slsDetectorPackage/slsSupportLib/include/ZmqSocket.h

#pragma once
/************************************************
 * @file zmqSocket.h
 * @short functions to open/close zmq sockets
 ***********************************************/
/**
 *@short functions to open/close zmq sockets
 */

#include "ansi.h"
#include "sls_detector_exceptions.h"

#include <iostream>
#include <zmq.h>
#include <errno.h>
#include <netdb.h>				//gethostbyname()
#include <arpa/inet.h>			//inet_ntoa
#include <rapidjson/document.h> //json header in zmq stream
#include <string.h>
#include <unistd.h> 			//usleep in some machines
#include <vector>
using namespace rapidjson;


#define MAX_STR_LENGTH 1000

// #define ZMQ_DETAIL
#define ROIVERBOSITY



class ZmqSocket {

public:

	//Socket Options for optimization
	//ZMQ_LINGER default is already -1 means no messages discarded. use this options if optimizing required
	//ZMQ_SNDHWM default is 0 means no limit. use this to optimize if optimizing required
	// eg. int value = -1;
	// if (zmq_setsockopt(socketDescriptor, ZMQ_LINGER, &value,sizeof(value))) {
	//	Close();
	/**
	 * Constructor for a client
	 * Creates socket, context and connects to server
	 * @param hostname hostname or ip of server
	 * @param portnumber port number
	 */
	ZmqSocket (const char* const hostname_or_ip, const uint32_t  portnumber):
		portno (portnumber)
		// headerMessage(0)
	{
		char ip[MAX_STR_LENGTH] = "";
		memset(ip, 0, MAX_STR_LENGTH);

		// convert hostname to ip (not required, but a test that returns if failed)
		struct addrinfo *result;
		if ((ConvertHostnameToInternetAddress(hostname_or_ip, &result)) ||
		 (ConvertInternetAddresstoIpString(result, ip, MAX_STR_LENGTH)))
		    throw sls::ZmqSocketError("Could convert IP to string");

		// construct address
		sprintf (sockfd.serverAddress, "tcp://%s:%d", ip, portno);
#ifdef VERBOSE
		cprintf(BLUE,"address:%s\n",sockfd.serverAddress);
#endif

		// create context
		sockfd.contextDescriptor = zmq_ctx_new();
		if (sockfd.contextDescriptor == 0)
		    throw sls::ZmqSocketError("Could not create contextDescriptor");

		// create publisher
		sockfd.socketDescriptor = zmq_socket (sockfd.contextDescriptor, ZMQ_SUB);
		if (sockfd.socketDescriptor == 0) {
		    PrintError ();
		    Close ();
		    throw sls::ZmqSocketError("Could not create socket");
		}

		//Socket Options provided above
	    // an empty string implies receiving any messages
		if ( zmq_setsockopt(sockfd.socketDescriptor, ZMQ_SUBSCRIBE, "", 0)) {
		    PrintError ();
		    Close();
		    throw sls::ZmqSocketError("Could set socket opt");
		}
		//ZMQ_LINGER default is already -1 means no messages discarded. use this options if optimizing required
		//ZMQ_SNDHWM default is 0 means no limit. use this to optimize if optimizing required
		// eg. int value = -1;
		int value = 0;
		if (zmq_setsockopt(sockfd.socketDescriptor, ZMQ_LINGER, &value,sizeof(value))) {
		    PrintError ();
		    Close();
		    throw sls::ZmqSocketError("Could not set ZMQ_LINGER");
		}
	};

	/**
	 * Constructor for a server
	 * Creates socket, context and connects to server
	 * @param hostname hostname or ip of server
	 * @param portnumber port number
	 * @param ethip is the ip of the ethernet interface to stream zmq from
	 */
	ZmqSocket (const uint32_t portnumber, const char *ethip):

		portno (portnumber)
		// headerMessage(0)
	{
		sockfd.server = true;

