2021-04-28 15:24:16 +00:00
//===== Copyright <20> 1996-2005, Valve Corporation, All rights reserved. ======//
2020-04-22 16:56:21 +00:00
//
// Purpose:
//
// $Workfile: $
// $NoKeywords: $
//===========================================================================//
# include "pch_tier0.h"
# include "tier0/stacktools.h"
# include "tier0/threadtools.h"
# include "tier0/icommandline.h"
# include "tier0/valve_off.h"
# if defined( PLATFORM_WINDOWS_PC )
# define WIN32_LEAN_AND_MEAN
# include <windows.h>
# include <dbghelp.h>
# endif
# if defined( PLATFORM_X360 )
# include <xbdm.h>
# include "xbox/xbox_console.h"
# include "xbox/xbox_vxconsole.h"
# include <map>
# include <set>
# endif
2021-04-28 15:24:16 +00:00
# if defined( LINUX ) && !defined( ANDROID )
2020-04-22 16:56:21 +00:00
# include <execinfo.h>
# endif
# include "tier0/valve_on.h"
# include "tier0/memdbgon.h"
# if !defined( ENABLE_RUNTIME_STACK_TRANSLATION ) //disable the whole toolset
2021-04-28 15:24:16 +00:00
# if defined( LINUX ) && !defined( ANDROID )
2020-04-22 16:56:21 +00:00
int GetCallStack ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
return backtrace ( pReturnAddressesOut , iArrayCount ) ;
}
int GetCallStack_Fast ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
return backtrace ( pReturnAddressesOut , iArrayCount ) ;
}
# else
int GetCallStack ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
return 0 ;
}
int GetCallStack_Fast ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
return 0 ;
}
# endif
//where we'll find our PDB's for win32. Translation will not work until this has been called once (even if with NULL)
void SetStackTranslationSymbolSearchPath ( const char * szSemicolonSeparatedList )
{
}
void StackToolsNotify_LoadedLibrary ( const char * szLibName )
{
}
int TranslateStackInfo ( const void * const * pCallStack , int iCallStackCount , tchar * szOutput , int iOutBufferSize , const tchar * szEntrySeparator , TranslateStackInfo_StyleFlags_t style )
{
if ( iOutBufferSize > 0 )
* szOutput = ' \0 ' ;
return 0 ;
}
void PreloadStackInformation ( const void * * pAddresses , int iAddressCount )
{
}
bool GetFileAndLineFromAddress ( const void * pAddress , tchar * pFileNameOut , int iMaxFileNameLength , uint32 & iLineNumberOut , uint32 * pDisplacementOut )
{
if ( iMaxFileNameLength > 0 )
* pFileNameOut = ' \0 ' ;
return false ;
}
bool GetSymbolNameFromAddress ( const void * pAddress , tchar * pSymbolNameOut , int iMaxSymbolNameLength , uint64 * pDisplacementOut )
{
if ( iMaxSymbolNameLength > 0 )
* pSymbolNameOut = ' \0 ' ;
return false ;
}
bool GetModuleNameFromAddress ( const void * pAddress , tchar * pModuleNameOut , int iMaxModuleNameLength )
{
if ( iMaxModuleNameLength > 0 )
* pModuleNameOut = ' \0 ' ;
return false ;
}
# else //#if !defined( ENABLE_RUNTIME_STACK_TRANSLATION )
//===============================================================================================================
// Shared Windows/X360 code
//===============================================================================================================
CTHREADLOCALPTR ( CStackTop_Base ) g_StackTop ;
class CStackTop_FriendFuncs : public CStackTop_Base
{
public :
friend int AppendParentStackTrace ( void * * pReturnAddressesOut , int iArrayCount , int iAlreadyFilled ) ;
friend int GetCallStack_Fast ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount ) ;
} ;
inline int AppendParentStackTrace ( void * * pReturnAddressesOut , int iArrayCount , int iAlreadyFilled )
{
CStackTop_FriendFuncs * pTop = ( CStackTop_FriendFuncs * ) ( CStackTop_Base * ) g_StackTop ;
if ( pTop ! = NULL )
{
if ( pTop - > m_pReplaceAddress ! = NULL )
{
for ( int i = iAlreadyFilled ; - - i > = 0 ; )
{
if ( pReturnAddressesOut [ i ] = = pTop - > m_pReplaceAddress )
{
iAlreadyFilled = i ;
break ;
}
}
}
if ( pTop - > m_iParentStackTraceLength ! = 0 )
{
int iCopy = MIN ( iArrayCount - iAlreadyFilled , pTop - > m_iParentStackTraceLength ) ;
memcpy ( pReturnAddressesOut + iAlreadyFilled , pTop - > m_pParentStackTrace , iCopy * sizeof ( void * ) ) ;
iAlreadyFilled + = iCopy ;
}
}
return iAlreadyFilled ;
}
inline bool ValidStackAddress ( void * pAddress , const void * pNoLessThan , const void * pNoGreaterThan )
{
if ( ( uintp ) pAddress & 3 )
return false ;
if ( pAddress < pNoLessThan ) //frame pointer traversal should always increase the pointer
return false ;
if ( pAddress > pNoGreaterThan ) //never traverse outside the stack (Oh 0xCCCCCCCC, how I hate you)
return false ;
# if defined( WIN32 ) && !defined( _X360 ) && 1
if ( IsBadReadPtr ( pAddress , ( sizeof ( void * ) * 2 ) ) ) //safety net, but also throws an exception (handled internally) to stop bad access
return false ;
# endif
return true ;
}
# pragma auto_inline( off )
int GetCallStack_Fast ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
//Only tested in windows. This function won't work with frame pointer omission enabled. "vpc /nofpo" all projects
# if (defined( TIER0_FPO_DISABLED ) || defined( _DEBUG )) &&\
( defined ( WIN32 ) & & ! defined ( _X360 ) & & ! defined ( _M_X64 ) )
void * pStackCrawlEBP ;
__asm
{
mov [ pStackCrawlEBP ] , ebp ;
}
/*
With frame pointer omission disabled , this should be the pattern all the way up the stack
[ ebp + 00 ] Old ebp value
[ ebp + 04 ] Return address
*/
void * pNoLessThan = pStackCrawlEBP ; //impossible for a valid stack to traverse before this address
int i ;
CStackTop_FriendFuncs * pTop = ( CStackTop_FriendFuncs * ) ( CStackTop_Base * ) g_StackTop ;
if ( pTop ! = NULL ) //we can do fewer error checks if we have a valid reference point for the top of the stack
{
void * pNoGreaterThan = pTop - > m_pStackBase ;
//skips
for ( i = 0 ; i ! = iSkipCount ; + + i )
{
if ( ( pStackCrawlEBP < pNoLessThan ) | | ( pStackCrawlEBP > pNoGreaterThan ) )
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , 0 ) ;
pNoLessThan = pStackCrawlEBP ;
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ; //should be pointing at old ebp value
}
//store
for ( i = 0 ; i ! = iArrayCount ; + + i )
{
if ( ( pStackCrawlEBP < pNoLessThan ) | | ( pStackCrawlEBP > pNoGreaterThan ) )
break ;
pReturnAddressesOut [ i ] = * ( ( void * * ) pStackCrawlEBP + 1 ) ;
pNoLessThan = pStackCrawlEBP ;
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ; //should be pointing at old ebp value
}
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , i ) ;
}
else
{
void * pNoGreaterThan = ( ( unsigned char * ) pNoLessThan ) + ( 1024 * 1024 ) ; //standard stack is 1MB. TODO: Get actual stack end address if available since this check isn't foolproof
