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winamp/Src/external_dependencies/openmpt-trunk/misc/mptOS.cpp
2024-09-24 14:54:57 +02:00

552 lines
17 KiB
C++

/*
* mptOS.cpp
* ---------
* Purpose: Operating system version information.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#include "stdafx.h"
#include "mptOS.h"
#include "mpt/binary/hex.hpp"
#if MPT_OS_WINDOWS
#include <windows.h>
#endif
OPENMPT_NAMESPACE_BEGIN
namespace mpt
{
namespace OS
{
namespace Windows
{
#if MPT_OS_WINDOWS
namespace {
struct WindowsVersionCache
{
mpt::osinfo::windows::Version version;
WindowsVersionCache() noexcept
: version(mpt::osinfo::windows::Version::Current())
{
}
};
}
static mpt::osinfo::windows::Version GatherWindowsVersionFromCache() noexcept
{
static WindowsVersionCache gs_WindowsVersionCache;
return gs_WindowsVersionCache.version;
}
#endif // MPT_OS_WINDOWS
mpt::osinfo::windows::Version Version::Current() noexcept
{
#if MPT_OS_WINDOWS
#ifdef MODPLUG_TRACKER
return GatherWindowsVersionFromCache();
#else // !MODPLUG_TRACKER
return mpt::osinfo::windows::Version::Current();
#endif // MODPLUG_TRACKER
#else // !MPT_OS_WINDOWS
return mpt::osinfo::windows::Version::NoWindows();
#endif // MPT_OS_WINDOWS
}
static constexpr struct { mpt::osinfo::windows::Version version; const mpt::uchar * name; bool showDetails; } versionMap[] =
{
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::WinNewer, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 22000, 0 }, UL_("Windows 11 (or newer)"), false },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 22000, 0 }, UL_("Windows 11"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 19044, 0 }, UL_("Windows 10 21H2"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 19043, 0 }, UL_("Windows 10 21H1"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 19042, 0 }, UL_("Windows 10 20H2"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 19041, 0 }, UL_("Windows 10 2004"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 18363, 0 }, UL_("Windows 10 1909"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 18362, 0 }, UL_("Windows 10 1903"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 17763, 0 }, UL_("Windows 10 1809"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 17134, 0 }, UL_("Windows 10 1803"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 16299, 0 }, UL_("Windows 10 1709"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 15063, 0 }, UL_("Windows 10 1703"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 14393, 0 }, UL_("Windows 10 1607"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 10586, 0 }, UL_("Windows 10 1511"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win10, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 10240, 0 }, UL_("Windows 10 1507"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win81, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows 8.1"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win8, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows 8"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win7, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows 7"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::WinVista, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows Vista"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::WinXP64, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows XP x64 / Windows Server 2003"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::WinXP, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows XP"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::Win2000, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows 2000"), true },
{ mpt::osinfo::windows::Version{ mpt::osinfo::windows::Version::WinNT4, mpt::osinfo::windows::Version::ServicePack{ 0, 0 }, 0, 0 }, UL_("Windows NT4"), true }
