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package io.antmedia;
import java.io.File;
import java.io.IOException;
import java.lang.management.ManagementFactory;
import java.lang.management.OperatingSystemMXBean;
import java.lang.reflect.Method;
import javax.management.MBeanServer;
import org.bytedeco.javacpp.Pointer;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.sun.management.HotSpotDiagnosticMXBean;
import com.sun.management.UnixOperatingSystemMXBean;
/**
* This utility is designed for accessing server's
* system information more easier.
*
* @author The Red5 Project ([email protected])
* @author DZS|All-In-One ([email protected])
*
*/
/*
*
* Server-side Status for Red5
* -------------------------------
* System.getProperty("_____")
* ===============================
* os.name :Operating System Name
* os.arch : x86/x64/...
* java.specification.version : Java Version (Required 1.5 or 1.6 and higher to run Red5)
* -------------------------------
* Runtime.getRuntime()._____ (Java Virtual Machine Memory)
* ===============================
* maxMemory() : Maximum limitation
* totalMemory() : Total can be used
* freeMemory() : Availability
* totalMemory()-freeMemory() : In Use
* availableProcessors() : Total Processors available
* -------------------------------
* getOperatingSystemMXBean() (Actual Operating System RAM)
* ===============================
* osCommittedVirtualMemory() : Virtual Memory
* osTotalPhysicalMemory() : Total Physical Memory
* osFreePhysicalMemory() : Available Physical Memory
* osInUsePhysicalMemory() : In Use Physical Memory
* osTotalSwapSpace() : Total Swap Space
* osFreeSwapSpace() : Available Swap Space
* osInUseSwapSpace() : In Use Swap Space
* -------------------------------
* File (Actual Harddrive Info: Supported for JRE 1.6)
* ===============================
* osHDUsableSpace() : Usable Space
* osHDTotalSpace() : Total Space
* osHDFreeSpace() : Available Space
* osHDInUseSpace() : In Use Space
* -------------------------------
*
*/
public class SystemUtils {
public static final String HEAPDUMP_HPROF = "heapdump.hprof";
/**
* Obtain Operating System's name.
*
* @return OS's name
*/
public static final String osName = System.getProperty("os.name");
/**
* Obtain Operating System's Architecture.
*
* @return x86 (32-bit), x64 (64-bit), ...
*/
public static final String osArch = System.getProperty("os.arch");
/**
* Obtain Java JRE version.
*
* @return version
*/
public static final String jvmVersion = System.getProperty("java.specification.version");
/**
* Obtain Operating System's processor.
*
* @return Number of Processor(s)
*/
public static final int osProcessorX = Runtime.getRuntime().availableProcessors();
private static final String HOTSPOT_BEAN_NAME =
"com.sun.management:type=HotSpotDiagnostic";
private static HotSpotDiagnosticMXBean hotspotMBean;
protected static final Logger logger = LoggerFactory.getLogger(SystemUtils.class);
public static final int MAC_OS_X = 0;
public static final int LINUX = 1;
public static final int WINDOWS = 2;
public static final int OS_TYPE;
static {
String osName = SystemUtils.osName.toLowerCase();
if (osName.startsWith("mac os x") || osName.startsWith("darwin")) {
OS_TYPE = MAC_OS_X;
} else if (osName.startsWith("windows")) {
OS_TYPE = WINDOWS;
} else if (osName.startsWith("linux")) {
OS_TYPE = LINUX;
}
else {
OS_TYPE = -1;
}
}
/**
* These functions below are used for Java Virtual Machine (JVM)
* RAM usage base on Runtime.getRuntime().______.
* -------------------------------
* jvmMaxMemory()
* jvmTotalMemory()
* jvmFreeMemory()
* jvmInUseMemory()
* -------------------------------
*
*/
/**
* Obtain JVM's Maximum Memory.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long jvmMaxMemory() {
return Runtime.getRuntime().maxMemory();
}
/**
* Obtain JVM's Total Memory.
