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// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
# include "stdmisc.h"
# ifdef NL_OS_WINDOWS
# define NOMINMAX
# include <windows.h>
# include <io.h>
# include <tchar.h>
# elif defined NL_OS_UNIX
# include <unistd.h>
# include <cerrno>
# include <pthread.h>
# include <sched.h>
# endif
# include "nel/misc/command.h"
# include "nel/misc/path.h"
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# include "nel/misc/i18n.h"
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using namespace std ;
# ifdef NL_OS_WINDOWS
# pragma message( " " )
# if FINAL_VERSION
# pragma message( "************************" )
# pragma message( "**** FINAL_VERSION *****" )
# pragma message( "************************" )
# else
# pragma message( "Not using FINAL_VERSION")
# endif // FINAL_VERSION
# ifdef ASSERT_THROW_EXCEPTION
# pragma message( "nlassert throws exceptions" )
# else
# pragma message( "nlassert does not throw exceptions" )
# endif // ASSERT_THROW_EXCEPTION
# ifdef _STLPORT_VERSION
# pragma message( "Using STLport" )
# else
# pragma message( "Using standard STL" )
# endif // _STLPORT_VERSION
# pragma message( " " )
# if (_MSC_VER >= 1200) && (_MSC_VER < 1400) && (WINVER < 0x0500)
//Using VC7 and later lib, need this to compile on VC6
extern " C " long _ftol2 ( double dblSource ) { return _ftol ( dblSource ) ; }
# endif
# endif // NL_OS_WINDOWS
namespace NLMISC
{
/*
* Portable Sleep ( ) function that suspends the execution of the calling thread for a number of milliseconds .
* Note : the resolution of the timer is system - dependant and may be more than 1 millisecond .
*/
void nlSleep ( uint32 ms )
{
# ifdef NL_OS_WINDOWS
# ifdef NL_DEBUG
// a Sleep(0) "block" the other thread in DEBUG/_CONSOLE, so we clamp
ms = max ( ms , ( uint32 ) 1 ) ;
# endif
Sleep ( ms ) ;
# elif defined NL_OS_UNIX
//usleep( ms*1000 ); // resolution: 20 ms!
timespec ts ;
ts . tv_sec = ms / 1000 ;
ts . tv_nsec = ( ms % 1000 ) * 1000000 ;
int res ;
do
{
res = nanosleep ( & ts , & ts ) ; // resolution: 10 ms (with common scheduling policy)
}
while ( ( res ! = 0 ) & & ( errno = = EINTR ) ) ;
# endif
}
/*
* Returns Thread Id ( note : on Linux , Process Id is the same as the Thread Id )
*/
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size_t getThreadId ( )
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{
# ifdef NL_OS_WINDOWS
return GetCurrentThreadId ( ) ;
# elif defined NL_OS_UNIX
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return size_t ( pthread_self ( ) ) ;
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// doesnt work on linux kernel 2.6 return getpid();
# endif
}
/*
* Returns a readable string from a vector of bytes . ' \0 ' are replaced by ' '
*/
string stringFromVector ( const vector < uint8 > & v , bool limited )
{
string s ;
if ( ! v . empty ( ) )
{
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int size = ( int ) v . size ( ) ;
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if ( limited & & size > 1000 )
{
