tracker #48

Merged
louis_royer merged 13 commits from tracker into etape4 5 years ago

@ -17,17 +17,22 @@ x bytes: [(bytes 8-?): PAYLOAD]
- `LIST` (0x00)
- `LOAD` (0x01)
- `HASH` (0x02)
- `DISCOVER` (0x03)
- `REGISTER` (0x04)
- `UNREGISTER` (0x05)
- RESPONSES (msb is 1):
- `LIST` (0x80)
- `LOAD` (0x81)
- `HASH` (0x82)
- `DISCOVER` (0x83)
- `VERSION ERROR` (0xC0)
- `PROTOCOL ERROR` (0xC1)
- `INTERNAL ERROR` (0xC2)
- `EMPTY DIRECTORY` (0xC3)
- `NOT FOUND` (0xC4)
- `EMPTY FILE` (0xC5)
- `NOT A TRACKER` (0xC6)
### List
Payload size for list request is always zero.
@ -97,6 +102,55 @@ A algo hash bloc contains:
```
### Tracker specific messages
#### Register
Used by a server to register itself on a tracker.
Server may want to do a free `DISCOVER` to check if they have been registered.
Payload contains:
```
2 bytes: [<PORT NUMBER>]
```
#### Unregister
Used by a server to unregister itself from a tracker.
No error is raised if the server was not registered.
Server may want to do a free `DISCOVER` to check if they have been unregistered.
Payload contains:
```
2 bytes: [<PORT NUMBER>]
? bytes: [<HOSTNAME>]
```
#### Discover request
If payload size is null, lists all servers registered.
If payload contains a filename, list all servers having this file in their list.
```
? bytes: [<FILENAME>]
? bytes: [<HOSTNAME>]
```
#### Discover response
Contains:
```
4 bytes: [(bytes 8-11): FILENAME SIZE]
y bytes: [<FILENAME>]
? bytes [multiple server blocks]
```
Server block is composed with:
```
2 bytes: [port]
? bytes: hostname
\n
```
#### Not a Tracker
This error is raised when receiving a DISCOVER, a REGISTER, or an UNREGISTER request,
but this application is not a tracker.
### Other response code (errors)
#### Version error

@ -0,0 +1 @@
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@ -5,7 +5,6 @@ import java.net.Socket;
import java.io.File;
import java.io.IOException;
import java.nio.file.Files;
import java.nio.file.Paths;
import protocolP2P.ProtocolP2PPacketTCP;
import protocolP2P.Payload;
import protocolP2P.LoadRequest;
@ -22,6 +21,7 @@ import remoteException.InternalRemoteError;
import remoteException.VersionRemoteError;
import remoteException.ProtocolRemoteError;
import remoteException.NotFound;
import remoteException.NotATracker;
import tools.Logger;
import tools.LogLevel;
@ -351,6 +351,10 @@ public class ClientDownloadPartTCP implements Runnable {
System.err.println("Error: downloadPart SocketClosed");
logger.writeTCP("downloadPart SocketClosed", LogLevel.Error);
return true;
} catch (NotATracker e) {
System.err.println("Error: downloadPart notATracker");
logger.writeTCP("downloadPart notATracker", LogLevel.Error);
return true;
}
return false;
}

@ -17,9 +17,9 @@ import remoteException.ProtocolRemoteError;
import localException.VersionError;
import localException.SizeError;
import remoteException.NotFound;
import remoteException.NotATracker;
import java.nio.file.Files;
import java.io.File;
import java.nio.file.Paths;
import java.io.IOException;
import tools.Logger;
import tools.LogLevel;
@ -336,6 +336,10 @@ public class ClientDownloadPartUDP implements Runnable {
System.err.println("Error: downloadPart internalError");
logger.writeUDP("downloadPart internalError", LogLevel.Error);
return true;
} catch (NotATracker e) {
System.err.println("Error: downloadPart notATracker");
logger.writeUDP("downloadPart notATracker", LogLevel.Error);
return true;
}
return false;
}

@ -7,7 +7,6 @@ import java.util.Random;
import java.io.IOException;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
import java.nio.file.StandardOpenOption;
import java.nio.file.StandardCopyOption;
import remoteException.EmptyDirectory;
@ -16,6 +15,7 @@ import remoteException.VersionRemoteError;
import remoteException.ProtocolRemoteError;
import remoteException.NotFound;
import remoteException.InternalRemoteError;
import remoteException.NotATracker;
import localException.ProtocolError;
import localException.InternalError;
import localException.TransmissionError;
@ -239,6 +239,9 @@ public class ClientDownloadTCP implements Runnable {
} catch (SizeError e) {
logger.writeTCP(e, LogLevel.Error);
throw new InternalError();
} catch (NotATracker e) {
logger.writeTCP(e, LogLevel.Error);
throw new InternalError();
}
return hash;
} catch (IOException e) {
@ -382,6 +385,9 @@ public class ClientDownloadTCP implements Runnable {
} catch (NotFound e) {
logger.writeTCP(e, LogLevel.Error);
throw new InternalError();
} catch (NotATracker e) {
logger.writeTCP(e, LogLevel.Error);
throw new InternalError();
}
} catch (IOException e) {
logger.writeTCP(e, LogLevel.Error);

@ -7,7 +7,6 @@ import java.util.Random;
import java.io.IOException;
import java.io.File;
import java.nio.file.Files;
import java.nio.file.Paths;
import java.nio.file.StandardOpenOption;
import java.nio.file.StandardCopyOption;
import localException.ProtocolError;
@ -21,6 +20,7 @@ import remoteException.VersionRemoteError;
import remoteException.ProtocolRemoteError;
import remoteException.NotFound;
import remoteException.InternalRemoteError;
import remoteException.NotATracker;
import protocolP2P.HashAlgorithm;
import protocolP2P.HashResponse;
import protocolP2P.HashRequest;
@ -239,6 +239,9 @@ public class ClientDownloadUDP implements Runnable {
} catch (SizeError e) {
logger.writeUDP(e, LogLevel.Error);
throw new InternalError();
} catch (NotATracker e) {
logger.writeUDP(e, LogLevel.Error);
throw new InternalError();
}
return hash;
} catch (IOException e) {
@ -378,6 +381,9 @@ public class ClientDownloadUDP implements Runnable {
} catch (NotFound e) {
logger.writeUDP(e, LogLevel.Error);
throw new InternalError();
} catch (NotATracker e) {
logger.writeUDP(e, LogLevel.Error);
throw new InternalError();
}
} catch (IOException e) {
logger.writeUDP(e, LogLevel.Error);

@ -4,9 +4,7 @@ import java.net.UnknownHostException;
import java.util.Scanner;
import java.io.IOException;
import java.nio.file.Files;
import java.io.File;
import java.nio.file.Paths;
import java.nio.file.StandardOpenOption;
import java.util.Arrays;
import java.util.List;
import java.security.MessageDigest;
@ -23,19 +21,18 @@ import remoteException.InternalRemoteError;
import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.NotATracker;
import protocolP2P.ProtocolP2PPacketTCP;
import protocolP2P.Payload;
import protocolP2P.RequestResponseCode;
import protocolP2P.FileList;
import protocolP2P.FilePart;
import protocolP2P.LoadRequest;
import protocolP2P.HashAlgorithm;
import protocolP2P.HashRequest;
import protocolP2P.HashResponse;
import clientP2P.ClientDownloadTCP;
import tools.HostItem;
import tools.Logger;
import tools.LogLevel;
import protocolP2P.DiscoverRequest;
import protocolP2P.DiscoverResponse;
/** Implementation of P2P-JAVA-PROJECT CLIENT
* @author Louis Royer
@ -47,26 +44,36 @@ public class ClientManagementTCP implements Runnable {
private String baseDirectory;
private String partsSubdir;
private List<HostItem> hostList;
private HostItem tracker;
private Logger logger;
private Scanner scanner;
/** Constructor for TCP implementation, with baseDirectory and TCPPort parameters.
/** Constructor for TCP implementation, with baseDirectory, tracker, partsSubdir, logger, and scanner parameters.
* @param baseDirectory the root directory where files are stored
* @param host hostname of the server
* @param TCPPort the server will listen on this port
* @param tracker Tracker hostItem
* @param partsSubdir subdirectory to store file parts
* @param logger Loggger
* @param scanner Scanner used to read input
*/
public ClientManagementTCP(String baseDirectory, List<HostItem> hostList, String partsSubdir, Logger logger) {
public ClientManagementTCP(String baseDirectory, HostItem tracker, String partsSubdir, Logger logger, Scanner scanner) {
this.scanner = scanner;
this.baseDirectory = baseDirectory;
this.hostList = hostList;
this.tracker = tracker;
this.partsSubdir = partsSubdir;
this.logger = logger;
try {
initHostList();
} catch (InternalError e) {
System.exit(-1);
} catch (ProtocolError e) {
System.exit(-2);
}
}
/** Implementation of Runnable
*/
public void run() {
try {
System.out.println("Enter all servers: type \"stop\" when finished");
Scanner scanner = new Scanner(System.in);
String[] list = listDirectory();
System.out.println("Files present on the server:");
for(String listItem: list) {
@ -78,44 +85,31 @@ public class ClientManagementTCP implements Runnable {
System.out.println("File " + f + " sucessfully downloaded");
logger.writeTCP("File " + f + " sucessfully downloaded", LogLevel.Info);
} catch (EmptyDirectory e) {
System.err.println("Error: Server has no file in directory");
logger.writeTCP("Error: Server has no file in directory", LogLevel.Error);
logger.writeTCP("Server has no file in directory", LogLevel.Error);
} catch (InternalError e) {
System.err.println("Error: Client internal error");
logger.writeTCP("Error: Client internal error", LogLevel.Error);
logger.writeTCP("Client internal error", LogLevel.Error);
} catch (UnknownHostException e) {
System.err.println("Error: Server host is unknown");
logger.writeTCP("Error: Server host is unknown", LogLevel.Error);
logger.writeTCP("Server host is unknown", LogLevel.Error);
} catch (IOException e) {
System.err.println("Error: Request cannot be send or response cannot be received");
logger.writeTCP("Error: Request cannot be send or response cannot be received", LogLevel.Error);
logger.writeTCP("Request cannot be send or response cannot be received", LogLevel.Error);
} catch (TransmissionError e) {
System.err.println("Error: Message received is too big");
logger.writeTCP("Error: Message received is too big", LogLevel.Error);
logger.writeTCP("Message received is too big", LogLevel.Error);
} catch (ProtocolError e) {
System.err.println("Error: Cannot decode servers response");
logger.writeTCP("Error: Cannot decode servers response", LogLevel.Error);
logger.writeTCP("Cannot decode servers response", LogLevel.Error);
} catch (VersionError e) {
System.err.println("Error: Servers response use bad version of the protocol");
logger.writeTCP("Error: Servers response use bad version of the protocol", LogLevel.Error);
logger.writeTCP("Servers response use bad version of the protocol", LogLevel.Error);
} catch (SizeError e) {
System.err.println("Error: Cannot handle this packets because of internal representation limitations of numbers on the client");
logger.writeTCP("Error: Cannot handle this packets because of internal representation limitations of numbers on the client", LogLevel.Error);
logger.writeTCP("Cannot handle this packets because of internal representation limitations of numbers on the client", LogLevel.Error);
} catch (InternalRemoteError e) {
System.err.println("Error: Server internal error");
logger.writeTCP("Error: Server internal error", LogLevel.Error);
logger.writeTCP("Server internal error", LogLevel.Error);
} catch (ProtocolRemoteError e) {
System.err.println("Error: Server cannot decode clients request");
logger.writeTCP("Error: Server cannot decode clients request", LogLevel.Error);
logger.writeTCP("Server cannot decode clients request", LogLevel.Error);
} catch (VersionRemoteError e) {
System.err.println("Error: Server cannot decode this version of the protocol");
logger.writeTCP("Error: Server cannot decode this version of the protocol", LogLevel.Error);
logger.writeTCP("Server cannot decode this version of the protocol", LogLevel.Error);
} catch (NotFound e) {
System.err.println("Error: Server has not this file in directory");
logger.writeTCP("Error: Server has not this file in directory", LogLevel.Error);
logger.writeTCP("Server has not this file in directory", LogLevel.Error);
} catch (EmptyFile e) {
System.err.println("Error: File is empty");
logger.writeTCP("Error: File is empty", LogLevel.Error);
logger.writeTCP("File is empty", LogLevel.Error);
}
}
@ -143,21 +137,18 @@ public class ClientManagementTCP implements Runnable {
if (downLoader.getSuccess()) {
byte[] hash512 = downLoader.getHashSum512();
if (!Arrays.equals(hash512, computeHashsum(filename, HashAlgorithm.SHA512))) {
System.err.println("Error: Hashsum does not match");
logger.writeTCP("Error: Hashsum does not match", LogLevel.Error);
System.err.println("Computed checksum:");
