This commit is contained in:
恍兮惚兮 2024-07-21 21:07:05 +08:00
parent b0b1fe4417
commit 7324cf4229
10 changed files with 663 additions and 522 deletions

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@ -4,11 +4,25 @@
// 8/23/2013 jichi // 8/23/2013 jichi
// Branch: ITH/common.h, rev 128 // Branch: ITH/common.h, rev 128
enum { STRING = 12, MESSAGE_SIZE = 500, PIPE_BUFFER_SIZE = 50000, SHIFT_JIS = 932, MAX_MODULE_SIZE = 120, PATTERN_SIZE = 30, HOOK_NAME_SIZE = 60, FIXED_SPLIT_VALUE = 0x10001 , enum
HOOKCODE_LEN=500}; {
enum WildcardByte { XX = 0x11 }; STRING = 12,
MESSAGE_SIZE = 500,
PIPE_BUFFER_SIZE = 50000,
SHIFT_JIS = 932,
MAX_MODULE_SIZE = 120,
PATTERN_SIZE = 30,
HOOK_NAME_SIZE = 60,
FIXED_SPLIT_VALUE = 0x10001,
HOOKCODE_LEN = 500
};
enum WildcardByte
{
XX = 0x11
};
enum HostCommandType { enum HostCommandType
{
HOST_COMMAND_NEW_HOOK, HOST_COMMAND_NEW_HOOK,
HOST_COMMAND_REMOVE_HOOK, HOST_COMMAND_REMOVE_HOOK,
HOST_COMMAND_FIND_HOOK, HOST_COMMAND_FIND_HOOK,
@ -17,7 +31,8 @@ enum HostCommandType {
HOST_COMMAND_DETACH HOST_COMMAND_DETACH
}; };
enum HostNotificationType { enum HostNotificationType
{
HOST_NOTIFICATION_TEXT, HOST_NOTIFICATION_TEXT,
HOST_NOTIFICATION_NEWHOOK, HOST_NOTIFICATION_NEWHOOK,
HOST_NOTIFICATION_FOUND_HOOK, HOST_NOTIFICATION_FOUND_HOOK,
@ -25,61 +40,60 @@ enum HostNotificationType {
HOST_NOTIFICATION_INSERTING_HOOK, HOST_NOTIFICATION_INSERTING_HOOK,
HOST_SETTEXTTHREADTYPE HOST_SETTEXTTHREADTYPE
}; };
#define NEXT_MASK(x) \ #define NEXT_MASK(x) \
DUMMY1_##x, \ DUMMY1_##x, \
x = (1U << (DUMMY1_##x)), \ x = (1U << (DUMMY1_##x)), \
DUMMY2_##x = DUMMY1_##x DUMMY2_##x = DUMMY1_##x
#define DECLARE_VALUE( x,v) \ #define DECLARE_VALUE(x, v) \
DUMMY1_##x,\ DUMMY1_##x, \
x=v,\ x = v, \
DUMMY2_##x=DUMMY1_##x-1 DUMMY2_##x = DUMMY1_##x - 1
enum HookParamType : uint64_t enum HookParamType : uint64_t
{ {
//默认为CODEC_ANSI_LE&USING_CHAR // 默认为CODEC_ANSI_LE&USING_CHAR
//若使用了text_fun|hook_before会改为默认USING_STRING这时若其实是USING_CHAR需标明USING_STRING // 若使用了text_fun|hook_before会改为默认USING_STRING这时若其实是USING_CHAR需标明USING_STRING
DECLARE_VALUE(CODEC_ANSI_LE,0), DECLARE_VALUE(CODEC_ANSI_LE, 0),
NEXT_MASK(CODEC_ANSI_BE), NEXT_MASK(CODEC_ANSI_BE),
NEXT_MASK(CODEC_UTF8), NEXT_MASK(CODEC_UTF8),
NEXT_MASK(CODEC_UTF16), NEXT_MASK(CODEC_UTF16),
NEXT_MASK(CODEC_UTF32), NEXT_MASK(CODEC_UTF32),
NEXT_MASK(USING_CHAR),//text_fun!=nullptr && (CODE_ANSI_BE||CODE_UTF16) NEXT_MASK(USING_CHAR), // text_fun!=nullptr && (CODE_ANSI_BE||CODE_UTF16)
NEXT_MASK(USING_STRING), NEXT_MASK(USING_STRING),
NEXT_MASK(SPECIAL_JIT_STRING), NEXT_MASK(SPECIAL_JIT_STRING),
NEXT_MASK(FULL_STRING), NEXT_MASK(FULL_STRING),
NEXT_MASK(DATA_INDIRECT), NEXT_MASK(DATA_INDIRECT),
NEXT_MASK(USING_SPLIT), // use ctx2 or not NEXT_MASK(USING_SPLIT), // use ctx2 or not
NEXT_MASK(SPLIT_INDIRECT), NEXT_MASK(SPLIT_INDIRECT),
NEXT_MASK(FIXING_SPLIT), NEXT_MASK(FIXING_SPLIT),
NEXT_MASK(NO_CONTEXT), NEXT_MASK(NO_CONTEXT),
NEXT_MASK(MODULE_OFFSET), // address is relative to module NEXT_MASK(MODULE_OFFSET), // address is relative to module
NEXT_MASK(FUNCTION_OFFSET), // address is relative to function NEXT_MASK(FUNCTION_OFFSET), // address is relative to function
NEXT_MASK(KNOWN_UNSTABLE), NEXT_MASK(KNOWN_UNSTABLE),
NEXT_MASK(EMBED_ABLE), NEXT_MASK(EMBED_ABLE),
NEXT_MASK(EMBED_DYNA_SJIS), NEXT_MASK(EMBED_DYNA_SJIS),
NEXT_MASK(EMBED_BEFORE_SIMPLE), NEXT_MASK(EMBED_BEFORE_SIMPLE),
NEXT_MASK(EMBED_AFTER_NEW), NEXT_MASK(EMBED_AFTER_NEW),
NEXT_MASK(EMBED_AFTER_OVERWRITE), NEXT_MASK(EMBED_AFTER_OVERWRITE),
NEXT_MASK(EMBED_CODEC_UTF16), NEXT_MASK(EMBED_CODEC_UTF16),
DECLARE_VALUE(NORMAL_INLINEHOOK,0), DECLARE_VALUE(NORMAL_INLINEHOOK, 0),
NEXT_MASK(BREAK_POINT), NEXT_MASK(BREAK_POINT),
NEXT_MASK(DIRECT_READ), // /R read code instead of classic /H hook code NEXT_MASK(DIRECT_READ), // /R read code instead of classic /H hook code
NEXT_MASK(HOOK_RETURN), NEXT_MASK(HOOK_RETURN),
NEXT_MASK(HOOK_EMPTY), NEXT_MASK(HOOK_EMPTY),
}; };
enum HookFontType : unsigned enum HookFontType : unsigned
{ {
DECLARE_VALUE(NOT_HOOK_FONT,0), DECLARE_VALUE(NOT_HOOK_FONT, 0),
NEXT_MASK(F_CreateFontA), NEXT_MASK(F_CreateFontA),
NEXT_MASK(F_CreateFontW), NEXT_MASK(F_CreateFontW),
NEXT_MASK(F_CreateFontIndirectA), NEXT_MASK(F_CreateFontIndirectA),
@ -90,8 +104,8 @@ enum HookFontType : unsigned
NEXT_MASK(F_GetTextExtentPoint32W), NEXT_MASK(F_GetTextExtentPoint32W),
NEXT_MASK(F_GetTextExtentExPointA), NEXT_MASK(F_GetTextExtentExPointA),
NEXT_MASK(F_GetTextExtentExPointW), NEXT_MASK(F_GetTextExtentExPointW),
//F_GetCharABCWidthsA=0x // F_GetCharABCWidthsA=0x
//F_GetCharABCWidthsW=0x // F_GetCharABCWidthsW=0x
NEXT_MASK(F_TextOutA), NEXT_MASK(F_TextOutA),
NEXT_MASK(F_TextOutW), NEXT_MASK(F_TextOutW),
NEXT_MASK(F_ExtTextOutA), NEXT_MASK(F_ExtTextOutA),
@ -101,11 +115,11 @@ enum HookFontType : unsigned
NEXT_MASK(F_DrawTextExA), NEXT_MASK(F_DrawTextExA),
NEXT_MASK(F_DrawTextExW), NEXT_MASK(F_DrawTextExW),
NEXT_MASK(F_CharNextA), NEXT_MASK(F_CharNextA),
//F_CharNextW=0x // F_CharNextW=0x
//F_CharNextExA=0x // F_CharNextExA=0x
//F_CharNextExW=0x // F_CharNextExW=0x
NEXT_MASK(F_CharPrevA), NEXT_MASK(F_CharPrevA),
//F_CharPrevW=0x // F_CharPrevW=0x
NEXT_MASK(F_MultiByteToWideChar), NEXT_MASK(F_MultiByteToWideChar),
NEXT_MASK(F_WideCharToMultiByte), NEXT_MASK(F_WideCharToMultiByte),
}; };

