M.E Operating Systems Lab Programs

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Exp No. 1 SEMAPHORES - MULTIPROCESSOR OPERATING SYSTEMS Date :

AIM: To write a java program for multiprocessor operating systems implementing semaphores.

ALGORTHIM: 1. Import the header files. 2. Declare three processor a, b, c. 3. Assign processors ‘a’, ‘b’, ‘c’ to “A”, “B”, “C” 4. Using semaphores the processors are synchronized 5. Check the following conditions: a) A B must be output before any C's can be output. b) B's and C's must alternate in the output string, that is, after the first B is output, another B cannot be output until a C is output. Similarly, once a C is output, another C cannot be output until a B is output. c) The total number of B's and C's which has been output at any given point in the output string cannot exceed the number of A's which have been output up to that point. 6. If the condition is valid, then print the result using acquire () function.

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PROGRAM: import java.io.*; import java.util.*; class process { int count=0; int pacount=0; int pbccount=0; char a[]=new char[50]; public void p1() { if(count==0) { count=count+1; a[count]='A'; pacount=pacount+1; System.out.print("A"); } else { if(a[count]=='C' || a[count]=='A') { count=count+1; a[count]='A'; pacount=pacount+1; System.out.print("A"); } } } public void p2() { if((a[count]=='C' || a[count]=='A')&&(pacount>pbccount)) { count=count+1; a[count]='B'; pbccount=pbccount+1; System.out.print("B"); } } public void p3()

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{ int f=0; if((a[count]=='B')&&(pacount>pbccount)) { for(int i=1;i<count;i++) { if(a[i]=='A' && a[i+1]=='B') f=1; } if(f==1) { count=count+1; a[count]='C'; pbccount=pbccount+1; System.out.print("C"); } } } }

class firstA { public static void main(String args[])throws IOException { process p=new process(); Random r=new Random(); for(int i=0;i<5;i++) { int r1=r.nextInt(25); int r2=r1%3; p.p1(); if(r2==0) p.p1(); else if(r2==1) p.p2(); else if(r2==2) p.p3(); } } }

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OUTPUT:

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RESULT: Thus the java program for multiprocessor operating systems implementing semaphores was executed and the output was verified successfully.

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Exp No. 2 MULTITHREADING - MULTIPROCESSOR OPERATING SYSTEMS Date :
AIM : To write a java program for multiprocessor operating systems implementing multithreading.

ALGORITHM : 1. Include the needed header files for the program. 2. Create the classes Table, TableCS, Agent and Smoker inside the class Cigarette. 3. Inside the main method create an instance for the class Cigarette and call the method mainRun() . 4. This mainRun() method creates three instances (threads) for Smoker class and one instance(thread) each for Agent class and Table class. 5. Then mainRun() method calls the run() methods inside the Agent, Smoker classes. 6. One of the Smoker threads has only paper, another has only tobacco and the third has only matches. 7. The Agent thread has infinite supply of all the three materials. The three smoker threads are initially blocked. 8. The agent places two randomly chosen ingredients on the table and unblocks the one smoker who has the remaining ingredient. The agent then blocks. 9. The unblocked smoker removes the two ingredients from the table, makes a cigarette, and smokes it for a random amount of time, unblocking the agent on completion of smoking the cigarette. 10. The agent then puts out another random two of the three ingredients, and the cycle repeats.

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PROGRAM : import java.util.*; public class Cigarette { public class Table { public static final int Nothing = 0; public static final int Tobacco = 1; public static final int Paper = 2; public static final int Matches = 4; public static final int Tobacco_Paper = Tobacco + Paper; public static final int Paper_Matches = Paper + Matches; public static final int Matches_Tobacco = Matches + Tobacco; public static final int Everything = Tobacco + Paper + Matches; private int contains; public Table () { contains = Nothing; } public synchronized void Put(int what) { System.out.println(Thread.currentThread().getName() + ": putting "+Contains(what)); contains = contains | what; notifyAll(); try { wait(); } catch (InterruptedException e) {} } public synchronized void Get(int what) { while ((contains & what) != what) { try { System.out.println(Thread.currentThread().getName() + ": Getting " + Contains(what) + " - No!"); wait(); } catch (InterruptedException e) {} } System.out.println(Thread.currentThread().getName() +