//skips
for ( i = 0 ; i ! = iSkipCount ; + + i )
{
if ( ! ValidStackAddress ( pStackCrawlEBP , pNoLessThan , pNoGreaterThan ) )
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , 0 ) ;
pNoLessThan = pStackCrawlEBP ;
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ; //should be pointing at old ebp value
}
//store
for ( i = 0 ; i ! = iArrayCount ; + + i )
{
if ( ! ValidStackAddress ( pStackCrawlEBP , pNoLessThan , pNoGreaterThan ) )
break ;
pReturnAddressesOut [ i ] = * ( ( void * * ) pStackCrawlEBP + 1 ) ;
pNoLessThan = pStackCrawlEBP ;
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ; //should be pointing at old ebp value
}
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , i ) ;
}
# endif
return 0 ;
}
# pragma auto_inline( on )
# if defined( WIN32 ) && !defined( _X360 )
//===============================================================================================================
// Windows version of the toolset
//===============================================================================================================
# if defined( TIER0_FPO_DISABLED )
//# define USE_CAPTURESTACKBACKTRACE //faster than StackWalk64, but only works on XP or newer and only with Frame Pointer Omission optimization disabled(/Oy-) for every function it traces through
# endif
# if defined(_M_IX86) || defined(_M_X64)
# define USE_STACKWALK64
# if defined(_M_IX86)
# define STACKWALK64_MACHINETYPE IMAGE_FILE_MACHINE_I386
# else
# define STACKWALK64_MACHINETYPE IMAGE_FILE_MACHINE_AMD64
# endif
# endif
typedef DWORD ( WINAPI * PFN_SymGetOptions ) ( VOID ) ;
typedef DWORD ( WINAPI * PFN_SymSetOptions ) ( IN DWORD SymOptions ) ;
typedef BOOL ( WINAPI * PFN_SymSetSearchPath ) ( IN HANDLE hProcess , IN PSTR SearchPath ) ;
typedef BOOL ( WINAPI * PFN_SymInitialize ) ( IN HANDLE hProcess , IN PSTR UserSearchPath , IN BOOL fInvadeProcess ) ;
typedef BOOL ( WINAPI * PFN_SymCleanup ) ( IN HANDLE hProcess ) ;
typedef BOOL ( WINAPI * PFN_SymEnumerateModules64 ) ( IN HANDLE hProcess , IN PSYM_ENUMMODULES_CALLBACK64 EnumModulesCallback , IN PVOID UserContext ) ;
typedef BOOL ( WINAPI * PFN_EnumerateLoadedModules64 ) ( IN HANDLE hProcess , IN PENUMLOADED_MODULES_CALLBACK64 EnumLoadedModulesCallback , IN PVOID UserContext ) ;
typedef DWORD64 ( WINAPI * PFN_SymLoadModule64 ) ( IN HANDLE hProcess , IN HANDLE hFile , IN PSTR ImageName , IN PSTR ModuleName , IN DWORD64 BaseOfDll , IN DWORD SizeOfDll ) ;
typedef BOOL ( WINAPI * PFN_SymUnloadModule64 ) ( IN HANDLE hProcess , IN DWORD64 BaseOfDll ) ;
typedef BOOL ( WINAPI * PFN_SymFromAddr ) ( IN HANDLE hProcess , IN DWORD64 Address , OUT PDWORD64 Displacement , IN OUT PSYMBOL_INFO Symbol ) ;
typedef BOOL ( WINAPI * PFN_SymGetLineFromAddr64 ) ( IN HANDLE hProcess , IN DWORD64 qwAddr , OUT PDWORD pdwDisplacement , OUT PIMAGEHLP_LINE64 Line64 ) ;
typedef BOOL ( WINAPI * PFN_SymGetModuleInfo64 ) ( IN HANDLE hProcess , IN DWORD64 dwAddr , OUT PIMAGEHLP_MODULE64 ModuleInfo ) ;
typedef BOOL ( WINAPI * PFN_StackWalk64 ) ( DWORD MachineType , HANDLE hProcess , HANDLE hThread , LPSTACKFRAME64 StackFrame , PVOID ContextRecord , PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine , PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine , PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine , PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress ) ;
typedef USHORT ( WINAPI * PFN_CaptureStackBackTrace ) ( IN ULONG FramesToSkip , IN ULONG FramesToCapture , OUT PVOID * BackTrace , OUT OPTIONAL PULONG BackTraceHash ) ;
DWORD WINAPI SymGetOptions_DummyFn ( VOID )
{
return 0 ;
}
DWORD WINAPI SymSetOptions_DummyFn ( IN DWORD SymOptions )
{
return 0 ;
}
BOOL WINAPI SymSetSearchPath_DummyFn ( IN HANDLE hProcess , IN PSTR SearchPath )
{
return FALSE ;
}
BOOL WINAPI SymInitialize_DummyFn ( IN HANDLE hProcess , IN PSTR UserSearchPath , IN BOOL fInvadeProcess )
{
return FALSE ;
}
BOOL WINAPI SymCleanup_DummyFn ( IN HANDLE hProcess )
{
return TRUE ;
}
BOOL WINAPI SymEnumerateModules64_DummyFn ( IN HANDLE hProcess , IN PSYM_ENUMMODULES_CALLBACK64 EnumModulesCallback , IN PVOID UserContext )
{
return FALSE ;
}
BOOL WINAPI EnumerateLoadedModules64_DummyFn ( IN HANDLE hProcess , IN PENUMLOADED_MODULES_CALLBACK64 EnumLoadedModulesCallback , IN PVOID UserContext )
{
return FALSE ;
}
DWORD64 WINAPI SymLoadModule64_DummyFn ( IN HANDLE hProcess , IN HANDLE hFile , IN PSTR ImageName , IN PSTR ModuleName , IN DWORD64 BaseOfDll , IN DWORD SizeOfDll )
{
return 0 ;
}
BOOL WINAPI SymUnloadModule64_DummyFn ( IN HANDLE hProcess , IN DWORD64 BaseOfDll )
{
return FALSE ;
}
BOOL WINAPI SymFromAddr_DummyFn ( IN HANDLE hProcess , IN DWORD64 Address , OUT PDWORD64 Displacement , IN OUT PSYMBOL_INFO Symbol )
{
return FALSE ;
}
BOOL WINAPI SymGetLineFromAddr64_DummyFn ( IN HANDLE hProcess , IN DWORD64 qwAddr , OUT PDWORD pdwDisplacement , OUT PIMAGEHLP_LINE64 Line64 )
{
return FALSE ;
}
BOOL WINAPI SymGetModuleInfo64_DummyFn ( IN HANDLE hProcess , IN DWORD64 dwAddr , OUT PIMAGEHLP_MODULE64 ModuleInfo )
{
return FALSE ;
}
BOOL WINAPI StackWalk64_DummyFn ( DWORD MachineType , HANDLE hProcess , HANDLE hThread , LPSTACKFRAME64 StackFrame , PVOID ContextRecord , PREAD_PROCESS_MEMORY_ROUTINE64 ReadMemoryRoutine , PFUNCTION_TABLE_ACCESS_ROUTINE64 FunctionTableAccessRoutine , PGET_MODULE_BASE_ROUTINE64 GetModuleBaseRoutine , PTRANSLATE_ADDRESS_ROUTINE64 TranslateAddress )
{
return FALSE ;
}
USHORT WINAPI CaptureStackBackTrace_DummyFn ( IN ULONG FramesToSkip , IN ULONG FramesToCapture , OUT PVOID * BackTrace , OUT OPTIONAL PULONG BackTraceHash )
{
return 0 ;
}
class CHelperFunctionsLoader
{
public :
CHelperFunctionsLoader ( void )
{
m_bIsInitialized = false ;
m_bShouldReloadSymbols = false ;
m_hDbgHelpDll = NULL ;
m_szPDBSearchPath = NULL ;
m_pSymInitialize = SymInitialize_DummyFn ;
m_pSymCleanup = SymCleanup_DummyFn ;
m_pSymSetOptions = SymSetOptions_DummyFn ;
m_pSymGetOptions = SymGetOptions_DummyFn ;
m_pSymSetSearchPath = SymSetSearchPath_DummyFn ;
m_pSymEnumerateModules64 = SymEnumerateModules64_DummyFn ;
m_pEnumerateLoadedModules64 = EnumerateLoadedModules64_DummyFn ;
m_pSymLoadModule64 = SymLoadModule64_DummyFn ;
m_pSymUnloadModule64 = SymUnloadModule64_DummyFn ;
m_pSymFromAddr = SymFromAddr_DummyFn ;
m_pSymGetLineFromAddr64 = SymGetLineFromAddr64_DummyFn ;
m_pSymGetModuleInfo64 = SymGetModuleInfo64_DummyFn ;
# if defined( USE_STACKWALK64 )
m_pStackWalk64 = StackWalk64_DummyFn ;