string middle = " ...<buf too big,skip middle part>... " ;
s . resize ( 1000 + middle . size ( ) ) ;
memcpy ( & * s . begin ( ) , & * v . begin ( ) , 500 ) ;
memcpy ( & * s . begin ( ) + 500 , & * middle . begin ( ) , middle . size ( ) ) ;
memcpy ( & * s . begin ( ) + 500 + middle . size ( ) , & * v . begin ( ) + size - 500 , 500 ) ;
}
else
{
s . resize ( size ) ;
memcpy ( & * s . begin ( ) , & * v . begin ( ) , v . size ( ) ) ;
}
// Replace '\0' characters
string : : iterator is ;
for ( is = s . begin ( ) ; is ! = s . end ( ) ; + + is )
{
// remplace non printable char and % with '?' chat
if ( ! isprint ( ( uint8 ) ( * is ) ) | | ( * is ) = = ' % ' )
{
( * is ) = ' ? ' ;
}
}
}
/*
if ( ! v . empty ( ) )
{
// Copy contents
s . resize ( v . size ( ) ) ;
memcpy ( & * s . begin ( ) , & * v . begin ( ) , v . size ( ) ) ;
// Replace '\0' characters
string : : iterator is ;
for ( is = s . begin ( ) ; is ! = s . end ( ) ; + + is )
{
// remplace non printable char and % with '?' chat
if ( ! isprint ( ( * is ) ) | | ( * is ) = = ' % ' )
{
( * is ) = ' ? ' ;
}
}
}
*/ return s ;
}
sint smprintf ( char * buffer , size_t count , const char * format , . . . )
{
sint ret ;
va_list args ;
va_start ( args , format ) ;
ret = vsnprintf ( buffer , count , format , args ) ;
if ( ret = = - 1 )
{
buffer [ count - 1 ] = ' \0 ' ;
}
va_end ( args ) ;
return ( ret ) ;
}
sint64 atoiInt64 ( const char * ident , sint64 base )
{
sint64 number = 0 ;
bool neg = false ;
// NULL string
nlassert ( ident ! = NULL ) ;
// empty string
if ( * ident = = ' \0 ' ) goto end ;
// + sign
if ( * ident = = ' + ' ) ident + + ;
// - sign
if ( * ident = = ' - ' ) { neg = true ; ident + + ; }
while ( * ident ! = ' \0 ' )
{
if ( isdigit ( ( unsigned char ) * ident ) )
{
number * = base ;
number + = ( * ident ) - ' 0 ' ;
}
else if ( base > 10 & & islower ( ( unsigned char ) * ident ) )
{
number * = base ;
number + = ( * ident ) - ' a ' + 10 ;
}
else if ( base > 10 & & isupper ( ( unsigned char ) * ident ) )
{
number * = base ;
number + = ( * ident ) - ' A ' + 10 ;
}
else
{
goto end ;
}
ident + + ;
}
end :
if ( neg ) number = - number ;
return number ;
}
void itoaInt64 ( sint64 number , char * str , sint64 base )
{
str [ 0 ] = ' \0 ' ;
char b [ 256 ] ;
if ( ! number )
{
str [ 0 ] = ' 0 ' ;
str [ 1 ] = ' \0 ' ;
return ;
}
memset ( b , ' \0 ' , 255 ) ;
memset ( b , ' 0 ' , 64 ) ;
sint n ;
sint64 x = number ;
if ( x < 0 ) x = - x ;
char baseTable [ ] = " 0123456789abcdefghijklmnopqrstuvwyz " ;
for ( n = 0 ; n < 64 ; n + + )
{
sint num = ( sint ) ( x % base ) ;
b [ 64 - n ] = baseTable [ num ] ;
if ( ! x )
{
int k ;
int j = 0 ;
if ( number < 0 )
{
str [ j + + ] = ' - ' ;
}
for ( k = 64 - n + 1 ; k < = 64 ; k + + )
{
str [ j + + ] = b [ k ] ;
}
str [ j ] = ' \0 ' ;
break ;
}
x / = base ;
}
}
uint raiseToNextPowerOf2 ( uint v )
{
uint res = 1 ;
while ( res < v )
res < < = 1 ;
return res ;
}
uint getPowerOf2 ( uint v )
{
uint res = 1 ;
uint ret = 0 ;
while ( res < v )
{
ret + + ;
res < < = 1 ;
}
return ret ;
}
bool isPowerOf2 ( sint32 v )
{
while ( v )
