENCE: return 4
return ((param.type.get_size() + 3) // 4) * 4
size = 4 + sum(param_stack_size(p) for p in method.get_arguments())
if returns_record: size += 4
name = f'win{klass.spelling}_{klass.version}_{method.name}'
out(f'DEFINE_THISCALL_WRAPPER({name}, {size})\n')
def handle_method_c(method, winclassname, cppname, out):
returns_void = method.result_type.kind == TypeKind.VOID
returns_record = method.result_type.get_canonical().kind == TypeKind.RECORD
ret = "*" if returns_record else ""
ret = f'{declspec(method.result_type, ret)} '
names = [p.spelling if p.spelling != "" else f'_{chr(0x61 + i)}'
for i, p in enumerate(method.get_arguments())]
params = [declspec(p, names[i]) for i, p in enumerate(method.get_arguments())]
if returns_record:
params = [f'{declspec(method.result_type, "*_ret")}'] + params
names = ['_ret'] + names
params = ['struct w_steam_iface *_this'] + params
names = ['_this'] + names
out(f'{ret}__thiscall {winclassname}_{method.name}({", ".join(params)})\n')
out(u'{\n')
if returns_record:
del params[1]
del names[1]
if not returns_record and not returns_void:
out(f' {ret}_ret;\n')
should_gen_callback = "GetAPICallResult" in method.name
if should_gen_callback:
out(u' int u_callback_len = cubCallback, w_callback_len = cubCallback;\n')
out(u' void *u_callback, *w_callback = pCallback;\n')
path_conv = get_path_converter(method)
if path_conv:
for i in range(len(path_conv["w2l_names"])):
if path_conv["w2l_arrays"][i]:
out(f' const char **lin_{path_conv["w2l_names"][i]} = steamclient_dos_to_unix_stringlist({path_conv["w2l_names"][i]});\n')
# TODO
pass
else:
out(f' char lin_{path_conv["w2l_names"][i]}[PATH_MAX];\n')
out(f' steamclient_dos_path_to_unix_path({path_conv["w2l_names"][i]}, lin_{path_conv["w2l_names"][i]}, {int(path_conv["w2l_urls"][i])});\n')
out(u' TRACE("%p\\n", _this);\n')
if should_gen_callback:
out(u' if (!(u_callback = alloc_callback_wtou(iCallbackExpected, w_callback, &u_callback_len))) return FALSE;\n')
out(u' cubCallback = u_callback_len;\n')
out(u' pCallback = u_callback;\n\n')
if returns_record:
out(u' *_ret = ')
elif not returns_void:
out(u' _ret = ')
else:
out(u' ')
should_gen_wrapper = not method_needs_manual_handling(cppname, method.name) and \
(method.result_type.spelling.startswith("ISteam") or \
method.name.startswith("GetISteamGenericInterface"))
if should_gen_wrapper:
out(u'create_win_interface(pchVersion,\n ')
out(f'{cppname}_{method.name}(')
def param_call(param, name):
if name == '_this': return '_this->u_iface'
iface = param.type.get_pointee().spelling if param.type.kind == TypeKind.POINTER else None
if iface in WRAPPED_CLASSES: return f'create_Linux{iface}({name}, "{winclassname}")'
if path_conv and name in path_conv["w2l_names"]: return f'{name} ? lin_{name} : NULL'
return name
params = ['_this'] + list(method.get_arguments())
out(", ".join([param_call(p, n) for p, n in zip(params, names)]))
if should_gen_wrapper:
out(u')')
out(u');\n')
if should_gen_callback:
out(u' if (_ret && u_callback != w_callback)\n')
out(u' {\n')
out(u' convert_callback_utow(iCallbackExpected, u_callback, u_callback_len, w_callback, w_callback_len);\n')
out(u' HeapFree(GetProcessHeap(), 0, u_callback);\n')
out(u' }\n\n')
if path_conv and len(path_conv["l2w_names"]) > 0:
for i in range(len(path_conv["l2w_names"])):
out(u' ')
if path_conv["return_is_size"]:
out(u'_ret = ')
out(f'steamclient_unix_path_to_dos_path(_ret, {path_conv["l2w_names"][i]}, {path_conv["l2w_names"][i]}, {path_conv["l2w_lens"][i]}, {int(path_conv["l2w_urls"][i])});\n')
if path_conv:
for i in range(len(path_conv["w2l_names"])):
if path_conv["w2l_arrays"][i]:
out(f' steamclient_free_stringlist(lin_{path_conv["w2l_names"][i]});\n')
if not returns_void:
out(u' return _ret;\n')
out(u'}\n\n')
def handle_class(klass):
cppname = f"cpp{klass.spelling}_{klass.version}"
with open(f"{cppname}.h", "w") as file:
out = file.write
for method in klass.methods:
if type(method) is Destructor:
continue
handle_method_hpp(method, cppname, out)
with open(f"{cppname}.cpp", "w") as file:
out = file.write
out(u'#include "steam_defs.h"\n')
out(u'#pragma push_macro("__cdecl")\n')
out(u'#undef __cdecl\n')
out(u'#define __cdecl\n')
out(f'#include "steamworks_sdk_{klass._sdkver}/steam_api.h"\n')
if os.path.isfile(f"steamworks_sdk_{klass._sdkver}/steamnetworkingtypes.h"):
out(f'#include "steamworks_sdk_{klass._sdkver}/steamnetworkingtypes.h"\n')
if klass.filename != "steam_api.h":
out(f'#include "steamworks_sdk_{klass._sdkver}/{klass.filename}"\n')
out(u'#pragma pop_macro("__cdecl")\n')
out(u'#include "steamclient_private.h"\n')
out(u'#ifdef __cplusplus\n')
out(u'extern "C" {\n')
out(u'#endif\n')
out(f'#define SDKVER_{klass._sdkver}\n')
out(u'#include "struct_converters.h"\n')
out(f'#include "{cppname}.h"\n')
for method in klass.methods:
if type(method) is Destructor:
continue
if method_needs_manual_handling(cppname, method.spelling):
continue
handle_method_cpp(method, klass.spelling, cppname, out)
out(u'#ifdef __cplusplus\n')
out(u'}\n')
out(u'#endif\n')
winclassname = f"win{klass.spelling}_{klass.version}"
with open(f"win{klass.spelling}.c", "a") as file:
out = file.write
out(f'#include "{cppname}.h"\n')
out(u'\n')
for method in klass.methods:
handle_thiscall_wrapper(klass, method, out)
out('\n')
for method in klass.methods:
if type(method) is Destructor:
out(f'void __thiscall {winclassname}_{method.name}(struct w_steam_iface *_this)\n{{/* never called */}}\n\n')
else:
handle_method_c(method, winclassname, cppname, out)
out(f'extern vtable_ptr {winclassname}_vtable;\n')
out(u'\n')
out(u'#ifndef __GNUC__\n')
out(u'void __asm_dummy_vtables(void) {\n')
out(u'#endif\n')
out(f' __ASM_VTABLE({winclassname},\n')
for method in sorted(klass.methods, key=lambda x: (x._index, -x._override)):
out(f' VTABLE_ADD_FUNC({winclassname}_{method.name})\n')
out(u' );\n')
out(u'#ifndef __GNUC__\n')
out(u'}\n')
out(u'#endif\n')
out(u'\n')
out(f'struct w_steam_iface *create_{winclassname}(void *u_iface)\n')
out(u'{\n')
if klass.spelling in WRAPPED_CLASSES:
out(u' struct w_steam_iface *r = HeapAlloc(GetProcessHeap(), 0, sizeof(struct w_steam_iface));\n')
else:
out(f' struct w_steam_iface *r = alloc_mem_for_iface(sizeof(struct w_steam_iface), "{klass.version}");\n')
out(u' TRACE("-> %p\\n", r);\n')
out(f' r->vtable = alloc_vtable(&{winclassname}_vtable, {len(klass.methods)}, "{klass.version}");\n')
out(u' r->u_iface = u_iface;\n')
out(u' return r;\n')
out(u'}\n\n')
constructors = open("win_constructors.h", "a")
constructors.write(f"extern struct w_steam_iface *create_{winclassname}(void *);\n")
constructors = open("win_constructors_table.dat", "a")
for alias in VERSION_ALIASES.get(klass.version, []):
constructors.write(f" {{\"{alias}\", &create_{winclassname}}}, /* alias */\n")
constructors.write(f" {{\"{klass.version}\", &create_{winclassname}}},\n")
generated_cb_handlers = []
generated_cb_ids = []
cpp_files_need_close_brace = []
cb_table = {}
cb_table64 = {}
def get_field_attribute_str(field):
if field.type.kind != TypeKind.RECORD: return ""
name = canonical_typename(field)
return f" __attribute__((aligned({find_struct_abis(name)['w32'].get_align()})))"
#because of struct packing differences between win32 and linux, we
#need to convert these structs from their linux layout to the win32
#layout.