# endif
# if defined( USE_CAPTURESTACKBACKTRACE )
m_pCaptureStackBackTrace = CaptureStackBackTrace_DummyFn ;
m_hNTDllDll = NULL ;
# endif
}
~ CHelperFunctionsLoader ( void )
{
m_pSymCleanup ( m_hProcess ) ;
if ( m_hDbgHelpDll ! = NULL )
: : FreeLibrary ( m_hDbgHelpDll ) ;
# if defined( USE_CAPTURESTACKBACKTRACE )
if ( m_hNTDllDll ! = NULL )
: : FreeLibrary ( m_hNTDllDll ) ;
# endif
if ( m_szPDBSearchPath ! = NULL )
delete [ ] m_szPDBSearchPath ;
}
static BOOL CALLBACK UnloadSymbolsCallback ( PSTR ModuleName , DWORD64 BaseOfDll , PVOID UserContext )
{
const CHelperFunctionsLoader * pThis = ( ( CHelperFunctionsLoader * ) UserContext ) ;
pThis - > m_pSymUnloadModule64 ( pThis - > m_hProcess , BaseOfDll ) ;
return TRUE ;
}
# if _MSC_VER >= 1600
static BOOL CALLBACK LoadSymbolsCallback ( PCSTR ModuleName , DWORD64 ModuleBase , ULONG ModuleSize , PVOID UserContext )
# else
static BOOL CALLBACK LoadSymbolsCallback ( PSTR ModuleName , DWORD64 ModuleBase , ULONG ModuleSize , PVOID UserContext )
# endif
{
const CHelperFunctionsLoader * pThis = ( ( CHelperFunctionsLoader * ) UserContext ) ;
//SymLoadModule64( IN HANDLE hProcess, IN HANDLE hFile, IN PSTR ImageName, IN PSTR ModuleName, IN DWORD64 BaseOfDll, IN DWORD SizeOfDll );
pThis - > m_pSymLoadModule64 ( pThis - > m_hProcess , NULL , ( PSTR ) ModuleName , ( PSTR ) ModuleName , ModuleBase , ModuleSize ) ;
return TRUE ;
}
void TryLoadingNewSymbols ( void )
{
AUTO_LOCK ( m_Mutex ) ;
if ( m_bIsInitialized )
{
//m_pSymEnumerateModules64( m_hProcess, UnloadSymbolsCallback, this ); //unloaded modules we've already loaded
m_pEnumerateLoadedModules64 ( m_hProcess , LoadSymbolsCallback , this ) ; //load everything
m_bShouldReloadSymbols = false ;
}
}
void SetStackTranslationSymbolSearchPath ( const char * szSemicolonSeparatedList )
{
AUTO_LOCK ( m_Mutex ) ;
if ( m_szPDBSearchPath ! = NULL )
delete [ ] m_szPDBSearchPath ;
if ( szSemicolonSeparatedList = = NULL )
{
m_szPDBSearchPath = NULL ;
return ;
}
int iLength = ( int ) strlen ( szSemicolonSeparatedList ) + 1 ;
char * pNewPath = new char [ iLength ] ;
memcpy ( pNewPath , szSemicolonSeparatedList , iLength ) ;
m_szPDBSearchPath = pNewPath ;
//re-init search paths. Or if we haven't yet loaded dbghelp.dll, this will go to the dummy function and do nothing
m_pSymSetSearchPath ( m_hProcess , m_szPDBSearchPath ) ;
//TryLoadingNewSymbols();
m_bShouldReloadSymbols = true ;
}
bool GetSymbolNameFromAddress ( const void * pAddress , tchar * pSymbolNameOut , int iMaxSymbolNameLength , uint64 * pDisplacementOut )
{
if ( pAddress = = NULL )
return false ;
AUTO_LOCK ( m_Mutex ) ;
unsigned char genericbuffer [ sizeof ( SYMBOL_INFO ) + MAX_SYM_NAME * sizeof ( TCHAR ) ] ;
( ( PSYMBOL_INFO ) genericbuffer ) - > SizeOfStruct = sizeof ( SYMBOL_INFO ) ;
( ( PSYMBOL_INFO ) genericbuffer ) - > MaxNameLen = MAX_SYM_NAME ;
DWORD64 dwDisplacement ;
if ( m_pSymFromAddr ( m_hProcess , ( DWORD64 ) pAddress , & dwDisplacement , ( PSYMBOL_INFO ) genericbuffer ) )
{
strncpy ( pSymbolNameOut , ( ( PSYMBOL_INFO ) genericbuffer ) - > Name , iMaxSymbolNameLength ) ;
if ( pDisplacementOut ! = NULL )
* pDisplacementOut = dwDisplacement ;
return true ;
}
return false ;
}
bool GetFileAndLineFromAddress ( const void * pAddress , tchar * pFileNameOut , int iMaxFileNameLength , uint32 & iLineNumberOut , uint32 * pDisplacementOut )
{
if ( pAddress = = NULL )
return false ;
AUTO_LOCK ( m_Mutex ) ;
tchar szBuffer [ 1024 ] ;
szBuffer [ 0 ] = _T ( ' \0 ' ) ;
IMAGEHLP_LINE64 imageHelpLine64 ;
imageHelpLine64 . SizeOfStruct = sizeof ( IMAGEHLP_LINE64 ) ;
imageHelpLine64 . FileName = szBuffer ;
DWORD dwDisplacement ;
if ( m_pSymGetLineFromAddr64 ( m_hProcess , ( DWORD64 ) pAddress , & dwDisplacement , & imageHelpLine64 ) )
{
strncpy ( pFileNameOut , imageHelpLine64 . FileName , iMaxFileNameLength ) ;
iLineNumberOut = imageHelpLine64 . LineNumber ;
if ( pDisplacementOut ! = NULL )
* pDisplacementOut = dwDisplacement ;
return true ;
}
return false ;
}
bool GetModuleNameFromAddress ( const void * pAddress , tchar * pModuleNameOut , int iMaxModuleNameLength )
{
AUTO_LOCK ( m_Mutex ) ;
IMAGEHLP_MODULE64 moduleInfo ;
moduleInfo . SizeOfStruct = sizeof ( IMAGEHLP_MODULE64 ) ;
if ( m_pSymGetModuleInfo64 ( m_hProcess , ( DWORD64 ) pAddress , & moduleInfo ) )
{
strncpy ( pModuleNameOut , moduleInfo . ModuleName , iMaxModuleNameLength ) ;
return true ;
}
return false ;
}
//only returns false if we ran out of buffer space.
bool TranslatePointer ( const void * const pAddress , tchar * pTranslationOut , int iTranslationBufferLength , TranslateStackInfo_StyleFlags_t style )
{
//AUTO_LOCK( m_Mutex );
if ( pTranslationOut = = NULL )
return false ;
if ( iTranslationBufferLength < = 0 )
return false ;
//sample desired output
// valid translation - "tier0.dll!CHelperFunctionsLoader::TranslatePointer - u:\Dev\L4D\src\tier0\stacktools.cpp(162) + 4 bytes"
// fallback translation - "tier0.dll!0x01234567"
tchar * pWrite = pTranslationOut ;
* pWrite = ' \0 ' ;
int iLength ;
if ( style & TSISTYLEFLAG_MODULENAME )
{
if ( ! this - > GetModuleNameFromAddress ( pAddress , pWrite , iTranslationBufferLength ) )
strncpy ( pWrite , " unknown_module " , iTranslationBufferLength ) ;
iLength = ( int ) strlen ( pWrite ) ;
pWrite + = iLength ;
iTranslationBufferLength - = iLength ;
if ( iTranslationBufferLength < 2 )
return false ; //need more buffer
if ( style & TSISTYLEFLAG_SYMBOLNAME )
{
* pWrite = ' ! ' ;
+ + pWrite ;
- - iTranslationBufferLength ;
* pWrite = ' \0 ' ;
}
}
//use symbol name to test if the rest is going to work. So grab it whether they want it or not
if ( ! this - > GetSymbolNameFromAddress ( pAddress , pWrite , iTranslationBufferLength , NULL ) )
{
int nBytesWritten = _snprintf ( pWrite , iTranslationBufferLength , " 0x%p " , pAddress ) ;
if ( nBytesWritten < 0 )
{
* pWrite = ' \0 ' ; // if we can't write all of the line/lineandoffset, don't write any at all
return false ;
}
return true ;
}
else if ( style & TSISTYLEFLAG_SYMBOLNAME )
{
iLength = ( int ) strlen ( pWrite ) ;
pWrite + = iLength ;
iTranslationBufferLength - = iLength ;
}
else
{
* pWrite = ' \0 ' ; //symbol name lookup worked, but unwanted, discard
}
if ( style & ( TSISTYLEFLAG_FULLPATH | TSISTYLEFLAG_SHORTPATH | TSISTYLEFLAG_LINE | TSISTYLEFLAG_LINEANDOFFSET ) )
{
if ( pWrite ! = pTranslationOut ) //if we've written anything yet, separate the printed data from the file name and line
{
if ( iTranslationBufferLength < 6 )
return false ; //need more buffer
pWrite [ 0 ] = ' ' ; //append " - "
pWrite [ 1 ] = ' - ' ;