{
if ( v & 1 )
{
v > > = 1 ;
if ( v )
return false ;
}
else
v > > = 1 ;
}
return true ;
}
string bytesToHumanReadable ( const std : : string & bytes )
{
return bytesToHumanReadable ( atoiInt64 ( bytes . c_str ( ) ) ) ;
}
string bytesToHumanReadable ( uint64 bytes )
{
static const char * divTable [ ] = { " B " , " KB " , " MB " , " GB " , " TB " } ;
uint div = 0 ;
uint64 res = bytes ;
uint64 newres = res ;
for ( ; ; )
{
newres / = 1024 ;
if ( newres < 8 | | div > 3 )
break ;
div + + ;
res = newres ;
}
return toString ( " % " NL_I64 " u%s " , res , divTable [ div ] ) ;
}
uint32 humanReadableToBytes ( const string & str )
{
uint32 res ;
if ( str . empty ( ) )
return 0 ;
// not a number
if ( str [ 0 ] < ' 0 ' | | str [ 0 ] > ' 9 ' )
return 0 ;
res = atoi ( str . c_str ( ) ) ;
if ( str [ str . size ( ) - 1 ] = = ' B ' )
{
if ( str . size ( ) < 3 )
return res ;
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// there's no break and it's **normal**
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switch ( str [ str . size ( ) - 2 ] )
{
case ' G ' : res * = 1024 ;
case ' M ' : res * = 1024 ;
case ' K ' : res * = 1024 ;
default : ;
}
}
return res ;
}
NLMISC_CATEGORISED_COMMAND ( nel , btohr , " Convert a bytes number into an human readable number " , " <int> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 )
return false ;
log . displayNL ( " %s -> %s " , args [ 0 ] . c_str ( ) , bytesToHumanReadable ( args [ 0 ] ) . c_str ( ) ) ;
return true ;
}
NLMISC_CATEGORISED_COMMAND ( nel , hrtob , " Convert a human readable number into a bytes number " , " <hr> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 )
return false ;
log . displayNL ( " %s -> %u " , args [ 0 ] . c_str ( ) , humanReadableToBytes ( args [ 0 ] ) ) ;
return true ;
}
string secondsToHumanReadable ( uint32 time )
{
static const char * divTable [ ] = { " s " , " mn " , " h " , " d " } ;
static uint divCoef [ ] = { 60 , 60 , 24 } ;
uint div = 0 ;
uint32 res = time ;
uint32 newres = res ;
for ( ; ; )
{
if ( div > 2 )
break ;
newres / = divCoef [ div ] ;
if ( newres < 3 )
break ;
div + + ;
res = newres ;
}
return toString ( " %u%s " , res , divTable [ div ] ) ;
}
uint32 fromHumanReadable ( const std : : string & str )
{
if ( str . size ( ) = = 0 )
return 0 ;
uint32 val ;
fromString ( str , val ) ;
switch ( str [ str . size ( ) - 1 ] )
{
case ' s ' : return val ; // second
case ' n ' : return val * 60 ; // minutes (mn)
case ' h ' : return val * 60 * 60 ; // hour
case ' d ' : return val * 60 * 60 * 24 ; // day
case ' b ' : // bytes
switch ( str [ str . size ( ) - 2 ] )
{
case ' k ' : return val * 1024 ;
case ' m ' : return val * 1024 * 1024 ;
case ' g ' : return val * 1024 * 1024 * 1024 ;
default : return val ;
}
default : return val ;
}
return 0 ;
}
NLMISC_CATEGORISED_COMMAND ( nel , stohr , " Convert a second number into an human readable time " , " <int> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 )
return false ;
uint32 seconds ;
fromString ( args [ 0 ] , seconds ) ;