logger.writeTCP("Hashsum does not match", LogLevel.Error);
String line = "Computed checksum:\n";
byte[] c = computeHashsum(filename, HashAlgorithm.SHA512);
for (byte b: c) {
System.err.print(String.format("%02X", b));
logger.writeTCP("Computed checksum:" + String.format("%02X", b), LogLevel.Info);
line += String.format("%02X", b);
}
System.err.println("");
System.err.println("Received checksum:");
line += "\nReceived checksum:\n";
for (byte b: hash512) {
System.err.print(String.format("%02X", b));
logger.writeTCP("Received checksum:" + String.format("%02X", b), LogLevel.Info);
line += String.format("%02X", b);
}
System.err.println("");
line += "\n";
logger.writeTCP(line, LogLevel.Info);
throw new InternalError();
}
} else {
@ -200,9 +191,11 @@ public class ClientManagementTCP implements Runnable {
logger.writeTCP(e, LogLevel.Error);
throw new ProtocolError();
} catch (SocketClosed e){
System.err.println("listDirectory : SocketClosed");
logger.writeTCP("listDirectory : SocketClosed", LogLevel.Error);
throw new ProtocolError();
} catch (NotATracker e) {
logger.writeTCP(e, LogLevel.Error);
throw new ProtocolError();
}
}
@ -215,12 +208,37 @@ public class ClientManagementTCP implements Runnable {
MessageDigest md = MessageDigest.getInstance(HashAlgorithm.SHA512.getName());
return md.digest(Files.readAllBytes(Paths.get(baseDirectory + filename)));
} catch (NoSuchAlgorithmException e) {
System.out.println("Error: " + h.getName() + " not supported");
logger.writeTCP("Error: " + h.getName() + " not supported", LogLevel.Error);
logger.writeTCP(h.getName() + " not supported", LogLevel.Error);
} catch (IOException e) {
System.out.println("Error: cannot read " + filename);
logger.writeTCP("Error: cannot read " + filename, LogLevel.Error);
logger.writeTCP("cannot read " + filename, LogLevel.Error);
}
return new byte[0];
}
/** Initialize hostList from tracker
* @throws ProtocolError
* @throws InternalError
*/
private void initHostList() throws ProtocolError, InternalError {
ProtocolP2PPacketTCP d = new ProtocolP2PPacketTCP((Payload) new DiscoverRequest(null));
try {
d.sendRequest((Object)tracker.getTCPSocket());
Payload p = d.receiveResponse().getPayload();
assert p instanceof DiscoverResponse : "This payload must be instance of Filelist";
if (!(p instanceof DiscoverResponse)) {
throw new InternalError();
} else {
hostList = ((DiscoverResponse)p).getHostList();
}
} catch (SocketClosed e){
logger.writeTCP("listDirectory : SocketClosed", LogLevel.Error);
throw new ProtocolError();
} catch (NotATracker e) {
logger.writeTCP(e, LogLevel.Error);
throw new ProtocolError();
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
throw new ProtocolError();
}
}
}

@ -4,12 +4,9 @@ import java.util.Scanner;
import java.util.Arrays;
import java.util.List;
import java.io.IOException;
import java.io.File;
import java.net.DatagramSocket;
import java.net.UnknownHostException;
import java.nio.file.Files;
import java.nio.file.Paths;
import java.nio.file.StandardOpenOption;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import localException.InternalError;
@ -23,15 +20,14 @@ import remoteException.InternalRemoteError;
import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.NotATracker;
import protocolP2P.ProtocolP2PPacketUDP;
import protocolP2P.Payload;
import protocolP2P.RequestResponseCode;
import protocolP2P.FileList;
import protocolP2P.FilePart;
import protocolP2P.LoadRequest;
import protocolP2P.HashAlgorithm;
import protocolP2P.HashRequest;
import protocolP2P.HashResponse;
import protocolP2P.DiscoverRequest;
import protocolP2P.DiscoverResponse;
import tools.HostItem;
import tools.Logger;
import tools.LogLevel;
@ -47,26 +43,36 @@ public class ClientManagementUDP implements Runnable {
private String baseDirectory;
private String partsSubdir;
private List<HostItem> hostList;
private HostItem tracker;
private Logger logger;
private Scanner scanner;
/** Constructor for UDP implementation, with baseDirectory and UDPPort parameters.
/** Constructor for UDP implementation, with baseDirectory, tracker, partsSubdir, logger and scanner parameters.
* @param baseDirectory the root directory where files are stored
* @param host hostname of the server
* @param UDPPort the server will listen on this port
* @param tracker tracker HostItem
* @param partsSubdir subdirectory to store file parts
* @param logger Loggger
* @param scanner Scanner used to read input
*/
public ClientManagementUDP(String baseDirectory, List<HostItem> hostList, String partsSubdir, Logger logger) {
public ClientManagementUDP(String baseDirectory, HostItem tracker, String partsSubdir, Logger logger, Scanner scanner) {
this.scanner = scanner;
this.baseDirectory = baseDirectory;
this.hostList = hostList;
this.tracker = tracker;
this.partsSubdir = partsSubdir;
this.logger = logger;
try {
initHostList();
} catch (InternalError e) {
System.exit(-1);
} catch (ProtocolError e) {
System.exit(-2);
}
}
/** Implementation of Runnable
*/
public void run() {
try {
System.out.println("Enter all servers: type \"stop\" when finished");
Scanner scanner = new Scanner(System.in);
String[] list = listDirectory();
System.out.println("Files present on the server:");
for(String listItem: list) {
@ -199,6 +205,9 @@ public class ClientManagementUDP implements Runnable {
} catch (EmptyFile e) {
logger.writeUDP(e, LogLevel.Error);
throw new ProtocolError();
} catch (NotATracker e) {
logger.writeUDP(e, LogLevel.Error);
throw new ProtocolError();
}
}
@ -219,4 +228,28 @@ public class ClientManagementUDP implements Runnable {
}
return new byte[0];
}
/** Initialize hostList from tracker
* @throws ProtocolError
* @throws InternalError
*/
private void initHostList() throws ProtocolError, InternalError {
ProtocolP2PPacketUDP d = new ProtocolP2PPacketUDP((Payload) new DiscoverRequest(null));
try {
d.sendRequest((Object)tracker.getUDPSocket());
Payload p = d.receiveResponse().getPayload();
assert p instanceof DiscoverResponse : "This payload must be instance of Filelist";
if (!(p instanceof DiscoverResponse)) {
throw new InternalError();
} else {
hostList = ((DiscoverResponse)p).getHostList();
}
} catch (NotATracker e) {
logger.writeUDP(e, LogLevel.Error);
throw new ProtocolError();
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
throw new ProtocolError();
}
}
}

@ -6,12 +6,10 @@ import clientP2P.ClientManagementUDP;
import clientP2P.ClientManagementTCP;
import serverP2P.ServerManagementUDP;
import serverP2P.ServerManagementTCP;
import tools.Directories;
import tools.Logger;
import tools.LogLevel;
import tools.Directories;
import tools.HostItem;
import tools.HostList;
/** Client + Server implementation.
* @author Louis Royer
@ -21,15 +19,16 @@ import tools.HostList;
*/
public class ClientP2P {
static private final String subdir = "seeded/";
static private String parts = ".parts";
private String subdir = "seeded/";
private String parts = ".parts";
private Logger loggerServer;
private Logger loggerClient;
private String host;
private int port;
private Directories directories;
private List<HostItem> hostList;
private static final int defaultPort = 20000;
private HostItem tracker;
private Scanner scanner;
/** Initialize loggers if directories and logger are null,
@ -47,6 +46,8 @@ public class ClientP2P {
* @param portStr String containing port for server listenning.
*/
public ClientP2P(String portStr) {
scanner = new Scanner(System.in);
tracker = new HostItem("localhost", 30000); // TODO : make it configurable
try{
port = Integer.valueOf(Integer.parseInt(portStr));
} catch (NumberFormatException e){
@ -61,7 +62,7 @@ public class ClientP2P {
directories.createSubdir(parts);
host = "localhost";
System.out.println("Server will listen on port " + port + " and serve files from " + directories.getDataHomeDirectory() + subdir);
directories.askOpenDataHomeDirectory(subdir);
directories.askOpenDataHomeDirectory(subdir, scanner);
System.out.println("Please enter list of servers to use; first one will be used to ask list of files");
}
@ -71,7 +72,6 @@ public class ClientP2P {
* @param args server listenning port
*/
public static void main(String [] args) {
if (args[1].equals("help") || args[1].equals("-h") || args[1].equals("h")){
System.out.println("usage : java -ea clientP2P.ClientP2P -- <PORT> ");
}
@ -84,8 +84,8 @@ public class ClientP2P {
}
// Server threads
ServerManagementUDP smudp = new ServerManagementUDP(c.directories.getDataHomeDirectory() + subdir, c.port, c.loggerServer);
ServerManagementTCP smtcp = new ServerManagementTCP(c.directories.getDataHomeDirectory() + subdir, c.port, c.loggerServer);
ServerManagementUDP smudp = new ServerManagementUDP(c.directories.getDataHomeDirectory() + c.subdir, "localhost", c.port, c.loggerServer, c.tracker);
ServerManagementTCP smtcp = new ServerManagementTCP(c.directories.getDataHomeDirectory() + c.subdir, "localhost", c.port, c.loggerServer, c.tracker);
Thread tudp = new Thread(smudp);
tudp.setName("server UDP P2P-JAVA-PROJECT (port: " + c.port + ")");
tudp.start();
@ -102,10 +102,9 @@ public class ClientP2P {
}
// initialize Host lists
c.hostList = HostList.getServList();
System.out.println("Client : Which transport protocol do you want to use? [TCP/udp]");
Scanner sc = new Scanner(System.in);
String transportchoosen = sc.nextLine();
c.scanner.hasNextLine();
String transportchoosen = c.scanner.nextLine();
Thread t;
switch(transportchoosen){
case "UDP":
@ -113,7 +112,7 @@ public class ClientP2P {
case "upd": // alias typo
case "2" :
System.out.println("Starting with UDP");
ClientManagementUDP cmudp = new ClientManagementUDP(c.directories.getDataHomeDirectory(), c.hostList, c.directories.getDataHomeDirectory() + c.parts + "/", c.loggerClient);
ClientManagementUDP cmudp = new ClientManagementUDP(c.directories.getDataHomeDirectory(), c.tracker, c.directories.getDataHomeDirectory() + c.parts + "/", c.loggerClient, c.scanner);
t = new Thread(cmudp);
break;
case "TCP":
@ -121,13 +120,16 @@ public class ClientP2P {
case "1":
default:
System.out.println("Starting with TCP");
ClientManagementTCP cmtcp = new ClientManagementTCP(c.directories.getDataHomeDirectory(), c.hostList, c.directories.getDataHomeDirectory() + c.parts + "/", c.loggerClient);
ClientManagementTCP cmtcp = new ClientManagementTCP(c.directories.getDataHomeDirectory(), c.tracker, c.directories.getDataHomeDirectory() + c.parts + "/", c.loggerClient, c.scanner);
t = new Thread(cmtcp);
break;
}
t.setName("client P2P-JAVA-PROJECT");
t.start();
try {
t.join();
} catch (InterruptedException e) {}
c.scanner.close();
}
}
}

@ -2,6 +2,6 @@ package localException;
import exception.LocalException;
public class InternalError extends exception.LocalException {
public class InternalError extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package localException;
import exception.LocalException;
public class ProtocolError extends exception.LocalException {
public class ProtocolError extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -4,6 +4,6 @@ import exception.LocalException;
/** Used on reception side when size as set in Packet is too big, and we cant store this in a int/long as usual. */
public class SizeError extends exception.LocalException {
public class SizeError extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package localException;
import exception.LocalException;
public class SocketClosed extends exception.LocalException {
public class SocketClosed extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package localException;
import exception.LocalException;
public class TransmissionError extends exception.LocalException {
public class TransmissionError extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package localException;
import exception.LocalException;
public class VersionError extends exception.LocalException {
public class VersionError extends LocalException {
private static final long serialVersionUID = 12L;
}

@ -8,6 +8,7 @@ package protocolP2P;
*/
public enum CodeType {
REQUEST,
REQUEST_TRACKER,
RESPONSE,
ERROR
}

@ -0,0 +1,71 @@
package protocolP2P;
import protocolP2P.Payload;
import tools.BytesArrayTools;
import localException.InternalError;
import localException.SizeError;
import localException.ProtocolError;
import localException.TransmissionError;
/** Representation of payload for discover request.
