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/**
* Copyright 2010-2023 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification, are
* permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this list of
* conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice, this list
* of conditions and the following disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* The views and conclusions contained in the software and documentation are those of the
* authors and should not be interpreted as representing official policies, either expressed
* or implied, of JogAmp Community.
*/
package com.jogamp.common.os;
import java.security.PrivilegedAction;
import java.util.concurrent.TimeUnit;
import com.jogamp.common.jvm.JNILibLoaderBase;
import com.jogamp.common.net.Uri;
import com.jogamp.common.util.JarUtil;
import com.jogamp.common.util.PropertyAccess;
import com.jogamp.common.util.ReflectionUtil;
import com.jogamp.common.util.SecurityUtil;
import com.jogamp.common.util.VersionNumber;
import com.jogamp.common.util.cache.TempJarCache;
import jogamp.common.jvm.JVMUtil;
import jogamp.common.os.MachineDataInfoRuntime;
import jogamp.common.os.PlatformPropsImpl;
/**
* Utility class for querying platform specific properties.
* <p>
* Some field declarations and it's static initialization has been delegated
* to it's super class {@link PlatformPropsImpl} to solve
* static initialization interdependencies w/ the GlueGen native library loading
* and it's derived information {@link #getMachineDataInfo()}, {@link #is32Bit()}, ..<br>
* This mechanism is preferred in this case to avoid synchronization and locking
* and allow better performance accessing the mentioned fields/methods.
* </p>
*/
public class Platform extends PlatformPropsImpl {
public enum OSType {
LINUX, FREEBSD, ANDROID, MACOS, SUNOS, HPUX, WINDOWS, OPENKODE, IOS;
}
public enum CPUFamily {
/** AMD/Intel */
X86,
/** ARM */
ARM,
/** Power PC */
PPC,
/** SPARC */
SPARC,
/** Mips */
MIPS,
/** PA RISC */
PA_RISC,
/** Itanium */
IA64,
/** Hitachi SuperH */
SuperH;
}
public enum CPUType {
/** ARM 32bit default, usually little endian */
ARM( CPUFamily.ARM, true),
/** ARM7EJ, ARM9E, ARM10E, XScale, usually little endian */
ARMv5( CPUFamily.ARM, true),
/** ARM11, usually little endian */
ARMv6( CPUFamily.ARM, true),
/** ARM Cortex, usually little endian */
ARMv7( CPUFamily.ARM, true),
// 4
/** X86 32bit, little endian */
X86_32( CPUFamily.X86, true),
/** PPC 32bit default, usually big endian */
PPC( CPUFamily.PPC, true),
/** MIPS 32bit, big endian (mips) or little endian (mipsel) */
MIPS_32( CPUFamily.MIPS, true),
/** Hitachi SuperH 32bit default, ??? endian */
SuperH( CPUFamily.SuperH, true),
/** SPARC 32bit, big endian */
SPARC_32( CPUFamily.SPARC, true),
// 9
/** ARM64 default (64bit), usually little endian */
ARM64( CPUFamily.ARM, false),
/** ARM AArch64 (64bit), usually little endian */
ARMv8_A( CPUFamily.ARM, false),
/** X86 64bit, little endian */
X86_64( CPUFamily.X86, false),
/** PPC 64bit default, usually big endian */
PPC64( CPUFamily.PPC, false),
/** MIPS 64bit, big endian (mips64) or little endian (mipsel64) ? */
MIPS_64( CPUFamily.MIPS, false),
/** Itanium 64bit default, little endian */
IA64( CPUFamily.IA64, false),
/** SPARC 64bit, big endian */
SPARCV9_64(CPUFamily.SPARC, false),
/** PA_RISC2_0 64bit, ??? endian */
PA_RISC2_0(CPUFamily.PA_RISC, false);
// 17
public final CPUFamily family;
public final boolean is32Bit;
CPUType(final CPUFamily type, final boolean is32Bit){
this.family = type;
this.is32Bit = is32Bit;
}
/**
* Returns {@code true} if the given {@link CPUType} is compatible
* w/ this one, i.e. at least {@link #family} and {@link #is32Bit} is equal.