log . displayNL ( " %s -> %s " , args [ 0 ] . c_str ( ) , secondsToHumanReadable ( seconds ) . c_str ( ) ) ;
return true ;
}
std : : string toLower ( const std : : string & str )
{
string res ;
res . reserve ( str . size ( ) ) ;
for ( uint i = 0 ; i < str . size ( ) ; i + + )
{
if ( ( str [ i ] > = ' A ' ) & & ( str [ i ] < = ' Z ' ) )
res + = str [ i ] - ' A ' + ' a ' ;
else
res + = str [ i ] ;
}
return res ;
}
char toLower ( const char ch )
{
if ( ( ch > = ' A ' ) & & ( ch < = ' Z ' ) )
{
return ch - ' A ' + ' a ' ;
}
else
{
return ch ;
}
}
void toLower ( char * str )
{
if ( str = = 0 )
return ;
while ( * str ! = ' \0 ' )
{
if ( ( * str > = ' A ' ) & & ( * str < = ' Z ' ) )
{
* str = * str - ' A ' + ' a ' ;
}
str + + ;
}
}
std : : string toUpper ( const std : : string & str )
{
string res ;
res . reserve ( str . size ( ) ) ;
for ( uint i = 0 ; i < str . size ( ) ; i + + )
{
if ( ( str [ i ] > = ' a ' ) & & ( str [ i ] < = ' z ' ) )
res + = str [ i ] - ' a ' + ' A ' ;
else
res + = str [ i ] ;
}
return res ;
}
void toUpper ( char * str )
{
if ( str = = 0 )
return ;
while ( * str ! = ' \0 ' )
{
if ( ( * str > = ' a ' ) & & ( * str < = ' z ' ) )
{
* str = * str - ' a ' + ' A ' ;
}
str + + ;
}
}
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std : : string formatThousands ( const std : : string & s )
{
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sint i , k ;
sint remaining = ( sint ) s . length ( ) - 1 ;
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static std : : string separator = NLMISC : : CI18N : : get ( " uiThousandsSeparator " ) . toUtf8 ( ) ;
// Don't add separator if the number is < 10k
if ( remaining < 4 ) return s ;
std : : string ns ;
do
{
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for ( i = remaining , k = 0 ; i > = 0 & & k < 3 ; - - i , + + k )
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{
ns = s [ i ] + ns ; // New char is added to front of ns
if ( i > 0 & & k = = 2 ) ns = separator + ns ; // j > 0 means still more digits
}
remaining - = 3 ;
}
while ( remaining > = 0 ) ;
return ns ;
}
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//
// Exceptions
//
Exception : : Exception ( ) : _Reason ( " Unknown Exception " )
{
// nlinfo("Exception will be launched: %s", _Reason.c_str());
}
Exception : : Exception ( const std : : string & reason ) : _Reason ( reason )
{
nlinfo ( " Exception will be launched: %s " , _Reason . c_str ( ) ) ;
}
Exception : : Exception ( const char * format , . . . )
{
NLMISC_CONVERT_VARGS ( _Reason , format , NLMISC : : MaxCStringSize ) ;
nlinfo ( " Exception will be launched: %s " , _Reason . c_str ( ) ) ;
}
const char * Exception : : what ( ) const throw ( )
{
return _Reason . c_str ( ) ;
}
bool killProgram ( uint32 pid )
{
# ifdef NL_OS_UNIX
int res = kill ( pid , SIGKILL ) ;
if ( res = = - 1 )
{
char * err = strerror ( errno ) ;
nlwarning ( " Failed to kill '%d' err %d: '%s' " , pid , errno , err ) ;
}
return res = = 0 ;
/*#elif defined(NL_OS_WINDOWS)
// it doesn't work because pid != handle and i don't know how to kill a pid or know the real handle of another service (not -1)