View File

@ -18,13 +18,13 @@ constexpr auto ITH_HOOKMAN_MUTEX_ = L"LUNA_VNR_HOOKMAN_"; // ITH_HOOKMAN_%d
constexpr auto CONNECTING_MUTEX = L"LUNA_CONNECTING_PIPES"; constexpr auto CONNECTING_MUTEX = L"LUNA_CONNECTING_PIPES";
// Events // Events
constexpr auto LUNA_EMBED_notify_event="LUNA_NOTIFY.%d.%llu"; constexpr auto LUNA_EMBED_notify_event = "LUNA_NOTIFY.%d.%llu";
constexpr auto PIPE_AVAILABLE_EVENT = L"LUNA_PIPE_AVAILABLE"; constexpr auto PIPE_AVAILABLE_EVENT = L"LUNA_PIPE_AVAILABLE";
// Files // Files
constexpr auto LUNA_HOOK_DLL_64=L"LunaHook64"; constexpr auto LUNA_HOOK_DLL_64 = L"LunaHook64";
constexpr auto LUNA_HOOK_DLL_32=L"LunaHook32"; constexpr auto LUNA_HOOK_DLL_32 = L"LunaHook32";
#ifdef _WIN64 #ifdef _WIN64
constexpr auto LUNA_HOOK_DLL = LUNA_HOOK_DLL_64; // .dll but LoadLibrary automatically adds that constexpr auto LUNA_HOOK_DLL = LUNA_HOOK_DLL_64; // .dll but LoadLibrary automatically adds that