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": Getting " + Contains(what) + " - Yes!"); contains = contains ^ what; } public synchronized void DoneSmoking() { notifyAll(); } public String Contains(int what) { String s = ""; if ((what & Tobacco) == Tobacco) s = s + "tobacco "; if ((what & Paper) == Paper) s = s + "paper "; if ((what & Matches) == Matches) s = s + "matches "; return s; } } public class TableCS extends Table { TableCS Table; } public class Agent extends Thread { private Table table; private Random rand; public Agent(Table tab, String name) { super (name); table = tab; rand = new Random(); } public void run() { while (true) { switch (Math.abs(rand.nextInt()) % 3) { case 0: table.Put(Table.Tobacco_Paper); break; case 1: table.Put(Table.Paper_Matches); break;

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case 2: table.Put(Table.Matches_Tobacco); break; } } } } public class Smoker extends Thread { private Table table; private Random rand; private int needs; public Smoker(Table tab, String name, int what) { super (name); table = tab; rand = new Random(); needs = Table.Everything ^ what; } public void run() { while (true) { try { table.Get(needs); System.out.println(getName() + ": I got what I needed!"); System.out.println(getName() + ": Rolling."); sleep(Math.abs(rand.nextInt()) % 1000); System.out.println(getName() + ": Smoking."); sleep(Math.abs(rand.nextInt()) % 1000); System.out.println(getName() + ": Done smoking."); table.DoneSmoking(); } catch (InterruptedException e) {} } } } public void mainRun(String[] args) { Smoker smo1, smo2, smo3; Agent agent; Table table; table = new Table(); agent = new Agent(table, "Agent"); smo1 = new Smoker(table, " Smoker 1", Table.Paper);

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smo2 = new Smoker(table, " Smoker 2", Table.Matches); smo3 = new Smoker(table, " Smoker 3", Table.Tobacco); agent.start(); smo1.start(); smo2.start(); smo3.start(); } public static void main(String[] arg) { Cigarette a = new Cigarette(); a.mainRun(arg); } }

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OUTPUT :

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RESULT : Thus the java program for multiprocessor operating systems implementing multithreading was executed and the output was verified successfully.

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Exp No. 3 MULTIPLE SLEEPING BARBERS - MULTIPROCESSOR OPERATING SYSTEMS Date :

AIM : To write a java program for multiprocessor operating systems implementing multiple sleeping barbers problem. ALGORITHM : 1. Import the header files. 2. Declare the number of chairs and barbers in the shop 3. Enter the number of customer. 4. If there is no customer to be served, the barber goes to sleep. 5. If a customer enters the barber shop whole chairs are occupied, then the customer leaves the shop. 6. If the barber is busy, but chairs are available in waiting room then the customer sits in one of the free chairs until the barber is idle. 7. Barber class which extends threads is used to simulate multiple sleeping barbers.

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PROGRAM : import java.io.*; import java.lang.*; class cust { public int disp(int cn) { return(cn); } } class em1 extends Thread { main2 m=new main2(); cust c=new cust(); public synchronized void run() { try { while(m.cnum<=m.n) { int t=c.disp(m.cnum++); System.out.println("Barber2 serves Customer "+t); Thread.sleep(2000); } System.out.println("Barber2 sleeps "); } catch(Exception e){} } } public class main2 { static int cnum=1,n,ch,n1; public static void main(String[] args) { try { BufferedReader br=new BufferedReader(new InputStreamReader(System.in)); em1 e=new em1(); cust c=new cust(); int j; System.out.println("Enter no of Chairs including two barber Chairs: "); ch=Integer.parseInt(br.readLine()); System.out.println("Enter no of Customers : "); n=Integer.parseInt(br.readLine()); e.start();

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if(ch<n) { n1=n-ch; System.out.println(n1+" Customers Leaved from the Shop"); n=n-n1; while(cnum<=n) { int t=c.disp(cnum++); System.out.println("Barber1 serves " +" Customer " + t); Thread.sleep(1000); } } else { while(cnum<=n) { int t=c.disp(cnum++); System.out.println("Barber1 serves " +" Customer " + t); Thread.sleep(1000); } } System.out.println("Barber1 sleeps "); } catch(Exception e){} } }

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OUTPUT :

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RESULT : Thus the java program for multiprocessor operating systems implementing multiple sleeping barbers problem was executed and output was verified.