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class DiscoverRequest extends Payload {
private String filename;
/** Constructor with filename (typically used by client). If filename is null, it is initialized with "".
* @param filename Name of the file you want a server list of.
* @throws InternalError
*/
public DiscoverRequest(String filename) throws InternalError {
super(RequestResponseCode.DISCOVER_REQUEST);
if (filename == null) {
this.filename = "";
} else {
this.filename = filename;
}
}
/** Constructor (typically used by server) with a byte[] parameter containing the Packet received.
* @param packet the full Packet received
* @throws SizeError
* @throws InternalError
* @throws ProtocolError
* @throws TransmissionError
*/
protected DiscoverRequest(byte[] packet) throws SizeError, ProtocolError, InternalError, TransmissionError {
super(packet);
int size = getPayloadSize(packet);
filename = BytesArrayTools.readString(packet, Payload.PAYLOAD_START_POSITION, size);
}
/** Returns a byte[] containing Packet with padding.
* This Packet is still incomplete and should not be send directly.
* ProtocolP2PPacket will use this method to generate the complete Packet.
* @return Packet with padding
* @throws InternalError
*/
protected byte[] toPacket() throws InternalError {
// compute total size
int size = PAYLOAD_START_POSITION + filename.length();
byte[] packet = new byte[size + 1]; // java initialize all to zero
// set request/response code
packet[RequestResponseCode.RRCODE_POSITION] = requestResponseCode.codeValue;
// set Payload size
setPayloadSize(size - PAYLOAD_START_POSITION, packet);
// write filename to Packet
BytesArrayTools.write(packet, filename, PAYLOAD_START_POSITION);
return packet;
}
/** Filename getter.
* @return filename
*/
public String getFilename() {
return filename;
}
}

@ -0,0 +1,117 @@
package protocolP2P;
import protocolP2P.Payload;
import tools.HostItem;
import java.util.ArrayList;
import java.util.List;
import localException.InternalError;
import localException.SizeError;
import localException.ProtocolError;
import localException.TransmissionError;
import tools.BytesArrayTools;
/** Representation of payload for discover response.
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class DiscoverResponse extends Payload {
private List<HostItem> hostList;
private String filename;
private static final int FILENAME_SIZE_POSITION = PAYLOAD_START_POSITION;
private static final int FILENAME_POSITION = FILENAME_SIZE_POSITION + 4;
/** Constructor with filename (typically used by tracker). If filename is null, it is initialized with "".
* @param filename Name of the file related to the server list.
* @param hostList List of servers
* @throws InternalError
*/
public DiscoverResponse(String filename, List<HostItem> hostList) throws InternalError {
super(RequestResponseCode.DISCOVER_RESPONSE);
this.filename = filename;
this.hostList = hostList;
}
/** Constructor (typically used by server) with a byte[] parameter containing the Packet received.
* @param packet the full Packet received
* @throws SizeError
* @throws InternalError
* @throws ProtocolError
* @throws TransmissionError
*/
protected DiscoverResponse(byte[] packet) throws SizeError, ProtocolError, InternalError, TransmissionError {
super(packet);
int size = getPayloadSize(packet);
/* Read filename size */
int filenameSize = BytesArrayTools.readInt(packet, FILENAME_SIZE_POSITION);
/* Read filename */
filename = BytesArrayTools.readString(packet, FILENAME_POSITION, filenameSize);
// TODO
hostList = new ArrayList<>();
int i = FILENAME_POSITION + filenameSize;
while(i<size) {
int port = BytesArrayTools.readInt16Bits(packet, i);
i += 2;
String hostname = BytesArrayTools.readString(packet, i, "\n");
i += hostname.length();
hostList.add(new HostItem(hostname, port));
}
}
/** Returns a byte[] containing Packet with padding.
* This Packet is still incomplete and should not be send directly.
* ProtocolP2PPacket will use this method to generate the complete Packet.
* @return Packet with padding
* @throws InternalError
*/
protected byte[] toPacket() throws InternalError {
int filenameSize = filename.length();
int hostListSize = 0;
for (HostItem hostItem: hostList) {
hostListSize += (2 + hostItem.getHostname().length() + 1);
}
// compute total size
int size = FILENAME_POSITION + filename.length() + hostListSize;
byte[] packet = new byte[size + 1]; // java initialize all to zero
// set request/response code
packet[RequestResponseCode.RRCODE_POSITION] = requestResponseCode.codeValue;
// set Payload size
setPayloadSize(size - PAYLOAD_START_POSITION, packet);
// write filename size
BytesArrayTools.write(packet, FILENAME_SIZE_POSITION, filenameSize);
// write filename
BytesArrayTools.write(packet, filename, FILENAME_POSITION);
int i = FILENAME_POSITION + filename.length();
// write hostList
for(HostItem hostItem: hostList) {
try {
BytesArrayTools.write16Bits(packet, i, hostItem.getPort());
i+=2;
String hostname = hostItem.getHostname() + "\n";
BytesArrayTools.write(packet, hostname, i);
i+=hostname.length();
} catch (SizeError e) {
throw new InternalError();
}
}
return packet;
}
/** HostList getter.
* @return hostList
*/
public List<HostItem> getHostList() {
return hostList;
}
/** Filename getter.
* @return filename
*/
public String getFilename() {
return filename;
}
}

@ -1,12 +1,10 @@
package protocolP2P;
import java.util.Arrays;
import protocolP2P.Payload;
import protocolP2P.RequestResponseCode;
import localException.TransmissionError;
import localException.ProtocolError;
import localException.InternalError;
import localException.SizeError;
import java.io.UnsupportedEncodingException;
import tools.BytesArrayTools;
/** Representation of payload for list response.

@ -6,8 +6,6 @@ import localException.InternalError;
import localException.SizeError;
import localException.TransmissionError;
import tools.BytesArrayTools;
import java.util.Arrays;
import java.io.UnsupportedEncodingException;
/** Representation of payload for load response.
* @author Louis Royer
@ -83,7 +81,7 @@ public class FilePart extends Payload {
// set request/response code
packet[RequestResponseCode.RRCODE_POSITION] = requestResponseCode.codeValue;
// set Payload size
setPayloadSize(size - OFFSET_POSITION, packet);
setPayloadSize(size - PAYLOAD_START_POSITION, packet);
// write offset to Packet
BytesArrayTools.write(packet, OFFSET_POSITION, offset);
// write totalSize to Packet

@ -1,7 +1,6 @@
package protocolP2P;
import protocolP2P.Payload;
import protocolP2P.HashAlgorithm;
import java.io.UnsupportedEncodingException;
import localException.TransmissionError;
import localException.SizeError;
import localException.ProtocolError;

@ -2,7 +2,6 @@ package protocolP2P;
import protocolP2P.Payload;
import java.util.HashMap;
import java.util.Map;
import java.io.UnsupportedEncodingException;
import localException.TransmissionError;
import localException.SizeError;
import localException.ProtocolError;

@ -6,7 +6,6 @@ import localException.ProtocolError;
import localException.InternalError;
import localException.SizeError;
import tools.BytesArrayTools;
import java.io.UnsupportedEncodingException;
/** Representation of payload for load request.