int res = TerminateProcess ( ( HANDLE ) pid , 888 ) ;
LPVOID lpMsgBuf ;
FormatMessage ( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS , NULL , GetLastError ( ) , MAKELANGID ( LANG_NEUTRAL , SUBLANG_DEFAULT ) , ( LPTSTR ) & lpMsgBuf , 0 , NULL ) ;
nlwarning ( " Failed to kill '%d' err %d: '%s' " , pid , GetLastError ( ) , lpMsgBuf ) ;
LocalFree ( lpMsgBuf ) ;
return res ! = 0 ;
*/
# else
nlwarning ( " kill not implemented on this OS " ) ;
return false ;
# endif
}
bool abortProgram ( uint32 pid )
{
# ifdef NL_OS_UNIX
int res = kill ( pid , SIGABRT ) ;
if ( res = = - 1 )
{
char * err = strerror ( errno ) ;
nlwarning ( " Failed to abort '%d' err %d: '%s' " , pid , errno , err ) ;
}
return res = = 0 ;
# else
nlwarning ( " abort not implemented on this OS " ) ;
return false ;
# endif
}
bool launchProgram ( const std : : string & programName , const std : : string & arguments )
{
# ifdef NL_OS_WINDOWS
STARTUPINFOA si ;
PROCESS_INFORMATION pi ;
memset ( & si , 0 , sizeof ( si ) ) ;
memset ( & pi , 0 , sizeof ( pi ) ) ;
si . cb = sizeof ( si ) ;
/* SECURITY_ATTRIBUTES sa;
sa . nLength = sizeof ( sa ) ;
sa . lpSecurityDescriptor = NULL ;
sa . bInheritHandle = FALSE ;
STARTUPINFO si ;
si . cb = sizeof ( si ) ;
si . lpReserved = NULL ;
si . lpDesktop = NULL ;
si . lpTitle = NULL ;
si . dwFlags = STARTF_USESHOWWINDOW ;
si . cbReserved2 = 0 ;
si . wShowWindow = SW_MINIMIZE ;
si . lpReserved2 = NULL ;
PROCESS_INFORMATION pi ;
*/
// Enable nlassert/nlstop to display the error reason & callstack
const TCHAR * SE_TRANSLATOR_IN_MAIN_MODULE = _T ( " NEL_SE_TRANS " ) ;
TCHAR envBuf [ 2 ] ;
if ( GetEnvironmentVariable ( SE_TRANSLATOR_IN_MAIN_MODULE , envBuf , 2 ) ! = 0 )
{
SetEnvironmentVariable ( SE_TRANSLATOR_IN_MAIN_MODULE , NULL ) ;
}
string arg = " " + arguments ;
BOOL res = CreateProcessA ( programName . c_str ( ) , ( char * ) arg . c_str ( ) , 0 , 0 , FALSE , CREATE_DEFAULT_ERROR_MODE | CREATE_NO_WINDOW , 0 , 0 , & si , & pi ) ;
if ( res )
{
//nldebug("LAUNCH: Successful launch '%s' with arg '%s'", programName.c_str(), arguments.c_str());
CloseHandle ( pi . hProcess ) ;
CloseHandle ( pi . hThread ) ;
return true ;
}
else
{
LPVOID lpMsgBuf ;
FormatMessage ( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS , NULL , GetLastError ( ) , MAKELANGID ( LANG_NEUTRAL , SUBLANG_DEFAULT ) , ( LPTSTR ) & lpMsgBuf , 0 , NULL ) ;
nlwarning ( " LAUNCH: Failed launched '%s' with arg '%s' err %d: '%s' " , programName . c_str ( ) , arguments . c_str ( ) , GetLastError ( ) , lpMsgBuf ) ;
LocalFree ( lpMsgBuf ) ;
CloseHandle ( pi . hProcess ) ;
CloseHandle ( pi . hThread ) ;
}
# elif defined(NL_OS_UNIX)
static bool firstLaunchProgram = true ;
if ( firstLaunchProgram )
{
// The aim of this is to avoid defunct process.
//
// From "man signal":
//------
// According to POSIX (3.3.1.3) it is unspecified what happens when SIGCHLD is set to SIG_IGN. Here
// the BSD and SYSV behaviours differ, causing BSD software that sets the action for SIGCHLD to
// SIG_IGN to fail on Linux.