*/
public final boolean isCompatible(final CPUType other) {
if( null == other ) {
return false;
} else if( other == this ) {
return true;
} else {
return this.family == other.family &&
this.is32Bit == other.is32Bit;
}
}
public static final CPUType query(final String cpuABILower) {
if( null == cpuABILower ) {
throw new IllegalArgumentException("Null cpuABILower arg");
}
if( cpuABILower.equals("x86") ||
cpuABILower.equals("i386") ||
cpuABILower.equals("i486") ||
cpuABILower.equals("i586") ||
cpuABILower.equals("i686") ) {
return X86_32;
} else if( cpuABILower.equals("x86_64") ||
cpuABILower.equals("amd64") ) {
return X86_64;
} else if( cpuABILower.equals("ia64") ) {
return IA64;
} else if( cpuABILower.equals("aarch64") ) {
return ARM64;
} else if( cpuABILower.startsWith("arm") ) {
if( cpuABILower.equals("armv8-a") ||
cpuABILower.equals("arm-v8-a") ||
cpuABILower.equals("arm-8-a") ||
cpuABILower.equals("arm64-v8a") ) {
return ARMv8_A;
} else if( cpuABILower.startsWith("arm64") ) {
return ARM64;
} else if( cpuABILower.startsWith("armv7") ||
cpuABILower.startsWith("arm-v7") ||
cpuABILower.startsWith("arm-7") ||
cpuABILower.startsWith("armeabi-v7") ) {
return ARMv7;
} else if( cpuABILower.startsWith("armv5") ||
cpuABILower.startsWith("arm-v5") ||
cpuABILower.startsWith("arm-5") ) {
return ARMv5;
} else if( cpuABILower.startsWith("armv6") ||
cpuABILower.startsWith("arm-v6") ||
cpuABILower.startsWith("arm-6") ) {
return ARMv6;
} else {
return ARM;
}
} else if( cpuABILower.equals("sparcv9") ) {
return SPARCV9_64;
} else if( cpuABILower.equals("sparc") ) {
return SPARC_32;
} else if( cpuABILower.equals("pa_risc2.0") ) {
return PA_RISC2_0;
} else if( cpuABILower.startsWith("ppc64") ) {
return PPC64;
} else if( cpuABILower.startsWith("ppc") ) {
return PPC;
} else if( cpuABILower.startsWith("mips64") ) {
return MIPS_64;
} else if( cpuABILower.startsWith("mips") ) {
return MIPS_32;
} else if( cpuABILower.startsWith("superh") ) {
return SuperH;
} else {
throw new RuntimeException("Please port CPUType detection to your platform (CPU_ABI string '" + cpuABILower + "')");
}
}
}
public enum ABIType {
GENERIC_ABI ( 0x00 ),
/** ARM GNU-EABI ARMEL -mfloat-abi=softfp */
EABI_GNU_ARMEL ( 0x01 ),
/** ARM GNU-EABI ARMHF -mfloat-abi=hard */
EABI_GNU_ARMHF ( 0x02 ),
/** ARM EABI AARCH64 (64bit) */
EABI_AARCH64 ( 0x03 );
public final int id;
ABIType(final int id){
this.id = id;
}
/**
* Returns {@code true} if the given {@link ABIType} is compatible
* w/ this one, i.e. they are equal.
*/
public final boolean isCompatible(final ABIType other) {
if( null == other ) {
return false;
} else {
return other == this;
}
}
public static final ABIType query(final CPUType cpuType, final String cpuABILower) {
if( null == cpuType ) {
throw new IllegalArgumentException("Null cpuType");
} else if( null == cpuABILower ) {
throw new IllegalArgumentException("Null cpuABILower");
} else if( CPUFamily.ARM == cpuType.family ) {
if( !cpuType.is32Bit ) {
return EABI_AARCH64;
} else if( cpuABILower.equals("armeabi-v7a-hard") ) {
return EABI_GNU_ARMHF;
} else {
return EABI_GNU_ARMEL;
}
} else {
return GENERIC_ABI;
}
}
}
private static final String useTempJarCachePropName = "jogamp.gluegen.UseTempJarCache";
/**
* Fixed basename of JAR file and native library.
* Dash replaced by underscore to allow static linkage via JEP 178.