def handle_struct(sdkver, struct):
members = struct.get_children()
cb_num = None
has_fields = False
for c in members:
if c.kind == CursorKind.ENUM_DECL:
enums = c.get_children()
for e in enums:
if e.displayname == "k_iCallback":
cb_num = e.enum_value
if c.kind == CursorKind.FIELD_DECL:
has_fields = True
w2l_handler_name = None
l2w_handler_name = None
def dump_win_struct(to_file, name):
to_file.write("#pragma pack( push, 8 )\n")
to_file.write(f"struct win{name} {{\n")
for m in struct.get_children():
if m.kind == CursorKind.FIELD_DECL:
if m.type.kind == TypeKind.CONSTANTARRAY:
to_file.write(f" {m.type.element_type.spelling} {m.displayname}[{m.type.element_count}];\n")
elif m.type.kind == TypeKind.RECORD and \
struct_needs_conversion(m.type):
to_file.write(f" win{m.type.spelling}_{sdkver} {m.displayname};\n")
else:
if m.type.kind == TypeKind.POINTER and \
(m.type.get_pointee().kind == TypeKind.UNEXPOSED or m.type.get_pointee().kind == TypeKind.FUNCTIONPROTO):
to_file.write(f" void *{m.displayname}; /*fn pointer*/\n")
else:
to_file.write(f" {m.type.spelling} {m.displayname}{get_field_attribute_str(m)};\n")
to_file.write("} __attribute__ ((ms_struct));\n")
to_file.write("#pragma pack( pop )\n")
if cb_num is None:
hfile = open("struct_converters.h", "a")
if not has_fields:
return
if struct.spelling == "":
return
if not struct_needs_conversion(struct.type):
return
struct_name = f"{struct.displayname}_{sdkver}"
if struct_name in converted_structs:
return
converted_structs.append(struct_name)
w2l_handler_name = f"win_to_lin_struct_{struct_name}"
l2w_handler_name = f"lin_to_win_struct_{struct_name}"
l2w_handler_name64 = None
hfile.write(f"#if defined(SDKVER_{sdkver}) || !defined(__cplusplus)\n")
dump_win_struct(hfile, struct_name)
hfile.write(f"typedef struct win{struct_name} win{struct_name};\n")
hfile.write(f"struct {struct.displayname};\n")
if canonical_typename(struct) in MANUAL_STRUCTS:
hfile.write("#endif\n\n")
return
hfile.write(f"extern void {w2l_handler_name}(const struct win{struct_name} *w, struct {struct.displayname} *l);\n")
hfile.write(f"extern void {l2w_handler_name}(const struct {struct.displayname} *l, struct win{struct_name} *w);\n")
hfile.write("#endif\n\n")
else:
#for callbacks, we use the windows struct size in the cb dispatch switch
name = canonical_typename(struct)
abis = find_struct_abis(name)
size = {a: abis[a].get_size() for a in abis.keys()}
struct_name = f"{struct.displayname}_{size['w32']}"
l2w_handler_name = f"cb_{struct_name}"
if size['w64'] != size['w32']:
struct_name64 = f"{struct.displayname}_{size['w64']}"
l2w_handler_name64 = f"cb_{struct_name64}"
else:
l2w_handler_name64 = None
if l2w_handler_name in generated_cb_handlers:
# we already have a handler for the callback struct of this size
return
if not struct_needs_conversion(struct.type):
return
cb_id = cb_num | (size['u32'] << 16)
cb_id64 = cb_num | (size['u64'] << 16)
if cb_id in generated_cb_ids:
# either this cb changed name, or steam used the same ID for different structs
return
generated_cb_ids.append(cb_id)
datfile = open("cb_converters.dat", "a")
if l2w_handler_name64:
datfile.write("#ifdef __i386__\n")
datfile.write(f"case 0x{cb_id:08x}: win_msg->m_cubParam = {size['w32']}; win_msg->m_pubParam = HeapAlloc(GetProcessHeap(), 0, win_msg->m_cubParam); {l2w_handler_name}((void*)lin_msg.m_pubParam, (void*)win_msg->m_pubParam); break;\n")