pWrite [ 2 ] = ' ' ;
pWrite [ 3 ] = ' \0 ' ;
pWrite + = 3 ;
iTranslationBufferLength - = 3 ;
}
uint32 iLine ;
uint32 iDisplacement ;
char szFileName [ MAX_PATH ] ;
if ( this - > GetFileAndLineFromAddress ( pAddress , szFileName , MAX_PATH , iLine , & iDisplacement ) )
{
if ( style & TSISTYLEFLAG_FULLPATH )
{
iLength = ( int ) strlen ( szFileName ) ;
if ( iTranslationBufferLength < iLength + 1 )
return false ;
memcpy ( pWrite , szFileName , iLength + 1 ) ;
pWrite + = iLength ;
iTranslationBufferLength - = iLength ;
}
else if ( style & TSISTYLEFLAG_SHORTPATH )
{
//shorten the path and copy
iLength = ( int ) strlen ( szFileName ) ;
char * pShortened = szFileName + iLength ;
int iSlashesAllowed = 3 ;
while ( pShortened > szFileName )
{
if ( ( * pShortened = = ' \\ ' ) | | ( * pShortened = = ' / ' ) )
{
- - iSlashesAllowed ;
if ( iSlashesAllowed = = 0 )
break ;
}
- - pShortened ;
}
iLength = ( int ) strlen ( pShortened ) ;
if ( iTranslationBufferLength < iLength + 1 )
{
//Remove the " - " that we can't append to
pWrite - = 3 ;
iTranslationBufferLength + = 3 ;
* pWrite = ' \0 ' ;
return false ;
}
memcpy ( pWrite , szFileName , iLength + 1 ) ;
pWrite + = iLength ;
iTranslationBufferLength - = iLength ;
}
if ( style & ( TSISTYLEFLAG_LINE | TSISTYLEFLAG_LINEANDOFFSET ) )
{
int nBytesWritten = _snprintf ( pWrite , iTranslationBufferLength , ( ( style & TSISTYLEFLAG_LINEANDOFFSET ) & & ( iDisplacement ! = 0 ) ) ? " (%d) + %d bytes " : " (%d) " , iLine , iDisplacement ) ;
if ( nBytesWritten < 0 )
{
* pWrite = ' \0 ' ; // if we can't write all of the line/lineandoffset, don't write any at all
return false ;
}
pWrite + = nBytesWritten ;
iTranslationBufferLength - = nBytesWritten ;
}
}
else
{
//Remove the " - " that we didn't append to
pWrite - = 3 ;
iTranslationBufferLength + = 3 ;
* pWrite = ' \0 ' ;
}
}
return true ;
}
//about to actually use the functions, load if necessary
void EnsureReady ( void )
{
if ( m_bIsInitialized )
{
if ( m_bShouldReloadSymbols )
TryLoadingNewSymbols ( ) ;
return ;
}
AUTO_LOCK ( m_Mutex ) ;
//Only enabled for P4 and Steam Beta builds
if ( ( CommandLine ( ) - > FindParm ( " -steam " ) ! = 0 ) & & //is steam
( CommandLine ( ) - > FindParm ( " -internalbuild " ) = = 0 ) ) //is not steam beta
{
//disable the toolset by falsifying initialized state
m_bIsInitialized = true ;
return ;
}
m_hProcess = GetCurrentProcess ( ) ;
if ( m_hProcess = = NULL )
return ;
m_bIsInitialized = true ;
// get the function pointer directly so that we don't have to include the .lib, and that
// we can easily change it to using our own dll when this code is used on win98/ME/2K machines
m_hDbgHelpDll = : : LoadLibrary ( " DbgHelp.dll " ) ;
if ( ! m_hDbgHelpDll )
{
//it's possible it's just way too early to initialize (as shown with attempts at using these tools in the memory allocator)
if ( m_szPDBSearchPath = = NULL ) //not a rock solid check, but pretty good compromise between endless failing initialization and general failure due to trying too early
m_bIsInitialized = false ;
return ;
}
m_pSymInitialize = ( PFN_SymInitialize ) : : GetProcAddress ( m_hDbgHelpDll , " SymInitialize " ) ;
if ( m_pSymInitialize = = NULL )
{
//very bad
: : FreeLibrary ( m_hDbgHelpDll ) ;
m_hDbgHelpDll = NULL ;
m_pSymInitialize = SymInitialize_DummyFn ;
return ;
}
m_pSymCleanup = ( PFN_SymCleanup ) : : GetProcAddress ( m_hDbgHelpDll , " SymCleanup " ) ;
if ( m_pSymCleanup = = NULL )
m_pSymCleanup = SymCleanup_DummyFn ;
m_pSymGetOptions = ( PFN_SymGetOptions ) : : GetProcAddress ( m_hDbgHelpDll , " SymGetOptions " ) ;
if ( m_pSymGetOptions = = NULL )
m_pSymGetOptions = SymGetOptions_DummyFn ;
m_pSymSetOptions = ( PFN_SymSetOptions ) : : GetProcAddress ( m_hDbgHelpDll , " SymSetOptions " ) ;
if ( m_pSymSetOptions = = NULL )
m_pSymSetOptions = SymSetOptions_DummyFn ;
m_pSymSetSearchPath = ( PFN_SymSetSearchPath ) : : GetProcAddress ( m_hDbgHelpDll , " SymSetSearchPath " ) ;
if ( m_pSymSetSearchPath = = NULL )
m_pSymSetSearchPath = SymSetSearchPath_DummyFn ;
m_pSymEnumerateModules64 = ( PFN_SymEnumerateModules64 ) : : GetProcAddress ( m_hDbgHelpDll , " SymEnumerateModules64 " ) ;
if ( m_pSymEnumerateModules64 = = NULL )
m_pSymEnumerateModules64 = SymEnumerateModules64_DummyFn ;
m_pEnumerateLoadedModules64 = ( PFN_EnumerateLoadedModules64 ) : : GetProcAddress ( m_hDbgHelpDll , " EnumerateLoadedModules64 " ) ;
if ( m_pEnumerateLoadedModules64 = = NULL )
m_pEnumerateLoadedModules64 = EnumerateLoadedModules64_DummyFn ;
m_pSymLoadModule64 = ( PFN_SymLoadModule64 ) : : GetProcAddress ( m_hDbgHelpDll , " SymLoadModule64 " ) ;
if ( m_pSymLoadModule64 = = NULL )
m_pSymLoadModule64 = SymLoadModule64_DummyFn ;
m_pSymUnloadModule64 = ( PFN_SymUnloadModule64 ) : : GetProcAddress ( m_hDbgHelpDll , " SymUnloadModule64 " ) ;
if ( m_pSymUnloadModule64 = = NULL )
m_pSymUnloadModule64 = SymUnloadModule64_DummyFn ;
m_pSymFromAddr = ( PFN_SymFromAddr ) : : GetProcAddress ( m_hDbgHelpDll , " SymFromAddr " ) ;
if ( m_pSymFromAddr = = NULL )
m_pSymFromAddr = SymFromAddr_DummyFn ;
m_pSymGetLineFromAddr64 = ( PFN_SymGetLineFromAddr64 ) : : GetProcAddress ( m_hDbgHelpDll , " SymGetLineFromAddr64 " ) ;
if ( m_pSymGetLineFromAddr64 = = NULL )
m_pSymGetLineFromAddr64 = SymGetLineFromAddr64_DummyFn ;
m_pSymGetModuleInfo64 = ( PFN_SymGetModuleInfo64 ) : : GetProcAddress ( m_hDbgHelpDll , " SymGetModuleInfo64 " ) ;
if ( m_pSymGetModuleInfo64 = = NULL )
m_pSymGetModuleInfo64 = SymGetModuleInfo64_DummyFn ;
# if defined( USE_STACKWALK64 )
m_pStackWalk64 = ( PFN_StackWalk64 ) : : GetProcAddress ( m_hDbgHelpDll , " StackWalk64 " ) ;
if ( m_pStackWalk64 = = NULL )
m_pStackWalk64 = StackWalk64_DummyFn ;
# endif
# if defined( USE_CAPTURESTACKBACKTRACE )
m_hNTDllDll = : : LoadLibrary ( " ntdll.dll " ) ;
m_pCaptureStackBackTrace = ( PFN_CaptureStackBackTrace ) : : GetProcAddress ( m_hNTDllDll , " RtlCaptureStackBackTrace " ) ;
if ( m_pCaptureStackBackTrace = = NULL )
m_pCaptureStackBackTrace = CaptureStackBackTrace_DummyFn ;
# endif
m_pSymSetOptions ( m_pSymGetOptions ( ) |
SYMOPT_DEFERRED_LOADS | //load on demand
SYMOPT_EXACT_SYMBOLS | //don't load the wrong file
SYMOPT_FAIL_CRITICAL_ERRORS | SYMOPT_NO_PROMPTS | //don't prompt ever
SYMOPT_LOAD_LINES ) ; //load line info
m_pSymInitialize ( m_hProcess , m_szPDBSearchPath , FALSE ) ;
TryLoadingNewSymbols ( ) ;
}
bool m_bIsInitialized ;
bool m_bShouldReloadSymbols ;
HANDLE m_hProcess ;
HMODULE m_hDbgHelpDll ;
char * m_szPDBSearchPath ;
CThreadFastMutex m_Mutex ; //DbgHelp functions are all single threaded.