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@ -3,7 +3,7 @@ namespace
{ {
std::optional<HookParam> ParseRCode(std::wstring RCode) std::optional<HookParam> ParseRCode(std::wstring RCode)
{ {
RCode.erase(0,1); RCode.erase(0, 1);
std::wsmatch match; std::wsmatch match;
HookParam hp; HookParam hp;
hp.type |= DIRECT_READ; hp.type |= DIRECT_READ;
@ -35,40 +35,42 @@ namespace
} }
// @addr // @addr
if (!std::regex_match(RCode, match, std::wregex(L"@([[:xdigit:]]+)"))) return {}; if (!std::regex_match(RCode, match, std::wregex(L"@([[:xdigit:]]+)")))
return {};
hp.address = std::stoull(match[1], nullptr, 16); hp.address = std::stoull(match[1], nullptr, 16);
return hp; return hp;
} }
std::optional<HookParam> ParseHCode(std::wstring HCode,std::optional<HookParam> hpo={}) std::optional<HookParam> ParseHCode(std::wstring HCode, std::optional<HookParam> hpo = {})
{ {
auto hp=hpo?hpo.value():HookParam{}; auto hp = hpo ? hpo.value() : HookParam{};
if(HCode[0]=='L'){ if (HCode[0] == 'L')
hp.type|=HOOK_RETURN; {
HCode.erase(0,1); hp.type |= HOOK_RETURN;
HCode.erase(0, 1);
} }
switch (HCode[0]) switch (HCode[0])
{ {
case L'B': case L'B':
hp.type|=BREAK_POINT; hp.type |= BREAK_POINT;
case L'H': case L'H':
break; break;
default: default:
return {}; return {};
} }
HCode.erase(0,1); HCode.erase(0, 1);
if(endWith(HCode,L":JIT:YUZU")) if (endWith(HCode, L":JIT:YUZU"))
hp.jittype=JITTYPE::YUZU; hp.jittype = JITTYPE::YUZU;
else if(endWith(HCode,L":JIT:PPSSPP")) else if (endWith(HCode, L":JIT:PPSSPP"))
hp.jittype=JITTYPE::PPSSPP; hp.jittype = JITTYPE::PPSSPP;
else if(endWith(HCode,L":JIT:VITA3K")) else if (endWith(HCode, L":JIT:VITA3K"))
hp.jittype=JITTYPE::VITA3K; hp.jittype = JITTYPE::VITA3K;
else if(endWith(HCode,L":JIT:RPCS3")) else if (endWith(HCode, L":JIT:RPCS3"))
hp.jittype=JITTYPE::RPCS3; hp.jittype = JITTYPE::RPCS3;
else if(endWith(HCode,L":JIT:UNITY")) else if (endWith(HCode, L":JIT:UNITY"))
hp.jittype=JITTYPE::UNITY; hp.jittype = JITTYPE::UNITY;
// {A|B|W|H|S|Q|V|M} // {A|B|W|H|S|Q|V|M}
switch (HCode[0]) switch (HCode[0])
@ -77,7 +79,7 @@ namespace
hp.type |= CODEC_ANSI_BE; hp.type |= CODEC_ANSI_BE;
break; break;
case L'B': case L'B':
//ANSI LE // ANSI LE
break; break;
case L'W': case L'W':
hp.type |= CODEC_UTF16; hp.type |= CODEC_UTF16;
@ -92,7 +94,7 @@ namespace
hp.type |= USING_STRING | CODEC_UTF16; hp.type |= USING_STRING | CODEC_UTF16;
break; break;
case L'M': case L'M':
hp.type |=SPECIAL_JIT_STRING|USING_STRING|CODEC_UTF16; hp.type |= SPECIAL_JIT_STRING | USING_STRING | CODEC_UTF16;
break; break;
case L'U': case L'U':
hp.type |= USING_STRING | CODEC_UTF32; hp.type |= USING_STRING | CODEC_UTF32;
@ -112,7 +114,6 @@ namespace
hp.type |= FULL_STRING; hp.type |= FULL_STRING;
HCode.erase(0, 1); HCode.erase(0, 1);
} }
} }
// [N] // [N]
@ -141,7 +142,13 @@ namespace
{ {
size_t size = 0; size_t size = 0;
int value = 0; int value = 0;
try { value = std::stoi(HCode, &size, 16); } catch (std::invalid_argument) {} try
{
value = std::stoi(HCode, &size, 16);
}
catch (std::invalid_argument)
{
}
HCode.erase(0, size); HCode.erase(0, size);
return value; return value;
}; };
@ -171,85 +178,92 @@ namespace
hp.split_index = ConsumeHexInt(); hp.split_index = ConsumeHexInt();
} }
} }
if(hp.jittype==JITTYPE::UNITY){ if (hp.jittype == JITTYPE::UNITY)
if(HCode[0]!=L'@')return {}; {
HCode.erase(0,1); if (HCode[0] != L'@')
HCode=HCode.substr(0,HCode.size()-wcslen(L":JIT:UNITY")); return {};
hp.argidx=hp.offset; HCode.erase(0, 1);
hp.offset=0; HCode = HCode.substr(0, HCode.size() - wcslen(L":JIT:UNITY"));
hp.address=0; hp.argidx = hp.offset;
hp.offset = 0;
hp.address = 0;
hp.type &= ~MODULE_OFFSET; hp.type &= ~MODULE_OFFSET;
hp.type &= ~FUNCTION_OFFSET; hp.type &= ~FUNCTION_OFFSET;
strcpy(hp.function,""); strcpy(hp.function, "");
wcscpy(hp.module,L""); wcscpy(hp.module, L"");
strcpy(hp.unityfunctioninfo,wcasta(HCode).c_str()); strcpy(hp.unityfunctioninfo, wcasta(HCode).c_str());
} }
else{ else
// @addr[:module[:func]]
if (!std::regex_match(HCode, match, std::wregex(L"^@([[:xdigit:]]+)(:.+?)?(:.+)?"))) return {};
hp.address = std::stoull(match[1], nullptr, 16);
if (match[2].matched)
{ {
hp.type |= MODULE_OFFSET;
wcsncpy_s(hp.module, match[2].str().erase(0, 1).c_str(), MAX_MODULE_SIZE - 1);
}
if (match[3].matched)
{
hp.type |= FUNCTION_OFFSET;
std::wstring func = match[3];
strncpy_s(hp.function, std::string(func.begin(), func.end()).erase(0, 1).c_str(), MAX_MODULE_SIZE - 1);
}
// ITH has registers offset by 4 vs AGTH: need this to correct // @addr[:module[:func]]
if (hp.offset < 0) hp.offset -= 4; if (!std::regex_match(HCode, match, std::wregex(L"^@([[:xdigit:]]+)(:.+?)?(:.+)?")))
if (hp.split < 0) hp.split -= 4; return {};
hp.address = std::stoull(match[1], nullptr, 16);
if (match[2].matched)
{
hp.type |= MODULE_OFFSET;
wcsncpy_s(hp.module, match[2].str().erase(0, 1).c_str(), MAX_MODULE_SIZE - 1);
}
if (match[3].matched)
{
hp.type |= FUNCTION_OFFSET;
std::wstring func = match[3];
strncpy_s(hp.function, std::string(func.begin(), func.end()).erase(0, 1).c_str(), MAX_MODULE_SIZE - 1);
}
if(hp.jittype!=JITTYPE::PC){ // ITH has registers offset by 4 vs AGTH: need this to correct
hp.emu_addr=hp.address; if (hp.offset < 0)
hp.argidx=hp.offset; hp.offset -= 4;
hp.offset=0; if (hp.split < 0)
hp.address=0; hp.split -= 4;
hp.type &= ~MODULE_OFFSET;
hp.type &= ~FUNCTION_OFFSET; if (hp.jittype != JITTYPE::PC)
strcpy(hp.function,""); {
wcscpy(hp.module,L""); hp.emu_addr = hp.address;
} hp.argidx = hp.offset;
hp.offset = 0;
hp.address = 0;
hp.type &= ~MODULE_OFFSET;
hp.type &= ~FUNCTION_OFFSET;
strcpy(hp.function, "");
wcscpy(hp.module, L"");
}
} }
return hp; return hp;
} }
std::optional<HookParam> ParseECode(std::wstring code) std::optional<HookParam> ParseECode(std::wstring code)
{ {
code.erase(0,1); code.erase(0, 1);
HookParam hp; HookParam hp;
hp.type|=EMBED_ABLE; hp.type |= EMBED_ABLE;
if(code[0]==L'D') if (code[0] == L'D')
{ {
hp.type|=EMBED_DYNA_SJIS; hp.type |= EMBED_DYNA_SJIS;
code.erase(0,1); code.erase(0, 1);
} }
if(code[0]==L'S') if (code[0] == L'S')
{ {
code.erase(0,1); code.erase(0, 1);
hp.type|=EMBED_BEFORE_SIMPLE; hp.type |= EMBED_BEFORE_SIMPLE;
if(code[0]==L'N') if (code[0] == L'N')
hp.type|=EMBED_AFTER_NEW; hp.type |= EMBED_AFTER_NEW;
else if(code[0]==L'O') else if (code[0] == L'O')
hp.type|=EMBED_AFTER_OVERWRITE; hp.type |= EMBED_AFTER_OVERWRITE;
else else
return ParseHCode(code,hp); return ParseHCode(code, hp);
code.erase(0,1); code.erase(0, 1);
} }
return ParseHCode(code,hp); return ParseHCode(code, hp);
} }
std::wstring HexString(int64_t num) std::wstring HexString(int64_t num)
{ {
