// NeL - MMORPG Framework // 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 . #include "stdmisc.h" #ifdef NL_OS_WINDOWS # define NOMINMAX # include # include # include # include # define nlcpuid(regs, idx) __cpuid(regs, idx) #else # include # include # include # include # include # include # ifdef NL_CPU_INTEL # include # define nlcpuid(regs, idx) __cpuid(idx, regs[0], regs[1], regs[2], regs[3]) # endif // NL_CPU_INTEL #endif // NL_OS_WINDOWS #include "nel/misc/system_info.h" #include "nel/misc/command.h" #include "nel/misc/variable.h" using namespace std; namespace NLMISC { #ifdef NL_OS_UNIX static string getCpuInfo(const string &colname) { if (colname.empty()) return ""; int fd = open("/proc/cpuinfo", O_RDONLY); if (fd == -1) { nlwarning ("SI: Can't open /proc/cpuinfo: %s", strerror (errno)); return ""; } else { char buffer[4096+1]; uint32 len = read(fd, buffer, sizeof(buffer)-1); close(fd); buffer[len] = '\0'; vector splitted; explode(string(buffer), string("\n"), splitted, true); for(uint32 i = 0; i < splitted.size(); i++) { vector sline; explode(splitted[i], string(":"), sline, true); if(sline.size() == 2 && trim(sline[0]) == colname) { return trim(sline[1]); } } } nlwarning ("SI: Can't find the colname '%s' in /proc/cpuinfo", colname.c_str()); return ""; } // return the value of the colname in bytes from /proc/meminfo static uint64 getSystemMemory (const string &colname) { if (colname.empty()) return 0; int fd = open("/proc/meminfo", O_RDONLY); if (fd == -1) { nlwarning ("SI: Can't open /proc/meminfo: %s", strerror (errno)); return 0; } else { char buffer[4096+1]; uint32 len = read(fd, buffer, sizeof(buffer)-1); close(fd); buffer[len] = '\0'; vector splitted; explode(string(buffer), string("\n"), splitted, true); for(uint32 i = 0; i < splitted.size(); i++) { vector sline; explode(splitted[i], string(" "), sline, true); if(sline.size() == 3 && sline[0] == colname) { uint64 val = atoiInt64(sline[1].c_str()); if(sline[2] == "kB") val *= 1024; return val; } } } nlwarning ("SI: Can't find the colname '%s' in /proc/meminfo", colname.c_str()); return 0; } #endif // NL_OS_UNIX #ifdef NL_OS_MAC static sint32 getsysctlnum(const string &name) { sint32 value = 0; size_t len = sizeof(value); if(sysctlbyname(name.c_str(), &value, &len, NULL, 0) != 0) { nlwarning("SI: Can't get '%s' from sysctl: %s", name.c_str(), strerror (errno)); } return value; } static sint64 getsysctlnum64(const string &name) { sint64 value = 0; size_t len = sizeof(value); if(sysctlbyname(name.c_str(), &value, &len, NULL, 0) != 0) { nlwarning("SI: Can't get '%s' from sysctl: %s", name.c_str(), strerror (errno)); } return value; } static string getsysctlstr(const string &name) { string value("Unknown"); size_t len; char *p; if(sysctlbyname(name.c_str(), NULL, &len, NULL, 0) == 0) { p = (char*)malloc(len); if(sysctlbyname(name.c_str(), p, &len, NULL, 0) == 0) { value = p; } else { nlwarning("SI: Can't get '%s' from sysctl: %s", name.c_str(), strerror (errno)); } free(p); } else { nlwarning("SI: Can't get '%s' from sysctl: %s", name.c_str(), strerror (errno)); } return value; } #endif // NL_OS_MAC string CSystemInfo::getOS() { string OSString = "Unknown"; #ifdef NL_OS_WINDOWS typedef void (WINAPI *PGNSI)(LPSYSTEM_INFO); typedef BOOL (WINAPI *PGPI)(DWORD, DWORD, DWORD, DWORD, PDWORD); SYSTEM_INFO si; PGNSI pGNSI; PGPI pGPI; OSVERSIONINFOEX osvi; BOOL bOsVersionInfoEx; const int BUFSIZE = 80; // Try calling GetVersionEx using the OSVERSIONINFOEX structure. // If that fails, try using the OSVERSIONINFO structure. ZeroMemory(&si, sizeof(SYSTEM_INFO)); ZeroMemory(&osvi, sizeof(OSVERSIONINFOEX)); osvi.dwOSVersionInfoSize = sizeof(OSVERSIONINFOEX); bOsVersionInfoEx = GetVersionExA ((OSVERSIONINFO *) &osvi); if(!bOsVersionInfoEx) { osvi.dwOSVersionInfoSize = sizeof (OSVERSIONINFO); if (! GetVersionExA ( (OSVERSIONINFO *) &osvi) ) return OSString+" Can't GetVersionEx()"; } // Call GetNativeSystemInfo if supported or GetSystemInfo otherwise. pGNSI = (PGNSI) GetProcAddress(GetModuleHandleA("kernel32.dll"), "GetNativeSystemInfo"); if (NULL != pGNSI) pGNSI(&si); else GetSystemInfo(&si); // Test for the Windows NT product family. if ( VER_PLATFORM_WIN32_NT == osvi.dwPlatformId && osvi.dwMajorVersion > 4 ) { OSString = "Microsoft"; if ( osvi.dwMajorVersion > 6 ) { OSString += " Windows (not released)"; } else if ( osvi.dwMajorVersion == 6 ) { if ( osvi.dwMinorVersion == 1 ) { if( osvi.wProductType == VER_NT_WORKSTATION ) OSString += " Windows 7"; else OSString += " Windows Server 2008 R2"; } else if ( osvi.dwMinorVersion == 0 ) { if( osvi.wProductType == VER_NT_WORKSTATION ) OSString += " Windows Vista"; else OSString += " Windows Server 2008"; } else { OSString += " Windows (not released)"; } pGPI = (PGPI) GetProcAddress(GetModuleHandleA("kernel32.dll"), "GetProductInfo"); DWORD dwType; pGPI( osvi.dwMajorVersion, osvi.dwMinorVersion, osvi.wServicePackMajor, osvi.wServicePackMinor, &dwType); // Test for the specific product family. switch( dwType ) { #ifdef PRODUCT_UNLICENSED case PRODUCT_UNLICENSED: OSString += " Unlicensed"; break; #endif #ifdef PRODUCT_ULTIMATE case PRODUCT_ULTIMATE: OSString += " Ultimate Edition"; break; #endif #ifdef PRODUCT_HOME_BASIC case PRODUCT_HOME_BASIC: OSString += " Home Basic Edition"; break; #endif #ifdef PRODUCT_HOME_PREMIUM case PRODUCT_HOME_PREMIUM: OSString += " Home Premium Edition"; break; #endif #ifdef PRODUCT_ENTERPRISE case PRODUCT_ENTERPRISE: OSString += " Enterprise Edition"; break; #endif #ifdef PRODUCT_HOME_BASIC_N case PRODUCT_HOME_BASIC_N: OSString += " Home Basic N Edition"; break; #endif #ifdef PRODUCT_BUSINESS case PRODUCT_BUSINESS: OSString += " Business Edition"; break; #endif #ifdef PRODUCT_STANDARD_SERVER case PRODUCT_STANDARD_SERVER: OSString += " Standard Edition"; break; #endif #ifdef PRODUCT_DATACENTER_SERVER case PRODUCT_DATACENTER_SERVER: OSString += " Datacenter Edition"; break; #endif #ifdef PRODUCT_SMALLBUSINESS_SERVER case PRODUCT_SMALLBUSINESS_SERVER: OSString += " Small Business Server"; break; #endif #ifdef PRODUCT_ENTERPRISE_SERVER case PRODUCT_ENTERPRISE_SERVER: OSString += " Enterprise Edition"; break; #endif #ifdef PRODUCT_STARTER case PRODUCT_STARTER: OSString += " Starter Edition"; break; #endif #ifdef PRODUCT_DATACENTER_SERVER_CORE case PRODUCT_DATACENTER_SERVER_CORE: OSString += " Datacenter Edition (core installation)"; break; #endif #ifdef PRODUCT_STANDARD_SERVER_CORE case PRODUCT_STANDARD_SERVER_CORE: OSString += " Standard Edition (core installation)"; break; #endif #ifdef PRODUCT_ENTERPRISE_SERVER_CORE case PRODUCT_ENTERPRISE_SERVER_CORE: OSString += " Enterprise Edition (core installation)"; break; #endif #ifdef PRODUCT_ENTERPRISE_SERVER_IA64 case PRODUCT_ENTERPRISE_SERVER_IA64: OSString += " Enterprise Edition for Itanium-based Systems"; break; #endif #ifdef PRODUCT_BUSINESS_N case PRODUCT_BUSINESS_N: OSString += " Business N Edition"; break; #endif #ifdef PRODUCT_WEB_SERVER case PRODUCT_WEB_SERVER: OSString += " Web Server Edition"; break; #endif #ifdef PRODUCT_CLUSTER_SERVER case PRODUCT_CLUSTER_SERVER: OSString += " Cluster Server Edition"; break; #endif #ifdef PRODUCT_HOME_SERVER case PRODUCT_HOME_SERVER: OSString += " Home Server Edition"; break; #endif #ifdef PRODUCT_STORAGE_EXPRESS_SERVER case PRODUCT_STORAGE_EXPRESS_SERVER: OSString += " Storage Server Express Edition"; break; #endif #ifdef PRODUCT_STORAGE_STANDARD_SERVER case PRODUCT_STORAGE_STANDARD_SERVER: OSString += " Storage Server Standard Edition"; break; #endif #ifdef PRODUCT_STORAGE_WORKGROUP_SERVER case PRODUCT_STORAGE_WORKGROUP_SERVER: OSString += " Storage Server Workgroup Edition"; break; #endif #ifdef PRODUCT_STORAGE_ENTERPRISE_SERVER case PRODUCT_STORAGE_ENTERPRISE_SERVER: OSString += " Storage Server Enterprise Edition"; break; #endif #ifdef PRODUCT_SERVER_FOR_SMALLBUSINESS case PRODUCT_SERVER_FOR_SMALLBUSINESS: OSString += " Essential Server Solutions Edition"; break; #endif #ifdef PRODUCT_SMALLBUSINESS_SERVER_PREMIUM case PRODUCT_SMALLBUSINESS_SERVER_PREMIUM: OSString += " Small Business Server Premium Edition"; break; #endif #ifdef PRODUCT_HOME_PREMIUM_N case PRODUCT_HOME_PREMIUM_N: OSString += " Home Premium N Edition"; break; #endif #ifdef PRODUCT_ENTERPRISE_N case PRODUCT_ENTERPRISE_N: OSString += " Enterprise N Edition"; break; #endif #ifdef PRODUCT_ULTIMATE_N case PRODUCT_ULTIMATE_N: OSString += " Ultimate N Edition"; break; #endif #ifdef PRODUCT_WEB_SERVER_CORE case PRODUCT_WEB_SERVER_CORE: OSString += " Web Server Edition (core installation)"; break; #endif #ifdef PRODUCT_MEDIUMBUSINESS_SERVER_MANAGEMENT case