* @author Louis Royer

@ -5,6 +5,10 @@ import protocolP2P.FileList;
import protocolP2P.LoadRequest;
import protocolP2P.HashRequest;
import protocolP2P.HashResponse;
import protocolP2P.DiscoverRequest;
import protocolP2P.DiscoverResponse;
import protocolP2P.Register;
import protocolP2P.Unregister;
import localException.ProtocolError;
import localException.InternalError;
import localException.TransmissionError;
@ -27,11 +31,15 @@ public class Payload {
*/
public Payload(RequestResponseCode requestResponseCode) throws InternalError {
/* asserts to help debugging */
assert requestResponseCode != RequestResponseCode.LIST_RESPONSE || (this instanceof FileList) : "LIST_RESPONSE must use FilePart class";
assert requestResponseCode != RequestResponseCode.LOAD_RESPONSE || (this instanceof FilePart) : "LOAD_RESPONSE must use FileList class";
assert requestResponseCode != RequestResponseCode.LOAD_REQUEST || (this instanceof LoadRequest) : "LOAD_REQUEST must use LoadRequest class";
assert requestResponseCode != RequestResponseCode.HASH_REQUEST || (this instanceof HashRequest) : "HASH_REQUEST must use HashRequest class";
assert requestResponseCode != RequestResponseCode.HASH_RESPONSE || (this instanceof HashResponse) : "HASH_RESPONSE must use HashResponse class";
assert requestResponseCode != RequestResponseCode.LIST_RESPONSE || (this instanceof FileList) : "LIST_RESPONSE must use FilePart class";
assert requestResponseCode != RequestResponseCode.LOAD_RESPONSE || (this instanceof FilePart) : "LOAD_RESPONSE must use FileList class";
assert requestResponseCode != RequestResponseCode.LOAD_REQUEST || (this instanceof LoadRequest) : "LOAD_REQUEST must use LoadRequest class";
assert requestResponseCode != RequestResponseCode.HASH_REQUEST || (this instanceof HashRequest) : "HASH_REQUEST must use HashRequest class";
assert requestResponseCode != RequestResponseCode.HASH_RESPONSE || (this instanceof HashResponse) : "HASH_RESPONSE must use HashResponse class";
assert requestResponseCode != RequestResponseCode.DISCOVER_REQUEST || (this instanceof DiscoverRequest) : "DISCOVER_REQUEST must use DiscoverRequest class";
assert requestResponseCode != RequestResponseCode.DISCOVER_RESPONSE || (this instanceof DiscoverResponse) : "DISCOVER_RESPONSE must use DiscoverResponse class";
assert requestResponseCode != RequestResponseCode.REGISTER || (this instanceof Register) : "REGISTER must use Register class";
assert requestResponseCode != RequestResponseCode.UNREGISTER || (this instanceof Unregister) : "UNREGISTER must use Unregister class";
this.requestResponseCode = requestResponseCode;
checkRequestResponseCode(); // this can throw InternalError
}
@ -46,13 +54,19 @@ public class Payload {
*/
protected Payload(byte[] packet) throws SizeError, ProtocolError, InternalError, TransmissionError {
/* asserts to help debugging */
assert getPayloadSize(packet) + 8 <= packet.length : "Payload is truncated";
if (packet.length < getPayloadSize(packet) + 8) {
assert getPayloadSize(packet) + PAYLOAD_START_POSITION <= packet.length : "Payload is truncated";
if (packet.length < getPayloadSize(packet) + PAYLOAD_START_POSITION) {
throw new TransmissionError();
}
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LIST_RESPONSE || (this instanceof FileList) : "LIST_RESPONSE must use FilePart class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LOAD_RESPONSE || (this instanceof FilePart) : "LOAD_RESPONSE must use FileList class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LOAD_REQUEST || (this instanceof LoadRequest) : "LOAD_REQUEST must use LoadRequest class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LIST_RESPONSE || (this instanceof FileList) : "LIST_RESPONSE must use FilePart class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LOAD_RESPONSE || (this instanceof FilePart) : "LOAD_RESPONSE must use FileList class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.LOAD_REQUEST || (this instanceof LoadRequest) : "LOAD_REQUEST must use LoadRequest class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.HASH_REQUEST || (this instanceof HashRequest) : "HASH_REQUEST must use HashRequest class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.HASH_RESPONSE || (this instanceof HashResponse) : "HASH_RESPONSE must use HashResponse class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.DISCOVER_REQUEST || (this instanceof DiscoverRequest) : "DISCOVER_REQUEST must use DiscoverRequest class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.DISCOVER_RESPONSE || (this instanceof DiscoverResponse) : "DISCOVER_RESPONSE must use DiscoverResponse class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.REGISTER || (this instanceof Register) : "REGISTER must use Register class";
assert RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]) != RequestResponseCode.UNREGISTER || (this instanceof Unregister) : "UNREGISTER must use Unregister class";
requestResponseCode = RequestResponseCode.fromCode(packet[RequestResponseCode.RRCODE_POSITION]);
checkRequestResponseCode(); // this can throw InternalError
}
@ -62,9 +76,16 @@ public class Payload {
*/
private void checkRequestResponseCode() throws InternalError {
/* Incorrect use cases (use subclasses instead) */
if ((requestResponseCode == RequestResponseCode.LIST_RESPONSE && !(this instanceof FileList))
|| (requestResponseCode == RequestResponseCode.LOAD_RESPONSE && !(this instanceof FilePart))
|| (requestResponseCode == RequestResponseCode.LOAD_REQUEST && !(this instanceof LoadRequest))) {
if ((requestResponseCode == RequestResponseCode.LIST_RESPONSE && !(this instanceof FileList))
|| (requestResponseCode == RequestResponseCode.LOAD_RESPONSE && !(this instanceof FilePart))
|| (requestResponseCode == RequestResponseCode.LOAD_REQUEST && !(this instanceof LoadRequest))
|| (requestResponseCode == RequestResponseCode.HASH_REQUEST && !(this instanceof HashRequest))
|| (requestResponseCode == RequestResponseCode.HASH_RESPONSE && !(this instanceof HashResponse))
|| (requestResponseCode == RequestResponseCode.DISCOVER_REQUEST && !(this instanceof DiscoverRequest))
|| (requestResponseCode == RequestResponseCode.DISCOVER_RESPONSE && !(this instanceof DiscoverResponse))
|| (requestResponseCode == RequestResponseCode.REGISTER && !(this instanceof Register))
|| (requestResponseCode == RequestResponseCode.UNREGISTER && !(this instanceof Unregister))
) {
throw new InternalError();
}
}

@ -11,8 +11,9 @@ import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.EmptyFile;
import java.net.InetAddress;
import remoteException.NotATracker;
import java.io.IOException;
import tools.HostItem;
/** Representation of packet.
* @author Louis Royer
@ -50,9 +51,16 @@ public abstract class ProtocolP2PPacket {
*/
public abstract void sendResponse(ProtocolP2PPacket response) throws InternalError, IOException, SocketClosed;
/** Get hostItem of the sender
* @return hostItem of the sender
* @throws InternalError
*/
public abstract HostItem getHostItem() throws InternalError;
/** Receive a response
* @throws EmptyFile
* @throws NotFound
* @throws NotATracker
* @throws EmptyDirectory
* @throws InternalRemoteError
* @throws VersionRemoteError
@ -65,7 +73,7 @@ public abstract class ProtocolP2PPacket {
* @throws IOException
* @throws SocketClosed
*/
public abstract ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException, SocketClosed;
public abstract ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, NotATracker, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException, SocketClosed;
/** Receive a request, subclasses must overwrite this constructor.
* @param socket socket used to get the request
@ -101,6 +109,7 @@ public abstract class ProtocolP2PPacket {
*/
protected void checkProtocolVersion() throws VersionError {
if (PROTOCOL_VERSION != version) {
System.err.println("Error: wrong version in packet:" + version);
throw new VersionError();
}
}

@ -5,20 +5,19 @@ import localException.SizeError;
import localException.TransmissionError;
import localException.VersionError;
import localException.SocketClosed;
import remoteException.NotATracker;
import remoteException.EmptyDirectory;
import remoteException.InternalRemoteError;
import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.EmptyFile;
import tools.BytesArrayTools;
import tools.HostItem;
import protocolP2P.Payload;
import protocolP2P.RequestResponseCode;
import protocolP2P.LoadRequest;
import protocolP2P.FileList;
import protocolP2P.FilePart;
import java.util.ArrayList;
import java.lang.Byte;
import java.io.IOException;
import java.io.OutputStream;
import java.net.Socket;
@ -67,9 +66,9 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
socket.close();
} catch (IOException e2) {
System.err.println("Cannot close socket");
} finally {
throw new SocketClosed();
}
}
}
@ -109,14 +108,16 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
Socket ss = (Socket)socket;
byte[] packet = new byte[1024];
try {
System.err.println("Reading " + ss.getInputStream().read(packet) + " bytes");
if (-1 == ss.getInputStream().read(packet)) {
throw new IOException();
}
} catch (IOException e) {
// Error: cannot read request, closing socket
try {
ss.close();
throw new SocketClosed();
} catch (IOException e2) {
System.err.println("Cannot close socket");
} finally {
throw new SocketClosed();
}
}
@ -138,6 +139,8 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
case LOAD_RESPONSE:
case LIST_RESPONSE:
case HASH_RESPONSE:
case DISCOVER_RESPONSE:
case NOT_A_TRACKER:
// we were expecting a request, but we are receiving a response
throw new ProtocolError();
default :
@ -188,6 +191,7 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
* @return ProtocolP2PPacket received
* @throws EmptyFile
* @throws NotFound
* @throws NotATracker
* @throws EmptyDirectory
* @throws InternalRemoteError
* @throws VersionRemoteError
@ -200,14 +204,27 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
* @throws IOException
* @throws SocketClosed
*/
public ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException, SocketClosed {
public ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, NotATracker, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException, SocketClosed {
assert requestSocket != null : "Cannot receive response because request packet not sent.";
if (requestSocket == null) {
throw new InternalError();
}
// reception
byte[] packet = new byte[8192];
requestSocket.getInputStream().read(packet);
try {
if (-1== requestSocket.getInputStream().read(packet)) {
throw new IOException();
}
} catch (IOException e) {
// Error: cannot read request, closing socket
try {
requestSocket.close();
throw new SocketClosed();
} catch (IOException e2) {
System.err.println("Cannot close socket");
throw new SocketClosed();
}
}
// contruction
try {
ProtocolP2PPacketTCP p = new ProtocolP2PPacketTCP(packet);
@ -225,6 +242,8 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
throw new NotFound();
case EMPTY_FILE:
throw new EmptyFile();
case NOT_A_TRACKER:
throw new NotATracker();
default :
return (ProtocolP2PPacket)p;
}
@ -288,6 +307,18 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
case HASH_RESPONSE:
payload = (Payload) new HashResponse(packet);
break;
case REGISTER:
payload = (Payload) new Register(packet);
break;
case UNREGISTER:
payload = (Payload) new Unregister(packet);
break;
case DISCOVER_REQUEST:
payload = (Payload) new DiscoverRequest(packet);
break;
case DISCOVER_RESPONSE:
payload = (Payload) new DiscoverResponse(packet);
break;
default:
payload = new Payload(packet); // this can throw TransmissionError
break;
@ -319,4 +350,15 @@ public class ProtocolP2PPacketTCP extends ProtocolP2PPacket {
return packet;
}
/** Get hostItem of the sender
* @return hostItem of the sender
* @throws InternalError
*/
public HostItem getHostItem() throws InternalError {
if (responseSocket == null) {
throw new InternalError();
}
return new HostItem(responseSocket.getInetAddress().getHostName(), responseSocket.getPort());
}
}

@ -5,6 +5,7 @@ import localException.SizeError;
import localException.TransmissionError;
import localException.VersionError;
import localException.SocketClosed;
import remoteException.NotATracker;
import remoteException.EmptyDirectory;
import remoteException.InternalRemoteError;
import remoteException.NotFound;
@ -12,13 +13,12 @@ import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.EmptyFile;
import tools.BytesArrayTools;
import tools.HostItem;
import protocolP2P.Payload;
import protocolP2P.RequestResponseCode;
import protocolP2P.LoadRequest;
import protocolP2P.FileList;
import protocolP2P.FilePart;
import java.util.ArrayList;
import java.lang.Byte;
import java.net.DatagramPacket;
import java.net.DatagramSocket;
import java.net.SocketAddress;
@ -33,6 +33,7 @@ import java.io.IOException;
public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
private final static int CHECKSUM_POSITION = 2;
private HostItem remoteHost;
private SocketAddress responseSocketAddress; // socket address used when receptionning request and to sending response
private DatagramSocket responseSocket; // socket used to recept request and send response
private DatagramSocket requestSocket; // socket used to send request and to reception response
@ -112,6 +113,7 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
DatagramPacket reception = new DatagramPacket(packet, packet.length);
ss.receive(reception);
responseSocketAddress = reception.getSocketAddress();
remoteHost = new HostItem(reception.getAddress().getHostName(), reception.getPort());
// contruction
boolean protocolError = false;
try {
@ -130,6 +132,8 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
case LOAD_RESPONSE:
case LIST_RESPONSE:
case HASH_RESPONSE:
case DISCOVER_RESPONSE:
case NOT_A_TRACKER:
// we were expecting a request, but we are receiving a response
throw new ProtocolError();
default :
@ -183,6 +187,7 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
* @return ProtocolP2PPacket received
* @throws EmptyFile
* @throws NotFound
* @throws NotATracker
* @throws EmptyDirectory
* @throws InternalRemoteError
* @throws VersionRemoteError
@ -194,7 +199,7 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
* @throws SizeError
* @throws IOException
*/
public ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException {
public ProtocolP2PPacket receiveResponse() throws EmptyFile, NotFound, NotATracker, EmptyDirectory, InternalRemoteError, VersionRemoteError, ProtocolRemoteError, TransmissionError, ProtocolError, VersionError, InternalError, SizeError, IOException {
assert requestSocket != null : "Cannot receive response because request packet not sent.";
if (requestSocket == null) {
throw new InternalError();
@ -203,6 +208,7 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
byte[] packet = new byte[8192];
DatagramPacket reception = new DatagramPacket(packet, packet.length);
requestSocket.receive(reception);
// contruction
try {
ProtocolP2PPacketUDP p = new ProtocolP2PPacketUDP(packet);
@ -220,6 +226,8 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
throw new NotFound();
case EMPTY_FILE:
throw new EmptyFile();
case NOT_A_TRACKER:
throw new NotATracker();
default :
return (ProtocolP2PPacket)p;
}
@ -284,6 +292,18 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
case HASH_RESPONSE:
payload = (Payload) new HashResponse(packet);
break;
case REGISTER:
payload = (Payload) new Register(packet);
break;
case UNREGISTER:
payload = (Payload) new Unregister(packet);
break;
case DISCOVER_REQUEST:
payload = (Payload) new DiscoverRequest(packet);
break;
case DISCOVER_RESPONSE:
payload = (Payload) new DiscoverResponse(packet);
break;
default:
payload = new Payload(packet); // this can throw TransmissionError
break;
@ -353,7 +373,6 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
* @param packet full packet
* @throws TransmissionError
*/
private void checkCheckSum(byte [] packet) throws TransmissionError {
try {
int checksum = BytesArrayTools.readInt16Bits(packet, CHECKSUM_POSITION);
@ -365,4 +384,15 @@ public class ProtocolP2PPacketUDP extends ProtocolP2PPacket {
throw new TransmissionError();
}
}
/** Get hostItem of the sender
* @return hostItem of the sender
* @throws InternalError
*/
public HostItem getHostItem() throws InternalError {
if (remoteHost == null) {
throw new InternalError();
}
return remoteHost;
}
}

@ -0,0 +1,77 @@
package protocolP2P;
import protocolP2P.Payload;
import tools.HostItem;
import tools.BytesArrayTools;
import localException.SizeError;
import localException.InternalError;
import localException.TransmissionError;
import localException.ProtocolError;
/** Representation of payload for unregister.
