/*
===========================================================================
Doom 3 GPL Source Code
Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company.
Copyright (C) 2012 Robert Beckebans
This file is part of the Doom 3 GPL Source Code (?Doom 3 Source Code?).
Doom 3 Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Doom 3 Source Code 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with Doom 3 Source Code. If not, see .
In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below.
If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
===========================================================================
*/
#include "../../idlib/precompiled.h"
#include "../posix/posix_public.h"
#include "../sys_local.h"
//#include "local.h"
#include
#include
#include
#include
#include
#include
#ifdef ID_MCHECK
#include
#endif
static idStr basepath;
static idStr savepath;
/*
==============
Sys_DefaultSavePath
==============
*/
const char* Sys_DefaultSavePath()
{
#if defined( ID_DEMO_BUILD )
sprintf( savepath, "%s/.rbdoom3-demo", getenv( "HOME" ) );
#else
sprintf( savepath, "%s/.rbdoom3", getenv( "HOME" ) );
#endif
return savepath.c_str();
}
/*
==============
Sys_EXEPath
==============
*/
const char* Sys_EXEPath()
{
static char buf[ 1024 ];
idStr linkpath;
int len;
buf[ 0 ] = '\0';
sprintf( linkpath, "/proc/%d/exe", getpid() );
len = readlink( linkpath.c_str(), buf, sizeof( buf ) );
if( len == -1 )
{
Sys_Printf( "couldn't stat exe path link %s\n", linkpath.c_str() );
// RB: fixed array subscript is below array bounds
buf[ 0 ] = '\0';
// RB end
}
return buf;
}
/*
================
Sys_DefaultBasePath
Get the default base path
- binary image path
- current directory
- hardcoded
Try to be intelligent: if there is no BASE_GAMEDIR, try the next path
================
*/
const char* Sys_DefaultBasePath()
{
struct stat st;
idStr testbase;
basepath = Sys_EXEPath();
if( basepath.Length() )
{
basepath.StripFilename();
testbase = basepath;
testbase += "/";
testbase += BASE_GAMEDIR;
if( stat( testbase.c_str(), &st ) != -1 && S_ISDIR( st.st_mode ) )
{
return basepath.c_str();
}
else
{
common->Printf( "no '%s' directory in exe path %s, skipping\n", BASE_GAMEDIR, basepath.c_str() );
}
}
if( basepath != Posix_Cwd() )
{
basepath = Posix_Cwd();
testbase = basepath;
testbase += "/";
testbase += BASE_GAMEDIR;
if( stat( testbase.c_str(), &st ) != -1 && S_ISDIR( st.st_mode ) )
{
return basepath.c_str();
}
else
{
common->Printf( "no '%s' directory in cwd path %s, skipping\n", BASE_GAMEDIR, basepath.c_str() );
}
}
common->Printf( "WARNING: using hardcoded default base path\n" );
return LINUX_DEFAULT_PATH;
}
/*
===============
Sys_Shutdown
===============
*/
void Sys_Shutdown()
{
basepath.Clear();
savepath.Clear();
Posix_Shutdown();
}
/*
===============
Sys_GetProcessorId
===============
*/
cpuid_t Sys_GetProcessorId()
{
return CPUID_GENERIC;
}
/*
===============
Sys_GetProcessorString
===============
*/
const char* Sys_GetProcessorString()
{
return "generic";
}
/*
===============
Sys_FPU_EnableExceptions
===============
*/
//void Sys_FPU_EnableExceptions( int exceptions )
//{
//}
/*
===============
Sys_FPE_handler
===============
*/
void Sys_FPE_handler( int signum, siginfo_t* info, void* context )
{
assert( signum == SIGFPE );
Sys_Printf( "FPE\n" );