datfile.write("#endif\n")
datfile.write("#ifdef __x86_64__\n")
datfile.write(f"case 0x{cb_id64:08x}: win_msg->m_cubParam = {size['w64']}; win_msg->m_pubParam = HeapAlloc(GetProcessHeap(), 0, win_msg->m_cubParam); {l2w_handler_name64}((void*)lin_msg.m_pubParam, (void*)win_msg->m_pubParam); break;\n")
datfile.write("#endif\n")
else:
datfile.write(f"case 0x{cb_id:08x}: win_msg->m_cubParam = {size['w32']}; win_msg->m_pubParam = HeapAlloc(GetProcessHeap(), 0, win_msg->m_cubParam); {l2w_handler_name}((void*)lin_msg.m_pubParam, (void*)win_msg->m_pubParam); break;\n")
generated_cb_handlers.append(l2w_handler_name)
if not cb_num in cb_table.keys():
# latest SDK linux size, list of windows struct sizes and names
cb_table[cb_num] = (size['u32'], [])
if l2w_handler_name64:
cb_table64[cb_num] = (size['u64'], [])
else:
cb_table64[cb_num] = (size['u32'], [])
cb_table[cb_num][1].append((size['w32'], struct_name))
if l2w_handler_name64:
cb_table64[cb_num][1].append((size['w64'], struct_name64))
else:
cb_table64[cb_num][1].append((size['w32'], struct_name))
hfile = open("cb_converters.h", "a")
hfile.write(f"struct {struct.displayname};\n")
if l2w_handler_name64:
hfile.write("#ifdef __i386__\n")
hfile.write(f"struct win{struct_name};\n")
hfile.write(f"extern void {l2w_handler_name}(const struct {struct.displayname} *l, struct win{struct_name} *w);\n")
hfile.write("#endif\n")
hfile.write("#ifdef __x86_64__\n")
hfile.write(f"struct win{struct_name64};\n")
hfile.write(f"extern void {l2w_handler_name64}(const struct {struct.displayname} *l, struct win{struct_name64} *w);\n")
hfile.write("#endif\n\n")
else:
hfile.write(f"struct win{struct_name};\n")
hfile.write(f"extern void {l2w_handler_name}(const struct {struct.displayname} *l, struct win{struct_name} *w);\n\n")
cppname = f"struct_converters_{sdkver}.cpp"
file_exists = os.path.isfile(cppname)
cppfile = open(cppname, "a")
if not file_exists:
cppfile.write("#include \"steam_defs.h\"\n")
cppfile.write("#pragma push_macro(\"__cdecl\")\n")
cppfile.write("#undef __cdecl\n")
cppfile.write("#define __cdecl\n")
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/steam_api.h\"\n")
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/isteamgameserver.h\"\n")
if os.path.isfile(f"steamworks_sdk_{sdkver}/isteamnetworkingsockets.h"):
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/isteamnetworkingsockets.h\"\n")
if os.path.isfile(f"steamworks_sdk_{sdkver}/isteamgameserverstats.h"):
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/isteamgameserverstats.h\"\n")
if os.path.isfile(f"steamworks_sdk_{sdkver}/isteamgamecoordinator.h"):
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/isteamgamecoordinator.h\"\n")
if os.path.isfile(f"steamworks_sdk_{sdkver}/steamnetworkingtypes.h"):
cppfile.write(f"#include \"steamworks_sdk_{sdkver}/steamnetworkingtypes.h\"\n")
cppfile.write("#pragma pop_macro(\"__cdecl\")\n")
cppfile.write("#include \"steamclient_private.h\"\n")
cppfile.write("extern \"C\" {\n")
cppfile.write(f"#define SDKVER_{sdkver}\n")
cppfile.write("#include \"struct_converters.h\"\n")
cpp_files_need_close_brace.append(cppname)
path_conv = get_path_converter(struct.type)
def handle_field(m, src, dst):
if m.kind == CursorKind.FIELD_DECL:
if m.type.kind == TypeKind.CONSTANTARRAY:
assert(m.type.element_type.kind != TypeKind.RECORD or \
not struct_needs_conversion(m.type.element_type))