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Exp No. 4 NETWORK OPERATING SYSTEMS Date :
AIM : To implement Network operating system in our lab.

ALGORITHM : 1. Start the Program 2. Get the IP address and the MAC address from user 3. Get the inet address using InetAddress.getByName(IP address) 4. Create a packet using DatagramPacket() 5. Create a Socket using DatagramSocket() 6. Send the packet using socket.send(packet); 7. Close the Socket using socket.close(); 8. End the Program.

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PROGRAM : import java.io.*; import java.net.*; public class WakeOnLan { public static final int PORT=9; public static void main(String[ ] args) { if(args.length!=2) { System.out.println("usuage:javaWakeOnLan1<broadcast-ip><mac-address>"); System.out.println ("Example:java WakeOnLan1 172.15.169.7 00-15-58-AC-0C-20"); System.out.println ("Example:java WakeOnLan1 172.15.169.8 00-15-58-AC-0C-27"); System.exit(1); } String ipStr=args[0]; String macStr=args[1]; try { byte[ ] macBytes=getMacBytes(macStr); byte[] bytes=new byte[6+16*macBytes.length]; for(int i=0;i<6;i++) { bytes[i]=(byte)0xff; } for(int i=6;i<bytes.length;i+=macBytes.length) { System.arraycopy(macBytes, 0,bytes,i,macBytes.length); } InetAddress address = InetAddress.getByName(ipStr); DatagramPacket packet = new DatagramPacket(bytes,bytes.length,address,PORT); DatagramSocket socket= new DatagramSocket(); socket.send(packet); socket.close(); System.out.println("wake on lan packet sent"); } catch(Exception e) { System.out.println("failed to send wake on lan packet:"+e); System.exit(1); } } private static byte[] getMacBytes(String macStr) throws IllegalArgumentException { byte[] bytes=new byte[6]; String[] hex=macStr.split("(\\:|\\-)");

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if(hex.length!=6) { throw new IllegalArgumentException("Invalid MAC address"); } try { for(int i=0;i<6;i++) { bytes[i]=(byte)Integer.parseInt(hex[i],16); } } catch(NumberFormatException e) { throw new IllegalArgumentException("invalid hex digit in MAC address"); } return bytes; } }

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TO FIND MAC ADDRESS AND IP ADDRESS C:\Users\Sam>ipconfig/all Windows IP Configuration Host Name . . . . . . . . . . . . : Sam-PC Primary Dns Suffix . . . . . . . : Node Type . . . . . . . . . . . . : Mixed IP Routing Enabled. . . . . . . . : No WINS Proxy Enabled. . . . . . . . : No PPP adapter 3G Modem: Connection-specific DNS Suffix . : Description . . . . . . . . . . . : 3G Modem Physical Address. . . . . . . . . : DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes IPv4 Address. . . . . . . . . . . : 117.230.1.244(Preferred) Subnet Mask . . . . . . . . . . . : 255.255.255.255 Default Gateway . . . . . . . . . : 0.0.0.0 DNS Servers . . . . . . . . . . . : 218.248.241.3 218.248.240.180 NetBIOS over Tcpip. . . . . . . . : Disabled Wireless LAN adapter Wireless Network Connection: Media State . . . . . . . . . . . : Media disconnected Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Atheros AR9285 Wireless Network Adapter Physical Address. . . . . . . . . : B4-82-FE-DC-C4-99 DHCP Enabled. . . . . . . . . . . : Yes Autoconfiguration Enabled . . . . : Yes Ethernet adapter Local Area Connection: Media State . . . . . . . . . . . : Media disconnected Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Marvell Yukon 88E8059 Family PCI-E Gigabi t Ethernet Controller Physical Address. . . . . . . . . : 00-24-54-7D-6E-52 DHCP Enabled. . . . . . . . . . . : Yes Autoconfiguration Enabled . . . . : Yes Tunnel adapter isatap.{770C717E-3DB5-44F6-9C70-4BB9BE70A198}: Media State . . . . . . . . . . . : Media disconnected Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Microsoft ISATAP Adapter

