JAVA IP and integer conversion methods
- 2020-04-01 03:52:52
- OfStack
This article illustrates how IP and integer conversions work in JAVA. Share with you for your reference. Specific analysis is as follows:
One, basic knowledge
IP - > Integer:
Converts IP addresses into byte arrays
By left shift (< <) , and (&), or (|) are converted to int
Integer - > IP:
Shift the integer value to the right (> > >) , right move 24 bits, and then with the operator (&) 0xFF, the number is the first segment IP.
Shift the integer value to the right (> > >) , right 16 bits, and then with the operator (&) 0xFF, the number is the second IP segment.
Shift the integer value to the right (> > >) , 8 bits to the right, and then with the operator (&) 0xFF, the number is the third segment IP.
When the integer value is compared to the operator (&) 0xFF, the resulting number is the fourth segment IP.
Ii. Java code samples (ipv4util.java)
package michael.utils;
import java.net.InetAddress;
public class IPv4Util {
private final static int INADDRSZ = 4;
public static byte[] ipToBytesByInet(String ipAddr) {
try {
return InetAddress.getByName(ipAddr).getAddress();
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP");
}
}JTA practice :Spring+ATOMIKOS
public static byte[] ipToBytesByReg(String ipAddr) {
byte[] ret = new byte[4];
try {
String[] ipArr = ipAddr.split("\.");
ret[0] = (byte) (Integer.parseInt(ipArr[0]) & 0xFF);
ret[1] = (byte) (Integer.parseInt(ipArr[1]) & 0xFF);
ret[2] = (byte) (Integer.parseInt(ipArr[2]) & 0xFF);
ret[3] = (byte) (Integer.parseInt(ipArr[3]) & 0xFF);
return ret;
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP");
}
}
public static String bytesToIp(byte[] bytes) {
return new StringBuffer().append(bytes[0] & 0xFF).append('.').append(
bytes[1] & 0xFF).append('.').append(bytes[2] & 0xFF)
.append('.').append(bytes[3] & 0xFF).toString();
}
public static int bytesToInt(byte[] bytes) {
int addr = bytes[3] & 0xFF;
addr |= ((bytes[2] << 8) & 0xFF00);
addr |= ((bytes[1] << 16) & 0xFF0000);
addr |= ((bytes[0] << 24) & 0xFF000000);
return addr;
}
public static int ipToInt(String ipAddr) {
try {
return bytesToInt(ipToBytesByInet(ipAddr));
} catch (Exception e) {
throw new IllegalArgumentException(ipAddr + " is invalid IP");
}
}
public static byte[] intToBytes(int ipInt) {
byte[] ipAddr = new byte[INADDRSZ];
ipAddr[0] = (byte) ((ipInt >>> 24) & 0xFF);
ipAddr[1] = (byte) ((ipInt >>> 16) & 0xFF);
ipAddr[2] = (byte) ((ipInt >>> 8) & 0xFF);
ipAddr[3] = (byte) (ipInt & 0xFF);
return ipAddr;
}
public static String intToIp(int ipInt) {
return new StringBuilder().append(((ipInt >> 24) & 0xff)).append('.')
.append((ipInt >> 16) & 0xff).append('.').append(
(ipInt >> 8) & 0xff).append('.').append((ipInt & 0xff))
.toString();
}
public static int[] getIPIntScope(String ipAndMask) {
String[] ipArr = ipAndMask.split("/");
if (ipArr.length != 2) {
throw new IllegalArgumentException("invalid ipAndMask with: "
+ ipAndMask);
}
int netMask = Integer.valueOf(ipArr[1].trim());
if (netMask < 0 || netMask > 31) {
throw new IllegalArgumentException("invalid ipAndMask with: "
+ ipAndMask);
}
int ipInt = IPv4Util.ipToInt(ipArr[0]);
int netIP = ipInt & (0xFFFFFFFF << (32 - netMask));
int hostScope = (0xFFFFFFFF >>> netMask);
return new int[] { netIP, netIP + hostScope };
}
public static String[] getIPAddrScope(String ipAndMask) {
int[] ipIntArr = IPv4Util.getIPIntScope(ipAndMask);
return new String[] { IPv4Util.intToIp(ipIntArr[0]),
IPv4Util.intToIp(ipIntArr[0]) };
}
public static int[] getIPIntScope(String ipAddr, String mask) {
int ipInt;
int netMaskInt = 0, ipcount = 0;
try {
ipInt = IPv4Util.ipToInt(ipAddr);
if (null == mask || "".equals(mask)) {
return new int[] { ipInt, ipInt };
}
netMaskInt = IPv4Util.ipToInt(mask);
ipcount = IPv4Util.ipToInt("255.255.255.255") - netMaskInt;
int netIP = ipInt & netMaskInt;
int hostScope = netIP + ipcount;
return new int[] { netIP, hostScope };
} catch (Exception e) {
throw new IllegalArgumentException("invalid ip scope express ip:"
+ ipAddr + " mask:" + mask);
}
}
public static String[] getIPStrScope(String ipAddr, String mask) {
int[] ipIntArr = IPv4Util.getIPIntScope(ipAddr, mask);
return new String[] { IPv4Util.intToIp(ipIntArr[0]),
IPv4Util.intToIp(ipIntArr[0]) };
}
public static void main(String[] args) throws Exception {
String ipAddr = "192.168.8.1";
byte[] bytearr = IPv4Util.ipToBytesByInet(ipAddr);
StringBuffer byteStr = new StringBuffer();
for (byte b : bytearr) {
if (byteStr.length() == 0) {
byteStr.append(b);
} else {
byteStr.append("," + b);
}
}
System.out.println("IP: " + ipAddr + " ByInet --> byte[]: [ " + byteStr
+ " ]");
bytearr = IPv4Util.ipToBytesByReg(ipAddr);
byteStr = new StringBuffer();
for (byte b : bytearr) {
if (byteStr.length() == 0) {
byteStr.append(b);
} else {
byteStr.append("," + b);
}
}
System.out.println("IP: " + ipAddr + " ByReg --> byte[]: [ " + byteStr
+ " ]");
System.out.println("byte[]: " + byteStr + " --> IP: "
+ IPv4Util.bytesToIp(bytearr));
int ipInt = IPv4Util.ipToInt(ipAddr);
System.out.println("IP: " + ipAddr + " --> int: " + ipInt);
System.out.println("int: " + ipInt + " --> IP: "
+ IPv4Util.intToIp(ipInt));
String ipAndMask = "192.168.1.1/24";
int[] ipscope = IPv4Util.getIPIntScope(ipAndMask);
System.out.println(ipAndMask + " --> int Address: [ " + ipscope[0] + ","
+ ipscope[1] + " ]");
System.out.println(ipAndMask + " --> IP Address: [ "
+ IPv4Util.intToIp(ipscope[0]) + ","
+ IPv4Util.intToIp(ipscope[1]) + " ]");
String ipAddr1 = "192.168.1.1", ipMask1 = "255.255.255.0";
int[] ipscope1 = IPv4Util.getIPIntScope(ipAddr1, ipMask1);
System.out.println(ipAddr1 + " , " + ipMask1 + " --> int addresses : [ "
+ ipscope1[0] + "," + ipscope1[1] + " ]");
System.out.println(ipAddr1 + " , " + ipMask1 + " --> IP addresses : [ "
+ IPv4Util.intToIp(ipscope1[0]) + ","
+ IPv4Util.intToIp(ipscope1[1]) + " ]");
}
}
I hope this article has been helpful to your Java programming.