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class Register extends Payload {
private HostItem hostItem;
private static final int HOSTNAME_START_POSITION = PAYLOAD_START_POSITION + 2;
/** Constructor with hostItem (typically used by client)
* @param hostItem Host you want to register.
* @throws InternalError
*/
public Register(HostItem hostItem) throws InternalError {
super(RequestResponseCode.REGISTER);
this.hostItem = hostItem;
}
/** Constructor (typically used by server) with a byte[] parameter containing the Packet received.
* @param packet the full Packet received
* @throws SizeError
* @throws InternalError
* @throws ProtocolError
* @throws TransmissionError
*/
protected Register(byte[] packet) throws SizeError, ProtocolError, InternalError, TransmissionError {
super(packet);
int size = getPayloadSize(packet);
int port = BytesArrayTools.readInt16Bits(packet, PAYLOAD_START_POSITION);
String hostname = BytesArrayTools.readString(packet, HOSTNAME_START_POSITION, size - HOSTNAME_START_POSITION + PAYLOAD_START_POSITION);
hostItem = new HostItem(hostname, port);
}
/** Returns a byte[] containing Packet with padding.
* This Packet is still incomplete and should not be send directly.
* ProtocolP2PPacket will use this method to generate the complete Packet.
* @return Packet with padding
* @throws InternalError
*/
protected byte[] toPacket() throws InternalError {
String hostname = hostItem.getHostname();
// compute total size
int size = HOSTNAME_START_POSITION + hostname.length();
byte[] packet = new byte[size + 1]; // java initialize all to zero
// set request/response code
packet[RequestResponseCode.RRCODE_POSITION] = requestResponseCode.codeValue;
// set Payload size
setPayloadSize(size - PAYLOAD_START_POSITION, packet);
// write port to Packet
try {
BytesArrayTools.write16Bits(packet, PAYLOAD_START_POSITION, hostItem.getPort());
} catch (SizeError e) {
throw new InternalError();
}
// write hostname to Packet
BytesArrayTools.write(packet, hostname, HOSTNAME_START_POSITION);
return packet;
}
/** HostItem getter.
* @return hostItem
*/
public HostItem getHostItem() {
return hostItem;
}
}

@ -15,15 +15,20 @@ public enum RequestResponseCode {
LIST_REQUEST(CodeType.REQUEST, (byte)0x00),
LOAD_REQUEST(CodeType.REQUEST, (byte)0x01),
HASH_REQUEST(CodeType.REQUEST, (byte)0x02),
DISCOVER_REQUEST(CodeType.REQUEST_TRACKER, (byte)0x03),
REGISTER(CodeType.REQUEST_TRACKER, (byte)0x04),
UNREGISTER(CodeType.REQUEST_TRACKER, (byte)0x05),
LIST_RESPONSE(CodeType.RESPONSE, (byte)0x80),
LOAD_RESPONSE(CodeType.RESPONSE, (byte)0x81),
HASH_RESPONSE(CodeType.RESPONSE, (byte)0x82),
DISCOVER_RESPONSE(CodeType.RESPONSE, (byte)0x83),
VERSION_ERROR(CodeType.ERROR, (byte)0xC0),
PROTOCOL_ERROR(CodeType.ERROR, (byte)0xC1),
INTERNAL_ERROR(CodeType.ERROR, (byte)0xC2),
EMPTY_DIRECTORY(CodeType.ERROR, (byte)0xC3),
NOT_FOUND(CodeType.ERROR, (byte)0xC4),
EMPTY_FILE(CodeType.ERROR, (byte)0xC5);
EMPTY_FILE(CodeType.ERROR, (byte)0xC5),
NOT_A_TRACKER(CodeType.ERROR, (byte)0xC6);
public final CodeType codeType;
public final byte codeValue;

@ -0,0 +1,77 @@
package protocolP2P;
import protocolP2P.Payload;
import tools.HostItem;
import tools.BytesArrayTools;
import localException.SizeError;
import localException.InternalError;
import localException.TransmissionError;
import localException.ProtocolError;
/** Representation of payload for unregister.
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class Unregister extends Payload {
private HostItem hostItem;
private static final int HOSTNAME_START_POSITION = PAYLOAD_START_POSITION + 2;
/** Constructor with hostItem (typically used by client)
* @param hostItem Host you want to register.
* @throws InternalError
*/
public Unregister(HostItem hostItem) throws InternalError {
super(RequestResponseCode.UNREGISTER);
this.hostItem = hostItem;
}
/** Constructor (typically used by server) with a byte[] parameter containing the Packet received.
* @param packet the full Packet received
* @throws SizeError
* @throws InternalError
* @throws ProtocolError
* @throws TransmissionError
*/
protected Unregister(byte[] packet) throws SizeError, ProtocolError, InternalError, TransmissionError {
super(packet);
int size = getPayloadSize(packet);
int port = BytesArrayTools.readInt16Bits(packet, PAYLOAD_START_POSITION);
String hostname = BytesArrayTools.readString(packet, HOSTNAME_START_POSITION, size - HOSTNAME_START_POSITION + PAYLOAD_START_POSITION);
hostItem = new HostItem(hostname, port);
}
/** Returns a byte[] containing Packet with padding.
* This Packet is still incomplete and should not be send directly.
* ProtocolP2PPacket will use this method to generate the complete Packet.
* @return Packet with padding
* @throws InternalError
*/
protected byte[] toPacket() throws InternalError {
String hostname = hostItem.getHostname();
// compute total size
int size = HOSTNAME_START_POSITION + hostname.length();
byte[] packet = new byte[size + 1]; // java initialize all to zero
// set request/response code
packet[RequestResponseCode.RRCODE_POSITION] = requestResponseCode.codeValue;
// set Payload size
setPayloadSize(size - PAYLOAD_START_POSITION, packet);
// write port to Packet
try {
BytesArrayTools.write16Bits(packet, PAYLOAD_START_POSITION, hostItem.getPort());
} catch (SizeError e) {
throw new InternalError();
}
// write hostname to Packet
BytesArrayTools.write(packet, hostname, HOSTNAME_START_POSITION);
return packet;
}
/** HostItem getter.
* @return hostItem
*/
public HostItem getHostItem() {
return hostItem;
}
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class EmptyDirectory extends exception.RemoteException {
public class EmptyDirectory extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class EmptyFile extends exception.RemoteException {
public class EmptyFile extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class InternalRemoteError extends exception.RemoteException {
public class InternalRemoteError extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -0,0 +1,7 @@
package remoteException;
import exception.RemoteException;
public class NotATracker extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class NotFound extends exception.RemoteException {
public class NotFound extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class ProtocolRemoteError extends exception.RemoteException {
public class ProtocolRemoteError extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -2,6 +2,6 @@ package remoteException;
import exception.RemoteException;
public class VersionRemoteError extends exception.RemoteException {
public class VersionRemoteError extends RemoteException {
private static final long serialVersionUID = 12L;
}

@ -23,20 +23,17 @@ import localException.SizeError;
import localException.TransmissionError;
import localException.VersionError;
import localException.SocketClosed;
import remoteException.EmptyDirectory;
import remoteException.InternalRemoteError;
import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.EmptyFile;
import java.util.Arrays;
import tools.Logger;
import tools.LogLevel;
import tools.HostItem;
import java.util.HashMap;
import java.util.Map;
import protocolP2P.HashAlgorithm;
import protocolP2P.HashRequest;
import protocolP2P.HashResponse;
import protocolP2P.Register;
import protocolP2P.Unregister;
/** Implementation of P2P-JAVA-PROJECT VERSION 1.0 protocol for TCP.
@ -50,24 +47,29 @@ public class ServerManagementTCP implements Runnable {
private String[] fileList;
private Map<String, byte[]> sha512 = new HashMap<>();
private String baseDirectory;
private int TCPPort;
private ServerSocket socket;
private Logger logger;
private HostItem tracker;
private HostItem server;
/** Constructor for TCP implementation, with baseDirectory and TCPPort parameters.
* @param baseDirectory the root directory where files are stored
* @param hostName the server will bind on this address
* @param TCPPort the server will listen on this port
* @param logger Logger item
* @param tracker Tracker
*/
public ServerManagementTCP(String baseDirectory, int TCPPort, Logger logger) {
public ServerManagementTCP(String baseDirectory, String hostName, int port, Logger logger, HostItem tracker) {
server = new HostItem(hostName, port);
this.tracker = tracker;
this.logger = logger;
this.baseDirectory = baseDirectory;
this.TCPPort = TCPPort;
initFileList();
initSha512();
try {
socket = new ServerSocket(TCPPort);
socket = new ServerSocket(server.getPort(), 10, server.getInetAddress());
} catch (SocketException e) {
logger.writeTCP("Error: cannot listen on port " + TCPPort, LogLevel.Error);
logger.writeTCP("Error: cannot listen on " + server, LogLevel.Error);
System.exit(-1);
} catch (IOException e) {
logger.writeTCP("Error: cannot openning socket", LogLevel.Error);
@ -79,6 +81,7 @@ public class ServerManagementTCP implements Runnable {
*/
public void run() {
logger.writeTCP("Server sucessfully started", LogLevel.Info);
(new Thread(new TrackerRegisterer())).start();
do {
try {
Socket s = socket.accept();
@ -93,14 +96,12 @@ public class ServerManagementTCP implements Runnable {
/** Private runnable class allowing to serve one client.
*/
private class ClientHandler implements Runnable {
private Socket s;
private String addr;
private HostItem addr;
/** Constructor with a socket.
* @param s Socket of this client
*/
public ClientHandler(Socket s) {
this.s = s;
this.addr = "[" +s.getInetAddress().getHostAddress() + "]:" + s.getPort() + " ";
addr = new HostItem(s);
}
/** Implementation of runnable. This method allow to serve one client.
@ -108,11 +109,11 @@ public class ServerManagementTCP implements Runnable {
public void run() {
boolean end = false;
logger.writeTCP(addr + "New connection", LogLevel.Action);
logger.writeTCP("[" + addr + "] New connection", LogLevel.Action);
do {
end = handleRequest();
} while(!end);
logger.writeTCP(addr + "End of connection", LogLevel.Action);
logger.writeTCP("[" + addr + "] End of connection", LogLevel.Action);
}
/** Respond to next request incomming on socket s.
@ -121,7 +122,7 @@ public class ServerManagementTCP implements Runnable {
*/
private boolean handleRequest() {
try {
ProtocolP2PPacketTCP pd = new ProtocolP2PPacketTCP((Object)s);
ProtocolP2PPacketTCP pd = new ProtocolP2PPacketTCP((Object)addr.getTCPSocket());
Payload p = pd.getPayload();
switch (p.getRequestResponseCode()) {
case LOAD_REQUEST:
@ -136,6 +137,18 @@ public class ServerManagementTCP implements Runnable {
logger.writeTCP(addr + "HASH_REQUEST", LogLevel.Action);
sendHashResponse(pd);
break;
case DISCOVER_REQUEST:
logger.writeTCP(addr + "DISCOVER_REQUEST", LogLevel.Action);
sendNotATracker(pd);
break;
case UNREGISTER:
logger.writeTCP(addr + "UNREGISTER", LogLevel.Action);
sendNotATracker(pd);
break;
case REGISTER:
logger.writeTCP(addr + "REGISTER", LogLevel.Action);
sendNotATracker(pd);
break;
default:
logger.writeTCP(addr + "Received grabbage", LogLevel.Action);
sendInternalError(pd);
@ -198,7 +211,18 @@ public class ServerManagementTCP implements Runnable {
logger.writeTCP(e, LogLevel.Error);
}
}
/** Send a NotATracker error message.