*/
private static final String libBaseName = "gluegen_rt";
//
// static initialization order:
//
/**
* System property: 'jogamp.gluegen.UseTempJarCache',
* defaults to true if {@link #OS_TYPE} is not {@link OSType#ANDROID}.
*/
public static final boolean USE_TEMP_JAR_CACHE;
//
// post loading native lib:
//
private static final MachineDataInfo machineDescription;
/** <code>true</code> if AWT is available and not in headless mode, otherwise <code>false</code>. */
public static final boolean AWT_AVAILABLE;
private static final boolean isRunningFromJarURL;
static {
final boolean[] _isRunningFromJarURL = new boolean[] { false };
final boolean[] _USE_TEMP_JAR_CACHE = new boolean[] { false };
final boolean[] _AWT_AVAILABLE = new boolean[] { false };
SecurityUtil.doPrivileged(new PrivilegedAction<Object>() {
@Override
public Object run() {
PlatformPropsImpl.initSingleton(); // documenting the order of static initialization
final ClassLoader cl = Platform.class.getClassLoader();
final Uri platformClassJarURI;
{
Uri _platformClassJarURI = null;
try {
_platformClassJarURI = JarUtil.getJarUri(Platform.class.getName(), cl);
} catch (final Exception e) { }
platformClassJarURI = _platformClassJarURI;
}
_isRunningFromJarURL[0] = null != platformClassJarURI;
_USE_TEMP_JAR_CACHE[0] = ( OS_TYPE != OSType.ANDROID ) && ( OS_TYPE != OSType.IOS ) &&
( null != platformClassJarURI ) &&
PropertyAccess.getBooleanProperty(useTempJarCachePropName, true, true);
// load GluegenRT native library
if(_USE_TEMP_JAR_CACHE[0] && TempJarCache.initSingleton() && TempJarCache.isInitialized(true) ) {
try {
JNILibLoaderBase.addNativeJarLibs(new Class<?>[] { jogamp.common.Debug.class }, null);
} catch (final Exception e0) {
// IllegalArgumentException, IOException
System.err.println("Caught "+e0.getClass().getSimpleName()+": "+e0.getMessage()+", while JNILibLoaderBase.addNativeJarLibs(..)");
}
}
DynamicLibraryBundle.GlueJNILibLoader.loadLibrary(libBaseName, false, cl);
// JVM bug workaround
JVMUtil.initSingleton(); // requires gluegen_rt, one-time init.
// AWT Headless determination
if( !PropertyAccess.getBooleanProperty("java.awt.headless", true) &&
ReflectionUtil.isClassAvailable(ReflectionUtil.AWTNames.ComponentClass, cl) &&
ReflectionUtil.isClassAvailable(ReflectionUtil.AWTNames.GraphicsEnvironmentClass, cl) ) {
try {
_AWT_AVAILABLE[0] = false == ((Boolean)ReflectionUtil.callStaticMethod(ReflectionUtil.AWTNames.GraphicsEnvironmentClass, ReflectionUtil.AWTNames.isHeadlessMethod, null, null, cl)).booleanValue();
} catch (final Throwable t) { }
}
return null;
} } );
isRunningFromJarURL = _isRunningFromJarURL[0];
USE_TEMP_JAR_CACHE = _USE_TEMP_JAR_CACHE[0];
AWT_AVAILABLE = _AWT_AVAILABLE[0];
//
// Validate and setup MachineDataInfo.StaticConfig
//
MachineDataInfoRuntime.initialize();
machineDescription = MachineDataInfoRuntime.getRuntime();
}
private Platform() {}
/**
* @return true if we're running from a Jar URL, otherwise false
*/
public static final boolean isRunningFromJarURL() {
return isRunningFromJarURL;
}
/**
* kick off static initialization of <i>platform property information</i> and <i>native gluegen_rt lib loading</i>
*/
public static void initSingleton() { }
/**
* Returns true if this machine is little endian, otherwise false.
*/
public static boolean isLittleEndian() {
return LITTLE_ENDIAN;
}
/**
* Returns the OS name.
* <p>In case of {@link OSType#ANDROID}, see {@link #getOSType()}, the OS name is Linux</p>
*/
public static String getOSName() {
return OS;
}
/**
* Returns the OS version.
*/
public static String getOSVersion() {
return OS_VERSION;
}
/**
* Returns the OS version number.