}
/*
===============
Sys_GetClockticks
===============
*/
double Sys_GetClockTicks()
{
#if defined( __i386__ )
unsigned long lo, hi;
__asm__ __volatile__(
"push %%ebx\n" \
"xor %%eax,%%eax\n" \
"cpuid\n" \
"rdtsc\n" \
"mov %%eax,%0\n" \
"mov %%edx,%1\n" \
"pop %%ebx\n"
: "=r"( lo ), "=r"( hi ) );
return ( double ) lo + ( double ) 0xFFFFFFFF * hi;
#else
//#error unsupported CPU
// RB begin
struct timespec now;
clock_gettime( CLOCK_MONOTONIC, &now );
return now.tv_sec * 1000000000LL + now.tv_nsec;
// RB end
#endif
}
/*
===============
MeasureClockTicks
===============
*/
double MeasureClockTicks()
{
double t0, t1;
t0 = Sys_GetClockTicks( );
Sys_Sleep( 1000 );
t1 = Sys_GetClockTicks( );
return t1 - t0;
}
/*
===============
Sys_ClockTicksPerSecond
===============
*/
double Sys_ClockTicksPerSecond()
{
static bool init = false;
static double ret;
int fd, len, pos, end;
char buf[ 4096 ];
if( init )
{
return ret;
}
fd = open( "/proc/cpuinfo", O_RDONLY );
if( fd == -1 )
{
common->Printf( "couldn't read /proc/cpuinfo\n" );
ret = MeasureClockTicks();
init = true;
common->Printf( "measured CPU frequency: %g MHz\n", ret / 1000000.0 );
return ret;
}
len = read( fd, buf, 4096 );
close( fd );
pos = 0;
while( pos < len )
{
if( !idStr::Cmpn( buf + pos, "cpu MHz", 7 ) )
{
pos = strchr( buf + pos, ':' ) - buf + 2;
end = strchr( buf + pos, '\n' ) - buf;
if( pos < len && end < len )
{
buf[end] = '\0';
ret = atof( buf + pos );
}
else
{
common->Printf( "failed parsing /proc/cpuinfo\n" );
ret = MeasureClockTicks();
init = true;
common->Printf( "measured CPU frequency: %g MHz\n", ret / 1000000.0 );
return ret;
}
common->Printf( "/proc/cpuinfo CPU frequency: %g MHz\n", ret );
ret *= 1000000;
init = true;
return ret;
}
pos = strchr( buf + pos, '\n' ) - buf + 1;
}
common->Printf( "failed parsing /proc/cpuinfo\n" );
ret = MeasureClockTicks();
init = true;
common->Printf( "measured CPU frequency: %g MHz\n", ret / 1000000.0 );
return ret;
}
/*
========================
Sys_CPUCount
numLogicalCPUCores - the number of logical CPU per core
numPhysicalCPUCores - the total number of cores per package
numCPUPackages - the total number of packages (physical processors)
========================
*/
// RB begin
void Sys_CPUCount( int& numLogicalCPUCores, int& numPhysicalCPUCores, int& numCPUPackages )
{
static bool init = false;
static double ret;
static int s_numLogicalCPUCores;
static int s_numPhysicalCPUCores;
static int s_numCPUPackages;
int fd, len, pos, end;
char buf[ 4096 ];
char number[100];
if( init )
{
numPhysicalCPUCores = s_numPhysicalCPUCores;
numLogicalCPUCores = s_numLogicalCPUCores;
numCPUPackages = s_numCPUPackages;
}
s_numPhysicalCPUCores = 1;
s_numLogicalCPUCores = 1;
s_numCPUPackages = 1;
fd = open( "/proc/cpuinfo", O_RDONLY );
if( fd != -1 )
{
len = read( fd, buf, 4096 );
close( fd );
pos = 0;
while( pos < len )
{
if( !idStr::Cmpn( buf + pos, "processor", 9 ) )
{
pos = strchr( buf + pos, ':' ) - buf + 2;
end = strchr( buf + pos, '\n' ) - buf;
if( pos < len && end < len )
{
idStr::Copynz( number, buf + pos, sizeof( number ) );
assert( ( end - pos ) > 0 && ( end - pos ) < sizeof( number ) );
number[ end - pos ] = '\0';
int processor = atoi( number );
if( ( processor + 1 ) > s_numPhysicalCPUCores )
{
s_numPhysicalCPUCores = processor + 1;
}
}
else
{