cppfile.write(f" memcpy({dst}->{m.displayname}, {src}->{m.displayname}, sizeof({dst}->{m.displayname}));\n")
elif m.type.kind == TypeKind.RECORD and \
struct_needs_conversion(m.type):
cppfile.write(f" {src}_to_{dst}_struct_{m.type.spelling}_{sdkver}(&{src}->{m.displayname}, &{dst}->{m.displayname});\n")
elif path_conv and m.displayname in path_conv["l2w_names"]:
for i in range(len(path_conv["l2w_names"])):
if path_conv["l2w_names"][i] == m.displayname:
url = path_conv["l2w_urls"][i]
break
cppfile.write(f" steamclient_unix_path_to_dos_path(1, {src}->{m.displayname}, g_tmppath, sizeof(g_tmppath), {int(url)});\n")
cppfile.write(f" {dst}->{m.displayname} = g_tmppath;\n")
else:
cppfile.write(f" {dst}->{m.displayname} = {src}->{m.displayname};\n")
if not cb_num is None:
if l2w_handler_name64:
cppfile.write("#ifdef __i386__\n")
dump_win_struct(cppfile, struct_name)
cppfile.write("#endif\n")
cppfile.write("#ifdef __x86_64__\n")
dump_win_struct(cppfile, struct_name64)
cppfile.write("#endif\n")
else:
dump_win_struct(cppfile, struct_name)
if w2l_handler_name:
cppfile.write(f"void {w2l_handler_name}(const struct win{struct_name} *win, struct {struct.displayname} *lin)\n{{\n")
for m in struct.get_children():
handle_field(m, "win", "lin")
cppfile.write("}\n\n")
if l2w_handler_name64:
cppfile.write("#ifdef __x86_64__\n")
cppfile.write(f"void {l2w_handler_name64}(const struct {struct.displayname} *lin, struct win{struct_name64} *win)\n{{\n")
for m in struct.get_children():
handle_field(m, "lin", "win")
cppfile.write("}\n")
cppfile.write("#endif\n\n")
if l2w_handler_name:
if l2w_handler_name64:
cppfile.write("#ifdef __i386__\n")
cppfile.write(f"void {l2w_handler_name}(const struct {struct.displayname} *lin, struct win{struct_name} *win)\n{{\n")
for m in struct.get_children():
handle_field(m, "lin", "win")
cppfile.write("}\n")
if l2w_handler_name64:
cppfile.write("#endif\n\n")
else:
cppfile.write("\n")
def parse(sources, sdkver, abi):
args = [f'-m{abi[1:]}', '-I' + CLANG_PATH + '/include/']
if abi[0] == 'w':
args += ["-D_WIN32", "-U__linux__"]
args += ["-fms-extensions", "-mms-bitfields"]
args += ["-Wno-ignored-attributes", "-Wno-incompatible-ms-struct"]
if abi[0] == 'u':
args += ["-DGNUC"]
index = Index.create()
build = index.parse("source.cpp", args=args, unsaved_files=sources.items())
diagnostics = list(build.diagnostics)
for diag in diagnostics: print(diag)
assert len(diagnostics) == 0
return sdkver, abi, build
def load(sdkver):
sdkdir = f"steamworks_sdk_{sdkver}"
sources = {}
versions = {}
for file in os.listdir(sdkdir):
# Some files from Valve have non-UTF-8 stuff in the comments
# (typically the copyright symbol); therefore we ignore UTF-8
# encoding errors
lines = open(f"{sdkdir}/{file}", "r", errors="replace").readlines()
if """#error "This file isn't used any more"\n""" in lines:
sources[f"{sdkdir}/{file}"] = ""
results = (DEFINE_INTERFACE_VERSION.match(l) for l in lines)
for result in (r.groupdict() for r in results if r):
name, version = result['name'], result['version']
name = name.replace('_INTERFACE_VERSION', '')
name = name.replace('_VERSION', '')
versions[name] = version
source = [f'#if __has_include("{sdkdir}/{file}")\n'
f'#include "{sdkdir}/{file}"\n'
f'#endif\n'
for file in SDK_SOURCES.keys()]
sources["source.cpp"] = "\n".join(source)
return versions, sources
def generate(sdkver, records):
print(f'generating SDK version {sdkver}...')