};
mpt::ustring Version::GetName(mpt::osinfo::windows::Version version)
{
mpt::ustring name = U_("Generic Windows NT");
bool showDetails = false;
for(const auto &v : versionMap)
{
if(version.IsAtLeast(v.version))
{
name = v.name;
showDetails = v.showDetails;
break;
}
}
name += U_(" (");
name += MPT_UFORMAT("Version {}.{}")(version.GetSystem().Major, version.GetSystem().Minor);
if(showDetails)
{
if(version.GetServicePack().HasServicePack())
{
if(version.GetServicePack().Minor)
{
name += MPT_UFORMAT(" Service Pack {}.{}")(version.GetServicePack().Major, version.GetServicePack().Minor);
} else
{
name += MPT_UFORMAT(" Service Pack {}")(version.GetServicePack().Major);
}
}
if(version.GetBuild() != 0)
{
name += MPT_UFORMAT(" (Build {})")(version.GetBuild());
}
}
name += U_(")");
mpt::ustring result = name;
#if defined(MODPLUG_TRACKER) && MPT_OS_WINDOWS
if(mpt::OS::Windows::IsWine())
{
mpt::OS::Wine::VersionContext v;
if(v.Version().IsValid())
{
result = MPT_UFORMAT("Wine {} ({})")(
v.Version().AsString()
, name
);
} else
{
result = MPT_UFORMAT("Wine (unknown version: '{}') ({})")(
mpt::ToUnicode(mpt::Charset::UTF8, v.RawVersion())
, name
);
}
}
#endif // MODPLUG_TRACKER && MPT_OS_WINDOWS
return result;
}
mpt::osinfo::windows::Version Version::GetMinimumKernelLevel() noexcept
{
uint64 minimumKernelVersion = 0;
#if MPT_OS_WINDOWS && MPT_COMPILER_MSVC
#if defined(MPT_BUILD_RETRO)
minimumKernelVersion = std::max(minimumKernelVersion, static_cast<uint64>(mpt::osinfo::windows::Version::WinXP));
#else
minimumKernelVersion = std::max(minimumKernelVersion, static_cast<uint64>(mpt::osinfo::windows::Version::WinVista));
#endif
#endif
return mpt::osinfo::windows::Version(mpt::osinfo::windows::Version::System(minimumKernelVersion), mpt::osinfo::windows::Version::ServicePack(0, 0), 0, 0);
}
mpt::osinfo::windows::Version Version::GetMinimumAPILevel() noexcept
{
#if MPT_OS_WINDOWS
return mpt::osinfo::windows::Version::FromSDK();
#else // !MPT_OS_WINDOWS
return mpt::osinfo::windows::Version::NoWindows();
#endif // MPT_OS_WINDOWS
}
#if MPT_OS_WINDOWS
#ifndef PROCESSOR_ARCHITECTURE_NEUTRAL
#define PROCESSOR_ARCHITECTURE_NEUTRAL 11
#endif
#ifndef PROCESSOR_ARCHITECTURE_ARM64
#define PROCESSOR_ARCHITECTURE_ARM64 12
#endif
#ifndef PROCESSOR_ARCHITECTURE_ARM32_ON_WIN64
#define PROCESSOR_ARCHITECTURE_ARM32_ON_WIN64 13
#endif
#ifndef PROCESSOR_ARCHITECTURE_IA32_ON_ARM64
#define PROCESSOR_ARCHITECTURE_IA32_ON_ARM64 14
#endif
struct OSArchitecture
{
uint16 ProcessorArchitectur;
Architecture Host;
Architecture Process;
};
static constexpr OSArchitecture architectures [] = {
{ PROCESSOR_ARCHITECTURE_INTEL , Architecture::x86 , Architecture::x86 },
{ PROCESSOR_ARCHITECTURE_AMD64 , Architecture::amd64 , Architecture::amd64 },
{ PROCESSOR_ARCHITECTURE_IA32_ON_WIN64 , Architecture::amd64 , Architecture::x86 },
{ PROCESSOR_ARCHITECTURE_ARM , Architecture::arm , Architecture::arm },
{ PROCESSOR_ARCHITECTURE_ARM64 , Architecture::arm64 , Architecture::arm64 },
{ PROCESSOR_ARCHITECTURE_ARM32_ON_WIN64, Architecture::arm64 , Architecture::arm },
{ PROCESSOR_ARCHITECTURE_IA32_ON_ARM64 , Architecture::arm64 , Architecture::x86 },
{ PROCESSOR_ARCHITECTURE_MIPS , Architecture::mips , Architecture::mips },
{ PROCESSOR_ARCHITECTURE_PPC , Architecture::ppc , Architecture::ppc },
{ PROCESSOR_ARCHITECTURE_SHX , Architecture::shx , Architecture::shx },
{ PROCESSOR_ARCHITECTURE_ALPHA , Architecture::alpha , Architecture::alpha },
{ PROCESSOR_ARCHITECTURE_ALPHA64 , Architecture::alpha64, Architecture::alpha64 },
{ PROCESSOR_ARCHITECTURE_IA64 , Architecture::ia64 , Architecture::ia64 },
{ PROCESSOR_ARCHITECTURE_MSIL , Architecture::unknown, Architecture::unknown },
{ PROCESSOR_ARCHITECTURE_NEUTRAL , Architecture::unknown, Architecture::unknown },
{ PROCESSOR_ARCHITECTURE_UNKNOWN , Architecture::unknown, Architecture::unknown }