PFN_SymInitialize m_pSymInitialize ;
PFN_SymCleanup m_pSymCleanup ;
PFN_SymGetOptions m_pSymGetOptions ;
PFN_SymSetOptions m_pSymSetOptions ;
PFN_SymSetSearchPath m_pSymSetSearchPath ;
PFN_SymEnumerateModules64 m_pSymEnumerateModules64 ;
PFN_EnumerateLoadedModules64 m_pEnumerateLoadedModules64 ;
PFN_SymLoadModule64 m_pSymLoadModule64 ;
PFN_SymUnloadModule64 m_pSymUnloadModule64 ;
PFN_SymFromAddr m_pSymFromAddr ;
PFN_SymGetLineFromAddr64 m_pSymGetLineFromAddr64 ;
PFN_SymGetModuleInfo64 m_pSymGetModuleInfo64 ;
# if defined( USE_STACKWALK64 )
PFN_StackWalk64 m_pStackWalk64 ;
# endif
# if defined( USE_CAPTURESTACKBACKTRACE )
HMODULE m_hNTDllDll ;
PFN_CaptureStackBackTrace m_pCaptureStackBackTrace ;
# endif
} ;
static CHelperFunctionsLoader s_HelperFunctions ;
# if defined( USE_STACKWALK64 ) //most reliable method thanks to boatloads of windows helper functions. Also the slowest.
int CrawlStack_StackWalk64 ( CONTEXT * pExceptionContext , void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
s_HelperFunctions . EnsureReady ( ) ;
AUTO_LOCK ( s_HelperFunctions . m_Mutex ) ;
CONTEXT currentContext ;
memcpy ( & currentContext , pExceptionContext , sizeof ( CONTEXT ) ) ;
STACKFRAME64 sfFrame = { 0 } ; //memset(&sfFrame, 0x0, sizeof(sfFrame));
sfFrame . AddrPC . Mode = sfFrame . AddrFrame . Mode = AddrModeFlat ;
# ifdef _M_X64
sfFrame . AddrPC . Offset = currentContext . Rip ;
sfFrame . AddrFrame . Offset = currentContext . Rbp ; // ????
# else
sfFrame . AddrPC . Offset = currentContext . Eip ;
sfFrame . AddrFrame . Offset = currentContext . Ebp ;
# endif
HANDLE hThread = GetCurrentThread ( ) ;
int i ;
for ( i = 0 ; i ! = iSkipCount ; + + i ) //skip entries that the requesting function thinks are uninformative
{
if ( ! s_HelperFunctions . m_pStackWalk64 ( STACKWALK64_MACHINETYPE , s_HelperFunctions . m_hProcess , hThread , & sfFrame , & currentContext , NULL , NULL , NULL , NULL ) | |
( sfFrame . AddrFrame . Offset = = 0 ) )
{
return 0 ;
}
}
for ( i = 0 ; i ! = iArrayCount ; + + i )
{
if ( ! s_HelperFunctions . m_pStackWalk64 ( STACKWALK64_MACHINETYPE , s_HelperFunctions . m_hProcess , hThread , & sfFrame , & currentContext , NULL , NULL , NULL , NULL ) | |
( sfFrame . AddrFrame . Offset = = 0 ) )
{
break ;
}
pReturnAddressesOut [ i ] = ( void * ) sfFrame . AddrPC . Offset ;
}
return i ;
}
void GetCallStackReturnAddresses_Exception ( void * * CallStackReturnAddresses , int * pRetCount , int iSkipCount , _EXCEPTION_POINTERS * pExceptionInfo )
{
int iCount = CrawlStack_StackWalk64 ( pExceptionInfo - > ContextRecord , CallStackReturnAddresses , * pRetCount , iSkipCount + 1 ) ; //skipping RaiseException()
* pRetCount = iCount ;
}
# endif //#if defined( USE_STACKWALK64 )
int GetCallStack ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
s_HelperFunctions . EnsureReady ( ) ;
+ + iSkipCount ; //skip this function
# if defined( USE_CAPTURESTACKBACKTRACE )
if ( s_HelperFunctions . m_pCaptureStackBackTrace ! = CaptureStackBackTrace_DummyFn )
{
//docs state a total limit of 63 back traces between skipped and stored
int iRetVal = s_HelperFunctions . m_pCaptureStackBackTrace ( iSkipCount , MIN ( iArrayCount , 63 - iSkipCount ) , pReturnAddressesOut , NULL ) ;
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , iRetVal ) ;
}
# endif
# if defined( USE_STACKWALK64 )
if ( s_HelperFunctions . m_pStackWalk64 ! = StackWalk64_DummyFn )
{
int iInOutArrayCount = iArrayCount ; //array count becomes both input and output with exception handler version
__try
{
: : RaiseException ( 0 , EXCEPTION_NONCONTINUABLE , 0 , NULL ) ;
}
__except ( GetCallStackReturnAddresses_Exception ( pReturnAddressesOut , & iInOutArrayCount , iSkipCount , GetExceptionInformation ( ) ) , EXCEPTION_EXECUTE_HANDLER )
{
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , iInOutArrayCount ) ;
}
}
# endif
return GetCallStack_Fast ( pReturnAddressesOut , iArrayCount , iSkipCount ) ;
}
void SetStackTranslationSymbolSearchPath ( const char * szSemicolonSeparatedList )
{
s_HelperFunctions . SetStackTranslationSymbolSearchPath ( szSemicolonSeparatedList ) ;
}
void StackToolsNotify_LoadedLibrary ( const char * szLibName )
{
s_HelperFunctions . m_bShouldReloadSymbols = true ;
}
int TranslateStackInfo ( const void * const * pCallStack , int iCallStackCount , tchar * szOutput , int iOutBufferSize , const tchar * szEntrySeparator , TranslateStackInfo_StyleFlags_t style )
{
s_HelperFunctions . EnsureReady ( ) ;
tchar * szStartOutput = szOutput ;
if ( szEntrySeparator = = NULL )
szEntrySeparator = _T ( " " ) ;
int iSeparatorSize = ( int ) strlen ( szEntrySeparator ) ;
for ( int i = 0 ; i < iCallStackCount ; + + i )
{
if ( ! s_HelperFunctions . TranslatePointer ( pCallStack [ i ] , szOutput , iOutBufferSize , style ) )
{
return i ;
}
int iLength = ( int ) strlen ( szOutput ) ;
szOutput + = iLength ;
iOutBufferSize - = iLength ;
if ( iOutBufferSize > iSeparatorSize )
{
memcpy ( szOutput , szEntrySeparator , iSeparatorSize * sizeof ( tchar ) ) ;
szOutput + = iSeparatorSize ;
iOutBufferSize - = iSeparatorSize ;
}
* szOutput = ' \0 ' ;
}
szOutput - = iSeparatorSize ;
if ( szOutput > = szStartOutput )
* szOutput = ' \0 ' ;
return iCallStackCount ;
}
void PreloadStackInformation ( void * const * pAddresses , int iAddressCount )
{
//nop on anything but 360
}
bool GetFileAndLineFromAddress ( const void * pAddress , tchar * pFileNameOut , int iMaxFileNameLength , uint32 & iLineNumberOut , uint32 * pDisplacementOut )
{
s_HelperFunctions . EnsureReady ( ) ;
return s_HelperFunctions . GetFileAndLineFromAddress ( pAddress , pFileNameOut , iMaxFileNameLength , iLineNumberOut , pDisplacementOut ) ;
}
bool GetSymbolNameFromAddress ( const void * pAddress , tchar * pSymbolNameOut , int iMaxSymbolNameLength , uint64 * pDisplacementOut )
{
s_HelperFunctions . EnsureReady ( ) ;
return s_HelperFunctions . GetSymbolNameFromAddress ( pAddress , pSymbolNameOut , iMaxSymbolNameLength , pDisplacementOut ) ;
}
bool GetModuleNameFromAddress ( const void * pAddress , tchar * pModuleNameOut , int iMaxModuleNameLength )
{
s_HelperFunctions . EnsureReady ( ) ;
return s_HelperFunctions . GetModuleNameFromAddress ( pAddress , pModuleNameOut , iMaxModuleNameLength ) ;
}
# else //#if defined( WIN32 ) && !defined( _X360 )
//===============================================================================================================
// X360 version of the toolset
//===============================================================================================================
class C360StackTranslationHelper
{
public :
C360StackTranslationHelper ( void )
{
m_bInitialized = true ;
}
~ C360StackTranslationHelper ( void )
{
StringSet_t : : const_iterator iter ;
//module names
{
iter = m_ModuleNameSet . begin ( ) ;
while ( iter ! = m_ModuleNameSet . end ( ) )
{
char * pModuleName = ( char * ) ( * iter ) ;
delete [ ] pModuleName ;
iter + + ;
}
m_ModuleNameSet . clear ( ) ;
}
//file names
{
iter = m_FileNameSet . begin ( ) ;
while ( iter ! = m_FileNameSet . end ( ) )
{
char * pFileName = ( char * ) ( * iter ) ;
delete [ ] pFileName ;
iter + + ;
}
m_FileNameSet . clear ( ) ;
}
//symbol names
{
iter = m_SymbolNameSet . begin ( ) ;
while ( iter ! = m_SymbolNameSet . end ( ) )
{
char * pSymbolName = ( char * ) ( * iter ) ;
delete [ ] pSymbolName ;
iter + + ;
}
m_SymbolNameSet . clear ( ) ;
}
m_bInitialized = false ;
}
private :
struct StackAddressInfo_t ;
public :
inline StackAddressInfo_t * CreateEntry ( const FullStackInfo_t & info )
{
std : : pair < AddressInfoMapIter_t , bool > retval = m_AddressInfoMap . insert ( AddressInfoMapEntry_t ( info . pAddress , StackAddressInfo_t ( ) ) ) ;
if ( retval . first - > second . szModule ! = NULL )
return & retval . first - > second ; //already initialized
retval . first - > second . iLine = info . iLine ;
//share strings
//module
{
const char * pModuleName ;
StringSet_t : : const_iterator iter = m_ModuleNameSet . find ( info . szModuleName ) ;