if (num < 0) return FormatString(L"-%I64X", -num); if (num < 0)
return FormatString(L"-%I64X", -num);
return FormatString(L"%I64X", num); return FormatString(L"%I64X", num);
} }
@ -257,16 +271,17 @@ namespace
{ {
std::wstring RCode = L"R"; std::wstring RCode = L"R";
if(hp.type&CODEC_UTF16) if (hp.type & CODEC_UTF16)
RCode += L'Q'; RCode += L'Q';
else if (hp.type&CODEC_UTF32) else if (hp.type & CODEC_UTF32)
RCode += L'U'; RCode += L'U';
else if (hp.type&CODEC_UTF8) else if (hp.type & CODEC_UTF8)
RCode += L'V'; RCode += L'V';
else else
{ {
RCode += L'S'; RCode += L'S';
if (hp.codepage != 0) RCode += std::to_wstring(hp.codepage) + L'#'; if (hp.codepage != 0)
RCode += std::to_wstring(hp.codepage) + L'#';
} }
RCode += L'@' + HexString(hp.address); RCode += L'@' + HexString(hp.address);
@ -277,50 +292,48 @@ namespace
std::wstring GenerateHCode(HookParam hp, DWORD processId) std::wstring GenerateHCode(HookParam hp, DWORD processId)
{ {
std::wstring HCode; std::wstring HCode;
if(hp.type&EMBED_ABLE) if (hp.type & EMBED_ABLE)
{ {
HCode +=L"E"; HCode += L"E";
if (hp.hook_before || hp.hook_after) if (hp.hook_before || hp.hook_after)
HCode += L'X'; HCode += L'X';
else else
{ {
if(hp.type&EMBED_DYNA_SJIS) if (hp.type & EMBED_DYNA_SJIS)
HCode+=L"D"; HCode += L"D";
if(hp.type&EMBED_BEFORE_SIMPLE) if (hp.type & EMBED_BEFORE_SIMPLE)
HCode+=L"S"; HCode += L"S";
if(hp.type&EMBED_AFTER_NEW) if (hp.type & EMBED_AFTER_NEW)
HCode+=L"N"; HCode += L"N";
else if(hp.type&EMBED_AFTER_OVERWRITE) else if (hp.type & EMBED_AFTER_OVERWRITE)
HCode+=L"O"; HCode += L"O";
} }
} }
if(hp.type&BREAK_POINT) if (hp.type & BREAK_POINT)
HCode+=L"B"; HCode += L"B";
else else
HCode += L"H"; HCode += L"H";
if (hp.type & USING_STRING)
if(hp.type & USING_STRING)
{ {
if(hp.type&SPECIAL_JIT_STRING) if (hp.type & SPECIAL_JIT_STRING)
HCode+=L'M'; HCode += L'M';
else if(hp.type&CODEC_UTF16) else if (hp.type & CODEC_UTF16)
HCode += L'Q'; HCode += L'Q';
else if(hp.type&CODEC_UTF8) else if (hp.type & CODEC_UTF8)
HCode += L'V'; HCode += L'V';
else if(hp.type&CODEC_UTF32) else if (hp.type & CODEC_UTF32)
HCode += L'U'; HCode += L'U';
else else
HCode += L'S'; HCode += L'S';
} }
else else
{ {
if(hp.type&CODEC_UTF16) if (hp.type & CODEC_UTF16)
HCode += L'W'; HCode += L'W';
else if(hp.type&CODEC_UTF32) else if (hp.type & CODEC_UTF32)
HCode += L'I'; HCode += L'I';
else if (hp.type & CODEC_ANSI_BE) else if (hp.type & CODEC_ANSI_BE)
HCode += L'A'; HCode += L'A';
@ -328,32 +341,44 @@ namespace
HCode += L'B'; HCode += L'B';
} }
if (hp.text_fun || hp.filter_fun) HCode += L'X'; if (hp.text_fun || hp.filter_fun)
HCode += L'X';
if (hp.type & FULL_STRING) HCode += L'F'; if (hp.type & FULL_STRING)
HCode += L'F';
if (hp.type & NO_CONTEXT) HCode += L'N'; if (hp.type & NO_CONTEXT)
HCode += L'N';
if (hp.codepage != 0 && !(hp.type & CODEC_UTF8)&&!(hp.type & CODEC_UTF16)&&!(hp.type & CODEC_UTF32) ) HCode += std::to_wstring(hp.codepage) + L'#'; if (hp.codepage != 0 && !(hp.type & CODEC_UTF8) && !(hp.type & CODEC_UTF16) && !(hp.type & CODEC_UTF32))
HCode += std::to_wstring(hp.codepage) + L'#';
if (hp.padding) HCode += HexString(hp.padding) + L'+'; if (hp.padding)
HCode += HexString(hp.padding) + L'+';
if (hp.offset < 0) hp.offset += 4; if (hp.offset < 0)
if (hp.split < 0) hp.split += 4; hp.offset += 4;
if (hp.split < 0)
hp.split += 4;
if(hp.jittype==JITTYPE::PC){ if (hp.jittype == JITTYPE::PC)
{
HCode += HexString(hp.offset); HCode += HexString(hp.offset);
} }
else{ else
{
HCode += HexString(hp.argidx); HCode += HexString(hp.argidx);
} }
if (hp.type & DATA_INDIRECT) HCode += L'*' + HexString(hp.index); if (hp.type & DATA_INDIRECT)
if (hp.type & USING_SPLIT) HCode += L':' + HexString(hp.split); HCode += L'*' + HexString(hp.index);
if (hp.type & SPLIT_INDIRECT) HCode += L'*' + HexString(hp.split_index); if (hp.type & USING_SPLIT)
HCode += L':' + HexString(hp.split);
if (hp.type & SPLIT_INDIRECT)
HCode += L'*' + HexString(hp.split_index);
// Attempt to make the address relative // Attempt to make the address relative
if(hp.jittype==JITTYPE::PC) if (hp.jittype == JITTYPE::PC)
{ {
if (processId && !(hp.type & MODULE_OFFSET)) if (processId && !(hp.type & MODULE_OFFSET))
if (AutoHandle<> process = OpenProcess(PROCESS_VM_READ | PROCESS_QUERY_INFORMATION, FALSE, processId)) if (AutoHandle<> process = OpenProcess(PROCESS_VM_READ | PROCESS_QUERY_INFORMATION, FALSE, processId))
@ -366,32 +391,36 @@ namespace
} }
HCode += L'@' + HexString(hp.address); HCode += L'@' + HexString(hp.address);
if (hp.type & MODULE_OFFSET) HCode += L':' + std::wstring(hp.module); if (hp.type & MODULE_OFFSET)
if (hp.type & FUNCTION_OFFSET) HCode += L':' + StringToWideString(hp.function); HCode += L':' + std::wstring(hp.module);
if (hp.type & FUNCTION_OFFSET)
HCode += L':' + StringToWideString(hp.function);
} }
else else
{ {
if(hp.jittype== JITTYPE::UNITY){ if (hp.jittype == JITTYPE::UNITY)
HCode+=L'@'; {
HCode+=acastw(hp.unityfunctioninfo); HCode += L'@';
HCode+=L":JIT:UNITY"; HCode += acastw(hp.unityfunctioninfo);
HCode += L":JIT:UNITY";
} }
else{ else
{
HCode += L'@' + HexString(hp.emu_addr); HCode += L'@' + HexString(hp.emu_addr);
switch (hp.jittype) switch (hp.jittype)
{ {
case JITTYPE::YUZU: case JITTYPE::YUZU:
HCode+=L":JIT:YUZU"; HCode += L":JIT:YUZU";
break; break;
case JITTYPE::PPSSPP: case JITTYPE::PPSSPP:
HCode+=L":JIT:PPSSPP"; HCode += L":JIT:PPSSPP";
break; break;
case JITTYPE::VITA3K: case JITTYPE::VITA3K:
HCode+=L":JIT:VITA3K"; HCode += L":JIT:VITA3K";
break; break;
case JITTYPE::RPCS3: case JITTYPE::RPCS3:
HCode+=L":JIT:RPCS3"; HCode += L":JIT:RPCS3";
break; break;
} }
} }
@ -405,18 +434,22 @@ namespace HookCode
{ {
std::optional<HookParam> Parse(std::wstring code) std::optional<HookParam> Parse(std::wstring code)
{ {
if (code[0] == L'/') code.erase(0, 1); if (code[0] == L'/')
code.erase(0, 1);
code.erase(std::find(code.begin(), code.end(), L'/'), code.end()); // legacy/AGTH compatibility code.erase(std::find(code.begin(), code.end(), L'/'), code.end()); // legacy/AGTH compatibility
Trim(code); Trim(code);
if (code[0] == L'R') return ParseRCode(code); if (code[0] == L'R')
else if (code[0] == L'E') return ParseECode(code); return ParseRCode(code);
else return ParseHCode(code); else if (code[0] == L'E')
return ParseECode(code);
else
return ParseHCode(code);
} }
std::wstring Generate(HookParam hp, DWORD processId) std::wstring Generate(HookParam hp, DWORD processId)
{ {
std::wstring HCode =L""; std::wstring HCode = L"";
return HCode+=(hp.type & DIRECT_READ ? GenerateRCode(hp) : GenerateHCode(hp, processId)); return HCode += (hp.type & DIRECT_READ ? GenerateRCode(hp) : GenerateHCode(hp, processId));
} }
} }