*/
public static VersionNumber getOSVersionNumber() {
return OS_VERSION_NUMBER;
}
/**
* Returns the CPU architecture String.
*/
public static String getArchName() {
return ARCH;
}
/**
* Returns the OS type.
* <p>In case of {@link OSType#ANDROID} the {@link #getOSName() OS name}, is Linux</p>
*/
public static OSType getOSType() {
return OS_TYPE;
}
/**
* Returns the CPU family.
*/
public static CPUFamily getCPUFamily() {
return CPU_ARCH.family;
}
/**
* Returns the CPU architecture type.
*/
public static CPUType getCPUType() {
return CPU_ARCH;
}
/**
* Returns true if this JVM/ARCH is 32bit.
* <p>Shortcut to {@link #getCPUType()}.{@link CPUType#is32Bit is32Bit}</p>
*/
public static boolean is32Bit() {
return CPU_ARCH.is32Bit; // used very often
}
/**
* Returns true if this JVM/ARCH is 64bit.
* <p>Shortcut to !{@link #getCPUType()}.{@link CPUType#is32Bit is32Bit}</p>
*/
public static boolean is64Bit() {
return !CPU_ARCH.is32Bit; // used very often
}
/**
* Returns the ABI type.
* <p>
* In case of {@link CPUFamily#ARM}, the value is determined by parsing the <i>Elf Headers</i> of the running VM.
* </p>
* <p>
* Otherwise the value is {@link ABIType#GENERIC_ABI}.
* </p>
*/
public static ABIType getABIType() {
return ABI_TYPE;
}
/**
* Returns the GlueGen common name for the currently running OSType and CPUType
* as implemented in the build system in 'gluegen-cpptasks-base.xml'.<br>
*
* @see #getOSAndArch(OSType, CPUType)
*/
public static String getOSAndArch() {
return os_and_arch;
}
/**
* Returns the JAVA vendor.
*/
public static String getJavaVendor() {
return JAVA_VENDOR;
}
/**
* Returns the JAVA VM name.
*/
public static String getJavaVMName() {
return JAVA_VM_NAME;
}
/**
* Returns the JAVA runtime name.
*/
public static String getJavaRuntimeName() {
return JAVA_RUNTIME_NAME;
}
/**
* Returns the JAVA vendor url.
*/
public static String getJavaVendorURL() {
return JAVA_VENDOR_URL;
}
/**
* Returns the JAVA version.
*/
public static String getJavaVersion() {
return JAVA_VERSION;
}
/**
* Returns the JAVA version number.
*/
public static VersionNumber getJavaVersionNumber() {
return JAVA_VERSION_NUMBER;
}
/**
* Returns the platform's line separator.
*/
public static String getNewline() {
return NEWLINE;
}
/**
* Returns the MachineDataInfo of the running machine.
*/
public static MachineDataInfo getMachineDataInfo() {
return machineDescription;
}
/** Returns <code>true</code> if AWT is available and not in headless mode, otherwise <code>false</code>. */
public static boolean isAWTAvailable() {
return AWT_AVAILABLE;
}
//
// time / jitter
//
/**
* Returns the unix based current time in milliseconds, see {@link Clock#currentTimeMillis()}.
* @see Clock#currentTimeMillis()
*/
public static long currentTimeMillis() {
return Clock.currentTimeMillis();
}
/**
* Returns the estimated sleep jitter value in nanoseconds.
* <p>
* Includes a warm-up path, allowing hotspot to optimize the code.
* </p>
*/
public static synchronized long getCurrentSleepJitter() {
getCurrentSleepJitterImpl(TimeUnit.MILLISECONDS.toNanos(10), 10); // warm-up
return getCurrentSleepJitterImpl(TimeUnit.MILLISECONDS.toNanos(10), 10);
}
private static long getCurrentSleepJitterImpl(final long nsDuration, final int splitInLoops) {
final long nsPeriod = nsDuration / splitInLoops;
final long t0_ns = Clock.currentNanos();
for(int i=splitInLoops; i>0; i--) {
try { TimeUnit.NANOSECONDS.sleep(nsPeriod); } catch (final InterruptedException e) { }
}
return ( ( Clock.currentNanos() - t0_ns ) - nsDuration ) / splitInLoops;
}
}
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