experimental/Networking/SkSockets.h - skia - Git at Google

 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef SkNetIO_DEFINED
 #define SkNetIO_DEFINED

 #include <netinet/in.h>
 #include <sys/socket.h>
 #include "include/core/SkStream.h"
 #include "include/core/SkTypes.h"

 /* PACKET and HEADER Format */
 #define PACKET_SIZE 1024
 #define HEADER_SIZE 20
 #define CONTENT_SIZE 1004

 #define DEFAULT_PORT 15555
 #define MAX_WAITING_CLIENTS 3
 #define NONBLOCKING_SOCKETS

 class SkSocket {
 public:
     SkSocket();
     virtual ~SkSocket();

     enum State {
         kError_state,
         kBegin_state,
         kIncomplete_state,
         kDone_state
     };

     enum DataType {
         kPipeAppend_type,
         kPipeReplace_type,
         kString_type,
         kInt_type
     };

     bool isConnected() { return fConnected; }
     /**
      * Write data to the socket. Data is a pointer to the beginning of the data
      * to be sent and dataSize specifies the number of bytes to send. This
      * method will spread the data across multiple packets if the data can't all
      * fit in a single packet. The method will write all the data to each of the
      * socket's open connections until all the bytes have been successfully sent
      * and return total the number of bytes written to all clients, unless there
      * was an error during the transfer, in which case the method returns -1.
      * For blocking sockets, write will block indefinitely if the socket at the
      * other end of the connection doesn't receive any data.
      * NOTE: This method guarantees that all of the data will be sent unless
      * there was an error, so it may block temporarily when the write buffer is
      * full
      */
     int writePacket(void* data, size_t size, DataType type = kPipeAppend_type);

     /**
      * Read a logical packet from socket. The data read will be stored
      * sequentially in the dataArray. This method will keep running until all
      * the data in a logical chunk has been read (assembling multiple partial
      * packets if necessary) and return the number of bytes successfully read,
      * unless there was an error, in which case the method returns -1. \For
      * nonblocking sockets, read will return 0 if there's nothing to read. For
      * blocking sockets, read will block indefinitely if the socket doesn't
      * receive any data.
      * NOTE: This method guarantees that all the data in a logical packet will
      * be read so it may block temporarily if it's waiting for parts of a
      * packet
      */
     int readPacket(void (*onRead)(int cid, const void* data, size_t size,
                                   DataType type, void*), void* context);

     /**
      * Suspend network transfers until resume() is called. Leaves all
      * connections in tact.
      */
     void suspendAll() { fReadSuspended = fWriteSuspended = true; }
     /**
      * Resume all network transfers.
      */
     void resumeAll() { fReadSuspended = fWriteSuspended = false; }
     /**
      * Other helper functions
      */
     void suspendRead() { fReadSuspended = true; }
     void resumeRead() { fReadSuspended = false; }
     void suspendWrite()  { fWriteSuspended = true; }
     void resumeWrite()  { fWriteSuspended = false; }

 protected:
     struct header {
         bool        done;
         int         bytes;
         DataType    type;
     };

     /**
      * Create a socket and return its file descriptor. Returns -1 on failure
      */
     int createSocket();

     /**
      * Close the socket specified by the socket file descriptor argument. Will
      * update fMaxfd and working set properly
      */
     void closeSocket(int sockfd);

     /**
      * Called when a broken or terminated connection has been detected. Closes
      * the socket file descriptor and removes it from the master set by default.
      * Override to handle broken connections differently
      */
     virtual void onFailedConnection(int sockfd);

     /**
      * Set the socket specified by the socket file descriptor as nonblocking
      */
     void setNonBlocking(int sockfd);

     /**
      * Add the socket specified by the socket file descriptor to the master
      * file descriptor set, which is used to in the select() to detect new data
      * or connections
      */
     void addToMasterSet(int sockfd);

     bool    fConnected;
     bool    fReady;
     bool    fReadSuspended;
     bool    fWriteSuspended;
     int     fMaxfd;
     int     fPort;
     int     fSockfd;

     /**
      * fMasterSet contains all the file descriptors to be used for read/write.
      * For clients, this only contains the client socket. For servers, this
      * contains all the file descriptors associated with established connections
      * to clients
      */
     fd_set  fMasterSet;
 };

 /*
  * TCP server. Can accept simultaneous connections to multiple SkTCPClients and
  * read/write data back and forth using read/writePacket calls. Port number can
  * be specified, but make sure that client/server use the same port
  */
 class SkTCPServer : public SkSocket {
 public:
     SkTCPServer(int port = DEFAULT_PORT);
     virtual ~SkTCPServer();

     /**
      * Accept any incoming connections to the server, will accept 1 connection
      * at a time. Returns -1 on error. For blocking sockets, this method will
      * block until a client calls connectToServer()
      */
     int acceptConnections();

     /**
      * Disconnect all connections to clients. Returns -1 on error
      */
     int disconnectAll();
 private:
     typedef SkSocket INHERITED;
 };

 /*
  * TCP client. Will connect to the server specified in the constructor. If a
  * port number is specified, make sure that it's the same as the port number on
  * the server
  */
 class SkTCPClient : public SkSocket {
 public:
     SkTCPClient(const char* hostname, int port = DEFAULT_PORT);

     /**
      * Connect to server. Returns -1 on error or failure. Call this to connect
      * or reconnect to the server. For blocking sockets, this method will block
      * until the connection is accepted by the server.
      */
     int connectToServer();
 protected:
     /**
      * Client needs to recreate the socket when a connection is broken because
      * connect can only be called successfully once.
      */
     virtual void onFailedConnection(int sockfd);
 private:
     sockaddr_in fServerAddr;
     typedef SkSocket INHERITED;
 };