View File

@ -33,11 +33,11 @@
#include <shlobj.h> #include <shlobj.h>
#include <Shlwapi.h> #include <Shlwapi.h>
#include"stringutils.h" #include "stringutils.h"
#include"utils.h" #include "utils.h"
#include"defs.h" #include "defs.h"
#include"const.h" #include "const.h"
#include"types.h" #include "types.h"
#include"hookcode.h" #include "hookcode.h"
#include"texthook.h" #include "texthook.h"
#include"winevent.hpp" #include "winevent.hpp"

View File

@ -1,5 +1,5 @@
LPCSTR reverse_search_begin(const char *s, int maxsize ) LPCSTR reverse_search_begin(const char *s, int maxsize)
{ {
if (*s) if (*s)
for (int i = 0; i < maxsize; i++, s--) for (int i = 0; i < maxsize; i++, s--)
@ -8,8 +8,9 @@ LPCSTR reverse_search_begin(const char *s, int maxsize )
return nullptr; return nullptr;
} }
template<class CharT> template <class CharT>
inline bool all_ascii_impl(const CharT* s,int maxsize){ inline bool all_ascii_impl(const CharT *s, int maxsize)
{
if (s) if (s)
for (int i = 0; i < maxsize && *s; i++, s++) for (int i = 0; i < maxsize && *s; i++, s++)
if ((unsigned)*s > 127) if ((unsigned)*s > 127)
@ -17,196 +18,227 @@ inline bool all_ascii_impl(const CharT* s,int maxsize){
return true; return true;
} }
template<class StringT> template <class StringT>
inline void strReplace_impl(StringT& str, const StringT& oldStr, const StringT& newStr){ inline void strReplace_impl(StringT &str, const StringT &oldStr, const StringT &newStr)
{
size_t pos = 0; size_t pos = 0;
while ((pos = str.find(oldStr, pos)) != StringT::npos) { while ((pos = str.find(oldStr, pos)) != StringT::npos)
str.replace(pos, oldStr.length(), newStr); {
pos += newStr.length(); str.replace(pos, oldStr.length(), newStr);
} pos += newStr.length();
}
} }
template <class StringT>
inline std::vector<StringT> strSplit_impl(const StringT &s, const StringT &delim)
{
StringT item;
std::vector<StringT> tokens;
template<class StringT> StringT str = s;
inline std::vector<StringT> strSplit_impl(const StringT& s, const StringT& delim){
StringT item;
std::vector<StringT> tokens;
StringT str = s; size_t pos = 0;
while ((pos = str.find(delim)) != StringT::npos)
size_t pos = 0; {
while ((pos = str.find(delim)) != StringT::npos) { item = str.substr(0, pos);
item = str.substr(0, pos); tokens.push_back(item);
tokens.push_back(item); str.erase(0, pos + delim.length());
str.erase(0, pos + delim.length()); }
} tokens.push_back(str);
tokens.push_back(str); return tokens;
return tokens;
} }
template<class StringT> template <class StringT>
inline bool endWith_impl(const StringT& s,const StringT& s2) { inline bool endWith_impl(const StringT &s, const StringT &s2)
if ((s.size() > s2.size()) && (s.substr(s.size() - s2.size(), s2.size()) == s2)) { {
return true; if ((s.size() > s2.size()) && (s.substr(s.size() - s2.size(), s2.size()) == s2))
} {
return false; return true;
}
return false;
} }
template<class StringT> template <class StringT>
inline bool startWith_impl(const StringT& s,const StringT& s2) { inline bool startWith_impl(const StringT &s, const StringT &s2)
if ((s.size() > s2.size()) && (s.substr(0, s2.size()) == s2)) { {
return true; if ((s.size() > s2.size()) && (s.substr(0, s2.size()) == s2))
} {
return false; return true;
}
return false;
} }
bool all_ascii(const char *s, int maxsize) { return all_ascii_impl<char>(s, maxsize); }
bool all_ascii(const wchar_t *s, int maxsize) { return all_ascii_impl<wchar_t>(s, maxsize); }
bool all_ascii(const char *s, int maxsize ){return all_ascii_impl<char>(s,maxsize);} void strReplace(std::string &str, const std::string &oldStr, const std::string &newStr) { strReplace_impl<std::string>(str, oldStr, newStr); }
bool all_ascii(const wchar_t *s, int maxsize ){return all_ascii_impl<wchar_t>(s,maxsize);} void strReplace(std::wstring &str, const std::wstring &oldStr, const std::wstring &newStr) { strReplace_impl<std::wstring>(str, oldStr, newStr); }
std::vector<std::string> strSplit(const std::string &s, const std::string &delim) { return strSplit_impl<std::string>(s, delim); }
std::vector<std::wstring> strSplit(const std::wstring &s, const std::wstring &delim) { return strSplit_impl<std::wstring>(s, delim); }
bool startWith(const std::string &s, const std::string &s2) { return startWith_impl<std::string>(s, s2); }
bool startWith(const std::wstring &s, const std::wstring &s2) { return startWith_impl<std::wstring>(s, s2); }
bool endWith(const std::string &s, const std::string &s2) { return endWith_impl<std::string>(s, s2); }
bool endWith(const std::wstring &s, const std::wstring &s2) { return endWith_impl<std::wstring>(s, s2); }
void strReplace(std::string& str, const std::string& oldStr, const std::string& newStr){strReplace_impl<std::string>(str,oldStr,newStr);} typedef HRESULT(WINAPI *CONVERTINETMULTIBYTETOUNICODE)(
void strReplace(std::wstring& str, const std::wstring& oldStr, const std::wstring& newStr){strReplace_impl<std::wstring>(str,oldStr,newStr);}
std::vector<std::string> strSplit(const std::string& s, const std::string& delim){return strSplit_impl<std::string>(s,delim);}
std::vector<std::wstring> strSplit(const std::wstring& s, const std::wstring& delim){return strSplit_impl<std::wstring>(s,delim);}
bool startWith(const std::string& s,const std::string& s2){return startWith_impl<std::string>(s,s2);}
bool startWith(const std::wstring& s,const std::wstring& s2){return startWith_impl<std::wstring>(s,s2);}
bool endWith(const std::string& s,const std::string& s2){return endWith_impl<std::string>(s,s2);}
bool endWith(const std::wstring& s,const std::wstring& s2){return endWith_impl<std::wstring>(s,s2);}
typedef HRESULT(WINAPI* CONVERTINETMULTIBYTETOUNICODE)(
LPDWORD lpdwMode, LPDWORD lpdwMode,
DWORD dwSrcEncoding, DWORD dwSrcEncoding,
LPCSTR lpSrcStr, LPCSTR lpSrcStr,
LPINT lpnMultiCharCount, LPINT lpnMultiCharCount,
LPWSTR lpDstStr, LPWSTR lpDstStr,
LPINT lpnWideCharCount LPINT lpnWideCharCount);
); typedef HRESULT(WINAPI *CONVERTINETUNICODETOMULTIBYTE)(
typedef HRESULT(WINAPI* CONVERTINETUNICODETOMULTIBYTE)(
LPDWORD lpdwMode, LPDWORD lpdwMode,
DWORD dwEncoding, DWORD dwEncoding,
LPCWSTR lpSrcStr, LPCWSTR lpSrcStr,
LPINT lpnWideCharCount, LPINT lpnWideCharCount,
LPSTR lpDstStr, LPSTR lpDstStr,
LPINT lpnMultiCharCount LPINT lpnMultiCharCount);
);
std::optional<std::wstring> StringToWideString(const std::string& text, UINT encoding) std::optional<std::wstring> StringToWideString(const std::string &text, UINT encoding)
{ {
std::vector<wchar_t> buffer(text.size() + 1); std::vector<wchar_t> buffer(text.size() + 1);
if(disable_mbwc){ if (disable_mbwc)
int _s = text.size(); int _s2 = buffer.size();
auto h=LoadLibrary(TEXT("mlang.dll"));
if(h==0)return {};
auto ConvertINetMultiByteToUnicode = (CONVERTINETMULTIBYTETOUNICODE)GetProcAddress(h, "ConvertINetMultiByteToUnicode");
if(ConvertINetMultiByteToUnicode==0)return {};
auto hr=ConvertINetMultiByteToUnicode(0, encoding, text.c_str(), &_s, buffer.data(), &_s2);
if(SUCCEEDED(hr)){
return std::wstring(buffer.data(), _s2 );
}
else return{};
}
else{
if (int length = MultiByteToWideChar(encoding, 0, text.c_str(), text.size() + 1, buffer.data(), buffer.size()))
return std::wstring(buffer.data(), length - 1);
return {};
}
}
std::wstring StringToWideString(const std::string& text)
{
return StringToWideString(text,CP_UTF8).value();
}
std::string WideStringToString(const std::wstring& text,UINT cp)
{
std::vector<char> buffer((text.size() + 1) * 4);
if(disable_wcmb){
int _s = text.size(); int _s2 = buffer.size();
auto h=LoadLibrary(TEXT("mlang.dll"));
if(h==0)return {};
auto ConvertINetUnicodeToMultiByte = (CONVERTINETUNICODETOMULTIBYTE)GetProcAddress(h, "ConvertINetUnicodeToMultiByte");
if(ConvertINetUnicodeToMultiByte==0)return {};
auto hr=ConvertINetUnicodeToMultiByte(0, cp, text.c_str(), &_s, buffer.data(), &_s2);
if(SUCCEEDED(hr)){
return std::string(buffer.data(), _s2 );
}
else return{};
}
else{
WideCharToMultiByte(cp, 0, text.c_str(), -1, buffer.data(), buffer.size(), nullptr, nullptr);
return buffer.data();
}
}
inline unsigned int convertUTF32ToUTF16(unsigned int cUTF32, unsigned int& h, unsigned int& l)
{
if (cUTF32 < 0x10000)
{
h = 0;
l = cUTF32;
return cUTF32;
}
unsigned int t = cUTF32 - 0x10000;
h = (((t << 12) >> 22) + 0xD800);
l = (((t << 22) >> 22) + 0xDC00);
unsigned int ret = ((h << 16) | (l & 0x0000FFFF));
return ret;
}
std::basic_string<uint32_t> utf16_to_utf32(const wchar_t* u16str,size_t size){
std::basic_string<uint32_t> utf32String;
for (size_t i=0;i<size;i++)
{ {
auto u16c=u16str[i]; int _s = text.size();
if(u16c-0xd800u<2048u) int _s2 = buffer.size();
if((u16c&0xfffffc00==0xd800)&&(i<size-1)&&(u16str[i+1]&0xfffffc00==0xdc00)){ auto h = LoadLibrary(TEXT("mlang.dll"));
utf32String+=(u16c << 10) + u16str[i+1] - 0x35fdc00; if (h == 0)
i+=1; return {};
auto ConvertINetMultiByteToUnicode = (CONVERTINETMULTIBYTETOUNICODE)GetProcAddress(h, "ConvertINetMultiByteToUnicode");
if (ConvertINetMultiByteToUnicode == 0)
return {};
auto hr = ConvertINetMultiByteToUnicode(0, encoding, text.c_str(), &_s, buffer.data(), &_s2);
if (SUCCEEDED(hr))
{
return std::wstring(buffer.data(), _s2);
}
else
return {};
}
else
{
if (int length = MultiByteToWideChar(encoding, 0, text.c_str(), text.size() + 1, buffer.data(), buffer.size()))
return std::wstring(buffer.data(), length - 1);
return {};
}
}
std::wstring StringToWideString(const std::string &text)
{
return StringToWideString(text, CP_UTF8).value();
}
std::string WideStringToString(const std::wstring &text, UINT cp)
{
std::vector<char> buffer((text.size() + 1) * 4);
if (disable_wcmb)
{
int _s = text.size();
int _s2 = buffer.size();
auto h = LoadLibrary(TEXT("mlang.dll"));
if (h == 0)
return {};
auto ConvertINetUnicodeToMultiByte = (CONVERTINETUNICODETOMULTIBYTE)GetProcAddress(h, "ConvertINetUnicodeToMultiByte");
if (ConvertINetUnicodeToMultiByte == 0)
return {};
auto hr = ConvertINetUnicodeToMultiByte(0, cp, text.c_str(), &_s, buffer.data(), &_s2);
if (SUCCEEDED(hr))
{
return std::string(buffer.data(), _s2);
}
else
return {};
}
else
{
WideCharToMultiByte(cp, 0, text.c_str(), -1, buffer.data(), buffer.size(), nullptr, nullptr);
return buffer.data();
}
}
inline unsigned int convertUTF32ToUTF16(unsigned int cUTF32, unsigned int &h, unsigned int &l)
{
if (cUTF32 < 0x10000)
{
h = 0;
l = cUTF32;
return cUTF32;
}
unsigned int t = cUTF32 - 0x10000;
h = (((t << 12) >> 22) + 0xD800);
l = (((t << 22) >> 22) + 0xDC00);
unsigned int ret = ((h << 16) | (l & 0x0000FFFF));
return ret;
}
std::basic_string<uint32_t> utf16_to_utf32(const wchar_t *u16str, size_t size)
{
std::basic_string<uint32_t> utf32String;
for (size_t i = 0; i < size; i++)
{
auto u16c = u16str[i];
if (u16c - 0xd800u < 2048u)
if ((u16c & 0xfffffc00 == 0xd800) && (i < size - 1) && (u16str[i + 1] & 0xfffffc00 == 0xdc00))
{
utf32String += (u16c << 10) + u16str[i + 1] - 0x35fdc00;
i += 1;
} }
else{ else
//error invalid u16 char {
// error invalid u16 char
} }
else else
utf32String+=u16str[i]; utf32String += u16str[i];
} }
return utf32String; return utf32String;
} }
std::wstring utf32_to_utf16(uint32_t* u32str,size_t size){ std::wstring utf32_to_utf16(uint32_t *u32str, size_t size)
std::wstring u16str; {
for(auto i=0;i<size;i++){ std::wstring u16str;
unsigned h,l; for (auto i = 0; i < size; i++)
convertUTF32ToUTF16(u32str[i],h,l); {
if(h) unsigned h, l;
u16str.push_back((wchar_t)h); convertUTF32ToUTF16(u32str[i], h, l);
u16str.push_back((wchar_t)l); if (h)
} u16str.push_back((wchar_t)h);
return u16str; u16str.push_back((wchar_t)l);
}
return u16str;
} }
size_t u32strlen(uint32_t* data){ size_t u32strlen(uint32_t *data)
size_t s=0; {
while(data[s]) size_t s = 0;
s++; while (data[s])
return s; s++;
return s;
} }
std::string wcasta(const std::wstring x){ std::string wcasta(const std::wstring x)
std::string xx; {
for(auto c:x) std::string xx;
xx+=c; for (auto c : x)
return xx; xx += c;
return xx;
} }
std::wstring acastw(const std::string x){ std::wstring acastw(const std::string x)
std::wstring xx; {
for(auto c:x) std::wstring xx;
xx+=c; for (auto c : x)
return xx; xx += c;
return xx;
} }
std::optional<std::wstring> commonparsestring(void* data,size_t length,void* php,DWORD df){ std::optional<std::wstring> commonparsestring(void *data, size_t length, void *php, DWORD df)
auto hp=(HookParam*)php; {
if (hp->type & CODEC_UTF16) return std::wstring((wchar_t*)data, length / sizeof(wchar_t)); auto hp = (HookParam *)php;
else if(hp->type&CODEC_UTF32)return (std::move(utf32_to_utf16((uint32_t*)data,length/ sizeof(uint32_t)))); if (hp->type & CODEC_UTF16)
else if (auto converted = StringToWideString(std::string((char*)data, length), (hp->type&CODEC_UTF8)?CP_UTF8:(hp->codepage ? hp->codepage :df))) return (converted.value()); return std::wstring((wchar_t *)data, length / sizeof(wchar_t));
else return {}; else if (hp->type & CODEC_UTF32)
return (std::move(utf32_to_utf16((uint32_t *)data, length / sizeof(uint32_t))));
else if (auto converted = StringToWideString(std::string((char *)data, length), (hp->type & CODEC_UTF8) ? CP_UTF8 : (hp->codepage ? hp->codepage : df)))
return (converted.value());
else
return {};
} }