if ( iter = = m_ModuleNameSet . end ( ) )
{
int nLen = strlen ( info . szModuleName ) + 1 ;
pModuleName = new char [ nLen ] ;
memcpy ( ( char * ) pModuleName , info . szModuleName , nLen ) ;
m_ModuleNameSet . insert ( pModuleName ) ;
}
else
{
pModuleName = ( char * ) ( * iter ) ;
}
retval . first - > second . szModule = pModuleName ;
}
//file
{
const char * pFileName ;
StringSet_t : : const_iterator iter = m_FileNameSet . find ( info . szFileName ) ;
if ( iter = = m_FileNameSet . end ( ) )
{
int nLen = strlen ( info . szFileName ) + 1 ;
pFileName = new char [ nLen ] ;
memcpy ( ( char * ) pFileName , info . szFileName , nLen ) ;
m_FileNameSet . insert ( pFileName ) ;
}
else
{
pFileName = ( char * ) ( * iter ) ;
}
retval . first - > second . szFileName = pFileName ;
}
//symbol
{
const char * pSymbolName ;
StringSet_t : : const_iterator iter = m_SymbolNameSet . find ( info . szSymbol ) ;
if ( iter = = m_SymbolNameSet . end ( ) )
{
int nLen = strlen ( info . szSymbol ) + 1 ;
pSymbolName = new char [ nLen ] ;
memcpy ( ( char * ) pSymbolName , info . szSymbol , nLen ) ;
m_SymbolNameSet . insert ( pSymbolName ) ;
}
else
{
pSymbolName = ( char * ) ( * iter ) ;
}
retval . first - > second . szSymbol = pSymbolName ;
}
return & retval . first - > second ;
}
inline StackAddressInfo_t * FindInfoEntry ( const void * pAddress )
{
AddressInfoMapIter_t Iter = m_AddressInfoMap . find ( pAddress ) ;
if ( Iter ! = m_AddressInfoMap . end ( ) )
return & Iter - > second ;
return NULL ;
}
inline int RetrieveStackInfo ( const void * const * pAddresses , FullStackInfo_t * pReturnedStructs , int iAddressCount )
{
int ReturnedTranslatedCount = - 1 ;
//construct the message
// Header Finished Count(out) Input Count Input Array Returned data write address
int iMessageSize = 2 + sizeof ( int * ) + sizeof ( uint32 ) + ( sizeof ( void * ) * iAddressCount ) + sizeof ( FullStackInfo_t * ) ;
uint8 * pMessage = ( uint8 * ) stackalloc ( iMessageSize ) ;
uint8 * pMessageWrite = pMessage ;
pMessageWrite [ 0 ] = XBX_DBG_BNH_STACKTRANSLATOR ; //have this message handled by stack translator handler
pMessageWrite [ 1 ] = ST_BHC_GETTRANSLATIONINFO ;
pMessageWrite + = 2 ;
* ( int * * ) pMessageWrite = ( int * ) BigDWord ( ( DWORD ) & ReturnedTranslatedCount ) ;
pMessageWrite + = sizeof ( int * ) ;
* ( uint32 * ) pMessageWrite = ( uint32 ) BigDWord ( ( DWORD ) iAddressCount ) ;
pMessageWrite + = sizeof ( uint32 ) ;
memcpy ( pMessageWrite , pAddresses , iAddressCount * sizeof ( void * ) ) ;
pMessageWrite + = iAddressCount * sizeof ( void * ) ;
* ( FullStackInfo_t * * ) pMessageWrite = ( FullStackInfo_t * ) BigDWord ( ( DWORD ) pReturnedStructs ) ;
bool bSuccess = XBX_SendBinaryData ( pMessage , iMessageSize , false , 30000 ) ;
ReturnedTranslatedCount = BigDWord ( ReturnedTranslatedCount ) ;
if ( bSuccess & & ( ReturnedTranslatedCount > 0 ) )
{
return ReturnedTranslatedCount ;
}
return 0 ;
}
inline StackAddressInfo_t * CreateEntry ( const void * pAddress )
{
//ask VXConsole for information about the addresses we're clueless about
FullStackInfo_t ReturnedData ;
ReturnedData . pAddress = pAddress ;
ReturnedData . szFileName [ 0 ] = ' \0 ' ; //strncpy( ReturnedData.szFileName, "FileUninitialized", sizeof( ReturnedData.szFileName ) );
ReturnedData . szModuleName [ 0 ] = ' \0 ' ; //strncpy( ReturnedData.szModuleName, "ModuleUninitialized", sizeof( ReturnedData.szModuleName ) );
ReturnedData . szSymbol [ 0 ] = ' \0 ' ; //strncpy( ReturnedData.szSymbol, "SymbolUninitialized", sizeof( ReturnedData.szSymbol ) );
ReturnedData . iLine = 0 ;
ReturnedData . iSymbolOffset = 0 ;
int iTranslated = RetrieveStackInfo ( & pAddress , & ReturnedData , 1 ) ;
if ( iTranslated = = 1 )
{
//store
return CreateEntry ( ReturnedData ) ;
}
return FindInfoEntry ( pAddress ) ; //probably won't work, but last ditch.
}
inline StackAddressInfo_t * FindOrCreateEntry ( const void * pAddress )
{
StackAddressInfo_t * pReturn = FindInfoEntry ( pAddress ) ;
if ( pReturn = = NULL )
{
pReturn = CreateEntry ( pAddress ) ;
}
return pReturn ;
}
inline void LoadStackInformation ( void * const * pAddresses , int iAddressCount )
{
Assert ( ( iAddressCount > 0 ) & & ( pAddresses ! = NULL ) ) ;
int iNeedLoading = 0 ;
void * * pNeedLoading = ( void * * ) stackalloc ( sizeof ( const void * ) * iAddressCount ) ; //addresses we need to ask VXConsole about
for ( int i = 0 ; i ! = iAddressCount ; + + i )
{
if ( FindInfoEntry ( pAddresses [ i ] ) = = NULL )
{
//need to load this address
pNeedLoading [ iNeedLoading ] = pAddresses [ i ] ;
+ + iNeedLoading ;
}
}
if ( iNeedLoading ! = 0 )
{
//ask VXConsole for information about the addresses we're clueless about
FullStackInfo_t * pReturnedStructs = ( FullStackInfo_t * ) stackalloc ( sizeof ( FullStackInfo_t ) * iNeedLoading ) ;
for ( int i = 0 ; i < iNeedLoading ; + + i )
{
pReturnedStructs [ i ] . pAddress = 0 ;
pReturnedStructs [ i ] . szFileName [ 0 ] = ' \0 ' ; //strncpy( pReturnedStructs[i].szFileName, "FileUninitialized", sizeof( pReturnedStructs[i].szFileName ) );
pReturnedStructs [ i ] . szModuleName [ 0 ] = ' \0 ' ; //strncpy( pReturnedStructs[i].szModuleName, "ModuleUninitialized", sizeof( pReturnedStructs[i].szModuleName ) );
pReturnedStructs [ i ] . szSymbol [ 0 ] = ' \0 ' ; //strncpy( pReturnedStructs[i].szSymbol, "SymbolUninitialized", sizeof( pReturnedStructs[i].szSymbol ) );
pReturnedStructs [ i ] . iLine = 0 ;
pReturnedStructs [ i ] . iSymbolOffset = 0 ;
}
int iTranslated = RetrieveStackInfo ( pNeedLoading , pReturnedStructs , iNeedLoading ) ;
if ( iTranslated = = iNeedLoading )
{
//store
for ( int i = 0 ; i < iTranslated ; + + i )
{
CreateEntry ( pReturnedStructs [ i ] ) ;
}
}
}
}
inline bool GetFileAndLineFromAddress ( const void * pAddress , tchar * pFileNameOut , int iMaxFileNameLength , uint32 & iLineNumberOut , uint32 * pDisplacementOut )
{
StackAddressInfo_t * pInfo = FindOrCreateEntry ( pAddress ) ;
if ( pInfo & & ( pInfo - > szFileName [ 0 ] ! = ' \0 ' ) )
{
strncpy ( pFileNameOut , pInfo - > szFileName , iMaxFileNameLength ) ;
iLineNumberOut = pInfo - > iLine ;
if ( pDisplacementOut )
* pDisplacementOut = 0 ; //can't get line displacement on 360
return true ;
}
return false ;
}
inline bool GetSymbolNameFromAddress ( const void * pAddress , tchar * pSymbolNameOut , int iMaxSymbolNameLength , uint64 * pDisplacementOut )
{
StackAddressInfo_t * pInfo = FindOrCreateEntry ( pAddress ) ;
if ( pInfo & & ( pInfo - > szSymbol [ 0 ] ! = ' \0 ' ) )
{
strncpy ( pSymbolNameOut , pInfo - > szSymbol , iMaxSymbolNameLength ) ;
if ( pDisplacementOut )
* pDisplacementOut = pInfo - > iSymbolOffset ;
return true ;
}
return false ;
}
inline bool GetModuleNameFromAddress ( const void * pAddress , tchar * pModuleNameOut , int iMaxModuleNameLength )
{
StackAddressInfo_t * pInfo = FindOrCreateEntry ( pAddress ) ;
if ( pInfo & & ( pInfo - > szModule [ 0 ] ! = ' \0 ' ) )
{
strncpy ( pModuleNameOut , pInfo - > szModule , iMaxModuleNameLength ) ;
return true ;
}
return false ;
}
CThreadFastMutex m_hMutex ;
private :
# pragma pack(push)
# pragma pack(1)
struct StackAddressInfo_t
{
StackAddressInfo_t ( void ) : szModule ( NULL ) , szFileName ( NULL ) , szSymbol ( NULL ) , iLine ( 0 ) , iSymbolOffset ( 0 ) { }
const char * szModule ;
const char * szFileName ;
const char * szSymbol ;
uint32 iLine ;
uint32 iSymbolOffset ;
} ;
# pragma pack(pop)
typedef std : : map < const void * , StackAddressInfo_t , std : : less < const void * > > AddressInfoMap_t ;
typedef AddressInfoMap_t : : iterator AddressInfoMapIter_t ;
typedef AddressInfoMap_t : : value_type AddressInfoMapEntry_t ;
class CStringLess
{
public :
bool operator ( ) ( const char * pszLeft , const char * pszRight ) const
{
return ( V_tier0_stricmp ( pszLeft , pszRight ) < 0 ) ;
}
} ;
typedef std : : set < const char * , CStringLess > StringSet_t ;
AddressInfoMap_t m_AddressInfoMap ; //TODO: retire old entries?