common->Printf( "failed parsing /proc/cpuinfo\n" );
break;
}
}
else if( !idStr::Cmpn( buf + pos, "core id", 7 ) )
{
pos = strchr( buf + pos, ':' ) - buf + 2;
end = strchr( buf + pos, '\n' ) - buf;
if( pos < len && end < len )
{
idStr::Copynz( number, buf + pos, sizeof( number ) );
assert( ( end - pos ) > 0 && ( end - pos ) < sizeof( number ) );
number[ end - pos ] = '\0';
int coreId = atoi( number );
if( ( coreId + 1 ) > s_numLogicalCPUCores )
{
s_numLogicalCPUCores = coreId + 1;
}
}
else
{
common->Printf( "failed parsing /proc/cpuinfo\n" );
break;
}
}
pos = strchr( buf + pos, '\n' ) - buf + 1;
}
}
common->Printf( "/proc/cpuinfo CPU processors: %d\n", s_numPhysicalCPUCores );
common->Printf( "/proc/cpuinfo CPU logical cores: %d\n", s_numLogicalCPUCores );
numPhysicalCPUCores = s_numPhysicalCPUCores;
numLogicalCPUCores = s_numLogicalCPUCores;
numCPUPackages = s_numCPUPackages;
}
// RB end
/*
================
Sys_GetSystemRam
returns in megabytes
================
*/
int Sys_GetSystemRam()
{
long count, page_size;
int mb;
count = sysconf( _SC_PHYS_PAGES );
if( count == -1 )
{
common->Printf( "GetSystemRam: sysconf _SC_PHYS_PAGES failed\n" );
return 512;
}
page_size = sysconf( _SC_PAGE_SIZE );
if( page_size == -1 )
{
common->Printf( "GetSystemRam: sysconf _SC_PAGE_SIZE failed\n" );
return 512;
}
mb = ( int )( ( double )count * ( double )page_size / ( 1024 * 1024 ) );
// round to the nearest 16Mb
mb = ( mb + 8 ) & ~15;
return mb;
}
/*
==================
Sys_DoStartProcess
if we don't fork, this function never returns
the no-fork lets you keep the terminal when you're about to spawn an installer
if the command contains spaces, system() is used. Otherwise the more straightforward execl ( system() blows though )
==================
*/
void Sys_DoStartProcess( const char* exeName, bool dofork )
{
bool use_system = false;
if( strchr( exeName, ' ' ) )
{
use_system = true;
}
else
{
// set exec rights when it's about a single file to execute
struct stat buf;
if( stat( exeName, &buf ) == -1 )
{
printf( "stat %s failed: %s\n", exeName, strerror( errno ) );
}
else
{
if( chmod( exeName, buf.st_mode | S_IXUSR ) == -1 )
{
printf( "cmod +x %s failed: %s\n", exeName, strerror( errno ) );
}
}
}
if( dofork )
{
switch( fork() )
{
case -1:
// main thread
break;
case 0:
if( use_system )
{
printf( "system %s\n", exeName );
system( exeName );
_exit( 0 );
}
else
{
printf( "execl %s\n", exeName );
execl( exeName, exeName, NULL );
printf( "execl failed: %s\n", strerror( errno ) );
_exit( -1 );
}
break;
}
}
else
{
if( use_system )
{
printf( "system %s\n", exeName );
system( exeName );
sleep( 1 ); // on some systems I've seen that starting the new process and exiting this one should not be too close
}
else
{
printf( "execl %s\n", exeName );
execl( exeName, exeName, NULL );
printf( "execl failed: %s\n", strerror( errno ) );
}
// terminate
_exit( 0 );
}
}
/*
=================
Sys_OpenURL
=================
*/
void idSysLocal::OpenURL( const char* url, bool quit )
{
const char* script_path;
idFile* script_file;
char cmdline[ 1024 ];
static bool quit_spamguard = false;
if( quit_spamguard )
{
common->DPrintf( "Sys_OpenURL: already in a doexit sequence, ignoring %s\n", url );
return;
}
common->Printf( "Open URL: %s\n", url );
// opening an URL on *nix can mean a lot of things ..