* @param pd ProtocolP2PPacketTCP to respond
*/
private void sendNotATracker(ProtocolP2PPacketTCP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketTCP(new Payload(RequestResponseCode.NOT_A_TRACKER)));
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
}
}
/** Send response to list request
* @param pd Request received
*/
@ -309,4 +333,40 @@ public class ServerManagementTCP implements Runnable {
}
}
/** Private runnable class allowing to initialize tracker while initializing server. */
private class TrackerRegisterer implements Runnable {
/** Runnable implementation */
public void run() {
try {
registerTracker();
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
System.exit(-4);
}
}
/** Register server on tracker
* @throws InternalError
* @throws IOException
* @throws SocketClosed
*/
private void registerTracker() throws InternalError, IOException, SocketClosed {
logger.writeTCP("Unregistering from tracker", LogLevel.Info);
ProtocolP2PPacket p = (ProtocolP2PPacket)new ProtocolP2PPacketTCP((Payload)new Unregister(server));
p.sendRequest((Object)tracker.getTCPSocket());
// FIXME: this is a hack
// ProtocolP2PPacketTCP reads 1024 bytes but if 2 request comes at the same time InputStream is cleared fully
// and we keep waiting forever on the other side
// a fix could be to read only the header first, and read the required size after
try {
Thread.sleep(100);
} catch (InterruptedException e) {}
logger.writeTCP("Registering into tracker", LogLevel.Info);
p = (ProtocolP2PPacket)new ProtocolP2PPacketTCP((Payload)new Register(server));
p.sendRequest((Object)tracker.getTCPSocket());
logger.writeTCP("Registering completed", LogLevel.Debug);
tracker.closeTCPSocket();
}
}
}

@ -22,12 +22,6 @@ import localException.SizeError;
import localException.TransmissionError;
import localException.VersionError;
import localException.SocketClosed;
import remoteException.EmptyDirectory;
import remoteException.InternalRemoteError;
import remoteException.NotFound;
import remoteException.ProtocolRemoteError;
import remoteException.VersionRemoteError;
import remoteException.EmptyFile;
import java.util.Arrays;
import tools.Logger;
import tools.LogLevel;
@ -36,6 +30,10 @@ import java.util.Map;
import protocolP2P.HashAlgorithm;
import protocolP2P.HashRequest;
import protocolP2P.HashResponse;
import tools.HostItem;
import protocolP2P.Register;
import protocolP2P.Unregister;
import java.net.UnknownHostException;
/** Implementation of P2P-JAVA-PROJECT VERSION 1.0 protocol for UDP.
* @author Louis Royer
@ -48,24 +46,29 @@ public class ServerManagementUDP implements Runnable {
private String[] fileList;
private Map<String, byte[]> sha512 = new HashMap<>();
private String baseDirectory;
private int UDPPort;
private DatagramSocket socket;
private Logger logger;
private HostItem tracker;
private HostItem server;
/** Constructor for UDP implementation, with baseDirectory and UDPPort parameters.
* @param baseDirectory the root directory where files are stored
* @param UDPPort the server will listen on this port
* @param hostName the server will bind on this address
* @param port the server will listen on this port
* @param logger Logger item
* @param tracker Tracker
*/
public ServerManagementUDP(String baseDirectory, int UDPPort, Logger logger) {
public ServerManagementUDP(String baseDirectory, String hostName, int port, Logger logger, HostItem tracker) {
server = new HostItem(hostName, port);
this.logger = logger;
this.baseDirectory = baseDirectory;
this.UDPPort = UDPPort;
this.tracker = tracker;
initFileList();
initSha512();
try {
socket = new DatagramSocket(UDPPort);
socket = new DatagramSocket(server.getPort(), server.getInetAddress());
} catch (SocketException e) {
logger.writeUDP("Error: cannot listen on port " + UDPPort, LogLevel.Error);
logger.writeUDP("Error: cannot listen on " + server, LogLevel.Error);
System.exit(-1);
}
}
@ -74,21 +77,28 @@ public class ServerManagementUDP implements Runnable {
*/
public void run() {
logger.writeUDP("Server sucessfully started", LogLevel.Info);
(new Thread(new TrackerRegisterer())).start();
while(true) {
try {
ProtocolP2PPacketUDP pd = new ProtocolP2PPacketUDP((Object)socket);
Payload p = pd.getPayload();
switch (p.getRequestResponseCode()) {
case LOAD_REQUEST:
LoadRequestManagement(logger, p, pd);
loadRequestManagement(pd);
break;
case LIST_REQUEST:
ListRequestManagement(logger, pd);
listRequestManagement(pd);
break;
case HASH_REQUEST:
logger.writeUDP("Received HASH_REQUEST", LogLevel.Action);
sendHashResponse(pd);
break;
case DISCOVER_REQUEST:
case UNREGISTER:
case REGISTER:
logger.writeUDP("Received Tracker request", LogLevel.Action);
sendNotATracker(pd);
break;
default:
sendInternalError(pd);
}
@ -148,7 +158,11 @@ public class ServerManagementUDP implements Runnable {
}
}
public void LoadRequestManagement(Logger logger, Payload p, ProtocolP2PPacketUDP pd){
/** Respond to LOAD requests
* @param pd ProtocolP2PPacketUDP
*/
public void loadRequestManagement(ProtocolP2PPacketUDP pd){
Payload p = pd.getPayload();
logger.writeUDP("Received LOAD_REQUEST", LogLevel.Action);
assert p instanceof LoadRequest : "payload must be an instance of LoadRequest";
if (!(p instanceof LoadRequest)) {
@ -198,14 +212,17 @@ public class ServerManagementUDP implements Runnable {
}
}
public void ListRequestManagement(Logger logger, ProtocolP2PPacketUDP pd){
/** Respond to LIST requests
* @param pd ProtocolP2PPacketUDP
*/
public void listRequestManagement(ProtocolP2PPacketUDP pd) {
logger.writeUDP("Received LIST_REQUEST", LogLevel.Action);
try {
if (fileList.length == 0) {
logger.writeUDP("Sending EMPTY_DIRECTORY", LogLevel.Action);
logger.writeUDP("Sending EMPTY_DIRECTORY to host " + pd.getHostItem(), LogLevel.Action);
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.EMPTY_DIRECTORY)));
} else {
logger.writeUDP("Sending LIST_RESPONSE", LogLevel.Action);
logger.writeUDP("Sending LIST_RESPONSE to host " + pd.getHostItem(), LogLevel.Action);
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP((Payload)(new FileList(fileList))));
}
} catch (Exception e2) {
@ -213,6 +230,17 @@ public class ServerManagementUDP implements Runnable {
}
}
/** Send a NotATracker error message.
* @param pd ProtocolP2PPacketUDP to respond
*/
private void sendNotATracker(ProtocolP2PPacketUDP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.NOT_A_TRACKER)));
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
}
}
/** Send hash response to hash request
* @param pd Request received
*/
@ -251,5 +279,33 @@ public class ServerManagementUDP implements Runnable {
}
}
}
/** Private runnable class allowing to initialize tracker while initializing server. */
private class TrackerRegisterer implements Runnable {
/** Runnable implementation */
public void run() {
try {
registerTracker();
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
System.exit(-4);
}
}
/** Register server on tracker
* @throws InternalError
* @throws IOException
* @throws SocketClosed
*/
private void registerTracker() throws InternalError, IOException, SocketClosed {
logger.writeUDP("Unregistering from tracker", LogLevel.Info);
ProtocolP2PPacket p = (ProtocolP2PPacket)new ProtocolP2PPacketUDP((Payload)new Unregister(server));
p.sendRequest((Object)tracker.getUDPSocket());
logger.writeUDP("Registering into tracker", LogLevel.Info);
p = (ProtocolP2PPacket)new ProtocolP2PPacketUDP((Payload)new Register(server));
p.sendRequest((Object)tracker.getUDPSocket());
logger.writeUDP("Registering completed", LogLevel.Debug);
tracker.closeUDPSocket();
}
}
}

@ -3,6 +3,8 @@ import serverP2P.ServerManagementUDP;
import serverP2P.ServerManagementTCP;
import tools.Directories;
import tools.Logger;
import tools.HostItem;
import java.util.Scanner;
/** Server only implementation
* First argument of main method is port listened by the server, and is mandatory.
@ -16,33 +18,36 @@ public class ServerP2P {
private Directories directories;
static private final String subdir = "seeded/";
private Logger logger;
private HostItem tracker;
/** Constructor with portStr containing a port number.
* @param portStr String containing port number of listening.
*/
public ServerP2P(String portStr) {
public ServerP2P(String portStr, String trackerHostname, String trackerPortStr) {
port = Integer.valueOf(Integer.parseInt(portStr));
tracker = new HostItem(trackerHostname, Integer.valueOf(Integer.parseInt(trackerPortStr)));
directories = new Directories("P2P_JAVA_PROJECT_SERVER_" + port);
directories.createSubdir(subdir);
logger = new Logger(directories.getDataHomeDirectory() + "server.log");
System.out.println("Server will listen on port " + port + " and serve files from " + directories.getDataHomeDirectory() + subdir);
directories.askOpenDataHomeDirectory(subdir);
Scanner scanner = new Scanner(System.in);
directories.askOpenDataHomeDirectory(subdir, scanner);
scanner.close();
}
/** Main program entry point
* first parameter is port number and is mandatory
* to test, run with: java -ea serverP2P.ServerP2P -- <portNumber>
* to test, run with: java -ea serverP2P.ServerP2P -- <portNumber> <TrackerHostname> <TrackerPort>
* @param args parameters
*/
public static void main(String [] args) {
if (args[1].equals("help") || args[1].equals("-h") || args[1].equals("h")){
System.out.println("usage : java -ea serveurP2P.ServeurP2P -- <serveurPORT> <trackerHOSTNAME> <trackerPORT>");
}
else{
ServerP2P s = new ServerP2P(args[1]);
ServerManagementUDP smudp = new ServerManagementUDP(s.directories.getDataHomeDirectory() + subdir, s.port, s.logger);
ServerManagementTCP smtcp = new ServerManagementTCP(s.directories.getDataHomeDirectory() + subdir, s.port, s.logger);
ServerP2P s = new ServerP2P(args[1], args[2], args[3]);
ServerManagementUDP smudp = new ServerManagementUDP(s.directories.getDataHomeDirectory() + subdir, "localhost", s.port, s.logger, s.tracker);
ServerManagementTCP smtcp = new ServerManagementTCP(s.directories.getDataHomeDirectory() + subdir, "localhost", s.port, s.logger, s.tracker);
Thread tudp = new Thread(smudp);
tudp.setName("server UDP P2P-JAVA-PROJECT");
tudp.start();
@ -51,5 +56,4 @@ public class ServerP2P {
ttcp.start();
}
}
}

@ -219,6 +219,39 @@ public class BytesArrayTools {
}
}
/** Read string from byte array
* @param array Byte array to read
* @param start start position in byte array
* @param endStr End string delimiter
* @return String read
* @throws InternalError
*/
public static String readString(byte[] array, int start, String endStr) throws InternalError {
boolean failed = false;
try {
int i = start;
while(true) {
int j = i;
for(byte b: endStr.getBytes()) {
if (b != array[j]) {
failed = true;
break;
}
j++;
}
if (failed) {
i++;
failed = false;
} else {
break;
}
}
return readString(array, start, i - start);
} catch(IndexOutOfBoundsException e) {
throw new InternalError();
}
}
/** Write byte Array to byte Array.