StringSet_t m_ModuleNameSet ;
StringSet_t m_FileNameSet ;
StringSet_t m_SymbolNameSet ;
bool m_bInitialized ;
} ;
static C360StackTranslationHelper s_360StackTranslator ;
int GetCallStack ( void * * pReturnAddressesOut , int iArrayCount , int iSkipCount )
{
+ + iSkipCount ; //skip this function
//DmCaptureStackBackTrace() has no skip functionality, so we need to grab everything and skip within that list
void * * pAllResults = ( void * * ) stackalloc ( sizeof ( void * ) * ( iArrayCount + iSkipCount ) ) ;
if ( DmCaptureStackBackTrace ( iArrayCount + iSkipCount , pAllResults ) = = XBDM_NOERR )
{
for ( int i = 0 ; i ! = iSkipCount ; + + i )
{
if ( * pAllResults = = NULL ) //DmCaptureStackBackTrace() NULL terminates the list instead of telling us how many were returned
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , 0 ) ;
+ + pAllResults ; //move the pointer forward so the second loop indices match up
}
for ( int i = 0 ; i ! = iArrayCount ; + + i )
{
if ( pAllResults [ i ] = = NULL ) //DmCaptureStackBackTrace() NULL terminates the list instead of telling us how many were returned
return AppendParentStackTrace ( pReturnAddressesOut , iArrayCount , i ) ;
pReturnAddressesOut [ i ] = pAllResults [ i ] ;
}
return iArrayCount ; //no room to append parent
}
return GetCallStack_Fast ( pReturnAddressesOut , iArrayCount , iSkipCount ) ;
}
void SetStackTranslationSymbolSearchPath ( const char * szSemicolonSeparatedList )
{
//nop on 360
}
void StackToolsNotify_LoadedLibrary ( const char * szLibName )
{
//send off the notice to VXConsole
uint8 message [ 2 ] ;
message [ 0 ] = XBX_DBG_BNH_STACKTRANSLATOR ; //have this message handled by stack translator handler
message [ 1 ] = ST_BHC_LOADEDLIBARY ; //loaded a library notification
XBX_SendBinaryData ( message , 2 ) ;
}
int TranslateStackInfo ( const void * const * pCallStack , int iCallStackCount , tchar * szOutput , int iOutBufferSize , const tchar * szEntrySeparator , TranslateStackInfo_StyleFlags_t style )
{
if ( iCallStackCount = = 0 )
{
if ( iOutBufferSize > 1 )
* szOutput = ' \0 ' ;
return 0 ;
}
if ( szEntrySeparator = = NULL )
szEntrySeparator = " " ;
int iSeparatorLength = strlen ( szEntrySeparator ) + 1 ;
int iDataSize = ( sizeof ( void * ) * iCallStackCount ) + ( iSeparatorLength * sizeof ( tchar ) ) + 1 ; //1 for style flags
//360 is incapable of translation on it's own. Encode the stack for translation in VXConsole
//Encoded section is as such ":CSDECODE[encoded binary]"
int iEncodedSize = - EncodeBinaryToString ( NULL , iDataSize , NULL , 0 ) ; //get needed buffer size
static const tchar cControlPrefix [ ] = XBX_CALLSTACKDECODEPREFIX ;
const size_t cControlLength = ( sizeof ( cControlPrefix ) / sizeof ( tchar ) ) - 1 ; //-1 to remove null terminator
if ( iOutBufferSize > ( iEncodedSize + ( int ) cControlLength + 2 ) ) //+2 for ']' and null term
{
COMPILE_TIME_ASSERT ( TSISTYLEFLAG_LAST < ( 1 < < 8 ) ) ; //need to update the encoder/decoder to use more than a byte for style flags
uint8 * pData = ( uint8 * ) stackalloc ( iDataSize ) ;
pData [ 0 ] = ( uint8 ) style ;
memcpy ( pData + 1 , szEntrySeparator , iSeparatorLength * sizeof ( tchar ) ) ;
memcpy ( pData + 1 + ( iSeparatorLength * sizeof ( tchar ) ) , pCallStack , iCallStackCount * sizeof ( void * ) ) ;
memcpy ( szOutput , XBX_CALLSTACKDECODEPREFIX , cControlLength * sizeof ( tchar ) ) ;
int iLength = cControlLength + EncodeBinaryToString ( pData , iDataSize , & szOutput [ cControlLength ] , ( iOutBufferSize - cControlLength ) ) ;
szOutput [ iLength ] = ' ] ' ;
szOutput [ iLength + 1 ] = ' \0 ' ;
}
return iCallStackCount ;
}
void PreloadStackInformation ( void * const * pAddresses , int iAddressCount )
{
AUTO_LOCK ( s_360StackTranslator . m_hMutex ) ;
s_360StackTranslator . LoadStackInformation ( pAddresses , iAddressCount ) ;
}
bool GetFileAndLineFromAddress ( const void * pAddress , tchar * pFileNameOut , int iMaxFileNameLength , uint32 & iLineNumberOut , uint32 * pDisplacementOut )
{
AUTO_LOCK ( s_360StackTranslator . m_hMutex ) ;
return s_360StackTranslator . GetFileAndLineFromAddress ( pAddress , pFileNameOut , iMaxFileNameLength , iLineNumberOut , pDisplacementOut ) ;
}
bool GetSymbolNameFromAddress ( const void * pAddress , tchar * pSymbolNameOut , int iMaxSymbolNameLength , uint64 * pDisplacementOut )
{
AUTO_LOCK ( s_360StackTranslator . m_hMutex ) ;
return s_360StackTranslator . GetSymbolNameFromAddress ( pAddress , pSymbolNameOut , iMaxSymbolNameLength , pDisplacementOut ) ;
}
bool GetModuleNameFromAddress ( const void * pAddress , tchar * pModuleNameOut , int iMaxModuleNameLength )
{
AUTO_LOCK ( s_360StackTranslator . m_hMutex ) ;
return s_360StackTranslator . GetModuleNameFromAddress ( pAddress , pModuleNameOut , iMaxModuleNameLength ) ;
}
# endif //#else //#if defined( WIN32 ) && !defined( _X360 )
# endif //#if !defined( ENABLE_RUNTIME_STACK_TRANSLATION )
CCallStackStorage : : CCallStackStorage ( FN_GetCallStack GetStackFunction , uint32 iSkipCalls )
{
iValidEntries = GetStackFunction ( pStack , ARRAYSIZE ( pStack ) , iSkipCalls + 1 ) ;
}
CStackTop_CopyParentStack : : CStackTop_CopyParentStack ( void * const * pParentStackTrace , int iParentStackTraceLength )
{
# if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
//miniature version of GetCallStack_Fast()
# if (defined( TIER0_FPO_DISABLED ) || defined( _DEBUG )) &&\
( defined ( WIN32 ) & & ! defined ( _X360 ) & & ! defined ( _M_X64 ) )
void * pStackCrawlEBP ;
__asm
{
mov [ pStackCrawlEBP ] , ebp ;
}
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ;
m_pReplaceAddress = * ( ( void * * ) pStackCrawlEBP + 1 ) ;
m_pStackBase = ( void * ) ( ( void * * ) pStackCrawlEBP + 1 ) ;
# else
m_pReplaceAddress = NULL ;
m_pStackBase = this ;
# endif
m_pParentStackTrace = NULL ;
if ( ( pParentStackTrace ! = NULL ) & & ( iParentStackTraceLength > 0 ) )
{
while ( ( iParentStackTraceLength > 0 ) & & ( pParentStackTrace [ iParentStackTraceLength - 1 ] = = NULL ) )
{
- - iParentStackTraceLength ;
}
if ( iParentStackTraceLength > 0 )
{
m_pParentStackTrace = new void * [ iParentStackTraceLength ] ;
memcpy ( ( void * * ) m_pParentStackTrace , pParentStackTrace , sizeof ( void * ) * iParentStackTraceLength ) ;
}
}
m_iParentStackTraceLength = iParentStackTraceLength ;
m_pPrevTop = g_StackTop ;
g_StackTop = this ;
Assert ( ( CStackTop_Base * ) g_StackTop = = this ) ;