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Physical Address. . . . . . . . . : 00-00-00-00-00-00-00-E0 DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes Tunnel adapter isatap.{4A6B2BFB-A001-4943-9B9A-64EB6F88819B}: Media State . . . . . . . . . . . : Media disconnected Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Microsoft ISATAP Adapter #2 Physical Address. . . . . . . . . : 00-00-00-00-00-00-00-E0 DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes Tunnel adapter isatap.{DA2C2A91-BE38-C2D6-433E-836237474E70}: Media State . . . . . . . . . . . : Media disconnected Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Microsoft ISATAP Adapter #3 Physical Address. . . . . . . . . : 00-00-00-00-00-00-00-E0 DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes Tunnel adapter Teredo Tunneling Pseudo-Interface: Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Teredo Tunneling Pseudo-Interface Physical Address. . . . . . . . . : 00-00-00-00-00-00-00-E0 DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes IPv6 Address. . . . . . . . . . . : 2001:0:4137:9e76:457:1c5f:8a19:fe0b(Prefe rred) Link-local IPv6 Address . . . . . : fe80::457:1c5f:8a19:fe0b%16(Preferred) Default Gateway . . . . . . . . . : NetBIOS over Tcpip. . . . . . . . : Disabled Tunnel adapter 6TO4 Adapter: Connection-specific DNS Suffix . : Description . . . . . . . . . . . : Microsoft 6to4 Adapter #2 Physical Address. . . . . . . . . : 00-00-00-00-00-00-00-E0 DHCP Enabled. . . . . . . . . . . : No Autoconfiguration Enabled . . . . : Yes IPv6 Address. . . . . . . . . . . : 2002:75e6:1f4::75e6:1f4(Preferred) Default Gateway . . . . . . . . . : 2002:c058:6301::c058:6301 DNS Servers . . . . . . . . . . . : 218.248.241.3 218.248.240.180 NetBIOS over Tcpip. . . . . . . . : Disabled C:\Users\Sam>

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OUTPUT:

TO TEST LAN CONNECTION : C:\Users\Sam>ping msec.org.in Pinging msec.org.in [69.167.190.8] with 32 bytes of data: Reply from 69.167.190.8: bytes=32 time=532ms TTL=114 Reply from 69.167.190.8: bytes=32 time=451ms TTL=114 Reply from 69.167.190.8: bytes=32 time=458ms TTL=114 Reply from 69.167.190.8: bytes=32 time=456ms TTL=114 Ping statistics for 69.167.190.8: Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds: Minimum = 451ms, Maximum = 532ms, Average = 474ms C:\Users\Sam>

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RESULT : Thus the Network operating system was implemented in our lab and the output was verified.

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Exp No. 5 REAL TIME OPERATING SYSTEMS Date :
AIM : To write a C program using Real time operating system for implementing an alarm clock.

ALGORITHM : 1. Start the program. 2. Display init is used for initialization and shall be called from the main function of the program before the processes are created. 3. Display alarm time a shows the current time and shall be called when a new alarm time is set. 4. Display time is used to display the current time and shall be called by the clock process. 5. Erase the alarm time, erases the displayed alarm time and shall be called when the user acknowledges an alarm. 6. Display alarm text is used to show an alarm activation and the user is informed that the alarm has been activated. 7. when the alarm is activated the first time and when the alarm is activated repeatedly. 8. Erase alarm text,erase the information displayed by displays the alarm text. 9. Stop the program.