		// create context
		sockfd.contextDescriptor = zmq_ctx_new();
		if (sockfd.contextDescriptor == 0)
		    throw sls::ZmqSocketError("Could not create contextDescriptor");
		// create publisher
		sockfd.socketDescriptor = zmq_socket (sockfd.contextDescriptor, ZMQ_PUB);
		if (sockfd.socketDescriptor == 0) {
			PrintError ();
			Close ();
			throw sls::ZmqSocketError("Could not create socket");
		}

		//Socket Options provided above

		// construct addresss
		sprintf (sockfd.serverAddress,"tcp://%s:%d", ethip, portno);
#ifdef VERBOSE
		cprintf(BLUE,"address:%s\n",sockfd.serverAddress);
#endif
		// bind address
		if (zmq_bind (sockfd.socketDescriptor, sockfd.serverAddress) < 0) {
			PrintError ();
			Close ();
			throw sls::ZmqSocketError("Could not bind socket");
		}

		//sleep for a few milliseconds to allow a slow-joiner
		usleep(200* 1000);
	};

	/**
	 * Destructor
	 */
	~ZmqSocket () {
		//mySocketDescriptor destructor also gets called
	};

	/**
	 * Returns Port Number
	 * @returns Port Number
	 */
	uint32_t GetPortNumber () { return portno; };

	/**
	 * Returns Server Address
	 * @returns Server Address
	 */
	char* GetZmqServerAddress () { return sockfd.serverAddress; };

	/**
	 * Returns Socket Descriptor
	 * @reutns Socket descriptor
	 */

	void* GetsocketDescriptor () { return sockfd.socketDescriptor; };

	/**
	 * Connect client socket to server socket
	 * @returns 1 for fail, 0 for success
	 */
	int Connect() {
		if (zmq_connect(sockfd.socketDescriptor, sockfd.serverAddress) < 0) {
			PrintError ();
			return 1;
		}
		return 0;
	}

	/**
	 * Unbinds the Socket
	 */
	void Disconnect () {sockfd.Disconnect();};

	/**
	 * Close Socket and destroy Context
	 */
	void Close () {	sockfd.Close();	};

 	/**
 	 * Convert Hostname to Internet address info structure
 	 * One must use freeaddrinfo(res) after using it
 	 * @param hostname hostname
 	 * @param res address of pointer to address info structure
 	 * @return 1 for fail, 0 for success
 	 */
     // Do not make this static (for multi threading environment)
     int ConvertHostnameToInternetAddress (const char* const hostname, struct addrinfo **res) {
    	// criteria in selecting socket address structures returned by res
 		struct addrinfo hints;
 		memset (&hints, 0, sizeof (hints));
 		 hints.ai_family = AF_INET;
 		 hints.ai_socktype = SOCK_STREAM;
 		 // get host info into res
 		 int errcode = getaddrinfo (hostname, NULL, &hints, res);
 		 if (errcode != 0) {
 			 cprintf (RED,"Error: Could not convert %s hostname to internet address (zmq):"
 					 "%s\n", hostname, gai_strerror(errcode));
 		 } else {
 			 if (*res == NULL) {
 				 cprintf (RED,"Error: Could not convert %s hostname to internet address (zmq): "
 						 "gettaddrinfo returned null\n", hostname);
 			 } else{
 				 return 0;
 			 }
 		 }
 		 cprintf(RED, "Error: Could not convert hostname to internet address\n");
 		 return 1;
 	};

     /**
      * Convert Internet Address structure pointer to ip string (char*)
      * Clears the internet address structure as well
      * @param res pointer to internet address structure
      * @param ip pointer to char array to store result in
      * @param ipsize size available in ip buffer
      * @return 1 for fail, 0 for success
      */
     // Do not make this static (for multi threading environment)
     int ConvertInternetAddresstoIpString (struct addrinfo *res, char* ip, const int ipsize) {
    	 if (inet_ntop (res->ai_family, &((struct sockaddr_in *) res->ai_addr)->sin_addr, ip, ipsize) != NULL) {
    		 freeaddrinfo(res);
    		 return 0;
    	 }
    	 cprintf(RED, "Error: Could not convert internet address to ip string\n");
    	 return 1;
     }