//------
//
// But it works fine on my GNU/Linux so I do this because it's easier :) and I don't know exactly
// what to do to be portable.
signal ( SIGCHLD , SIG_IGN ) ;
firstLaunchProgram = false ;
}
// convert one arg into several args
vector < string > args ;
string : : size_type pos1 = 0 , pos2 = 0 ;
do
{
pos1 = arguments . find_first_not_of ( " " , pos2 ) ;
if ( pos1 = = string : : npos ) break ;
pos2 = arguments . find_first_of ( " " , pos1 ) ;
args . push_back ( arguments . substr ( pos1 , pos2 - pos1 ) ) ;
}
while ( pos2 ! = string : : npos ) ;
// Store the size of each arg
vector < char * > argv ( args . size ( ) + 2 ) ;
uint i = 0 ;
argv [ i ] = ( char * ) programName . c_str ( ) ;
for ( ; i < args . size ( ) ; i + + )
{
argv [ i + 1 ] = ( char * ) args [ i ] . c_str ( ) ;
}
argv [ i + 1 ] = NULL ;
int status = vfork ( ) ;
/////////////////////////////////////////////////////////
/// WARNING : NO MORE INSTRCUTION AFTER VFORK !
/// READ VFORK manual
/////////////////////////////////////////////////////////
if ( status = = - 1 )
{
char * err = strerror ( errno ) ;
nlwarning ( " LAUNCH: Failed launched '%s' with arg '%s' err %d: '%s' " , programName . c_str ( ) , arguments . c_str ( ) , errno , err ) ;
}
else if ( status = = 0 )
{
// Exec (the only allowed instruction after vfork)
status = execvp ( programName . c_str ( ) , & argv . front ( ) ) ;
if ( status = = - 1 )
{
perror ( " Failed launched " ) ;
_exit ( EXIT_FAILURE ) ;
}
}
else
{
//nldebug("LAUNCH: Successful launch '%s' with arg '%s'", programName.c_str(), arguments.c_str());
return true ;
}
# else
nlwarning ( " LAUNCH: launchProgram() not implemented " ) ;
# endif
return false ;
}
/*
* Display the bits ( with 0 and 1 ) composing a byte ( from right to left )
*/
void displayByteBits ( uint8 b , uint nbits , sint beginpos , bool displayBegin , NLMISC : : CLog * log )
{
string s1 , s2 ;
sint i ;
for ( i = nbits - 1 ; i ! = - 1 ; - - i )
{
s1 + = ( ( b > > i ) & 1 ) ? ' 1 ' : ' 0 ' ;
}
log - > displayRawNL ( " %s " , s1 . c_str ( ) ) ;
if ( displayBegin )
{
for ( i = nbits ; i > beginpos + 1 ; - - i )
{
s2 + = " " ;
}
s2 + = " ^ " ;
log - > displayRawNL ( " %s beginpos=%u " , s2 . c_str ( ) , beginpos ) ;
}
}
//#define displayDwordBits(a,b,c)
/*
* Display the bits ( with 0 and 1 ) composing a number ( uint32 ) ( from right to left )
*/
void displayDwordBits ( uint32 b , uint nbits , sint beginpos , bool displayBegin , NLMISC : : CLog * log )
{
string s1 , s2 ;
sint i ;
for ( i = nbits - 1 ; i ! = - 1 ; - - i )
{
s1 + = ( ( b > > i ) & 1 ) ? ' 1 ' : ' 0 ' ;
}
log - > displayRawNL ( " %s " , s1 . c_str ( ) ) ;
if ( displayBegin )
{
for ( i = nbits ; i > beginpos + 1 ; - - i )
{
s2 + = " " ;
}
s2 + = " ^ " ;
log - > displayRawNL ( " %s beginpos=%u " , s2 . c_str ( ) , beginpos ) ;
}
}
int nlfseek64 ( FILE * stream , sint64 offset , int origin )
{
# ifdef NL_OS_WINDOWS
//
fpos_t pos64 = 0 ;
switch ( origin )
{
case SEEK_CUR :
if ( fgetpos ( stream , & pos64 ) ! = 0 )
return - 1 ;
case SEEK_END :
pos64 = _filelengthi64 ( _fileno ( stream ) ) ;
if ( pos64 = = - 1L )
return - 1 ;
} ;
// Seek
pos64 + = offset ;
// Set the final position
return fsetpos ( stream , & pos64 ) ;
# else // NL_OS_WINDOWS
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// TODO: to fix for Linux and Mac OS X
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// This code doesn't work under windows : fseek() implementation uses a signed 32 bits offset. What ever we do, it can't seek more than 2 Go.