 #endif
	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef SkNetIO_DEFINED
	#define SkNetIO_DEFINED

	#include <netinet/in.h>
	#include <sys/socket.h>
	#include "include/core/SkStream.h"
	#include "include/core/SkTypes.h"

	/* PACKET and HEADER Format */
	#define PACKET_SIZE 1024
	#define HEADER_SIZE 20
	#define CONTENT_SIZE 1004

	#define DEFAULT_PORT 15555
	#define MAX_WAITING_CLIENTS 3
	#define NONBLOCKING_SOCKETS

	class SkSocket {
	public:
	SkSocket();
	virtual ~SkSocket();

	enum State {
	kError_state,
	kBegin_state,
	kIncomplete_state,
	kDone_state
	};

	enum DataType {
	kPipeAppend_type,
	kPipeReplace_type,
	kString_type,
	kInt_type
	};

	bool isConnected() { return fConnected; }
	/**
	* Write data to the socket. Data is a pointer to the beginning of the data
	* to be sent and dataSize specifies the number of bytes to send. This
	* method will spread the data across multiple packets if the data can't all
	* fit in a single packet. The method will write all the data to each of the
	* socket's open connections until all the bytes have been successfully sent
	* and return total the number of bytes written to all clients, unless there
	* was an error during the transfer, in which case the method returns -1.
	* For blocking sockets, write will block indefinitely if the socket at the
	* other end of the connection doesn't receive any data.
	* NOTE: This method guarantees that all of the data will be sent unless
	* there was an error, so it may block temporarily when the write buffer is
	* full
	*/
	int writePacket(void* data, size_t size, DataType type = kPipeAppend_type);

	/**
	* Read a logical packet from socket. The data read will be stored
	* sequentially in the dataArray. This method will keep running until all
	* the data in a logical chunk has been read (assembling multiple partial
	* packets if necessary) and return the number of bytes successfully read,
	* unless there was an error, in which case the method returns -1. \For
	* nonblocking sockets, read will return 0 if there's nothing to read. For
	* blocking sockets, read will block indefinitely if the socket doesn't
	* receive any data.
	* NOTE: This method guarantees that all the data in a logical packet will
	* be read so it may block temporarily if it's waiting for parts of a
	* packet
	*/
	int readPacket(void (onRead)(int cid, const void data, size_t size,
	DataType type, void), void context);

	/**
	* Suspend network transfers until resume() is called. Leaves all
	* connections in tact.
	*/
	void suspendAll() { fReadSuspended = fWriteSuspended = true; }
	/**
	* Resume all network transfers.
	*/
	void resumeAll() { fReadSuspended = fWriteSuspended = false; }
	/**
	* Other helper functions
	*/
	void suspendRead() { fReadSuspended = true; }
	void resumeRead() { fReadSuspended = false; }
	void suspendWrite() { fWriteSuspended = true; }
	void resumeWrite() { fWriteSuspended = false; }

	protected:
	struct header {
	bool done;
	int bytes;
	DataType type;
	};

	/**
	* Create a socket and return its file descriptor. Returns -1 on failure
	*/
	int createSocket();

	/**
	* Close the socket specified by the socket file descriptor argument. Will
	* update fMaxfd and working set properly
	*/
	void closeSocket(int sockfd);

	/**
	* Called when a broken or terminated connection has been detected. Closes
	* the socket file descriptor and removes it from the master set by default.
	* Override to handle broken connections differently
	*/
	virtual void onFailedConnection(int sockfd);

	/**
	* Set the socket specified by the socket file descriptor as nonblocking
	*/
	void setNonBlocking(int sockfd);

	/**
	* Add the socket specified by the socket file descriptor to the master
	* file descriptor set, which is used to in the select() to detect new data
	* or connections
	*/
	void addToMasterSet(int sockfd);

	bool fConnected;
	bool fReady;
	bool fReadSuspended;
	bool fWriteSuspended;
	int fMaxfd;
	int fPort;
	int fSockfd;

	/**
	* fMasterSet contains all the file descriptors to be used for read/write.
	* For clients, this only contains the client socket. For servers, this
	* contains all the file descriptors associated with established connections
	* to clients
	*/
	fd_set fMasterSet;
	};

	/*
	* TCP server. Can accept simultaneous connections to multiple SkTCPClients and
	* read/write data back and forth using read/writePacket calls. Port number can
	* be specified, but make sure that client/server use the same port
	*/
	class SkTCPServer : public SkSocket {
	public:
	SkTCPServer(int port = DEFAULT_PORT);
	virtual ~SkTCPServer();

	/**
	* Accept any incoming connections to the server, will accept 1 connection
	* at a time. Returns -1 on error. For blocking sockets, this method will
	* block until a client calls connectToServer()
	*/
	int acceptConnections();

	/**
	* Disconnect all connections to clients. Returns -1 on error
	*/
	int disconnectAll();
	private:
	typedef SkSocket INHERITED;
	};

	/*
	* TCP client. Will connect to the server specified in the constructor. If a
	* port number is specified, make sure that it's the same as the port number on
	* the server
	*/
	class SkTCPClient : public SkSocket {
	public:
	SkTCPClient(const char* hostname, int port = DEFAULT_PORT);

	/**
	* Connect to server. Returns -1 on error or failure. Call this to connect
	* or reconnect to the server. For blocking sockets, this method will block
	* until the connection is accepted by the server.
	*/
	int connectToServer();
	protected:
	/**
	* Client needs to recreate the socket when a connection is broken because
	* connect can only be called successfully once.
	*/
	virtual void onFailedConnection(int sockfd);
	private:
	sockaddr_in fServerAddr;
	typedef SkSocket INHERITED;
	};

	#endif