PRODUCT_MEDIUMBUSINESS_SERVER_MANAGEMENT: OSString += " Essential Business Server Management Server Edition"; break; #endif #ifdef PRODUCT_MEDIUMBUSINESS_SERVER_SECURITY case PRODUCT_MEDIUMBUSINESS_SERVER_SECURITY: OSString += " Essential Business Server Security Server Edition"; break; #endif #ifdef PRODUCT_MEDIUMBUSINESS_SERVER_MESSAGING case PRODUCT_MEDIUMBUSINESS_SERVER_MESSAGING: OSString += " Essential Business Server Messaging Server Edition"; break; #endif #ifdef PRODUCT_SMALLBUSINESS_SERVER_PRIME case PRODUCT_SMALLBUSINESS_SERVER_PRIME: OSString += " Small Business Server Prime Edition"; break; #endif #ifdef PRODUCT_HOME_PREMIUM_SERVER case PRODUCT_HOME_PREMIUM_SERVER: OSString += " Home Premium Server Edition"; break; #endif #ifdef PRODUCT_SERVER_FOR_SMALLBUSINESS_V case PRODUCT_SERVER_FOR_SMALLBUSINESS_V: OSString += " Essential Server Solutions without Hyper-V Edition"; break; #endif #ifdef PRODUCT_STANDARD_SERVER_V case PRODUCT_STANDARD_SERVER_V: OSString += " Standard without Hyper-V Edition"; break; #endif #ifdef PRODUCT_DATACENTER_SERVER_V case PRODUCT_DATACENTER_SERVER_V: OSString += " Datacenter without Hyper-V Edition"; break; #endif #ifdef PRODUCT_ENTERPRISE_SERVER_V case PRODUCT_ENTERPRISE_SERVER_V: OSString += " Enterprise without Hyper-V Edition"; break; #endif #ifdef PRODUCT_DATACENTER_SERVER_CORE_V case PRODUCT_DATACENTER_SERVER_CORE_V: OSString += " Datacenter without Hyper-V Edition (core installation)"; break; #endif #ifdef PRODUCT_STANDARD_SERVER_CORE_V case PRODUCT_STANDARD_SERVER_CORE_V: OSString += " Standard without Hyper-V Edition (core installation)"; break; #endif #ifdef PRODUCT_ENTERPRISE_SERVER_CORE_V case PRODUCT_ENTERPRISE_SERVER_CORE_V: OSString += " Enterprise without Hyper-V Edition (core installation)"; break; #endif #ifdef PRODUCT_HYPERV case PRODUCT_HYPERV: OSString += " Hyper-V Server Edition"; break; #endif default: OSString += toString(" Unknown Edition (0x%04x)", dwType); } if ( si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64 ) OSString += " 64-bit"; else if (si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_INTEL ) OSString += " 32-bit"; } else if ( osvi.dwMajorVersion == 5 ) { if ( osvi.dwMinorVersion == 2 ) { if( GetSystemMetrics(89 /* SM_SERVERR2 */) ) OSString += " Windows Server 2003 R2"; else if ( osvi.wSuiteMask == VER_SUITE_STORAGE_SERVER ) OSString += " Windows Storage Server 2003"; #ifdef VER_SUITE_WH_SERVER else if ( osvi.wSuiteMask == VER_SUITE_WH_SERVER ) OSString += " Windows Home Server"; #endif else if( osvi.wProductType == VER_NT_WORKSTATION && si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64) OSString += " Windows XP Professional x64 Edition"; else OSString += " Windows Server 2003"; // Test for the server type. if ( osvi.wProductType != VER_NT_WORKSTATION ) { if ( si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_IA64 ) { if( osvi.wSuiteMask & VER_SUITE_DATACENTER ) OSString += " Datacenter Edition for Itanium-based Systems"; else if( osvi.wSuiteMask & VER_SUITE_ENTERPRISE ) OSString += " Enterprise Edition for Itanium-based Systems"; } else if ( si.wProcessorArchitecture == PROCESSOR_ARCHITECTURE_AMD64 ) { if( osvi.wSuiteMask & VER_SUITE_DATACENTER ) OSString += " Datacenter x64 Edition"; else if( osvi.wSuiteMask & VER_SUITE_ENTERPRISE ) OSString += " Enterprise x64 Edition"; else OSString += " Standard x64 Edition"; } else { if ( osvi.wSuiteMask & VER_SUITE_COMPUTE_SERVER ) OSString += " Compute Cluster Edition"; else if( osvi.wSuiteMask & VER_SUITE_DATACENTER ) OSString += " Datacenter Edition"; else if( osvi.wSuiteMask & VER_SUITE_ENTERPRISE ) OSString += " Enterprise Edition"; else if ( osvi.wSuiteMask & VER_SUITE_BLADE ) OSString += " Web Edition"; else OSString += " Standard Edition"; } } } else if ( osvi.dwMinorVersion == 1 ) { OSString += " Windows XP"; if( osvi.wSuiteMask & VER_SUITE_PERSONAL ) OSString += " Home Edition"; else OSString += " Professional"; } else if ( osvi.dwMinorVersion == 0 ) { OSString += " Windows 2000"; if ( osvi.wProductType == VER_NT_WORKSTATION ) { OSString += " Professional"; } else { if( osvi.wSuiteMask & VER_SUITE_DATACENTER ) OSString += " Datacenter Server"; else if( osvi.wSuiteMask & VER_SUITE_ENTERPRISE ) OSString += " Advanced Server"; else OSString += " Server"; } } else { OSString += " Unknown Windows"; } } else if ( osvi.dwMajorVersion <= 4 ) { OSString += " Windows NT"; // Test for specific product on Windows NT 4.0 SP6 and later. if( bOsVersionInfoEx ) { // Test for the workstation type. if ( osvi.wProductType == VER_NT_WORKSTATION ) { if( osvi.dwMajorVersion == 4 ) OSString += " Workstation 4.0"; else if( osvi.wSuiteMask & VER_SUITE_PERSONAL ) OSString += " Home Edition"; else OSString += " Professional"; } // Test for the server type. else if ( osvi.wProductType == VER_NT_SERVER ) { if( osvi.wSuiteMask & VER_SUITE_ENTERPRISE ) OSString += " Server 4.0 Enterprise Edition"; else OSString += " Server 4.0"; } } else // Test for specific product on Windows NT 4.0 SP5 and earlier { HKEY hKey; TCHAR szProductType[BUFSIZE]; DWORD dwBufLen=BUFSIZE; LONG lRet; lRet = RegOpenKeyExA( HKEY_LOCAL_MACHINE, "SYSTEM\\CurrentControlSet\\Control\\ProductOptions", 0, KEY_QUERY_VALUE, &hKey ); if( lRet != ERROR_SUCCESS ) return OSString + " Can't RegOpenKeyEx"; lRet = RegQueryValueExA( hKey, "ProductType", NULL, NULL, (LPBYTE) szProductType, &dwBufLen); if( (lRet != ERROR_SUCCESS) || (dwBufLen > BUFSIZE) ) return OSString + " Can't ReQueryValueEx"; RegCloseKey( hKey ); if ( lstrcmpi( _T("WINNT"), szProductType) == 0 ) OSString += " Workstation"; if ( lstrcmpi( _T("LANMANNT"), szProductType) == 0 ) OSString += " Server"; if ( lstrcmpi( _T("SERVERNT"), szProductType) == 0 ) OSString += " Advanced Server"; } } std::string servicePack; if( osvi.dwMajorVersion == 4 && lstrcmpi( osvi.szCSDVersion, _T("Service Pack 6") ) == 0 ) { HKEY hKey; LONG lRet; // Test for SP6 versus SP6a. lRet = RegOpenKeyExA( HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Hotfix\\Q246009", 0, KEY_QUERY_VALUE, &hKey ); if( lRet == ERROR_SUCCESS ) servicePack = "Service Pack 6a"; else // Windows NT 4.0 prior to SP6a { servicePack = osvi.szCSDVersion; } RegCloseKey( hKey ); } else // Windows NT 3.51 and earlier or Windows 2000 and later { servicePack = osvi.szCSDVersion; } // Include service pack (if any) if (!servicePack.empty()) OSString += " " + servicePack; // Include build number OSString += toString(" (Build %d)", osvi.dwBuildNumber & 0xFFFF); } else if ( VER_PLATFORM_WIN32_WINDOWS == osvi.dwPlatformId ) { OSString = "Microsoft"; if (osvi.dwMajorVersion == 4 && osvi.dwMinorVersion == 0) { OSString += " Windows 95"; if ( osvi.szCSDVersion[1] == 'C' || osvi.szCSDVersion[1] == 'B' ) OSString += " OSR2"; } else if (osvi.dwMajorVersion == 4 && osvi.dwMinorVersion == 10) { OSString += " Windows 98"; if ( osvi.szCSDVersion[1] == 'A' ) OSString += " SE"; } else if (osvi.dwMajorVersion == 4 && osvi.dwMinorVersion == 90) { OSString += " Windows Millennium Edition"; } else OSString += " Windows 9x"; } else if ( VER_PLATFORM_WIN32s == osvi.dwPlatformId ) { OSString = toString("Microsoft Windows %d.%d + Win32s", osvi.dwMajorVersion, osvi.dwMinorVersion); } else { OSString = toString("Microsoft Windows %d.%d", osvi.dwMajorVersion, osvi.dwMinorVersion); } OSString += toString( " (%d.%d %d)", osvi.dwMajorVersion, osvi.dwMinorVersion, osvi.dwBuildNumber & 0xFFFF); #elif defined NL_OS_MAC OSString = getsysctlstr("kern.version"); #elif defined NL_OS_UNIX int fd = open("/proc/version", O_RDONLY); if (fd == -1) { nlwarning ("SI: Can't get OS from /proc/version: %s", strerror (errno)); } else { char buffer[4096+1]; int len = read(fd, buffer, sizeof(buffer)-1); close(fd); // remove the \n and set \0 buffer[len-1] = '\0'; OSString = buffer; } #endif // NL_OS_UNIX return OSString; } string CSystemInfo::getProc () { string ProcString = "Unknown"; #ifdef NL_OS_WINDOWS LONG result; char value[1024]; DWORD valueSize; HKEY hKey; result = ::RegOpenKeyExA (HKEY_LOCAL_MACHINE, "Hardware\\Description\\System\\CentralProcessor\\0", 0, KEY_QUERY_VALUE, &hKey); if (result == ERROR_SUCCESS) { // get processor name valueSize = 1024; result = ::RegQueryValueEx (hKey, _T("ProcessorNameString"), NULL, NULL, (LPBYTE)value, &valueSize); if (result == ERROR_SUCCESS) ProcString = value; else ProcString = "UnknownProc"; ProcString += " / "; // get processor identifier valueSize = 1024; result = ::RegQueryValueEx (hKey, _T("Identifier"), NULL, NULL, (LPBYTE)value, &valueSize); if (result == ERROR_SUCCESS) ProcString += value; else ProcString += "UnknownIdentifier"; ProcString += " / "; // get