View File

@ -1,10 +1,14 @@
#ifndef __LUNA_STRINGUILTS_H #ifndef __LUNA_STRINGUILTS_H
#define __LUNA_STRINGUILTS_H #define __LUNA_STRINGUILTS_H
enum { VNR_TEXT_CAPACITY = 1500 }; // estimated max number of bytes allowed in VNR, slightly larger than VNR's text limit (1000) enum
{
VNR_TEXT_CAPACITY = 1500
}; // estimated max number of bytes allowed in VNR, slightly larger than VNR's text limit (1000)
template<class StringT> template <class StringT>
StringT stolower(StringT s){ StringT stolower(StringT s)
{
std::transform(s.begin(), s.end(), s.begin(), tolower); std::transform(s.begin(), s.end(), s.begin(), tolower);
return s; return s;
} }
@ -13,41 +17,43 @@ LPCSTR reverse_search_begin(const char *s, int maxsize = VNR_TEXT_CAPACITY);
bool all_ascii(const char *s, int maxsize = VNR_TEXT_CAPACITY); bool all_ascii(const char *s, int maxsize = VNR_TEXT_CAPACITY);
bool all_ascii(const wchar_t *s, int maxsize = VNR_TEXT_CAPACITY); bool all_ascii(const wchar_t *s, int maxsize = VNR_TEXT_CAPACITY);
void strReplace(std::string& str, const std::string& oldStr, const std::string& newStr); void strReplace(std::string &str, const std::string &oldStr, const std::string &newStr);
void strReplace(std::wstring& str, const std::wstring& oldStr, const std::wstring& newStr); void strReplace(std::wstring &str, const std::wstring &oldStr, const std::wstring &newStr);
std::vector<std::string> strSplit(const std::string& s, const std::string& delim); std::vector<std::string> strSplit(const std::string &s, const std::string &delim);
std::vector<std::wstring> strSplit(const std::wstring& s, const std::wstring& delim); std::vector<std::wstring> strSplit(const std::wstring &s, const std::wstring &delim);
bool startWith(const std::string& s,const std::string& s2); bool startWith(const std::string &s, const std::string &s2);
bool startWith(const std::wstring& s,const std::wstring &s2); bool startWith(const std::wstring &s, const std::wstring &s2);
bool endWith(const std::string& s,const std::string& s2); bool endWith(const std::string &s, const std::string &s2);
bool endWith(const std::wstring& s,const std::wstring& s2); bool endWith(const std::wstring &s, const std::wstring &s2);
std::wstring utf32_to_utf16(uint32_t* u32str,size_t size); std::wstring utf32_to_utf16(uint32_t *u32str, size_t size);
std::basic_string<uint32_t> utf16_to_utf32(const wchar_t* u16str,size_t size); std::basic_string<uint32_t> utf16_to_utf32(const wchar_t *u16str, size_t size);
std::string WideStringToString(const std::wstring& text,UINT cp=CP_UTF8); std::string WideStringToString(const std::wstring &text, UINT cp = CP_UTF8);
std::wstring StringToWideString(const std::string& text); std::wstring StringToWideString(const std::string &text);
std::optional<std::wstring> StringToWideString(const std::string& text, UINT encoding); std::optional<std::wstring> StringToWideString(const std::string &text, UINT encoding);
std::string wcasta(const std::wstring x); std::string wcasta(const std::wstring x);
std::wstring acastw(const std::string x); std::wstring acastw(const std::string x);
size_t u32strlen(uint32_t* data); size_t u32strlen(uint32_t *data);
inline bool disable_mbwc=false; inline bool disable_mbwc = false;
inline bool disable_wcmb=false; inline bool disable_wcmb = false;
template<class ST> template <class ST>
inline void Trim(ST& text) inline void Trim(ST &text)
{ {
text.erase(text.begin(), std::find_if_not(text.begin(), text.end(), iswspace)); text.erase(text.begin(), std::find_if_not(text.begin(), text.end(), iswspace));
text.erase(std::find_if_not(text.rbegin(), text.rend(), iswspace).base(), text.end()); text.erase(std::find_if_not(text.rbegin(), text.rend(), iswspace).base(), text.end());
} }
template <typename T> inline auto FormatArg(T arg) { return arg; } template <typename T>
template <typename C> inline auto FormatArg(const std::basic_string<C>& arg) { return arg.c_str(); } inline auto FormatArg(T arg) { return arg; }
template <typename C>
inline auto FormatArg(const std::basic_string<C> &arg) { return arg.c_str(); }
#pragma warning(push) #pragma warning(push)
#pragma warning(disable: 4996) #pragma warning(disable : 4996)
template <typename... Args> template <typename... Args>
inline std::string FormatString(const char* format, const Args&... args) inline std::string FormatString(const char *format, const Args &...args)
{ {
std::string buffer(snprintf(nullptr, 0, format, FormatArg(args)...), '\0'); std::string buffer(snprintf(nullptr, 0, format, FormatArg(args)...), '\0');
sprintf(buffer.data(), format, FormatArg(args)...); sprintf(buffer.data(), format, FormatArg(args)...);
@ -55,13 +61,13 @@ inline std::string FormatString(const char* format, const Args&... args)
} }
template <typename... Args> template <typename... Args>
inline std::wstring FormatString(const wchar_t* format, const Args&... args) inline std::wstring FormatString(const wchar_t *format, const Args &...args)
{ {
std::wstring buffer(_snwprintf(nullptr, 0, format, FormatArg(args)...), L'\0'); std::wstring buffer(_snwprintf(nullptr, 0, format, FormatArg(args)...), L'\0');
_swprintf(buffer.data(), format, FormatArg(args)...); _swprintf(buffer.data(), format, FormatArg(args)...);
return buffer; return buffer;
} }
std::optional<std::wstring> commonparsestring(void*,size_t,void*,DWORD); std::optional<std::wstring> commonparsestring(void *, size_t, void *, DWORD);
#pragma warning(pop) #pragma warning(pop)
#endif #endif

View File

@ -8,11 +8,12 @@
// - Clean up this file // - Clean up this file
// - Reduce global variables. Use namespaces or singleton classes instead. // - Reduce global variables. Use namespaces or singleton classes instead.
inline std::atomic<bool (*)(LPVOID addr, hook_stack* stack)> trigger_fun = nullptr; inline std::atomic<bool (*)(LPVOID addr, hook_stack *stack)> trigger_fun = nullptr;
// jichi 9/25/2013: This class will be used by NtMapViewOfSectionfor // jichi 9/25/2013: This class will be used by NtMapViewOfSectionfor
// interprocedure communication, where constructor/destructor will NOT work. // interprocedure communication, where constructor/destructor will NOT work.
struct EmbedSharedMem{ struct EmbedSharedMem
{
uint64_t use[10]; uint64_t use[10];
uint64_t addr[10]; uint64_t addr[10];
uint64_t ctx1[10]; uint64_t ctx1[10];
@ -33,7 +34,7 @@ class TextHook
{ {
public: public:
HookParam hp; HookParam hp;
ALIGNPTR(uint64_t address,void* location); ALIGNPTR(uint64_t address, void *location);
uint64_t savetypeforremove; uint64_t savetypeforremove;
bool Insert(HookParam hp); bool Insert(HookParam hp);
void Clear(); void Clear();
@ -46,20 +47,23 @@ private:
bool RemoveBreakPoint(); bool RemoveBreakPoint();
bool breakpointcontext(PCONTEXT); bool breakpointcontext(PCONTEXT);
void Send(uintptr_t dwDatabase); void Send(uintptr_t dwDatabase);
int GetLength(hook_stack* stack, uintptr_t in); // jichi 12/25/2013: Return 0 if failed int GetLength(hook_stack *stack, uintptr_t in); // jichi 12/25/2013: Return 0 if failed
int HookStrlen(BYTE* data); int HookStrlen(BYTE *data);
void RemoveHookCode(); void RemoveHookCode();
void RemoveReadCode(); void RemoveReadCode();
bool waitfornotify(TextOutput_T* buffer,void*data ,size_t*len,ThreadParam tp); bool waitfornotify(TextOutput_T *buffer, void *data, size_t *len, ThreadParam tp);
void parsenewlineseperator(void*data ,size_t*len); void parsenewlineseperator(void *data, size_t *len);
volatile DWORD useCount; volatile DWORD useCount;
ALIGNPTR(uint64_t __1,HANDLE readerThread); ALIGNPTR(uint64_t __1, HANDLE readerThread);
ALIGNPTR(uint64_t __2,HANDLE readerEvent); ALIGNPTR(uint64_t __2, HANDLE readerEvent);
bool err; bool err;
ALIGNPTR(BYTE __4[ 140],BYTE trampoline[x64 ? 140 : 40]); ALIGNPTR(BYTE __4[140], BYTE trampoline[x64 ? 140 : 40]);
ALIGNPTR(uint64_t __3,BYTE* local_buffer); ALIGNPTR(uint64_t __3, BYTE *local_buffer);
}; };
enum { MAX_HOOK = 2500}; enum
{
MAX_HOOK = 2500
};
// EOF // EOF