* @param dst Destination byte Array
* @param src Source byte Array

@ -70,6 +70,7 @@ public class Directories {
}
/** Opens dataHomeDirectory if supported.
* @param subdir Subdir to open (optional)
*/
private void openDataHomeDirectory(String subdir) {
String d = dataHomeDirectory;
@ -93,11 +94,12 @@ public class Directories {
}
/** Asks the user to choose opening dataHomeDirectory or not.
* @param subdir subdirectory to open (optional)
* @param scanner Scanner to use for reading input
*/
public void askOpenDataHomeDirectory(String subdir) {
public void askOpenDataHomeDirectory(String subdir, Scanner scanner) {
if (os.equals("Linux") || os.equals("Mac") || os.equals("Mac OS X")) {
System.out.println("Do you want to open this directory? (y/N)");
Scanner scanner = new Scanner(System.in);
String resp = scanner.nextLine();
if (resp.equals("y") || resp.equals("Y")) {
System.out.println("Openning");

@ -17,6 +17,7 @@ public class HostItem {
private int port;
private Socket tcpSocket;
private DatagramSocket udpSocket;
private InetAddress inetAddress;
/** Constructor with hostname and port
* @param hostname Hostname
@ -35,13 +36,13 @@ public class HostItem {
try {
tcpSocket = new Socket(InetAddress.getByName(hostname), port);
} catch (SocketException e) {
System.err.println("Error: No TCP socket available.");
System.err.println("getTCPSocket error: No TCP socket available.");
System.exit(-1);
} catch (UnknownHostException e) {
System.err.println("Error: Unknown host.");
System.err.println("getTCPSocket error: Unknown host (" + this + ").");
System.exit(-1);
} catch (IOException e) {
System.err.println("Error: Cannot create TCP socket");
System.err.println("getTCPSocket error: Cannot create TCP socket (" + this + ").");
System.exit(-1);
}
}
@ -70,19 +71,86 @@ public class HostItem {
udpSocket = new DatagramSocket();
udpSocket.connect(InetAddress.getByName(hostname), port);
} catch (SocketException e) {
System.err.println("Error: No UDP socket available.");
System.err.println("getUDPSocket error: No UDP socket available." );
System.exit(-1);
} catch (UnknownHostException e) {
System.err.println("Error: Unknown host.");
System.err.println("getUDPSocket error: Unknown host (" + this + ").");
System.exit(-1);
}
}
return udpSocket;
}
/** Closes udp socket
*/
public void closeUDPSocket() {
if (udpSocket != null) {
udpSocket.close();
}
udpSocket = null;
}
/** Getter for hostname */
public String getHostname() {
return hostname;
}
/** Getter for port */
public int getPort() {
return port;
}
/** To string
* @return String representation
*/
public String toString() {
return getHostname() + " (port " + getPort() + ")";
}
/** Override of equals method
* @param other Object to test equality with
* @return true if equals
*/
public boolean equals(Object other) {
boolean result = false;
if (other instanceof HostItem) {
HostItem that = (HostItem) other;
result = this.getHostname() == that.getHostname() && this.getPort() == that.getPort();
}
return result;
}
/** Override of hashCode method
* @return a hash code for this object.
*/
public int hashCode() {
return hostname.hashCode() ^ port;
}
/** Get InetAddress associated to this HostItem.
* @return InetAddress
*/
public InetAddress getInetAddress() {
if (inetAddress == null) {
try {
inetAddress = InetAddress.getByName(getHostname());
} catch (UnknownHostException e) {
System.err.println("getInetAddress error: Unknown host (" + this + ").");
System.exit(-1);
}
}
return inetAddress;
}
/** Constructor from Socket.
* @param s socket
*/
public HostItem(Socket s) {
tcpSocket = s;
inetAddress = s.getInetAddress();
hostname = inetAddress.getCanonicalHostName();
port = s.getPort();
}
}

@ -1,55 +0,0 @@
package tools;
import java.util.Scanner;
import java.util.ArrayList;
import java.util.List;
import java.util.InputMismatchException;
import tools.HostItem;
/** Helper to get the server list from the user
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class HostList {
/**
* Let the user enter all server and puts it in a list
* @return list of servers
*/
public static List<HostItem> getServList() {
List<HostItem> serverList = new ArrayList<HostItem>();
Scanner scanner = new Scanner(System.in);
String servName;
int port = 0;
do {
System.out.println("Enter hostname of next server: (or \"stop\" when finished, default: localhost).");
servName = scanner.nextLine();
if (servName.equals("")) {
servName = "localhost";
}
if (!servName.equals("stop")) {
boolean err = false;
do {
System.out.println("Enter port for this server");
try {
port = scanner.nextInt();
scanner.nextLine();
if (port > 65535 || port <= 0) {
err = true;
System.out.println("Port number must be in 1-65535 range. Try again.");
} else {
err = false;
}
} catch (InputMismatchException e) {
System.out.println("Invalid number. Try again.");
err = true;
}
} while (err);
serverList.add(new HostItem(servName, port));
}
} while (!servName.equals("stop"));
return serverList;
}
}

@ -17,6 +17,9 @@ import java.sql.Timestamp;
public class Logger {
private Path logFile;
/** Constructor with logFile.
* @param logFile name of the file to store logs.
*/
public Logger(String logFile) {
assert logFile != null : "Logfile name is null";
this.logFile = Paths.get(logFile);
@ -120,4 +123,5 @@ public class Logger {
e.printStackTrace();
}
}

@ -0,0 +1,50 @@
package tracker;
import tracker.TrackerManagementTCP;
import tracker.TrackerManagementUDP;
import tools.Directories;
import tools.Logger;
import java.util.Scanner;
/** Tracker implementation
* First argument of main method is port listened by the tracker, and is mandatory.
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class Tracker {
private int port;
private Directories directories;
private Logger logger;
/** Constructor with portStr containing a port number.
* @param portStr String containing port number of listening.
*/
public Tracker(String portStr) {
port = Integer.valueOf(Integer.parseInt(portStr));
directories = new Directories("P2P_JAVA_PROJECT_TRACKER_" + port);
logger = new Logger(directories.getDataHomeDirectory() + "tracker.log");
System.out.println("Tracker will listen on port " + port + " and write logs into " + directories.getDataHomeDirectory());
Scanner scanner = new Scanner(System.in);
directories.askOpenDataHomeDirectory(null, scanner);
scanner.close();
}
/** Main program entry point
* first parameter is port number and is mandatory
* to test, run with: java -ea serverP2P.ServerP2P -- <portNumber>
* @param args parameters
*/
public static void main(String [] args) {
Tracker t = new Tracker(args[1]);
TrackerManagementUDP tmudp = new TrackerManagementUDP(t.port, t.logger);
TrackerManagementTCP tmtcp = new TrackerManagementTCP(t.port, t.logger);
Thread tudp = new Thread(tmudp);
tudp.setName("Tracker UDP P2P-JAVA-PROJECT");
tudp.start();
Thread ttcp = new Thread(tmtcp);
ttcp.setName("Tracker TCP P2P-JAVA-PROJECT");
ttcp.start();
}
}

@ -0,0 +1,287 @@
package tracker;
import tools.Logger;
import tools.LogLevel;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketException;
import protocolP2P.ProtocolP2PPacketTCP;
import protocolP2P.ProtocolP2PPacket;
import protocolP2P.RequestResponseCode;
import protocolP2P.Payload;
import protocolP2P.Register;
import protocolP2P.Unregister;
import tools.HostItem;
import java.util.ArrayList;
import java.util.List;
import java.io.IOException;
import exception.LocalException;
import java.util.Map;
import java.util.HashMap;
import protocolP2P.DiscoverRequest;
import protocolP2P.DiscoverResponse;
import protocolP2P.FileList;
import localException.InternalError;
import remoteException.EmptyDirectory;
import java.net.UnknownHostException;
import java.net.InetAddress;
import localException.SocketClosed;
/** Tracker management implementation with tcp
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class TrackerManagementTCP implements Runnable {
private HostItem tracker;
private Logger logger;
private ServerSocket socket;
private List<HostItem> hostList = new ArrayList<>();
private Map<String, List<HostItem>> fileList = new HashMap<>();
/** Constructor with port and logger.
* @param port Port used to listen.
* @param logger Logger object
*/
public TrackerManagementTCP(int port, Logger logger) {
tracker = new HostItem("localhost", port);
this.logger = logger;
try {
socket = new ServerSocket(tracker.getPort(), 10, tracker.getInetAddress());
} catch (SocketException e) {
logger.writeTCP("Error: cannot listen on" + tracker, LogLevel.Error);
System.exit(-1);
} catch (IOException e) {
logger.writeTCP("Error: cannot open socket", LogLevel.Error);
System.exit(-2);
}
}
/** Implementation of runnable. This methods allows to run the server.
*/
public void run() {
logger.writeTCP("Tracker sucessfully started", LogLevel.Info);
do {
try {
Socket s = socket.accept();
ClientHandler c = new ClientHandler(s);
(new Thread(c)).start();
} catch (IOException e) {
logger.writeTCP("Error while accepting new connection", LogLevel.Warning);
}
} while(true);
}
/** Private runnable class allowing to serve one client.
*/
private class ClientHandler implements Runnable {
private HostItem addr;
/** Constructor with a socket.
* @param s Socket of this client
*/
public ClientHandler(Socket s) {
this.addr = new HostItem(s);
}
/** Implementation of runnable. This method allow to serve one client.
*/
public void run() {
boolean end = false;
logger.writeTCP("[ " + addr + "] New connection", LogLevel.Action);
do {
end = handleRequest();
} while(!end);
logger.writeTCP("[ " + addr + "] End of connection", LogLevel.Action);
}
/** Respond to next request incomming on socket s.
* @param s Socket used to read request and send response
* @return true if cannot expect another request (ie, socket is closed)
*/
private boolean handleRequest() {
try {
ProtocolP2PPacketTCP pd = new ProtocolP2PPacketTCP((Object)addr.getTCPSocket());
Payload p = pd.getPayload();
switch (p.getRequestResponseCode()) {
case LOAD_REQUEST:
logger.writeTCP("Received LOAD_REQUEST from host " + pd.getHostItem() + ", sending NOT_FOUND", LogLevel.Action);
sendNotFound(pd);
break;
case LIST_REQUEST:
logger.writeTCP("Received LIST_REQUEST from host " + pd.getHostItem() + ", sending EMPTY_DIRECTORY", LogLevel.Action);
sendEmptyDirectory(pd);
break;
case HASH_REQUEST:
logger.writeTCP("Received HASH_REQUEST from host " + pd.getHostItem() + ", sending NOT_FOUND", LogLevel.Action);
sendNotFound(pd);
break;
case REGISTER:
logger.writeTCP("Received REGISTER from host " + pd.getHostItem(), LogLevel.Debug);
handleRegister(pd);
break;
case UNREGISTER:
logger.writeTCP("Received UNREGISTER from host " + pd.getHostItem(), LogLevel.Debug);
handleUnregister(pd);
break;
case DISCOVER_REQUEST:
handleDiscover(pd);
break;
default:
logger.writeTCP("Received grabbage from host " + pd.getHostItem(), LogLevel.Action);
sendInternalError(pd);
break;
}
} catch (IOException e) {
logger.writeTCP(e, LogLevel.Warning);
return true;
} catch (SocketClosed e) {
return true;
} catch (LocalException e) {
logger.writeTCP(e, LogLevel.Warning);
return true;
}
return false;
}
/** Send a not found message.
* @param pd ProtocolP2PPacketTCP to respond
*/
private void sendNotFound(ProtocolP2PPacketTCP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketTCP(new Payload(RequestResponseCode.NOT_FOUND)));
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
}
}
/** Send an empty directory message.