processor vendor valueSize = 1024; result = ::RegQueryValueEx (hKey, _T("VendorIdentifier"), NULL, NULL, (LPBYTE)value, &valueSize); if (result == ERROR_SUCCESS) ProcString += value; else ProcString += "UnknownVendor"; ProcString += " / "; // get processor frequency result = ::RegQueryValueEx (hKey, _T("~MHz"), NULL, NULL, (LPBYTE)value, &valueSize); if (result == ERROR_SUCCESS) { uint32 freq = *(int *)value; // discard the low value (not enough significant) freq /= 10; freq *= 10; ProcString += toString("%uMHz", freq); } else ProcString += "UnknownFreq"; } // Make sure to close the reg key RegCloseKey (hKey); // count the number of processor (max 8, in case this code don't work well) uint numProc= 1; for(uint i=1;i<8;i++) { string tmp= string("Hardware\\Description\\System\\CentralProcessor\\") + toString(i); // try to open the key result = ::RegOpenKeyExA (HKEY_LOCAL_MACHINE, tmp.c_str(), 0, KEY_QUERY_VALUE, &hKey); // Make sure to close the reg key RegCloseKey (hKey); if(result == ERROR_SUCCESS) numProc++; else break; } ProcString += " / "; ProcString += toString(numProc) + " Processors found"; #elif defined NL_OS_MAC ProcString = getsysctlstr("machdep.cpu.brand_string"); ProcString += " / "; ProcString += getsysctlstr("hw.machine"); ProcString += " Family " + toString(getsysctlnum("machdep.cpu.family")); ProcString += " Model " + toString(getsysctlnum("machdep.cpu.model")); ProcString += " Stepping " + toString(getsysctlnum("machdep.cpu.stepping")); ProcString += " / "; ProcString += getsysctlstr("machdep.cpu.vendor"); ProcString += " / "; ProcString += toString(getsysctlnum64("hw.cpufrequency")/1000000)+"MHz"; ProcString += " / "; ProcString += toString(getsysctlnum("hw.ncpu")) + " Processors found"; #elif defined NL_OS_UNIX ProcString = getCpuInfo("model name"); ProcString += " / ?"; ProcString += " Family " + getCpuInfo("cpu family"); ProcString += " Model " + getCpuInfo("model"); ProcString += " Stepping " + getCpuInfo("stepping"); ProcString += " / "; ProcString += getCpuInfo("vendor_id"); ProcString += " / "; ProcString += getCpuInfo("cpu MHz")+"MHz"; ProcString += " / "; ProcString += "? Processors found"; #endif // Remove beginning spaces ProcString = ProcString.substr (ProcString.find_first_not_of (" ")); return ProcString; } uint64 CSystemInfo::getProcessorFrequency(bool quick) { static uint64 freq = 0; #ifdef NL_CPU_INTEL static bool freqComputed = false; if (freqComputed) return freq; if (!quick) { TTicks bestNumTicks = 0; uint64 bestNumCycles = 0; uint64 numCycles; const uint numSamples = 5; const uint numLoops = 50000000; volatile uint k; // prevent optimization for the loop for(uint l = 0; l < numSamples; ++l) { TTicks startTick = NLMISC::CTime::getPerformanceTime(); uint64 startCycle = rdtsc(); volatile uint dummy = 0; for(k = 0; k < numLoops; ++k) { ++ dummy; } numCycles = rdtsc() - startCycle; TTicks numTicks = NLMISC::CTime::getPerformanceTime() - startTick; if (numTicks > bestNumTicks) { bestNumTicks = numTicks; bestNumCycles = numCycles; } } freq = (uint64) ((double) bestNumCycles * 1 / CTime::ticksToSecond(bestNumTicks)); } else { TTicks timeBefore = NLMISC::CTime::getPerformanceTime(); uint64 tickBefore = rdtsc(); nlSleep (100); TTicks timeAfter = NLMISC::CTime::getPerformanceTime(); TTicks tickAfter = rdtsc(); double timeDelta = CTime::ticksToSecond(timeAfter - timeBefore); TTicks tickDelta = tickAfter - tickBefore; freq = (uint64) ((double)tickDelta / timeDelta); } nlinfo ("SI: CSystemInfo: Processor frequency is %.0f MHz", (float)freq/1000000.0); freqComputed = true; #endif // NL_CPU_INTEL return freq; } static bool DetectMMX() { #ifdef NL_CPU_INTEL if (!CSystemInfo::hasCPUID()) return false; // cpuid not supported ... sint32 CPUInfo[4]; nlcpuid(CPUInfo, 1); // check for bit 23 = MMX instruction set if (CPUInfo[3] & 0x800000) return true; #endif // NL_CPU_INTEL return false; } static bool DetectSSE() { #ifdef NL_CPU_INTEL if (!CSystemInfo::hasCPUID()) return false; // cpuid not supported ... sint32 CPUInfo[4]; nlcpuid(CPUInfo, 1); if (CPUInfo[3] & 0x2000000) { // check OS support for SSE try { #ifdef NL_OS_WINDOWS #ifdef NL_NO_ASM unsigned int tmp = _mm_getcsr(); nlunreferenced(tmp); #else __asm { xorps xmm0, xmm0 // Streaming SIMD Extension } #endif // NL_NO_ASM #elif NL_OS_UNIX __asm__ __volatile__ ("xorps %xmm0, %xmm0;"); #endif // NL_OS_UNIX } catch(...) { return false; } // printf("sse detected\n"); return true; } #endif // NL_CPU_INTEL return false; } bool CSystemInfo::_HaveMMX = DetectMMX (); bool CSystemInfo::_HaveSSE = DetectSSE (); bool CSystemInfo::hasCPUID () { #ifdef NL_CPU_INTEL uint32 result = 0; #ifdef NL_OS_WINDOWS #ifdef NL_NO_ASM sint32 CPUInfo[4] = {-1}; nlcpuid(CPUInfo, 0); if (CPUInfo[3] != -1) result = 1; #else __asm { pushad pushfd // If ID bit of EFLAGS can change, then cpuid is available pushfd pop eax // Get EFLAG mov ecx,eax xor eax,0x200000 // Flip ID bit push eax popfd // Write EFLAGS pushfd pop eax // read back EFLAG xor eax,ecx je noCpuid // no flip -> no CPUID instr. popfd // restore state popad mov result, 1 jmp CPUIDPresent noCpuid: popfd // restore state popad mov result, 0 CPUIDPresent: } #endif // NL_NO_ASM #elif NL_OS_UNIX // NL_OS_WINDOWS __asm__ __volatile__ ( /* Save Register */ "pushl %%ebp;" "pushl %%ebx;" "pushl %%edx;" /* Check if this CPU supports cpuid */ "pushf;" "pushf;" "popl %%eax;" "movl %%eax, %%ebx;" "xorl $(1 << 21), %%eax;" // CPUID bit "pushl %%eax;" "popf;" "pushf;" "popl %%eax;" "popf;" // Restore flags "xorl %%ebx, %%eax;" "jz NoCPUID;" "movl $1, %0;" "jmp CPUID;" "NoCPUID:;" "movl $0, %0;" "CPUID:;" "popl %%edx;" "popl %%ebx;" "popl %%ebp;" :"=a"(result) ); #endif // NL_OS_UNIX return result == 1; #else return false; #endif } uint32 CSystemInfo::getCPUID() { #ifdef NL_CPU_INTEL if(hasCPUID()) { uint32 result = 0; sint32 CPUInfo[4]; nlcpuid(CPUInfo, 1); return CPUInfo[3]; } #endif // NL_CPU_INTEL return 0; } /* * Note: Not used in NeL probably in Ryzom closed source. Not translated in AT&T asm, I don't understand the aim of this method * Returns true if the CPU has HT, even if it is disabled. Maybe shoud count how many (virtual) core there is. */ bool CSystemInfo::hasHyperThreading() { #ifdef NL_OS_WINDOWS if(hasCPUID()) { sint32 CPUInfo[4]; // get vendor string from cpuid char vendor_id[32]; memset(vendor_id, 0, sizeof(vendor_id)); nlcpuid(CPUInfo, 0); memcpy(vendor_id, &CPUInfo[1], sizeof(sint32)); memcpy(vendor_id+4, &CPUInfo[3], sizeof(sint32)); memcpy(vendor_id+8, &CPUInfo[2], sizeof(sint32)); // get cpuid flags nlcpuid(CPUInfo, 1); // pentium 4 or later processor? if ((((CPUInfo[0] & 0xf00) == 0xf00) || (CPUInfo[0] & 0xf00000)) && strcmp(vendor_id, "GenuineIntel") == 0) return (CPUInfo[3] & 0x10000000)!=0; // Intel Processor Hyper-Threading } #endif return false; } bool CSystemInfo::isNT() { #ifdef NL_OS_WINDOWS OSVERSIONINFO ver; ver.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); GetVersionEx(&ver); return ver.dwPlatformId == VER_PLATFORM_WIN32_NT; #else return false; #endif } string CSystemInfo::availableHDSpace (const string &filename) { #ifdef NL_OS_UNIX string cmd = "df "; if(filename.empty()) cmd += "."; else cmd += filename; cmd += " >/tmp/nelhdfs"; (void) system (cmd.c_str()); int fd = open("/tmp/nelhdfs", O_RDONLY); if (fd == -1) { return 0; } else { char buffer[4096+1]; int len = read(fd, buffer, sizeof(buffer)-1); close(fd); buffer[len] = '\0'; vector splitted; explode(string(buffer), string("\n"), splitted, true); if(splitted.size() < 2) return "NoInfo"; vector sline; explode(splitted[1], string(" "), sline, true); if(sline.size() < 5) return splitted[1]; string space = sline[3] + "000"; return bytesToHumanReadable(space); } #else nlunreferenced(filename); return "NoInfo"; #endif } uint64 CSystemInfo::availablePhysicalMemory () { #ifdef NL_OS_WINDOWS MEMORYSTATUS ms; GlobalMemoryStatus (&ms); return uint64(ms.dwAvailPhys); #elif defined NL_OS_MAC return uint64(getsysctlnum64("hw.usermem")); #elif defined NL_OS_UNIX return getSystemMemory("MemFree:")+getSystemMemory("Buffers:")+getSystemMemory("Cached:"); #else return 0; #endif } uint64 CSystemInfo::totalPhysicalMemory () { #ifdef NL_OS_WINDOWS MEMORYSTATUS ms; GlobalMemoryStatus (&ms); return uint64(ms.dwTotalPhys); #elif defined NL_OS_MAC return uint64(getsysctlnum64("hw.physmem")); #elif defined NL_OS_UNIX return getSystemMemory("MemTotal:"); #else return 0; #endif } #ifndef NL_OS_WINDOWS static inline char *skipWS(const char *p) { while (isspace(*p)) p++; return (char *)p; } static inline char *skipToken(const char *p) { while (isspace(*p)) p++; while (*p && !isspace(*p)) p++; return (char *)p; } #endif uint64 CSystemInfo::getAllocatedSystemMemory () { uint64 systemMemory = 0; #ifdef NL_OS_WINDOWS // Get system memory informations HANDLE hHeap[100]; DWORD heapCount = GetProcessHeaps (100, hHeap); uint heap; for (heap = 0; heap < heapCount; heap++) { PROCESS_HEAP_ENTRY entry; entry.lpData = NULL; while (HeapWalk (hHeap[heap], &entry)) { if (entry.wFlags & PROCESS_HEAP_ENTRY_BUSY) { systemMemory += entry.cbData + entry.cbOverhead; } } } #elif defined NL_OS_UNIX int fd = open("/proc/self/stat", O_RDONLY); if (fd == -1) { nlwarning ("HA: Can't get OS from /proc/self/stat: %s", strerror (errno)); } else { char buffer[4096], *p; int len = read(fd, buffer, sizeof(buffer)-1); close(fd); buffer[len] = '\0'; p = buffer; p = strchr(p, ')')+1; /* skip pid */ p = skipWS(p); p++; p = skipToken(p); /* skip ppid */ p = skipToken(p); /* skip pgrp */ p = skipToken(p); /* skip session */ p = skipToken(p); /* skip tty */ p = skipToken(p); /* skip tty pgrp */ p = skipToken(p); /* skip flags */ p = skipToken(p); /* skip min flt */ p = skipToken(p); /* skip cmin flt */ p = skipToken(p); /* skip maj flt */ p = skipToken(p); /* skip cmaj flt */ p = skipToken(p); /* utime */ p = skipToken(p); /* stime */ p = skipToken(p); /* skip cutime */ p = skipToken(p); /* skip cstime */ p = skipToken(p); /* priority */ p = skipToken(p); /* nice */ p = skipToken(p); /* skip timeout */ p = skipToken(p); /* skip it_real_val */ p = skipToken(p); /* skip start_time */ systemMemory = strtoul(p, &p, 10); /* vsize in bytes */ } #endif // NL_OS_WINDOWS return systemMemory; } NLMISC_CATEGORISED_DYNVARIABLE(nel, string, AvailableHDSpace, "Hard drive space left in bytes") { // ace: it's a little bit tricky, if you don't understand how it works, don't touch! static string location; if (get) { *pointer = (CSystemInfo::availableHDSpace(location)); location = ""; } else { location = *pointer; } } NLMISC_CATEGORISED_DYNVARIABLE(nel, string, AvailablePhysicalMemory, "Physical memory available on this computer in bytes") { if (get) *pointer = bytesToHumanReadable(CSystemInfo::availablePhysicalMemory ()); } NLMISC_CATEGORISED_DYNVARIABLE(nel, string, TotalPhysicalMemory, "Total physical memory on this computer in bytes") { if (get) *pointer = bytesToHumanReadable(CSystemInfo::totalPhysicalMemory ()); } NLMISC_CATEGORISED_DYNVARIABLE(nel, string, ProcessUsedMemory, "Memory used by this process in bytes") { if (get) *pointer = bytesToHumanReadable(CSystemInfo::getAllocatedSystemMemory ()); } NLMISC_CATEGORISED_DYNVARIABLE(nel, string, OS, "OS used") { if (get) *pointer = CSystemInfo::getOS(); } #ifdef NL_OS_WINDOWS struct DISPLAY_DEVICE_EX { DWORD cb; CHAR DeviceName[32]; CHAR DeviceString[128]; DWORD StateFlags; CHAR DeviceID[128]; CHAR DeviceKey[128]; }; #endif // NL_OS_WINDOWS bool CSystemInfo::getVideoInfo (std::string &deviceName, uint64 &driverVersion) { #ifdef NL_OS_WINDOWS /* Get the device name with EnumDisplayDevices (doesn't work under win95). * Look for driver information for this device in the registry * * Follow the recommendations in the news group comp.os.ms-windows.programmer.nt.kernel-mode : "Get Video Driver ... Need Version" */ HMODULE hm = GetModuleHandle(TEXT("USER32")); if (hm) { BOOL (WINAPI* EnumDisplayDevices)(LPCTSTR lpDevice, DWORD iDevNum, PDISPLAY_DEVICE lpDisplayDevice, DWORD dwFlags) = NULL; *(FARPROC*)&EnumDisplayDevices = GetProcAddress(hm, "EnumDisplayDevicesA"); if (EnumDisplayDevices) { DISPLAY_DEVICE_EX DisplayDevice; uint device = 0; DisplayDevice.cb = sizeof (DISPLAY_DEVICE_EX); bool found = false; while (EnumDisplayDevices(NULL, device, (DISPLAY_DEVICE*)&DisplayDevice, 0)) { // Main board ? if ((DisplayDevice.StateFlags & DISPLAY_DEVICE_PRIMARY_DEVICE) && (DisplayDevice.StateFlags & DISPLAY_DEVICE_ATTACHED_TO_DESKTOP) && ((DisplayDevice.StateFlags & DISPLAY_DEVICE_MIRRORING_DRIVER) == 0) && (DisplayDevice.DeviceKey[0] != 0)) { found = true; // The device name deviceName = DisplayDevice.DeviceString; string keyPath = DisplayDevice.DeviceKey; string keyName; // Get the window version OSVERSIONINFO ver; ver.dwOSVersionInfoSize = sizeof(OSVERSIONINFO); GetVersionEx(&ver); bool atleastNT4 = (ver.dwMajorVersion > 3) && (ver.dwPlatformId == VER_PLATFORM_WIN32_NT); bool winXP = ((ver.dwMajorVersion == 