# endif //#if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
}
CStackTop_CopyParentStack : : ~ CStackTop_CopyParentStack ( void )
{
# if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
Assert ( ( CStackTop_Base * ) g_StackTop = = this ) ;
g_StackTop = m_pPrevTop ;
if ( m_pParentStackTrace ! = NULL )
{
delete [ ] m_pParentStackTrace ;
}
# endif
}
CStackTop_ReferenceParentStack : : CStackTop_ReferenceParentStack ( void * const * pParentStackTrace , int iParentStackTraceLength )
{
# if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
//miniature version of GetCallStack_Fast()
# if (defined( TIER0_FPO_DISABLED ) || defined( _DEBUG )) &&\
( defined ( WIN32 ) & & ! defined ( _X360 ) & & ! defined ( _M_X64 ) )
void * pStackCrawlEBP ;
__asm
{
mov [ pStackCrawlEBP ] , ebp ;
}
pStackCrawlEBP = * ( void * * ) pStackCrawlEBP ;
m_pReplaceAddress = * ( ( void * * ) pStackCrawlEBP + 1 ) ;
m_pStackBase = ( void * ) ( ( void * * ) pStackCrawlEBP + 1 ) ;
# else
m_pReplaceAddress = NULL ;
m_pStackBase = this ;
# endif
m_pParentStackTrace = pParentStackTrace ;
if ( ( pParentStackTrace ! = NULL ) & & ( iParentStackTraceLength > 0 ) )
{
while ( ( iParentStackTraceLength > 0 ) & & ( pParentStackTrace [ iParentStackTraceLength - 1 ] = = NULL ) )
{
- - iParentStackTraceLength ;
}
}
m_iParentStackTraceLength = iParentStackTraceLength ;
m_pPrevTop = g_StackTop ;
g_StackTop = this ;
Assert ( ( CStackTop_Base * ) g_StackTop = = this ) ;
# endif //#if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
}
CStackTop_ReferenceParentStack : : ~ CStackTop_ReferenceParentStack ( void )
{
# if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
Assert ( ( CStackTop_Base * ) g_StackTop = = this ) ;
g_StackTop = m_pPrevTop ;
ReleaseParentStackReferences ( ) ;
# endif
}
void CStackTop_ReferenceParentStack : : ReleaseParentStackReferences ( void )
{
# if defined( ENABLE_RUNTIME_STACK_TRANSLATION )
m_pParentStackTrace = NULL ;
m_iParentStackTraceLength = 0 ;
# endif
}
//Encodes data so that every byte's most significant bit is a 1. Ensuring no null terminators.
//This puts the encoded data in the 128-255 value range. Leaving all standard ascii characters for control.
//Returns string length (not including the written null terminator as is standard).
//Or if the buffer is too small. Returns negative of necessary buffer size (including room needed for null terminator)
int EncodeBinaryToString ( const void * pToEncode , int iDataLength , char * pEncodeOut , int iEncodeBufferSize )
{
int iEncodedSize = iDataLength ;
iEncodedSize + = ( iEncodedSize + 6 ) / 7 ; //Have 1 control byte for every 7 actual bytes
iEncodedSize + = sizeof ( uint32 ) + 1 ; //data size at the beginning of the blob and null terminator at the end
if ( ( iEncodedSize > iEncodeBufferSize ) | | ( pEncodeOut = = NULL ) | | ( pToEncode = = NULL ) )
return - iEncodedSize ; //not enough room
uint8 * pEncodeWrite = ( uint8 * ) pEncodeOut ;
//first encode the data size. Encodes lowest 28 bits and discards the high 4
pEncodeWrite [ 0 ] = ( ( iDataLength > > 21 ) & 0xFF ) | 0x80 ;
pEncodeWrite [ 1 ] = ( ( iDataLength > > 14 ) & 0xFF ) | 0x80 ;
pEncodeWrite [ 2 ] = ( ( iDataLength > > 7 ) & 0xFF ) | 0x80 ;
pEncodeWrite [ 3 ] = ( ( iDataLength > > 0 ) & 0xFF ) | 0x80 ;
pEncodeWrite + = 4 ;
const uint8 * pEncodeRead = ( const uint8 * ) pToEncode ;
const uint8 * pEncodeStop = pEncodeRead + iDataLength ;
uint8 * pEncodeWriteLastControlByte = pEncodeWrite ;
int iControl = 0 ;
//Encode the data
while ( pEncodeRead < pEncodeStop )
{
if ( iControl = = 0 )
{
pEncodeWriteLastControlByte = pEncodeWrite ;
* pEncodeWriteLastControlByte = 0x80 ;
}
else
{
* pEncodeWrite = * pEncodeRead | 0x80 ; //encoded data always has the MSB bit set (cheap avoidance of null terminators)
* pEncodeWriteLastControlByte | = ( ( ( * pEncodeRead ) & 0x80 ) ^ 0x80 ) > > iControl ; //We use the control byte to XOR the MSB back to original values on decode
+ + pEncodeRead ;
}
+ + pEncodeWrite ;
+ + iControl ;
iControl & = 7 ; //8->0
}
* pEncodeWrite = ' \0 ' ;
return iEncodedSize - 1 ;
}
//Decodes a string produced by EncodeBinaryToString(). Safe to decode in place if you don't mind trashing your string, binary byte count always less than string byte count.
//Returns:
// >= 0 is the decoded data size
// INT_MIN (most negative value possible) indicates an improperly formatted string (not our data)
// all other negative values are the negative of how much dest buffer size is necessary.
int DecodeBinaryFromString ( const char * pString , void * pDestBuffer , int iDestBufferSize , char * * ppParseFinishOut )
{
const uint8 * pDecodeRead = ( const uint8 * ) pString ;
if ( ( pDecodeRead [ 0 ] < 0x80 ) | | ( pDecodeRead [ 1 ] < 0x80 ) | | ( pDecodeRead [ 2 ] < 0x80 ) | | ( pDecodeRead [ 3 ] < 0x80 ) )
{
if ( ppParseFinishOut ! = NULL )
* ppParseFinishOut = ( char * ) pString ;
return INT_MIN ; //Don't know what the string is, but it's not our format
}
int iDecodedSize = 0 ;
iDecodedSize | = ( pDecodeRead [ 0 ] & 0x7F ) < < 21 ;
iDecodedSize | = ( pDecodeRead [ 1 ] & 0x7F ) < < 14 ;
iDecodedSize | = ( pDecodeRead [ 2 ] & 0x7F ) < < 7 ;
iDecodedSize | = ( pDecodeRead [ 3 ] & 0x7F ) < < 0 ;
pDecodeRead + = 4 ;
int iTextLength = iDecodedSize ;
iTextLength + = ( iTextLength + 6 ) / 7 ; //Have 1 control byte for every 7 actual bytes
//make sure it's formatted properly
for ( int i = 0 ; i ! = iTextLength ; + + i )
{
if ( pDecodeRead [ i ] < 0x80 ) //encoded data always has MSB set
{
if ( ppParseFinishOut ! = NULL )
* ppParseFinishOut = ( char * ) pString ;
return INT_MIN ; //either not our data, or part of the string is missing
}
}
if ( iDestBufferSize < iDecodedSize )
{
if ( ppParseFinishOut ! = NULL )
* ppParseFinishOut = ( char * ) pDecodeRead ;
return - iDecodedSize ; //dest buffer not big enough to hold the data
}
const uint8 * pStopDecoding = pDecodeRead + iTextLength ;
uint8 * pDecodeWrite = ( uint8 * ) pDestBuffer ;
int iControl = 0 ;
int iLSBXOR = 0 ;
while ( pDecodeRead < pStopDecoding )
{
if ( iControl = = 0 )
{
iLSBXOR = * pDecodeRead ;
}
else
{
* pDecodeWrite = * pDecodeRead ^ ( ( iLSBXOR < < iControl ) & 0x80 ) ;
+ + pDecodeWrite ;
}
+ + pDecodeRead ;
+ + iControl ;
iControl & = 7 ; //8->0
}
if ( ppParseFinishOut ! = NULL )
* ppParseFinishOut = ( char * ) pDecodeRead ;
return iDecodedSize ;
}