View File

@ -1,39 +1,44 @@
#pragma once #pragma once
class WinMutex // Like CMutex but works with scoped_lock class WinMutex // Like CMutex but works with scoped_lock
{ {
public: public:
WinMutex(std::wstring name = L"", LPSECURITY_ATTRIBUTES sa = nullptr) : m(CreateMutexW(sa, FALSE, name.empty() ? NULL : name.c_str())) {} WinMutex(std::wstring name = L"", LPSECURITY_ATTRIBUTES sa = nullptr) : m(CreateMutexW(sa, FALSE, name.empty() ? NULL : name.c_str())) {}
void lock() { if (m) WaitForSingleObject(m, INFINITE); } void lock()
void unlock() { if (m) ReleaseMutex(m); } {
if (m)
WaitForSingleObject(m, INFINITE);
}
void unlock()
{
if (m)
ReleaseMutex(m);
}
private: private:
AutoHandle<> m; AutoHandle<> m;
}; };
inline SECURITY_ATTRIBUTES allAccess = std::invoke([] // allows non-admin processes to access kernel objects made by admin processes inline SECURITY_ATTRIBUTES allAccess = std::invoke([] // allows non-admin processes to access kernel objects made by admin processes
{ {
static SECURITY_DESCRIPTOR sd = {}; static SECURITY_DESCRIPTOR sd = {};
InitializeSecurityDescriptor(&sd, SECURITY_DESCRIPTOR_REVISION); InitializeSecurityDescriptor(&sd, SECURITY_DESCRIPTOR_REVISION);
SetSecurityDescriptorDacl(&sd, TRUE, NULL, FALSE); SetSecurityDescriptorDacl(&sd, TRUE, NULL, FALSE);
return SECURITY_ATTRIBUTES{ sizeof(SECURITY_ATTRIBUTES), &sd, FALSE }; return SECURITY_ATTRIBUTES{ sizeof(SECURITY_ATTRIBUTES), &sd, FALSE }; });
});
struct hook_stack struct hook_stack
{ {
#ifndef _WIN64 #ifndef _WIN64
uintptr_t _eflags; //pushfd uintptr_t _eflags; // pushfd
uintptr_t edi, // pushad uintptr_t edi, // pushad
esi, esi,
ebp, ebp,
esp, esp,
ebx, ebx,
edx, edx,
ecx, // this ecx, // this
eax; // 0x28 eax; // 0x28
#else #else
uintptr_t r15, uintptr_t r15,
@ -53,65 +58,70 @@ struct hook_stack
rbx, rbx,
rax; rax;
#endif #endif
uintptr_t eflags; // pushaf uintptr_t eflags; // pushaf
union union
{ {
uintptr_t stack[1]; // beginning of the runtime stack uintptr_t stack[1]; // beginning of the runtime stack
uintptr_t retaddr; uintptr_t retaddr;
BYTE base[1]; BYTE base[1];
}; };
uintptr_t get_base(){ uintptr_t get_base()
return (uintptr_t)this+sizeof(hook_stack)-sizeof(uintptr_t); {
return (uintptr_t)this + sizeof(hook_stack) - sizeof(uintptr_t);
} }
}; };
inline hook_stack* get_hook_stack(uintptr_t lpDataBase){ inline hook_stack *get_hook_stack(uintptr_t lpDataBase)
return (hook_stack*)(lpDataBase-sizeof(hook_stack)+sizeof(uintptr_t)); {
return (hook_stack *)(lpDataBase - sizeof(hook_stack) + sizeof(uintptr_t));
} }
// jichi 3/7/2014: Add guessed comment // jichi 3/7/2014: Add guessed comment
#define ALIGNPTR(Y,X) union { \ #define ALIGNPTR(Y, X) \
##Y; \ union \
##X; \ { \
}; ##Y; \
##X; \
};
enum class JITTYPE
enum class JITTYPE{ {
PC,//not a jit PC, // not a jit
YUZU, YUZU,
PPSSPP, PPSSPP,
VITA3K, VITA3K,
RPCS3, RPCS3,
UNITY UNITY
}; };
struct HookParam struct HookParam
{ {
ALIGNPTR(uint64_t __11,uintptr_t address); // absolute or relative address ALIGNPTR(uint64_t __11, uintptr_t address); // absolute or relative address
int offset, // offset of the data in the memory int offset, // offset of the data in the memory
index, // deref_offset1 index, // deref_offset1
split, // offset of the split character split, // offset of the split character
split_index; // deref_offset2 split_index; // deref_offset2
wchar_t module[MAX_MODULE_SIZE]; wchar_t module[MAX_MODULE_SIZE];
char function[MAX_MODULE_SIZE]; char function[MAX_MODULE_SIZE];
uint64_t type; // flags uint64_t type; // flags
UINT codepage; // text encoding UINT codepage; // text encoding
short length_offset; // index of the string length short length_offset; // index of the string length
ALIGNPTR(uint64_t __1,uintptr_t padding); // padding before string ALIGNPTR(uint64_t __1, uintptr_t padding); // padding before string
ALIGNPTR(uint64_t __12,uintptr_t user_value); ALIGNPTR(uint64_t __12, uintptr_t user_value);
ALIGNPTR(uint64_t __2,void(*text_fun)(hook_stack* stack, HookParam* hp, uintptr_t* data, uintptr_t* split, size_t* len)) ALIGNPTR(uint64_t __2, void (*text_fun)(hook_stack *stack, HookParam *hp, uintptr_t *data, uintptr_t *split, size_t *len))
ALIGNPTR(uint64_t __3,bool(*filter_fun)(void* data, size_t* len, HookParam* hp)); // jichi 10/24/2014: Add filter function. Return false to skip the text ALIGNPTR(uint64_t __3, bool (*filter_fun)(void *data, size_t *len, HookParam *hp)); // jichi 10/24/2014: Add filter function. Return false to skip the text
ALIGNPTR(uint64_t __6,bool (*hook_before)(hook_stack* stack,void* data, size_t* len,uintptr_t*role)); ALIGNPTR(uint64_t __6, bool (*hook_before)(hook_stack *stack, void *data, size_t *len, uintptr_t *role));
ALIGNPTR(uint64_t __7,void (*hook_after)(hook_stack* stack,void* data, size_t len)); ALIGNPTR(uint64_t __7, void (*hook_after)(hook_stack *stack, void *data, size_t len));
ALIGNPTR(uint64_t __8,uintptr_t hook_font); ALIGNPTR(uint64_t __8, uintptr_t hook_font);
ALIGNPTR(uint64_t __9,const wchar_t* newlineseperator); ALIGNPTR(uint64_t __9, const wchar_t *newlineseperator);
char name[HOOK_NAME_SIZE]; char name[HOOK_NAME_SIZE];
wchar_t hookcode[HOOKCODE_LEN]; wchar_t hookcode[HOOKCODE_LEN];
HookParam(){ HookParam()
ZeroMemory(this,sizeof(HookParam)); {
ZeroMemory(this, sizeof(HookParam));
} }
ALIGNPTR(uint64_t __10,uintptr_t emu_addr); ALIGNPTR(uint64_t __10, uintptr_t emu_addr);
int argidx; int argidx;
JITTYPE jittype; JITTYPE jittype;
char unityfunctioninfo[1024]; char unityfunctioninfo[1024];
@ -122,28 +132,28 @@ struct ThreadParam
bool operator==(ThreadParam other) const { return processId == other.processId && addr == other.addr && ctx == other.ctx && ctx2 == other.ctx2; } bool operator==(ThreadParam other) const { return processId == other.processId && addr == other.addr && ctx == other.ctx && ctx2 == other.ctx2; }
DWORD processId; DWORD processId;
uint64_t addr; uint64_t addr;
uint64_t ctx; // The context of the hook: by default the first value on stack, usually the return address uint64_t ctx; // The context of the hook: by default the first value on stack, usually the return address
uint64_t ctx2; // The subcontext of the hook: 0 by default, generated in a method specific to the hook uint64_t ctx2; // The subcontext of the hook: 0 by default, generated in a method specific to the hook
}; };
struct SearchParam struct SearchParam
{ {
BYTE pattern[PATTERN_SIZE] = { x64 ? 0xcc : 0x55, x64 ? 0xcc : 0x8b, x64 ? 0x48 : 0xec, 0x89 }; // pattern in memory to search for BYTE pattern[PATTERN_SIZE] = {x64 ? 0xcc : 0x55, x64 ? 0xcc : 0x8b, x64 ? 0x48 : 0xec, 0x89}; // pattern in memory to search for
int address_method=0; int address_method = 0;
int search_method=0; int search_method = 0;
int length = x64 ? 4 : 3, // length of pattern (zero means this SearchParam is invalid and the default should be used) int length = x64 ? 4 : 3, // length of pattern (zero means this SearchParam is invalid and the default should be used)
offset = x64 ? 2 : 0, // offset from start of pattern to add hook offset = x64 ? 2 : 0, // offset from start of pattern to add hook
searchTime = 30000, // ms searchTime = 30000, // ms
maxRecords = 100000, maxRecords = 100000,
codepage = SHIFT_JIS; codepage = SHIFT_JIS;
//uintptr_t padding = 0, // same as hook param padding // uintptr_t padding = 0, // same as hook param padding
// minAddress = 0, maxAddress = (uintptr_t)-1; // hook all functions between these addresses (used only if both modules empty) // minAddress = 0, maxAddress = (uintptr_t)-1; // hook all functions between these addresses (used only if both modules empty)
ALIGNPTR(uint64_t __1,uintptr_t padding = 0); ALIGNPTR(uint64_t __1, uintptr_t padding = 0);
ALIGNPTR(uint64_t __2,uintptr_t minAddress = 0); ALIGNPTR(uint64_t __2, uintptr_t minAddress = 0);
ALIGNPTR(uint64_t __3,uintptr_t maxAddress = (uintptr_t)-1); ALIGNPTR(uint64_t __3, uintptr_t maxAddress = (uintptr_t)-1);
wchar_t boundaryModule[MAX_MODULE_SIZE] = {}; // hook all functions within this module (middle priority) wchar_t boundaryModule[MAX_MODULE_SIZE] = {}; // hook all functions within this module (middle priority)
wchar_t exportModule[MAX_MODULE_SIZE] = {}; // hook the exports of this module (highest priority) wchar_t exportModule[MAX_MODULE_SIZE] = {}; // hook the exports of this module (highest priority)
wchar_t text[PATTERN_SIZE] = {}; // text to search for wchar_t text[PATTERN_SIZE] = {}; // text to search for
JITTYPE jittype; JITTYPE jittype;
}; };
@ -176,7 +186,7 @@ struct ConsoleOutputNotif // From dll
struct HookFoundNotif // From dll struct HookFoundNotif // From dll
{ {
HookFoundNotif(HookParam hp, wchar_t* text) : hp(hp) { wcsncpy_s(this->text, text, MESSAGE_SIZE - 1); } HookFoundNotif(HookParam hp, wchar_t *text) : hp(hp) { wcsncpy_s(this->text, text, MESSAGE_SIZE - 1); }
HostNotificationType command = HOST_NOTIFICATION_FOUND_HOOK; HostNotificationType command = HOST_NOTIFICATION_FOUND_HOOK;
HookParam hp; HookParam hp;
wchar_t text[MESSAGE_SIZE] = {}; // though type is wchar_t, may not be encoded in UTF-16 (it's just convenient to use wcs* functions) wchar_t text[MESSAGE_SIZE] = {}; // though type is wchar_t, may not be encoded in UTF-16 (it's just convenient to use wcs* functions)
@ -184,14 +194,14 @@ struct HookFoundNotif // From dll
struct HookRemovedNotif // From dll struct HookRemovedNotif // From dll
{ {
HookRemovedNotif(uint64_t address) : address(address) {}; HookRemovedNotif(uint64_t address) : address(address){};
HostNotificationType command = HOST_NOTIFICATION_RMVHOOK; HostNotificationType command = HOST_NOTIFICATION_RMVHOOK;
uint64_t address; uint64_t address;
}; };
struct HookInsertingNotif // From dll struct HookInsertingNotif // From dll
{ {
HookInsertingNotif(uint64_t addr1):addr(addr1){} HookInsertingNotif(uint64_t addr1) : addr(addr1) {}
HostNotificationType command = HOST_NOTIFICATION_INSERTING_HOOK; HostNotificationType command = HOST_NOTIFICATION_INSERTING_HOOK;
uint64_t addr; uint64_t addr;
wchar_t hookcode[HOOKCODE_LEN]; wchar_t hookcode[HOOKCODE_LEN];