*
* @return bytes size
*
*/
public static long jvmTotalMemory() {
return Runtime.getRuntime().totalMemory();
}
/**
* Obtain JVM's Free Memory.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long jvmFreeMemory() {
return Runtime.getRuntime().freeMemory();
}
/**
* Obtain JVM's In Use Memory.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long jvmInUseMemory() {
return Runtime.getRuntime().totalMemory() - Runtime.getRuntime().freeMemory();
}
/**
* These functions below are used for Operating System's
* RAM usage base on getOperatingSystemMXBean.
* -------------------------------
* osCommittedVirtualMemory()
* osTotalPhysicalMemory()
* osFreePhysicalMemory()
* osInUsePhysicalMemory()
* osTotalSwapSpace()
* osFreeSwapSpace()
* osInUseSwapSpace()
* -------------------------------
*/
/**
* Obtain Virtual Memory from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osCommittedVirtualMemory() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return (((UnixOperatingSystemMXBean) osBean).getCommittedVirtualMemorySize());
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getCommittedVirtualMemorySize");
m.setAccessible(true);
return (long) m.invoke(osBean);
} catch (Exception e) {
error(e);
return -1L;
}
}
}
/**
* Obtain Total Physical Memory from Operating System's RAM.
* @return bytes size
*/
public static long osTotalPhysicalMemory() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return (((UnixOperatingSystemMXBean) osBean).getTotalPhysicalMemorySize());
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getTotalPhysicalMemorySize");
m.setAccessible(true);
return (long) m.invoke(osBean);
} catch (Exception e) {
error(e);
return -1L;
}
}
}
/**
* Obtain Free Physical Memory from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osFreePhysicalMemory() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return ((UnixOperatingSystemMXBean) osBean).getFreePhysicalMemorySize();
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getFreePhysicalMemorySize");
m.setAccessible(true);
return (long) m.invoke(osBean);
} catch (Exception e) {
error(e);
return -1L;
}
}
}
/**
*
* @return the amount of available physical memory
*/
public static long osAvailableMemory() {
return Pointer.availablePhysicalBytes();
}
/**
* Obtain In Use Physical Memory from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osInUsePhysicalMemory() {
return osTotalPhysicalMemory() - osFreePhysicalMemory();
}
/**
* Obtain Total Swap Space from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osTotalSwapSpace() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return ((UnixOperatingSystemMXBean) osBean).getTotalSwapSpaceSize();
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getTotalSwapSpaceSize");
m.setAccessible(true);
return (long) m.invoke(osBean);
} catch (Exception e) {
error(e);
return -1L;
}
}
}
/**
* Obtain Free Swap Space from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osFreeSwapSpace() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return ((UnixOperatingSystemMXBean) osBean).getFreeSwapSpaceSize();
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getFreeSwapSpaceSize");
m.setAccessible(true);
return (long) m.invoke(osBean);
} catch (Exception e) {
error(e);
return -1L;
}
}
}
/**
* Obtain In Use Swap Space from Operating System's RAM.
*
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osInUseSwapSpace() {
return osTotalSwapSpace() - osFreeSwapSpace();
}
/**
* These functions below are used for Operating System's
* Harddrive usage base on File.
* -------------------------------
* osHDUseableSpace()
* osTotalSwapSpace()
* osFreeSwapSpace()
* osHDInUseSpace()
* -------------------------------
*
*/
/**
* Obtain Harddrive's Usable Space.
*
* @param path actual path
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osHDUsableSpace(String path) {
if (path == null)
path = File.listRoots()[0].getPath();
File f = new File(path);
if (f.getTotalSpace() == 0) {
error(0, f.getPath());
} else {
return f.getUsableSpace();
}
return -1L;
}
/**
* Obtain Harddrive's Overall Space.