// just spawn a script instead of deciding for the user :-)
// look in the savepath first, then in the basepath
script_path = fileSystem->BuildOSPath( cvarSystem->GetCVarString( "fs_savepath" ), "", "openurl.sh" );
script_file = fileSystem->OpenExplicitFileRead( script_path );
if( !script_file )
{
script_path = fileSystem->BuildOSPath( cvarSystem->GetCVarString( "fs_basepath" ), "", "openurl.sh" );
script_file = fileSystem->OpenExplicitFileRead( script_path );
}
if( !script_file )
{
common->Printf( "Can't find URL script 'openurl.sh' in either savepath or basepath\n" );
common->Printf( "OpenURL '%s' failed\n", url );
return;
}
fileSystem->CloseFile( script_file );
// if we are going to quit, only accept a single URL before quitting and spawning the script
if( quit )
{
quit_spamguard = true;
}
common->Printf( "URL script: %s\n", script_path );
// StartProcess is going to execute a system() call with that - hence the &
idStr::snPrintf( cmdline, 1024, "%s '%s' &", script_path, url );
sys->StartProcess( cmdline, quit );
}
/*
==================
Sys_DoPreferences
==================
*/
void Sys_DoPreferences() { }
#if 0
/*
================
Sys_FPU_SetDAZ
================
*/
void Sys_FPU_SetDAZ( bool enable )
{
/*
DWORD dwData;
_asm {
movzx ecx, byte ptr enable
and ecx, 1
shl ecx, 6
STMXCSR dword ptr dwData
mov eax, dwData
and eax, ~(1<<6) // clear DAX bit
or eax, ecx // set the DAZ bit
mov dwData, eax
LDMXCSR dword ptr dwData
}
*/
}
/*
================
Sys_FPU_SetFTZ
================
*/
void Sys_FPU_SetFTZ( bool enable )
{
/*
DWORD dwData;
_asm {
movzx ecx, byte ptr enable
and ecx, 1
shl ecx, 15
STMXCSR dword ptr dwData
mov eax, dwData
and eax, ~(1<<15) // clear FTZ bit
or eax, ecx // set the FTZ bit
mov dwData, eax
LDMXCSR dword ptr dwData
}
*/
}
#endif
/*
===============
mem consistency stuff
===============
*/
#ifdef ID_MCHECK
const char* mcheckstrings[] =
{
"MCHECK_DISABLED",
"MCHECK_OK",
"MCHECK_FREE", // block freed twice
"MCHECK_HEAD", // memory before the block was clobbered
"MCHECK_TAIL" // memory after the block was clobbered
};
void abrt_func( mcheck_status status )
{
Sys_Printf( "memory consistency failure: %s\n", mcheckstrings[ status + 1 ] );
Posix_SetExit( EXIT_FAILURE );
common->Quit();
}
#endif
/*
========================
Sys_GetCmdLine
========================
*/
const char* Sys_GetCmdLine()
{
return "TODO Sys_GetCmdLine";
}
/*
========================
Sys_ReLaunch
========================
*/
void Sys_ReLaunch( void* data, const unsigned int dataSize )
{
idLib::Error( "Could not start process: TODO Sys_ReLaunch() " );
}
/*
===============
main
===============
*/
int main( int argc, const char** argv )
{
#ifdef ID_MCHECK
// must have -lmcheck linkage
mcheck( abrt_func );
Sys_Printf( "memory consistency checking enabled\n" );
#endif
Posix_EarlyInit( );
if( argc > 1 )
{
common->Init( argc - 1, &argv[1], NULL );
}
else
{
common->Init( 0, NULL, NULL );
}
Posix_LateInit( );
while( 1 )
{
common->Frame();
}
}