// For the moment, i don't know if it works under linux for seek of more than 2 Go.
nlassert ( ( offset < SINT64_CONSTANT ( 2147483647 ) ) & & ( offset > SINT64_CONSTANT ( - 2147483648 ) ) ) ;
bool first = true ;
do
{
// Get the size of the next fseek
sint nextSeek ;
if ( offset > 0 )
nextSeek = ( sint ) std : : min ( ( sint64 ) SINT64_CONSTANT ( 2147483647 ) , offset ) ;
else
nextSeek = ( sint ) std : : max ( ( sint64 ) - SINT64_CONSTANT ( 2147483648 ) , offset ) ;
// Make a seek
int result = fseek ( stream , nextSeek , first ? origin : SEEK_CUR ) ;
if ( result ! = 0 )
return result ;
// Remaining
offset - = nextSeek ;
first = false ;
}
while ( offset ) ;
return 0 ;
# endif // NL_OS_WINDOWS
}
sint64 nlftell64 ( FILE * stream )
{
# ifdef NL_OS_WINDOWS
fpos_t pos64 = 0 ;
if ( fgetpos ( stream , & pos64 ) = = 0 )
{
return ( sint64 ) pos64 ;
}
else return - 1 ;
# else
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nlunreferenced ( stream ) ;
// TODO: implement for Linux and Mac OS X
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nlerror ( " Not implemented " ) ;
return - 1 ;
# endif
}
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
/// Commands
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
NLMISC_CATEGORISED_COMMAND ( nel , sleep , " Freeze the service for N seconds (for debug purpose) " , " <N> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 ) return false ;
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sint32 n ;
fromString ( args [ 0 ] , n ) ;
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log . displayNL ( " Sleeping during %d seconds " , n ) ;
nlSleep ( n * 1000 ) ;
return true ;
}
NLMISC_CATEGORISED_COMMAND ( nel , system , " Execute the command line using system() function call (wait until the end of the command) " , " <commandline> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 ) return false ;
string cmd = args [ 0 ] ;
log . displayNL ( " Executing '%s' " , cmd . c_str ( ) ) ;
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sint error = system ( cmd . c_str ( ) ) ;
if ( error )
{
log . displayNL ( " Execution of '%s' failed with error code %d " , cmd . c_str ( ) , error ) ;
}
else
{
log . displayNL ( " End of Execution of '%s' " , cmd . c_str ( ) ) ;
}
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return true ;
}
NLMISC_CATEGORISED_COMMAND ( nel , launchProgram , " Execute the command line using launcProgram() function call (launch in background task without waiting the end of the execution) " , " <programName> <arguments> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 2 ) return false ;
string cmd = args [ 0 ] ;
string arg = args [ 1 ] ;
log . displayNL ( " Executing '%s' with argument '%s' " , cmd . c_str ( ) , arg . c_str ( ) ) ;
launchProgram ( cmd , arg ) ;
log . displayNL ( " End of Execution of '%s' with argument '%s' " , cmd . c_str ( ) , arg . c_str ( ) ) ;
return true ;
}
NLMISC_CATEGORISED_COMMAND ( nel , killProgram , " kill a program given the pid " , " <pid> " )
{