for child in records['u32'].values():
handle_struct(sdkver, child)
for i, sdkver in enumerate(SDK_VERSIONS):
print(f'loading SDKs... {i * 100 // len(SDK_VERSIONS)}%', end='\r')
all_versions[sdkver], all_sources[sdkver] = load(sdkver)
print('loading SDKs... 100%')
tmp_classes = {}
with concurrent.futures.ThreadPoolExecutor() as executor:
arg0 = [sdkver for sdkver in SDK_VERSIONS for abi in ABIS]
arg1 = [abi for sdkver in SDK_VERSIONS for abi in ABIS]
def parse_map(sdkver, abi):
return parse(all_sources[sdkver], sdkver, abi)
results = executor.map(parse_map, arg0, arg1)
for i, result in enumerate(results):
print(f'parsing SDKs... {i * 100 // len(arg0)}%', end='\r')
sdkver, abi, build = result
if sdkver not in all_records: all_records[sdkver] = {}
if sdkver not in tmp_classes: tmp_classes[sdkver] = {}
versions = all_versions[sdkver]
records = build.cursor.get_children()
record_kinds = (CursorKind.STRUCT_DECL, CursorKind.CLASS_DECL)
records = filter(lambda c: c.kind in record_kinds, records)
records = {canonical_typename(c): c for c in records}
classes = build.cursor.get_children()
classes = filter(lambda c: c.is_definition(), classes)
classes = filter(lambda c: c.kind == CursorKind.CLASS_DECL, classes)
classes = filter(lambda c: c.spelling in SDK_CLASSES, classes)
classes = filter(lambda c: c.spelling[1:].upper() in versions, classes)
classes = [Class(sdkver, abi, c) for c in classes]
classes = {c.version: c for c in classes}
all_records[sdkver][abi] = records
tmp_classes[sdkver][abi] = classes
for i, sdkver in enumerate(reversed(SDK_VERSIONS)):
all_classes.update(tmp_classes[sdkver]['u32'])
print('parsing SDKs... 100%')
for klass in all_classes.values():
with open(f"win{klass.spelling}.c", "w") as file:
out = file.write
out(u'/* This file is auto-generated, do not edit. */\n')
out(u'#include <stdarg.h>\n')
out(u'\n')
out(u'#include "windef.h"\n')
out(u'#include "winbase.h"\n')
out(u'#include "wine/debug.h"\n')
out(u'\n')
out(u'#include "steam_defs.h"\n')
out(u'\n')
out(u'#include "steamclient_private.h"\n')
out(u'\n')
out(u'#include "struct_converters.h"\n')
out(u'\n')
out(u'WINE_DEFAULT_DEBUG_CHANNEL(steamclient);\n')
out(u'\n')
for _, klass in sorted(all_classes.items()):
sdkver = klass._sdkver
handle_class(klass)
for sdkver in SDK_VERSIONS:
generate(sdkver, all_records[sdkver])
for f in cpp_files_need_close_brace:
m = open(f, "a")
m.write("\n}\n")
getapifile = open("cb_getapi_table.dat", "w")
cbsizefile = open("cb_getapi_sizes.dat", "w")
cbsizefile.write("#ifdef __i386__\n")
getapifile.write("#ifdef __i386__\n")
for cb in sorted(cb_table.keys()):
cbsizefile.write(f"case {cb}: /* {cb_table[cb][1][0][1]} */\n")
cbsizefile.write(f" return {cb_table[cb][0]};\n")
getapifile.write(f"case {cb}:\n")
getapifile.write(" switch(callback_len){\n")
getapifile.write(" default:\n") # the first one should be the latest, should best support future SDK versions
for (size, name) in cb_table[cb][1]:
getapifile.write(f" case {size}: cb_{name}(lin_callback, callback); break;\n")
getapifile.write(" }\n break;\n")
cbsizefile.write("#endif\n")
getapifile.write("#endif\n")
cbsizefile.write("#ifdef __x86_64__\n")
getapifile.write("#ifdef __x86_64__\n")
for cb in sorted(cb_table64.keys()):
cbsizefile.write(f"case {cb}: /* {cb_table64[cb][1][0][1]} */\n")
cbsizefile.write(f" return {cb_table64[cb][0]};\n")
getapifile.write(f"case {cb}:\n")
getapifile.write(" switch(callback_len){\n")
getapifile.write(" default:\n") # the first one should be the latest, should best support future SDK versions
for (size, name) in cb_table64[cb][1]:
getapifile.write(f" case {size}: cb_{name}(lin_callback, callback); break;\n")
getapifile.write(" }\n break;\n")
cbsizefile.write("#endif\n")
getapifile.write("#endif\n")