	/**
	 * Send Message Header
	 * @param buf message
	 * @param length length of message
	 * @param dummy true if end of acquistion else false
	 * @returns 0 if error, else 1
	 */
	int SendHeaderData ( int index, bool dummy, uint32_t jsonversion, uint32_t dynamicrange = 0, uint64_t fileIndex = 0,
			uint32_t npixelsx = 0, uint32_t npixelsy = 0, uint32_t imageSize = 0,
			uint64_t acqIndex = 0, uint64_t fIndex = 0, const char* fname = NULL,
			uint64_t frameNumber = 0, uint32_t expLength = 0, uint32_t packetNumber = 0,
			uint64_t bunchId = 0, uint64_t timestamp = 0,
			uint16_t modId = 0, uint16_t row = 0, uint16_t column = 0, uint16_t reserved = 0,
			uint32_t debug = 0, uint16_t roundRNumber = 0,
			uint8_t detType = 0, uint8_t version = 0, int* flippedData = 0,
			char* additionalJsonHeader = 0) {


		
		/** Json Header Format */
		const char jsonHeaderFormat[] =
				"{"
				"\"jsonversion\":%u, "
				"\"bitmode\":%u, "
				"\"fileIndex\":%lu, "
				"\"shape\":[%u, %u], "
				"\"size\":%u, "
				"\"acqIndex\":%lu, "
				"\"fIndex\":%lu, "
				"\"fname\":\"%s\", "
				"\"data\": %d, "

				"\"frameNumber\":%lu, "
				"\"expLength\":%u, "
				"\"packetNumber\":%u, "
				"\"bunchId\":%lu, "
				"\"timestamp\":%lu, "
				"\"modId\":%u, "
				"\"row\":%u, "
				"\"column\":%u, "
				"\"reserved\":%u, "
				"\"debug\":%u, "
				"\"roundRNumber\":%u, "
				"\"detType\":%u, "
				"\"version\":%u, "

		        //additional stuff
		        "\"flippedDataX\":%u"

				;//"}\n";
		char buf[MAX_STR_LENGTH] = "";
		sprintf(buf, jsonHeaderFormat,
				jsonversion, dynamicrange, fileIndex, npixelsx, npixelsy, imageSize,
				acqIndex, fIndex, (fname == NULL)? "":fname, dummy?0:1,

				        frameNumber, expLength, packetNumber, bunchId, timestamp,
						modId, row, column, reserved, debug, roundRNumber,
						detType, version,

						//additional stuff
						((flippedData == 0 ) ? 0 :flippedData[0])
		);
		
		if (additionalJsonHeader && strlen(additionalJsonHeader)) {
            strcat(buf, ", ");
            strcat(buf, additionalJsonHeader);
        }
        strcat(buf, "}\n");
        int length = strlen(buf);

#ifdef VERBOSE
		//if(!index)
			cprintf(BLUE,"%d : Streamer: buf: %s\n", index, buf);
#endif

		if(zmq_send (sockfd.socketDescriptor, buf, length, dummy?0:ZMQ_SNDMORE) < 0) {
			PrintError ();
			return 0;
		}
#ifdef VERBOSE
		cprintf(GREEN,"[%u] send header data\n",portno);
#endif
		return 1;
	};

	/**
	 * Send Message Body
	 * @param buf message
	 * @param length length of message
	 * @returns 0 if error, else 1
	 */
	int SendData (char* buf, int length) {
		if(zmq_send (sockfd.socketDescriptor, buf, length, 0) < 0) {
			PrintError ();
			return 0;
		}
#ifdef VERBOSE
		cprintf(GREEN,"[%u] send data\n",portno);
#endif
		return 1;
	};