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nlunreferenced ( rawCommandString ) ;
nlunreferenced ( quiet ) ;
nlunreferenced ( human ) ;
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if ( args . size ( ) ! = 1 ) return false ;
uint32 pid ;
fromString ( args [ 0 ] , pid ) ;
killProgram ( pid ) ;
return true ;
}
# ifdef NL_OS_WINDOWS
LONG GetRegKey ( HKEY key , LPCSTR subkey , LPSTR retdata )
{
HKEY hkey ;
LONG retval = RegOpenKeyExA ( key , subkey , 0 , KEY_QUERY_VALUE , & hkey ) ;
if ( retval = = ERROR_SUCCESS )
{
long datasize = MAX_PATH ;
char data [ MAX_PATH ] ;
RegQueryValueA ( hkey , NULL , data , & datasize ) ;
lstrcpyA ( retdata , data ) ;
RegCloseKey ( hkey ) ;
}
return retval ;
}
# endif // NL_OS_WINDOWS
bool openURL ( const char * url )
{
# ifdef NL_OS_WINDOWS
char key [ 1024 ] ;
if ( GetRegKey ( HKEY_CLASSES_ROOT , " .html " , key ) = = ERROR_SUCCESS )
{
lstrcatA ( key , " \\ shell \\ open \\ command " ) ;
if ( GetRegKey ( HKEY_CLASSES_ROOT , key , key ) = = ERROR_SUCCESS )
{
char * pos ;
pos = strstr ( key , " \" %1 \" " ) ;
if ( pos = = NULL ) { // No quotes found
pos = strstr ( key , " %1 " ) ; // Check for %1, without quotes
if ( pos = = NULL ) // No parameter at all...
pos = key + lstrlenA ( key ) - 1 ;
else
* pos = ' \0 ' ; // Remove the parameter
}
else
* pos = ' \0 ' ; // Remove the parameter
lstrcatA ( pos , " " ) ;
lstrcatA ( pos , url ) ;
int res = WinExec ( key , SW_SHOWDEFAULT ) ;
return ( res > 31 ) ;
}
}
# elif defined(NL_OS_MAC)
return launchProgram ( " open " , url ) ;
# elif defined(NL_OS_UNIX)
return launchProgram ( " /etc/alternatives/x-www-browser " , url ) ;
# else
nlwarning ( " openURL() is not implemented for this OS " ) ;
# endif // NL_OS_WINDOWS
return false ;
}
bool openDoc ( const char * document )
{
# ifdef NL_OS_WINDOWS
string ext = CFile : : getExtension ( document ) ;
char key [ MAX_PATH + MAX_PATH ] ;
// First try ShellExecute()
HINSTANCE result = ShellExecuteA ( NULL , " open " , document , NULL , NULL , SW_SHOWDEFAULT ) ;
// If it failed, get the .htm regkey and lookup the program
if ( ( UINT ) result < = HINSTANCE_ERROR )
{
if ( GetRegKey ( HKEY_CLASSES_ROOT , ext . c_str ( ) , key ) = = ERROR_SUCCESS )
{
lstrcatA ( key , " \\ shell \\ open \\ command " ) ;
if ( GetRegKey ( HKEY_CLASSES_ROOT , key , key ) = = ERROR_SUCCESS )
{
char * pos ;
pos = strstr ( key , " \" %1 \" " ) ;
if ( pos = = NULL ) { // No quotes found
pos = strstr ( key , " %1 " ) ; // Check for %1, without quotes
if ( pos = = NULL ) // No parameter at all...
pos = key + lstrlenA ( key ) - 1 ;
else
* pos = ' \0 ' ; // Remove the parameter
}
else
* pos = ' \0 ' ; // Remove the parameter
lstrcatA ( pos , " " ) ;
lstrcatA ( pos , document ) ;
int res = WinExec ( key , SW_SHOWDEFAULT ) ;
return ( res > 31 ) ;
}
}
}
else
return true ;
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# else
// TODO: implement for Linux and Mac OS X
nlunreferenced ( document ) ;
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# endif // NL_OS_WINDOWS
return false ;
}
} // NLMISC