* @param pd ProtocolP2PPacketTCP to respond
*/
private void sendEmptyDirectory(ProtocolP2PPacketTCP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketTCP(new Payload(RequestResponseCode.EMPTY_DIRECTORY)));
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
}
}
/** Send an internal error message.
* @param pd ProtocolP2PPacketTCP to respond
*/
private void sendInternalError(ProtocolP2PPacketTCP pd) {
logger.writeTCP("Internal Error", LogLevel.Warning);
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketTCP(new Payload(RequestResponseCode.INTERNAL_ERROR)));
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
}
}
/** Handle Registering
* @param pd ProtocolP2PPacketTCP to respond
* @throws InternalError
*/
private void handleRegister(ProtocolP2PPacketTCP pd) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof Register : "payload must be an instance of Register";
if (!(p instanceof Register)) {
throw new InternalError();
}
// add host to known host list
HostItem host = ((Register)p).getHostItem();
if (!hostList.contains(host)) {
hostList.add(host);
}
// send a list request
try {
ProtocolP2PPacket pLReq = (ProtocolP2PPacket) new ProtocolP2PPacketTCP(new Payload(RequestResponseCode.LIST_REQUEST));
pLReq.sendRequest((Object)host.getTCPSocket());
logger.writeTCP("Received REGISTER from host " + pd.getHostItem() + ". Adding host " + host + " to list. Sending List request", LogLevel.Action);
handleListResponse((ProtocolP2PPacketTCP)pLReq.receiveResponse(), host);
logger.writeTCP("Received LIST RESPONSE from host " + pd.getHostItem(), LogLevel.Action);
host.closeTCPSocket();
} catch (EmptyDirectory e) {
logger.writeTCP("Empty Directory", LogLevel.Debug);
hostList.remove(host);
logger.writeTCP("Received EMPTY DIRECTORY from host " + pd.getHostItem() + ". Aborting.", LogLevel.Action);
} catch (Exception e) {
// remove from list because list request could not be send
hostList.remove(host);
logger.writeTCP("Aborting the add of host " + host, LogLevel.Action);
logger.writeTCP(e, LogLevel.Error);
}
}
/** Handle Unregistering
* @param pd ProtocolP2PPacketTCP to respond
* @throws InternalError
*/
private void handleUnregister(ProtocolP2PPacketTCP pd) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof Unregister : "payload must be an instance of Unregister";
if (!(p instanceof Unregister)) {
sendInternalError(pd);
throw new InternalError();
}
HostItem host = ((Unregister)p).getHostItem();
logger.writeTCP("Received UNREGISTER from host " + pd.getHostItem() + ". Removing host " + host, LogLevel.Action);
hostList.remove(host);
for(String f: fileList.keySet()) {
fileList.get(f).remove(host);
if(fileList.get(f).isEmpty()) {
fileList.remove(f);
}
}
}
/** Handle Discover request
* @param pd ProtocolP2PPacketTCP to respond
* @throws InternalError
*/
private void handleDiscover(ProtocolP2PPacketTCP pd) throws InternalError {
logger.writeTCP("Received DISCOVER REQUEST from host " + pd.getHostItem(), LogLevel.Action);
Payload p = pd.getPayload();
assert p instanceof DiscoverRequest : "payload must be an instance of DiscoverRequest";
if (!(p instanceof DiscoverRequest)) {
sendInternalError(pd);
} else {
String filename = ((DiscoverRequest)p).getFilename();
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketTCP((Payload)new DiscoverResponse(filename, fileList.getOrDefault(filename, hostList))));
} catch (Exception e) {
logger.writeTCP(e, LogLevel.Error);
}
}
}
/** Handle List Responses
* @param pd ProtocolP2PPacketTCP response
* @throws InternalError
*/
private void handleListResponse(ProtocolP2PPacketTCP pd, HostItem host) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof FileList: "payload must be an instance of FileList";
if (!(p instanceof FileList)) {
throw new InternalError();
} else {
String[] f = ((FileList)p).getFileList();
for (String file: f) {
List<HostItem> h = fileList.get(file);
if (h != null) {
if (!h.contains(host)) {
h.add(host);
}
} else {
List<HostItem> emptyH = new ArrayList<>();
emptyH.add(host);
fileList.put(file, emptyH);
}
}
}
}
}
}

@ -0,0 +1,237 @@
package tracker;
import tools.Logger;
import tools.LogLevel;
import java.net.DatagramSocket;
import protocolP2P.ProtocolP2PPacketUDP;
import protocolP2P.ProtocolP2PPacket;
import protocolP2P.RequestResponseCode;
import protocolP2P.Payload;
import protocolP2P.Register;
import protocolP2P.Unregister;
import tools.HostItem;
import java.util.ArrayList;
import java.util.List;
import java.io.IOException;
import java.net.SocketException;
import exception.LocalException;
import java.util.Map;
import java.util.HashMap;
import protocolP2P.DiscoverRequest;
import protocolP2P.DiscoverResponse;
import protocolP2P.FileList;
import localException.InternalError;
import remoteException.EmptyDirectory;
import java.net.InetAddress;
import java.net.UnknownHostException;
/** Tracker management implementation with udp
* @author Louis Royer
* @author Flavien Haas
* @author JS Auge
* @version 1.0
*/
public class TrackerManagementUDP implements Runnable {
private HostItem tracker;
private Logger logger;
private DatagramSocket socket;
private List<HostItem> hostList = new ArrayList<>();
private Map<String, List<HostItem>> fileList = new HashMap<>();
/** Constructor with port and logger.
* @param port Port used to listen.
* @param logger Logger object
*/
public TrackerManagementUDP(int port, Logger logger) {
tracker = new HostItem("localhost", port);
this.logger = logger;
try {
socket = new DatagramSocket(tracker.getPort(), tracker.getInetAddress());
} catch (SocketException e) {
logger.writeUDP("Error: cannot listen on port " + port, LogLevel.Error);
System.exit(-1);
}
}
/** Implementation of runnable. This methods allows to run the tracker.
*/
public void run() {
logger.writeUDP("Tracker successfully started", LogLevel.Info);
while(true) {
try {
ProtocolP2PPacketUDP pd = new ProtocolP2PPacketUDP((Object)socket);
Payload p = pd.getPayload();
switch (p.getRequestResponseCode()) {
case LOAD_REQUEST:
logger.writeUDP("Received LOAD_REQUEST from host " + pd.getHostItem() + ", sending NOT_FOUND", LogLevel.Action);
sendNotFound(pd);
break;
case LIST_REQUEST:
logger.writeUDP("Received LIST_REQUEST from host " + pd.getHostItem() + ", sending EMPTY_DIRECTORY", LogLevel.Action);
sendEmptyDirectory(pd);
break;
case HASH_REQUEST:
logger.writeUDP("Received HASH_REQUEST from host " + pd.getHostItem() + ", sending NOT_FOUND", LogLevel.Action);
sendNotFound(pd);
break;
case REGISTER:
handleRegister(pd);
break;
case UNREGISTER:
handleUnregister(pd);
break;
case DISCOVER_REQUEST:
handleDiscover(pd);
break;
default:
logger.writeUDP("Received grabbage from host " + pd.getHostItem(), LogLevel.Action);
sendInternalError(pd);
break;
}
} catch (IOException e) {
logger.writeUDP(e, LogLevel.Warning);
} catch (LocalException e) {
logger.writeUDP(e, LogLevel.Warning);
}
}
}
/** Send a not found message.
* @param pd ProtocolP2PPacketUDP to respond
*/
private void sendNotFound(ProtocolP2PPacketUDP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.NOT_FOUND)));
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
}
}
/** Send an empty directory message.
* @param pd ProtocolP2PPacketUDP to respond
*/
private void sendEmptyDirectory(ProtocolP2PPacketUDP pd) {
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.EMPTY_DIRECTORY)));
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
}
}
/** Send an internal error message.
* @param pd ProtocolP2PPacketUDP to respond
*/
private void sendInternalError(ProtocolP2PPacketUDP pd) {
logger.writeUDP("Internal Error", LogLevel.Warning);
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.INTERNAL_ERROR)));
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
}
}
/** Handle Registering
* @param pd ProtocolP2PPacketUDP to respond
* @throws InternalError
*/
private void handleRegister(ProtocolP2PPacketUDP pd) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof Register : "payload must be an instance of Register";
if (!(p instanceof Register)) {
sendInternalError(pd);
throw new InternalError();
}
// add host to known host list
HostItem host = ((Register)p).getHostItem();
if (!hostList.contains(host)) {
hostList.add(host);
}
// send a list request
try {
ProtocolP2PPacket pLReq = (ProtocolP2PPacket)new ProtocolP2PPacketUDP(new Payload(RequestResponseCode.LIST_REQUEST));
pLReq.sendRequest((Object)host.getUDPSocket());
logger.writeUDP("Received REGISTER from host " + pd.getHostItem() + ". Adding host " + host + " to list. Sending List request", LogLevel.Action);
ProtocolP2PPacket resp = pLReq.receiveResponse();
handleListResponse((ProtocolP2PPacketUDP)resp, host);
logger.writeUDP("Received LIST RESPONSE from host " + pd.getHostItem(), LogLevel.Action);
host.closeUDPSocket();
} catch (EmptyDirectory e) {
logger.writeUDP("Empty Directory", LogLevel.Debug);
hostList.remove(host);
logger.writeUDP("Received EMPTY DIRECTORY from host " + pd.getHostItem() + ". Aborting.", LogLevel.Action);
} catch (Exception e) {
// remove from list because list request could not be send
hostList.remove(host);
logger.writeUDP("Aborting the add of host " + host, LogLevel.Action);
logger.writeUDP(e, LogLevel.Error);
}
}
/** Handle Unregistering
* @param pd ProtocolP2PPacketUDP to respond
* @throws InternalError
*/
private void handleUnregister(ProtocolP2PPacketUDP pd) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof Unregister : "payload must be an instance of Unregister";
if (!(p instanceof Unregister)) {
sendInternalError(pd);
throw new InternalError();
}
HostItem host = ((Unregister)p).getHostItem();
logger.writeUDP("Received UNREGISTER from host " + pd.getHostItem() + ". Removing host " + host, LogLevel.Action);
hostList.remove(host);
for(String f: fileList.keySet()) {
fileList.get(f).remove(host);
if(fileList.get(f).isEmpty()) {
fileList.remove(f);
}
}
}
/** Handle Discover request
* @param pd ProtocolP2PPacketUDP to respond
* @throws InternalError
*/
private void handleDiscover(ProtocolP2PPacketUDP pd) throws InternalError {
logger.writeUDP("Received DISCOVER REQUEST from host " + pd.getHostItem(), LogLevel.Action);
Payload p = pd.getPayload();
assert p instanceof DiscoverRequest : "payload must be an instance of DiscoverRequest";
if (!(p instanceof DiscoverRequest)) {
sendInternalError(pd);
} else {
String filename = ((DiscoverRequest)p).getFilename();
try {
pd.sendResponse((ProtocolP2PPacket)new ProtocolP2PPacketUDP((Payload)new DiscoverResponse(filename, fileList.getOrDefault(filename, hostList))));
} catch (Exception e) {
logger.writeUDP(e, LogLevel.Error);
}
}
}
/** Handle List Responses
* @param pd ProtocolP2PPacketUDP response
* @throws InternalError
*/
private void handleListResponse(ProtocolP2PPacketUDP pd, HostItem host) throws InternalError {
Payload p = pd.getPayload();
assert p instanceof FileList: "payload must be an instance of FileList";
if (!(p instanceof FileList)) {
throw new InternalError();
} else {
String[] f = ((FileList)p).getFileList();
for (String file: f) {
List<HostItem> h = fileList.get(file);
if (h != null) {
if (!h.contains(host)) {
h.add(host);
}
} else {
List<HostItem> emptyH = new ArrayList<>();
emptyH.add(host);
fileList.put(file, emptyH);
}
}
}
}
}
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