	/**
	 * Receive Message
	 * @param index self index for debugging
	 * @param message message
	 * @returns length of message, -1 if error
	 */
	int ReceiveMessage(const int index, zmq_msg_t& message) {
		int length = zmq_msg_recv (&message, sockfd.socketDescriptor, 0);
		if (length == -1) {
			PrintError ();
			cprintf (BG_RED,"Error: Could not read header for socket %d\n",index);
		}
#ifdef VERBOSE
		else
			cprintf( RED,"Message %d Length: %d Header:%s \n", index, length, (char*) zmq_msg_data (&message) );
#endif
		return length;
	};


	/**
	 * Receive Header (Important to close message after parsing header)
	 * @param index self index for debugging
	 * @param document parsed document reference
	 * @param version version that has to match, -1 to not care
	 * @returns 0 if error or end of acquisition, else 1 (call CloseHeaderMessage after parsing header)
	 */
	int ReceiveHeader(const int index, Document& document, uint32_t version)
	{
		std::vector<char>buffer(MAX_STR_LENGTH);
		int len = zmq_recv(sockfd.socketDescriptor, buffer.data(), buffer.size(),0);
		if ( len > 0 ) {
			bool dummy = false;
#ifdef ZMQ_DETAIL
				cprintf( BLUE,"Header %d [%d] Length: %d Header:%s \n", index, portno, len, buffer.data());
#endif
			if ( ParseHeader (index, len, buffer.data(), document, dummy, version)) {
#ifdef ZMQ_DETAIL
				cprintf( RED,"Parsed Header %d [%d] Length: %d Header:%s \n", index, portno, len, buffer.data() );
#endif
				if (dummy) {
#ifdef ZMQ_DETAIL
					cprintf(RED,"%d [%d] Received end of acquisition\n", index, portno );
#endif
					return 0;
				}
#ifdef ZMQ_DETAIL
				cprintf(GREEN,"%d [%d] data\n",index, portno );
#endif
				return 1;
			}
		}
		return 0;
	};


    /**
     * Close Header Message. Call this function if ReceiveHeader returned 1
     */
    // void CloseHeaderMessage() {
    //     if (headerMessage)
    //         zmq_msg_close(headerMessage);
    //     headerMessage = 0;
    // };
    /**
     * Parse Header
     * @param index self index for debugging
     * @param length length of message
     * @param message message
     * @param document parsed document reference
     * @param dummy true if end of acqusition, else false, loaded upon parsing
     * @param version version that has to match, -1 to not care
     * @returns true if successful else false
     */
    int ParseHeader(const int index, int length, char* buff,
            Document& document, bool& dummy, uint32_t version)
    {
        if ( document.Parse( buff, length).HasParseError() ) {
            cprintf( RED,"%d Could not parse. len:%d: Message:%s \n", index, length, buff );
            fflush ( stdout );
            // char* buf =  (char*) zmq_msg_data (&message);
            for ( int i= 0; i < length; ++i ) {
                cprintf(RED,"%02x ",buff[i]);
            }
            printf("\n");
            fflush( stdout );
            return 0;
        }

        if (document["jsonversion"].GetUint() != version) {
            cprintf( RED, "version mismatch. required %u, got %u\n", version, document["jsonversion"].GetUint());
            return 0;
        }

        dummy = false;
        int temp = document["data"].GetUint();
        dummy = temp ? false : true;

        return 1;
    };


	/**
	 * Receive Data
	 * @param index self index for debugging
	 * @param buf buffer to copy image data to
	 * @param size size of image
	 * @returns length of data received
	 */
	int ReceiveData(const int index, char* buf, const int size)
	{
		zmq_msg_t message;
		zmq_msg_init (&message);
		int length = ReceiveMessage(index, message);

		//actual data
		if (length == size) {
#ifdef VERBOSE
			cprintf(BLUE,"%d actual data\n", index);
#endif
			memcpy(buf, (char*)zmq_msg_data(&message), size);
		}