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PROGRAM : #include<stdio.h> #include<conio.h> #include<dos.h> struct clk { int hh,mm,ss; }c1,c2; void clock(int *h1,int *m1,int *s1) { *s1=*s1+1; if(*s1==60) { *s1=0; *m1=*m1+1; if(*m1==60) { *m1=0; *h1=*h1+1; if(*h1==24) *h1=0; } } } void timer(int *h,int *m,int *s) { if((*s)!=0) { *s=*s-1; } else if((*s)==0) { if(*m!=0) { *s=59;*m=*m-1; } else if(*m==0) { if(*h!=0) { *m=59;*h=*h-1; } } } } void alarm()

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{ while(!kbhit()) printf("\a"); } void main() { char ch; struct time t; clrscr(); printf("\nPress:-\n\tA: for alarm Clock\n\tT: for Timer\n"); printf("\Enter your Choice:"); ch=getche(); switch (ch) { case 'A': case 'a': { printf("\n\n\n24 hr Format(HH:MM:SS)"); gettime(&t); c1.hh=t.ti_hour; c1.mm=t.ti_min; c1.ss=t.ti_sec; printf("\nEnter alarm time : "); scanf("%d:%d:%d",&c2.hh,&c2.mm,&c2.ss); if(c2.hh>24||c2.mm>60||c2.ss>60) { printf("\n\n\tERROR: Invalid time.\n\tRestart the program."); delay(2500);exit(0); } while((c1.ss!=c2.ss)||(c1.hh!=c2.hh)||(c1.mm!=c2.mm)) { clrscr(); printf("\n\nAlarm time: %02d:%02d:%02d\n",c2.hh,c2.mm,c2.ss); printf("\nCurrent Time: %02d:%02d:%02d",c1.hh,c1.mm,c1.ss); clock(&c1.hh,&c1.mm,&c1.ss); delay(1000); }; clrscr(); printf("\n\n\n\n\t\t\t\tAlarm time reached\n\n\t\t\t\tPress any to Exit."); alarm(); exit(0); } break; case 'T': case 't': { printf("\n\n\nEnter time for timer (HH:MM:SS): "); scanf("%d:%d:%d",&c1.hh,&c1.mm,&c1.ss); while(c1.hh>0||c1.mm>0||c1.ss>0)

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{ clrscr(); printf("The Current Time:\n"); printf("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\t\t\t\t"); printf("%02d:%02d:%02d",c1.hh,c1.mm,c1.ss); timer(&c1.hh,&c1.mm,&c1.ss); delay(1000); } clrscr(); printf("Program Written by: Cyber Criminalzz\n"); printf("\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\t\t\t\t"); printf("00:00:00"); alarm(); exit(0); } break; default: { printf("\n\tInvalid Input\n\n\tPlease restart the program"); delay(2500);exit(0); } } }

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OUTPUT :

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RESULT : Thus the C program using Real time operating system for implementing an alarm clock was executed and the output was verified.

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Exp No. 6 TRANSACTIONS AND CONCURRENCY -DATABASE OPERATING Date :
AIM : To implement a college admission system application using database operating system. ALGORITHM : 1. Start the Program 2. Implement Distributed Operating System by implementing following things 2.1 Start the Application Transaction. 2.2 Establish the Database Connection by following steps Connection con=null; Statement st=null; ResultSet rs=null; 2.3 Get the new student Details like name, age, branch, gender and address 2.4 Using jdbc Connection in java add all the details about customer into the database 2.5 Method Invocation: as a part of te given transaction the object will be locked in read or write mode and commit/ abort of the transaction 2.6 Retrieve the Relevant details when client queries the Data 2.7 Display to the user 3. Stop the program

SYSTEMS

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PROGRAM : import java.sql.*; import java.io.*; public class jdbc { public static void main(String[]args) { PreparedStatement pstm; ResultSet rs; BufferedReader br=new BufferedReader(new InputStreamReader(System.in)); try { System.out.println("Enter Regno"); String regno=br.readLine(); System.out.println("Enter name"); String nam=br.readLine(); System.out.println("Enter age"); String age=br.readLine(); System.out.println("Enter branch"); String branch=br.readLine(); System.out.println("Enter gender"); String gender=br.readLine(); System.out.println("Enter address"); String address=br.readLine(); Class.forName("sun.jdbc.odbc.JdbcOdbcDriver"); java.util.Date d=new java.util.Date(); System.out.println("The time of starting the transaction is"+d); Connection connect =DriverManager.getConnection("jdbc:odbc:samp"); pstm=connect.prepareStatement("insert into amu values(?,?,?,?,?,?)"); pstm.setString(1,regno); pstm.setString(2,nam); pstm.setString(3,age); pstm.setString(4,branch); pstm.setString(5,gender); pstm.setString(6,address); pstm.executeUpdate(); System.out.println("Data is inserted into MS Access database"); pstm.close(); System.out.println("Enter the name of the customer u want to see the details"); String n=br.readLine(); pstm = connect.prepareStatement("select * from amu where name='"+n+"'"); rs = pstm.executeQuery();