*
* @param path actual path
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osHDTotalSpace(String path) {
if (path == null)
path = File.listRoots()[0].getPath();
File f = new File(path);
if (f.getTotalSpace() == 0) {
error(0, f.getPath());
} else {
return f.getTotalSpace();
}
return -1L;
}
/**
* Obtain Harddrive's Available Space.
*
* @param path actual path
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osHDFreeSpace(String path) {
if (path == null)
path = File.listRoots()[0].getPath();
File f = new File(path);
if (f.getTotalSpace() == 0) {
error(0, f.getPath());
} else {
return f.getFreeSpace();
}
return -1L;
}
/**
* Obtain Harddrive's In Use Space.
*
* @param path actual path
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*
*/
public static long osHDInUseSpace(String path) {
if (path == null)
path = File.listRoots()[0].getPath();
File f = new File(path);
if (f.getTotalSpace() == 0) {
error(0, f.getPath());
return -1L;
} else {
return f.getTotalSpace() - f.getFreeSpace();
}
}
/**
* Requirement support for...
* -------------------------------
* jvmMaxMemory()
* jvmTotalMemory()
* jvmFreeMemory()
* jvmInUseMemory()
* osCommittedVirtualMemory()
* osFreePhysicalMemory()
* osTotalPhysicalMemory()
* osInUsePhysicalMemory()
* osFreeSwapSpace()
* osTotalSwapSpace()
* osInUseSwapSpace()
* osHDUsableSpace()
* osHDTotalSpace()
* osHDFreeSpace()
* osHDInUseSpace()
* -------------------------------
*/
public static String convertByteSize(Long bytes, String size, boolean txtByte) {
return convertByteSize( bytes, size, txtByte, false);
}
public static String convertByteSizeToDisk(Long bytes, String size, boolean txtByte) {
return convertByteSize( bytes, size, txtByte, true);
}
public static long convertByteSize(long bytes, String size) {
Long num = 1024L;
long convertB;
size = size.toUpperCase();
if (size.equals("PB")) {
convertB = bytes / (num * num * num * num * num);
} else if (size.equals("TB")) {
convertB = bytes / (num * num * num * num);
} else if (size.equals("GB")) {
convertB = bytes / (num * num * num);
} else if (size.equals("MB")) {
convertB = bytes / (num * num);
} else if (size.equals("KB")) {
convertB = bytes / num ;
} else {
convertB = bytes;
}
return convertB;
}
/**
* Permit to convert bytes to ALMOST any upper bytes with/without extension
* (Currently at existing TeraByte but one step ahead, PetaByte)
*
* @param bytes length of bytes
* @param size null, AUTO, B, KB, MB, GB, TB, or PB
* (PetaByte does not exist yet)
* Is not case sensitive.
* @param txtByte true if include byte extension, false exclude extension
* @return bytes size
*/
public static String convertByteSize(Long bytes, String size, Boolean txtByte, boolean isDisk) {
String convertB = null;
if (bytes != null) {
if (size != null)
size = size.toUpperCase();
if (txtByte == null)
txtByte = true;
Long num = 1024L;
if (isDisk) {
num = 1000L;//DO NOT CHANGE THIS VALUE!
}
if (size == null || size.equals("AUTO")) {
if (bytes > (num * num * num * num * num)) {
convertB = bytes / (num * num * num * num * num) + "";
size = "PB";
} else if (bytes > (num * num * num * num)) {
convertB = bytes / (num * num * num * num) + "";
size = "TB";
} else if (bytes > (num * num * num)) {
convertB = bytes / (num * num * num) + "";
size = "GB";
} else if (bytes > (num * num)) {
convertB = bytes / (num * num) + "";
size = "MB";
} else if (bytes > num) {
convertB = bytes / num + "";
size = "KB";
} else {
convertB = bytes + "";
size = "B";
}
} else if (size.equals("PB")) {
convertB = bytes / (num * num * num * num * num) + "";
} else if (size.equals("TB")) {
convertB = bytes / (num * num * num * num) + "";
} else if (size.equals("GB")) {
convertB = bytes / (num * num * num) + "";
} else if (size.equals("MB")) {
convertB = bytes / (num * num) + "";
} else if (size.equals("KB")) {
convertB = bytes / num + "";
} else {
convertB = bytes + "";
}
if (txtByte) {
if (size.equals("PB")) {
convertB += "PB";
} else if (size.equals("TB")) {
convertB += "TB";
} else if (size.equals("GB")) {
convertB += "GB";
} else if (size.equals("MB")) {
convertB += "MB";
} else if (size.equals("KB")) {
convertB += "KB";
} else {
convertB += "B";
}
}
}
return convertB;
}
/**
* Throws error switch support between IDE errors and Red5 errors
*/
/**
* Error Exception issued switch.