		//incorrect size (smaller)
        else if (length < size){
#ifdef ROIVERBOSITY
            cprintf(RED,"Error: Received smaller packet size %d for socket %d\n", length, index);
#endif
            memcpy(buf, (char*)zmq_msg_data(&message), length);
            memset(buf+length,0xFF,size-length);
        }
        //incorrect size (larger)
		else {
			cprintf(RED,"Error: Received weird packet size %d for socket %d\n", length, index);
			memset(buf,0xFF,size);
		}

		zmq_msg_close(&message);
		return length;
	};



	/**
	 * Print error
	 */
	void PrintError () {
		switch (errno) {
		case EINVAL:
			cprintf(RED, "Error: The socket type/option or value/endpoint supplied is invalid (zmq)\n");
			break;
		case EAGAIN:
			cprintf(RED, "Error: Non-blocking mode was requested and the message cannot be sent/available at the moment (zmq)\n");
			break;
		case ENOTSUP:
			cprintf(RED, "Error: The zmq_send()/zmq_msg_recv() operation is not supported by this socket type (zmq)\n");
			break;
		case EFSM:
			cprintf(RED, "Error: The zmq_send()/zmq_msg_recv() unavailable now as socket in inappropriate state (eg. ZMQ_REP). Look up messaging patterns (zmq)\n");
			break;
		case EFAULT:
			cprintf(RED, "Error: The provided context/message is invalid (zmq)\n");
			break;
		case EMFILE:
			cprintf(RED, "Error: The limit on the total number of open ØMQ sockets has been reached (zmq)\n");
			break;
		case EPROTONOSUPPORT:
			cprintf(RED, "Error: The requested transport protocol is not supported (zmq)\n");
			break;
		case ENOCOMPATPROTO:
			cprintf(RED, "Error: The requested transport protocol is not compatible with the socket type (zmq)\n");
			break;
		case EADDRINUSE:
			cprintf(RED, "Error: The requested address is already in use (zmq)\n");
			break;
		case EADDRNOTAVAIL:
			cprintf(RED, "Error: The requested address was not local (zmq)\n");
			break;
		case ENODEV:
			cprintf(RED, "Error: The requested address specifies a nonexistent interface (zmq)\n");
			break;
		case ETERM:
			cprintf(RED, "Error: The ØMQ context associated with the specified socket was terminated (zmq)\n");
			break;
		case ENOTSOCK:
			cprintf(RED, "Error: The provided socket was invalid (zmq)\n");
			break;
		case EINTR:
			cprintf(RED, "Error: The operation was interrupted by delivery of a signal (zmq)\n");
			break;
		case EMTHREAD:
			cprintf(RED, "Error: No I/O thread is available to accomplish the task (zmq)\n");
			break;
		default:
			cprintf(RED, "Error: Unknown socket error (zmq)\n");
			break;
		}
	};


private:

	/**
	 * Class to close socket descriptors automatically
	 * upon encountering exceptions in the ZmqSocket constructor
	 */
	class mySocketDescriptors {
	public:
		/** Constructor */
		mySocketDescriptors():
			server(false),
			contextDescriptor(0),
			socketDescriptor(0) {};
		/** Destructor */
		~mySocketDescriptors() {
			Disconnect();
			Close();
		}
		/** Unbinds the Socket */
		void Disconnect () {
			if (server)
				zmq_unbind (socketDescriptor, serverAddress);
			else
				zmq_disconnect (socketDescriptor, serverAddress);
		};
		/** Close Socket and destroy Context */
		void Close () {
			if (socketDescriptor != NULL) {
				zmq_close (socketDescriptor);
				socketDescriptor = NULL;
			}

			if (contextDescriptor != NULL) {
				zmq_ctx_destroy (contextDescriptor);
				contextDescriptor = NULL;
			}
		};
		/** true if server, else false */
		bool server;
		/** Server Address */
		char serverAddress[1000];
		/** Context Descriptor */
		void* contextDescriptor;
		/** Socket Descriptor */
		void* socketDescriptor;
	};

private:
	/** Port Number */
	uint32_t portno;

	/** Socket descriptor */
	mySocketDescriptors sockfd;
};