5) && (ver.dwMinorVersion == 1)) || (ver.dwMajorVersion > 5); // * Get the registry entry for driver // OSversion >= osWin2k if (atleastNT4) { if (winXP) { string::size_type pos = keyPath.rfind ('\\'); if (pos != string::npos) keyPath = keyPath.substr (0, pos+1); keyPath += "Video"; keyName = "Service"; } else { string::size_type pos = toLower(keyPath).find ("\\device"); if (pos != string::npos) keyPath = keyPath.substr (0, pos+1); keyName = "ImagePath"; } } else // Win 9x { keyPath += "\\default"; keyName = "drv"; } // Format the key path if (toLower(keyPath).find ("\\registry\\machine") == 0) { keyPath = "HKEY_LOCAL_MACHINE" + keyPath.substr (strlen ("\\registry\\machine")); } // Get the root key static const char *rootKeys[]= { "HKEY_CLASSES_ROOT\\", "HKEY_CURRENT_CONFIG\\", "HKEY_CURRENT_USER\\", "HKEY_LOCAL_MACHINE\\", "HKEY_USERS\\", "HKEY_PERFORMANCE_DATA\\", "HKEY_DYN_DATA\\" }; static const HKEY rootKeysH[]= { HKEY_CLASSES_ROOT, HKEY_CURRENT_CONFIG, HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE, HKEY_USERS, HKEY_PERFORMANCE_DATA, HKEY_DYN_DATA, }; uint i; HKEY keyRoot = HKEY_LOCAL_MACHINE; for (i=0; i not real driver name, so string xpKey = string ("System\\CurrentControlSet\\Services\\")+value; if (RegOpenKeyExA(HKEY_LOCAL_MACHINE, xpKey.c_str(), 0, KEY_READ, &baseKey) == ERROR_SUCCESS) { size = 512; if (RegQueryValueExA(baseKey, "ImagePath", NULL, &valueType, (unsigned char *)value, &size) == ERROR_SUCCESS) { if (value[0] != 0) { ok = true; } else nlwarning ("CSystemInfo::getVideoInfo : empty value ImagePath in key %s", xpKey.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : can't query ImagePath in key %s", xpKey.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : can't open key %s", xpKey.c_str()); } // Version dll link HMODULE hmVersion = LoadLibrary (_T("version")); if (hmVersion) { BOOL (WINAPI* _GetFileVersionInfo)(LPTSTR, DWORD, DWORD, LPVOID) = NULL; DWORD (WINAPI* _GetFileVersionInfoSize)(LPTSTR, LPDWORD) = NULL; BOOL (WINAPI* _VerQueryValue)(const LPVOID, LPTSTR, LPVOID*, PUINT) = NULL; *(FARPROC*)&_GetFileVersionInfo = GetProcAddress(hmVersion, "GetFileVersionInfoA"); *(FARPROC*)&_GetFileVersionInfoSize = GetProcAddress(hmVersion, "GetFileVersionInfoSizeA"); *(FARPROC*)&_VerQueryValue = GetProcAddress(hmVersion, "VerQueryValueA"); if (_VerQueryValue && _GetFileVersionInfoSize && _GetFileVersionInfo) { // value got the path to the driver string driverName = value; if (atleastNT4) { nlverify (GetWindowsDirectoryA(value, 512) != 0); } else { nlverify (GetSystemDirectoryA(value, 512) != 0); } driverName = string (value) + "\\" + driverName; DWORD dwHandle; DWORD size = _GetFileVersionInfoSize ((char*)driverName.c_str(), &dwHandle); if (size) { vector buffer; buffer.resize (size); if (_GetFileVersionInfo((char*)driverName.c_str(), dwHandle, size, &buffer[0])) { VS_FIXEDFILEINFO *info; UINT len; if (_VerQueryValue(&buffer[0], "\\", (VOID**)&info, &len)) { driverVersion = (((uint64)info->dwFileVersionMS)<<32)|info->dwFileVersionLS; return true; } else nlwarning ("CSystemInfo::getVideoInfo : VerQueryValue fails (%s)", driverName.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : GetFileVersionInfo fails (%s)", driverName.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : GetFileVersionInfoSize == 0 (%s)", driverName.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : No VerQuery, GetFileVersionInfoSize, GetFileVersionInfo functions"); } else nlwarning ("CSystemInfo::getVideoInfo : No version dll"); } else nlwarning ("CSystemInfo::getVideoInfo : empty value %s in key %s", keyName.c_str(), keyPath.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : can't query value %s in key %s", keyName.c_str(), keyPath.c_str()); } else nlwarning ("CSystemInfo::getVideoInfo : can't open key %s", keyPath.c_str()); } device++; } if (!found) nlwarning ("CSystemInfo::getVideoInfo : No primary display device found"); } else nlwarning ("CSystemInfo::getVideoInfo : No EnumDisplayDevices function"); } else nlwarning ("CSystemInfo::getVideoInfo : No user32 dll"); #endif // NL_OS_WINDOWS // Fails return false; } uint64 CSystemInfo::virtualMemory () { #ifdef NL_OS_WINDOWS MEMORYSTATUS ms; GlobalMemoryStatus (&ms); return uint64(ms.dwTotalVirtual - ms.dwAvailVirtual); #else return 0; #endif } } // NLMISC