*
* @param e Throws exception errors
*/
protected static void error(Exception e) {
String preError = "SystemUtils: ";
System.out.println(preError + e);
}
/**
* Custom Error issued switch.
*
* @param error Error #
* @param info Extra info from error executed
*/
protected static void error(int error, String info) {
String preError = "SystemUtils: ";
//Red5 logs
//IDE debug logs
if (error == 0) {
System.out.println(preError + "Harddrive: " + info + ", doesn't appears to exist!");
} else if (error == 1) {
System.out.println(preError + "Your current JVM Version is " + info + ", this function required 1.6 or above!");
} else {
System.out.println(preError + "Unknown error #" + error);
}
//*/
}
/**
* Returns the "% recent cpu usage" for the whole system.
* @return
*/
public static Integer getSystemCpuLoad() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return (int) (((UnixOperatingSystemMXBean) osBean).getSystemCpuLoad() * 100.0);
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getSystemCpuLoad");
m.setAccessible(true);
return (int) (((Double) m.invoke(osBean)) * 100);
} catch (Exception e) {
error(e);
return -1;
}
}
}
public static double getSystemLoadAverageLastMinute() {
return ManagementFactory.getOperatingSystemMXBean().getSystemLoadAverage();
}
/**
* Returns the "% recent cpu usage" for the Java Virtual Machine process.
* the method returns a negative value.
* @return
*/
public static Integer getProcessCpuLoad() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return (int) (((UnixOperatingSystemMXBean) osBean).getProcessCpuLoad() * 100.0);
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getProcessCpuLoad");
m.setAccessible(true);
return (int) (((Double) m.invoke(osBean)) * 100);
} catch (Exception e) {
error(e);
return -1;
}
}
}
/**
* Returns the CPU time used by the process on which the Java virtual machine
* is running in microseconds.
* @return
*/
public static Long getProcessCpuTime() {
final OperatingSystemMXBean osBean = ManagementFactory.getOperatingSystemMXBean();
if (osBean instanceof UnixOperatingSystemMXBean) {
return (Long) (((UnixOperatingSystemMXBean) osBean).getProcessCpuTime() / 1000);
} else {
try {
Method m = osBean.getClass().getDeclaredMethod("getProcessCpuTime");
m.setAccessible(true);
return (Long) m.invoke(osBean)/1000;
} catch (Exception e) {
error(e);
return -1l;
}
}
}
public static void getHeapDump(String filepath) {
try {
getHotspotMBean().dumpHeap(filepath, true);
} catch (IOException e) {
e.printStackTrace();
}
}
private static HotSpotDiagnosticMXBean getHotspotMBean() {
try {
synchronized (SystemUtils.class) {
if (hotspotMBean == null) {
MBeanServer server = ManagementFactory.getPlatformMBeanServer();
hotspotMBean = ManagementFactory.newPlatformMXBeanProxy(server,
HOTSPOT_BEAN_NAME, HotSpotDiagnosticMXBean.class);
}
}
} catch (RuntimeException re) {
throw re;
} catch (Exception exp) {
throw new RuntimeException(exp);
}
return hotspotMBean;
}
}