View File

@ -6,16 +6,27 @@ constexpr bool x64 = true;
constexpr bool x64 = false; constexpr bool x64 = false;
#endif #endif
template <typename T, typename... Xs> struct ArrayImpl { using Type = std::tuple<T, Xs...>[]; }; template <typename T, typename... Xs>
template <typename T> struct ArrayImpl<T> { using Type = T[]; }; struct ArrayImpl
template <typename... Ts> using Array = typename ArrayImpl<Ts...>::Type; {
using Type = std::tuple<T, Xs...>[];
};
template <typename T>
struct ArrayImpl<T>
{
using Type = T[];
};
template <typename... Ts>
using Array = typename ArrayImpl<Ts...>::Type;
template <auto F> using Functor = std::integral_constant<std::remove_reference_t<decltype(F)>, F>; // shouldn't need remove_reference_t but MSVC is bugged template <auto F>
using Functor = std::integral_constant<std::remove_reference_t<decltype(F)>, F>; // shouldn't need remove_reference_t but MSVC is bugged
struct PermissivePointer struct PermissivePointer
{ {
template <typename T> operator T*() { return (T*)p; } template <typename T>
void* p; operator T *() { return (T *)p; }
void *p;
}; };
template <typename HandleCloser = Functor<CloseHandle>> template <typename HandleCloser = Functor<CloseHandle>>
@ -24,29 +35,41 @@ class AutoHandle
public: public:
AutoHandle(HANDLE h) : h(h) {} AutoHandle(HANDLE h) : h(h) {}
operator HANDLE() { return h.get(); } operator HANDLE() { return h.get(); }
PHANDLE operator&() { static_assert(sizeof(*this) == sizeof(HANDLE)); assert(!h); return (PHANDLE)this; } PHANDLE operator&()
{
static_assert(sizeof(*this) == sizeof(HANDLE));
assert(!h);
return (PHANDLE)this;
}
operator bool() { return h.get() != NULL && h.get() != INVALID_HANDLE_VALUE; } operator bool() { return h.get() != NULL && h.get() != INVALID_HANDLE_VALUE; }
private: private:
struct HandleCleaner { void operator()(void* h) { if (h != INVALID_HANDLE_VALUE) HandleCloser()(PermissivePointer{ h }); } }; struct HandleCleaner
{
void operator()(void *h)
{
if (h != INVALID_HANDLE_VALUE)
HandleCloser()(PermissivePointer{h});
}
};
std::unique_ptr<void, HandleCleaner> h; std::unique_ptr<void, HandleCleaner> h;
}; };
template<typename T, typename M = std::mutex> template <typename T, typename M = std::mutex>
class Synchronized class Synchronized
{ {
public: public:
template <typename... Args> template <typename... Args>
Synchronized(Args&&... args) : contents(std::forward<Args>(args)...) {} Synchronized(Args &&...args) : contents(std::forward<Args>(args)...) {}
struct Locker struct Locker
{ {
T* operator->() { return &contents; } T *operator->() { return &contents; }
std::unique_lock<M> lock; std::unique_lock<M> lock;
T& contents; T &contents;
}; };
Locker Acquire() { return { std::unique_lock(m), contents }; } Locker Acquire() { return {std::unique_lock(m), contents}; }
Locker operator->() { return Acquire(); } Locker operator->() { return Acquire(); }
T Copy() { return Acquire().contents; } T Copy() { return Acquire().contents; }
@ -56,52 +79,66 @@ private:
}; };
template <typename F> template <typename F>
void SpawnThread(const F& f) // works in DllMain unlike std thread void SpawnThread(const F &f) // works in DllMain unlike std thread
{ {
F* copy = new F(f); F *copy = new F(f);
CloseHandle(CreateThread(nullptr, 0, [](void* copy) CloseHandle(CreateThread(nullptr, 0, [](void *copy)
{ {
(*(F*)copy)(); (*(F*)copy)();
delete (F*)copy; delete (F*)copy;
return 0UL; return 0UL; }, copy, 0, nullptr));
}, copy, 0, nullptr));
} }
inline struct // should be inline but MSVC (linker) is bugged inline struct // should be inline but MSVC (linker) is bugged
{ {
inline static BYTE DUMMY[100]; inline static BYTE DUMMY[100];
template <typename T> operator T*() { static_assert(sizeof(T) < sizeof(DUMMY)); return (T*)DUMMY; } template <typename T>
operator T *()
{
static_assert(sizeof(T) < sizeof(DUMMY));
return (T *)DUMMY;
}
} DUMMY; } DUMMY;
inline auto Swallow = [](auto&&...) {}; inline auto Swallow = [](auto &&...) {};
template <typename T> std::optional<std::remove_cv_t<T>> Copy(T* ptr) { if (ptr) return *ptr; return {}; }
template <typename T>
std::optional<std::remove_cv_t<T>> Copy(T *ptr)
{
if (ptr)
return *ptr;
return {};
}
inline std::optional<std::wstring> getModuleFilename(DWORD processId, HMODULE module = NULL) inline std::optional<std::wstring> getModuleFilename(DWORD processId, HMODULE module = NULL)
{ {
std::vector<wchar_t> buffer(MAX_PATH); std::vector<wchar_t> buffer(MAX_PATH);
if (AutoHandle<> process = OpenProcess(PROCESS_VM_READ | PROCESS_QUERY_INFORMATION, FALSE, processId)) if (AutoHandle<> process = OpenProcess(PROCESS_VM_READ | PROCESS_QUERY_INFORMATION, FALSE, processId))
if (GetModuleFileNameExW(process, module, buffer.data(), MAX_PATH)) return buffer.data(); if (GetModuleFileNameExW(process, module, buffer.data(), MAX_PATH))
return buffer.data();
return {}; return {};
} }
inline std::optional<std::wstring> getModuleFilename(HMODULE module = NULL) inline std::optional<std::wstring> getModuleFilename(HMODULE module = NULL)
{ {
std::vector<wchar_t> buffer(MAX_PATH); std::vector<wchar_t> buffer(MAX_PATH);
if (GetModuleFileNameW(module, buffer.data(), MAX_PATH)) return buffer.data(); if (GetModuleFileNameW(module, buffer.data(), MAX_PATH))
return buffer.data();
return {}; return {};
} }
template<typename T> template <typename T>
struct SafeFptr { struct SafeFptr
{
T ptr; T ptr;
uintptr_t errorvalue; uintptr_t errorvalue;
SafeFptr(T _ptr, uintptr_t v = {NULL}) : ptr(_ptr), errorvalue(v) {} SafeFptr(T _ptr, uintptr_t v = {NULL}) : ptr(_ptr), errorvalue(v) {}
template<typename... Args> template <typename... Args>
std::invoke_result_t<T, Args...> operator()(Args... args) { std::invoke_result_t<T, Args...> operator()(Args... args)
if (!ptr) return (std::invoke_result_t<T, Args...>)(errorvalue); {
if (!ptr)
return (std::invoke_result_t<T, Args...>)(errorvalue);
return ptr(std::forward<Args>(args)...); return ptr(std::forward<Args>(args)...);
} }
}; };

View File

@ -1,25 +1,26 @@
#include<Windows.h> #include <Windows.h>
class win_event class win_event
{ {
typedef win_event _Self; typedef win_event _Self;
typedef HANDLE __native_handle_type; typedef HANDLE __native_handle_type;
typedef const char * __native_string_type; typedef const char *__native_string_type;
__native_handle_type _M_handle; __native_handle_type _M_handle;
__native_string_type _M_name; __native_string_type _M_name;
win_event(const _Self&); win_event(const _Self &);
_Self &operator=(const _Self&); _Self &operator=(const _Self &);
public: public:
typedef __native_handle_type native_handle_type; typedef __native_handle_type native_handle_type;
typedef __native_string_type native_string_type; typedef __native_string_type native_string_type;
explicit win_event(native_string_type name, bool create = true) explicit win_event(native_string_type name, bool create = true)
: _M_name(name) : _M_name(name)
{ {
_M_handle = create ? // lpEventAttributes, bManualReset, bInitialState, lpName _M_handle = create ? // lpEventAttributes, bManualReset, bInitialState, lpName
::CreateEventA(nullptr, TRUE, FALSE, name) : ::CreateEventA(nullptr, TRUE, FALSE, name)
::OpenEventA(EVENT_ALL_ACCESS, FALSE, name); // dwDesiredAccess, bInheritHandle, lpName : ::OpenEventA(EVENT_ALL_ACCESS, FALSE, name); // dwDesiredAccess, bInheritHandle, lpName
} }
~win_event() { ::CloseHandle(_M_handle); } ~win_event() { ::CloseHandle(_M_handle); }
@ -30,9 +31,13 @@ public:
bool valid() const { return _M_handle; } bool valid() const { return _M_handle; }
bool signal(bool t) bool signal(bool t)
{ return t ? ::SetEvent(_M_handle) : ::ResetEvent(_M_handle); } {
return t ? ::SetEvent(_M_handle) : ::ResetEvent(_M_handle);
}
/// Return true only if when it is wake up by notify instead of timeout /// Return true only if when it is wake up by notify instead of timeout
bool wait(DWORD msec = INFINITE) bool wait(DWORD msec = INFINITE)
{ return WAIT_OBJECT_0 == ::WaitForSingleObject(_M_handle, msec); } {
return WAIT_OBJECT_0 == ::WaitForSingleObject(_M_handle, msec);
}
}; };