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while (rs.next()) { System.out.print(rs.getString(1) + "\t"); System.out.print(rs.getString(2) + "\t"); System.out.print(rs.getString(3) + "\t"); System.out.print(rs.getString(4) + "\t"); System.out.print(rs.getString(5) + "\t"); System.out.print(rs.getString(6) + "\t"); } rs.close(); pstm.close(); connect.close(); } catch(Exception ex) { System.out.println(ex); } } }

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OUTPUT : Before Adding into Table

Output

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After added into the table

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RESULT : Thus the college admission system application using database operating system was implemented and the output was verified.

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Exp No. 7 DISTRIBUTED OPERATING SYSTEMS Date :

AIM : To implement a RMI Lottery application using distributed operating system.

ALGORITHM : Server Algorithm: 1. Import header files. 2. Class RmiServer which implements ReceiveMessageInterface 3. Provide RMI registry for lookup the remote objects. 4. Read the message from client and calculate the values using receiveMessage( ). 5. Print the Server system address and Port number using RmiServer( ).

Client Algorithm: 1. Import header files. 2. Provide the message along with the server address and port number. 3. The server is invoked using ReceiveMessageInterface interface.. 4. The RMI registry is used for lookup the remote objects. 5. The x [] array is declared to store the values which are return from server. 6. The values of x [] array will be retrieved using for loop. 7. Displays the result.

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PROGRAM : ReceiveMessageInterface.java import java.rmi.*; public interface ReceiveMessageInterface extends Remote { public int [] receiveMessage(int x) throws RemoteException; }

RmiClient.java import java.io.*; import java.rmi.*; import java.rmi.registry.*; import java.net.*; public class RmiClient { static public void main(String args[])throws IOException { ReceiveMessageInterface rmiServer; Registry registry; String serverAddress=args[0]; String serverPort=args[1]; int no; no=Integer.parseInt(args[2]); int rval[]=new int[no]; System.out.println("sending "+no+" to "+serverAddress+":"+serverPort); try{ registry=LocateRegistry.getRegistry(serverAddress,(new Integer(serverPort)).intValue()); rmiServer=(ReceiveMessageInterface)(registry.lookup("rmiServer")); rval=rmiServer.receiveMessage(no); for(int i=0;i<no;i++) System.out.println(rval[i]); } catch(RemoteException e) { e.printStackTrace(); } catch(NotBoundException e) { e.printStackTrace(); } } }

40 RmiServer.java import java.util.*; import java.rmi.*; import java.rmi.registry.*; import java.rmi.server.*; import java.net.*; public class RmiServer extends java.rmi.server.UnicastRemoteObject implements ReceiveMessageInterface { int thisPort; String thisAddress; Registry registry; public int[] receiveMessage(int x) throws RemoteException { System.out.println(x); Random r=new Random(); int val[] = new int[x]; for(int i=0;i<x;i++) { val[i]=r.nextInt(25); } return val; } public RmiServer() throws RemoteException { try { thisAddress= (InetAddress.getLocalHost()).toString(); } catch(Exception e) { throw new RemoteException("can't get inet address."); } thisPort=3232; System.out.println("this address="+thisAddress+",port="+thisPort); try { registry = LocateRegistry.createRegistry( thisPort ); registry.rebind("rmiServer", this); } catch(RemoteException e) { throw e; } } static public void main(String args[]) {

41 try { RmiServer s=new RmiServer(); } catch (Exception e) { e.printStackTrace(); System.exit(1); } } }

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OUTPUT :

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RESULT : Thus the RMI Lottery application using distributed operating system was implemented and executed successfully.

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