};
struct HostArchitecture
{
Architecture Host;
Architecture Process;
EmulationLevel Emulation;
};
static constexpr HostArchitecture hostArchitectureCanRun [] = {
{ Architecture::x86 , Architecture::x86 , EmulationLevel::Native },
{ Architecture::amd64 , Architecture::amd64 , EmulationLevel::Native },
{ Architecture::amd64 , Architecture::x86 , EmulationLevel::Virtual },
{ Architecture::arm , Architecture::arm , EmulationLevel::Native },
{ Architecture::arm64 , Architecture::arm64 , EmulationLevel::Native },
{ Architecture::arm64 , Architecture::arm , EmulationLevel::Virtual },
{ Architecture::arm64 , Architecture::x86 , EmulationLevel::Software },
{ Architecture::arm64 , Architecture::amd64 , EmulationLevel::Software },
{ Architecture::mips , Architecture::mips , EmulationLevel::Native },
{ Architecture::ppc , Architecture::ppc , EmulationLevel::Native },
{ Architecture::shx , Architecture::shx , EmulationLevel::Native },
{ Architecture::alpha , Architecture::alpha , EmulationLevel::Native },
{ Architecture::alpha64, Architecture::alpha64, EmulationLevel::Native },
{ Architecture::alpha64, Architecture::alpha , EmulationLevel::Virtual },
{ Architecture::ia64 , Architecture::ia64 , EmulationLevel::Native },
{ Architecture::ia64 , Architecture::x86 , EmulationLevel::Hardware }
};
struct ArchitectureInfo
{
Architecture Arch;
int Bitness;
const mpt::uchar * Name;
};
static constexpr ArchitectureInfo architectureInfo [] = {
{ Architecture::x86 , 32, UL_("x86") },
{ Architecture::amd64 , 64, UL_("amd64") },
{ Architecture::arm , 32, UL_("arm") },
{ Architecture::arm64 , 64, UL_("arm64") },
{ Architecture::mips , 32, UL_("mips") },
{ Architecture::ppc , 32, UL_("ppc") },
{ Architecture::shx , 32, UL_("shx") },
{ Architecture::alpha , 32, UL_("alpha") },
{ Architecture::alpha64, 64, UL_("alpha64") },
{ Architecture::ia64 , 64, UL_("ia64") }
};
int Bitness(Architecture arch) noexcept
{
for(const auto &info : architectureInfo)
{
if(arch == info.Arch)
{
return info.Bitness;
}
}
return 0;
}
mpt::ustring Name(Architecture arch)
{
for(const auto &info : architectureInfo)
{
if(arch == info.Arch)
{
return info.Name;
}
}
return mpt::ustring();
}
Architecture GetHostArchitecture() noexcept
{
SYSTEM_INFO systemInfo = {};
GetNativeSystemInfo(&systemInfo);
for(const auto &arch : architectures)
{
if(systemInfo.wProcessorArchitecture == arch.ProcessorArchitectur)
{
return arch.Host;
}
}
return Architecture::unknown;
}
Architecture GetProcessArchitecture() noexcept
{
SYSTEM_INFO systemInfo = {};
GetSystemInfo(&systemInfo);
for(const auto &arch : architectures)
{
if(systemInfo.wProcessorArchitecture == arch.ProcessorArchitectur)
{
return arch.Process;
}
}
return Architecture::unknown;
}
EmulationLevel HostCanRun(Architecture host, Architecture process) noexcept
{
for(const auto & can : hostArchitectureCanRun)
{
if(can.Host == host && can.Process == process)
{
return can.Emulation;
}
}
return EmulationLevel::NA;
}
std::vector<Architecture> GetSupportedProcessArchitectures(Architecture host)
{
std::vector<Architecture> result;
for(const auto & entry : hostArchitectureCanRun)
{
if(entry.Host == host)
{
result.push_back(entry.Process);
}
}
return result;
}
uint64 GetSystemMemorySize()
{
MEMORYSTATUSEX memoryStatus = {};
memoryStatus.dwLength = sizeof(MEMORYSTATUSEX);
if(GlobalMemoryStatusEx(&memoryStatus) == 0)
{
return 0;
}
return memoryStatus.ullTotalPhys;
}
#endif // MPT_OS_WINDOWS
#if defined(MODPLUG_TRACKER)
#if MPT_OS_WINDOWS
static bool GatherSystemIsWine()
{
bool SystemIsWine = false;
std::optional<mpt::library> NTDLL = mpt::library::load({ mpt::library::path_search::system, mpt::library::path_prefix::none, MPT_PATH("ntdll.dll"), mpt::library::path_suffix::none });
if(NTDLL)
{
SystemIsWine = (NTDLL->get_address("wine_get_version") != nullptr);
}
return SystemIsWine;
}
namespace {
struct SystemIsWineCache
{
bool SystemIsWine;
SystemIsWineCache()
: SystemIsWine(GatherSystemIsWine())
{
return;
}
SystemIsWineCache(bool isWine)
: SystemIsWine(isWine)
{
return;
}
};
}
#endif // MPT_OS_WINDOWS
static bool SystemIsWine(bool allowDetection = true)
{
#if MPT_OS_WINDOWS
static SystemIsWineCache gs_SystemIsWineCache = allowDetection ? SystemIsWineCache() : SystemIsWineCache(false);
if(!allowDetection)
{ // catch too late calls of PreventWineDetection
MPT_ASSERT(!gs_SystemIsWineCache.SystemIsWine);
}
return gs_SystemIsWineCache.SystemIsWine;
#else
MPT_UNREFERENCED_PARAMETER(allowDetection);
return false;
#endif
}
void PreventWineDetection()
{
SystemIsWine(false);
}
bool IsOriginal()
{
return mpt::OS::Windows::Version::Current().IsWindows() && !SystemIsWine();
}
bool IsWine()
{
return mpt::OS::Windows::Version::Current().IsWindows() && SystemIsWine();
}
#endif // MODPLUG_TRACKER
} // namespace Windows
} // namespace OS
} // namespace mpt
namespace mpt
{
namespace OS
{
namespace Wine
{
Version::Version()
{
return;
}
Version::Version(const mpt::ustring &rawVersion)
: mpt::osinfo::windows::wine::version()
{
if(rawVersion.empty())
{
return;
}
std::vector<uint8> version = mpt::String::Split<uint8>(rawVersion, U_("."));
if(version.size() < 2)
{
return;
}
mpt::ustring parsedVersion = mpt::String::Combine(version, U_("."));
std::size_t len = std::min(parsedVersion.length(), rawVersion.length());
if(len == 0)
{
return;
}
if(parsedVersion.substr(0, len) != rawVersion.substr(0, len))
{
return;
}
valid = true;
vmajor = version[0];
vminor = version[1];
vupdate = (version.size() >= 3) ? version[2] : 0;
}
Version::Version(uint8 vmajor, uint8 vminor, uint8 vupdate)
: mpt::osinfo::windows::wine::version(vmajor, vminor, vupdate)
{
return;
}
mpt::ustring Version::AsString() const
{
return mpt::ufmt::dec(GetMajor()) + U_(".") + mpt::ufmt::dec(GetMinor()) + U_(".") + mpt::ufmt::dec(GetUpdate());
}
mpt::OS::Wine::Version GetMinimumWineVersion()
{
mpt::OS::Wine::Version minimumWineVersion = mpt::OS::Wine::Version(0,0,0);
#if MPT_OS_WINDOWS && MPT_COMPILER_MSVC
minimumWineVersion = mpt::OS::Wine::Version(1,8,0);
#endif
return minimumWineVersion;
}
VersionContext::VersionContext()
: m_IsWine(false)
, m_HostClass(mpt::osinfo::osclass::Unknown)
{
#if MPT_OS_WINDOWS
m_IsWine = mpt::OS::Windows::IsWine();
if(!m_IsWine)
{
return;
}
std::optional<mpt::library> NTDLL = mpt::library::load({mpt::library::path_search::system, mpt::library::path_prefix::none, MPT_PATH("ntdll.dll"), mpt::library::path_suffix::none});
if(NTDLL)
{
const char * (__cdecl * wine_get_version)(void) = nullptr;
const char * (__cdecl * wine_get_build_id)(void) = nullptr;
void (__cdecl * wine_get_host_version)(const char * *, const char * *) = nullptr;
NTDLL->bind(wine_get_version, "wine_get_version");
NTDLL->bind(wine_get_build_id, "wine_get_build_id");
NTDLL->bind(wine_get_host_version, "wine_get_host_version");
const char * wine_version = nullptr;
const char * wine_build_id = nullptr;
const char * wine_host_sysname = nullptr;
const char * wine_host_release = nullptr;
wine_version = wine_get_version ? wine_get_version() : "";
wine_build_id = wine_get_build_id ? wine_get_build_id() : "";
if(wine_get_host_version)
{
wine_get_host_version(&wine_host_sysname, &wine_host_release);
}
m_RawVersion = wine_version ? wine_version : "";
m_RawBuildID = wine_build_id ? wine_build_id : "";
m_RawHostSysName = wine_host_sysname ? wine_host_sysname : "";
m_RawHostRelease = wine_host_release ? wine_host_release : "";
}
m_Version = mpt::OS::Wine::Version(mpt::ToUnicode(mpt::Charset::UTF8, m_RawVersion));
m_HostClass = mpt::osinfo::get_class_from_sysname(m_RawHostSysName);
#endif // MPT_OS_WINDOWS
}
} // namespace Wine
} // namespace OS
} // namespace mpt
OPENMPT_NAMESPACE_END