mongoose/test/freertos-tcp/include/FreeRTOS_IP_Private.h

/*
 * FreeRTOS+TCP V2.3.2
 * Copyright (C) 2020 Amazon.com, Inc. or its affiliates.  All Rights Reserved.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy of
 * this software and associated documentation files (the "Software"), to deal in
 * the Software without restriction, including without limitation the rights to
 * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
 * the Software, and to permit persons to whom the Software is furnished to do so,
 * subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in all
 * copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
 * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
 * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
 * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 *
 * http://aws.amazon.com/freertos
 * http://www.FreeRTOS.org
 */

#ifndef FREERTOS_IP_PRIVATE_H
    #define FREERTOS_IP_PRIVATE_H

    #ifdef __cplusplus
        extern "C" {
    #endif

/* Application level configuration options. */
    #include "FreeRTOSIPConfig.h"
    #include "FreeRTOSIPConfigDefaults.h"
    #include "FreeRTOS_Sockets.h"
    #include "IPTraceMacroDefaults.h"
    #include "FreeRTOS_Stream_Buffer.h"
    #if ( ipconfigUSE_TCP == 1 )
        #include "FreeRTOS_TCP_WIN.h"
        #include "FreeRTOS_TCP_IP.h"
    #endif

    #include "semphr.h"

    #include "event_groups.h"

/*-----------------------------------------------------------*/
/* Utility macros for marking casts as recognized during     */
/* static analysis.                                          */
/*-----------------------------------------------------------*/
    #define ipCAST_PTR_TO_TYPE_PTR( TYPE, pointer )                ( vCastPointerTo_ ## TYPE( ( void * ) ( pointer ) ) )
    #define ipCAST_CONST_PTR_TO_CONST_TYPE_PTR( TYPE, pointer )    ( vCastConstPointerTo_ ## TYPE( ( const void * ) ( pointer ) ) )

/*-----------------------------------------------------------*/
/* Utility macros for declaring cast utility functions in    */
/* order to centralize typecasting for static analysis.      */
/*-----------------------------------------------------------*/
    #define ipDECL_CAST_PTR_FUNC_FOR_TYPE( TYPE )          TYPE * vCastPointerTo_ ## TYPE( void * pvArgument )
    #define ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( TYPE )    const TYPE * vCastConstPointerTo_ ## TYPE( const void * pvArgument )

/**
 * Structure to hold the information about the Network parameters.
 */
    typedef struct xNetworkAddressingParameters
    {
        uint32_t ulDefaultIPAddress; /**< The default IP address */
        uint32_t ulNetMask;          /**< The netmask */
        uint32_t ulGatewayAddress;   /**< The gateway address */
        uint32_t ulDNSServerAddress; /**< The DNS server address */
        uint32_t ulBroadcastAddress; /**< The Broadcast address */
    } NetworkAddressingParameters_t;

    extern BaseType_t xTCPWindowLoggingLevel;
    extern QueueHandle_t xNetworkEventQueue;

/*-----------------------------------------------------------*/
/* Protocol headers.                                         */
/*-----------------------------------------------------------*/

    #include "pack_struct_start.h"
    struct xETH_HEADER
    {
        MACAddress_t xDestinationAddress; /**< Destination address  0 + 6 = 6  */
        MACAddress_t xSourceAddress;      /**< Source address       6 + 6 = 12 */
        uint16_t usFrameType;             /**< The EtherType field 12 + 2 = 14 */
    }
    #include "pack_struct_end.h"
    typedef struct xETH_HEADER EthernetHeader_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( EthernetHeader_t )
    {
        return ( EthernetHeader_t * ) pvArgument;
    }

    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( EthernetHeader_t )
    {
        return ( const EthernetHeader_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xARP_HEADER
    {
        uint16_t usHardwareType;              /**< Network Link Protocol type                     0 +  2 =  2 */
        uint16_t usProtocolType;              /**< The internetwork protocol                      2 +  2 =  4 */
        uint8_t ucHardwareAddressLength;      /**< Length in octets of a hardware address         4 +  1 =  5 */
        uint8_t ucProtocolAddressLength;      /**< Length in octets of the internetwork protocol  5 +  1 =  6 */
        uint16_t usOperation;                 /**< Operation that the sender is performing        6 +  2 =  8 */
        MACAddress_t xSenderHardwareAddress;  /**< Media address of the sender                    8 +  6 = 14 */
        uint8_t ucSenderProtocolAddress[ 4 ]; /**< Internetwork address of sender                14 +  4 = 18  */
        MACAddress_t xTargetHardwareAddress;  /**< Media address of the intended receiver        18 +  6 = 24  */
        uint32_t ulTargetProtocolAddress;     /**< Internetwork address of the intended receiver 24 +  4 = 28  */
    }
    #include "pack_struct_end.h"
    typedef struct xARP_HEADER ARPHeader_t;

    #include "pack_struct_start.h"
    struct xIP_HEADER
    {
        uint8_t ucVersionHeaderLength;        /**< The version field + internet header length 0 + 1 =  1 */
        uint8_t ucDifferentiatedServicesCode; /**< Differentiated services code point + ECN    1 + 1 =  2 */
        uint16_t usLength;                    /**< Entire Packet size                         2 + 2 =  4 */
        uint16_t usIdentification;            /**< Identification field                       4 + 2 =  6 */
        uint16_t usFragmentOffset;            /**< Fragment flags and fragment offset         6 + 2 =  8 */
        uint8_t ucTimeToLive;                 /**< Time to live field                         8 + 1 =  9 */
        uint8_t ucProtocol;                   /**< Protocol used in the IP-datagram           9 + 1 = 10 */
        uint16_t usHeaderChecksum;            /**< Checksum of the IP-header                 10 + 2 = 12 */
        uint32_t ulSourceIPAddress;           /**< IP address of the source                  12 + 4 = 16 */
        uint32_t ulDestinationIPAddress;      /**< IP address of the destination             16 + 4 = 20 */
    }
    #include "pack_struct_end.h"
    typedef struct xIP_HEADER IPHeader_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( IPHeader_t )
    {
        return ( IPHeader_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( IPHeader_t )
    {
        return ( const IPHeader_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xICMP_HEADER
    {
        uint8_t ucTypeOfMessage;   /**< The ICMP type                     0 + 1 = 1 */
        uint8_t ucTypeOfService;   /**< The ICMP subtype                  1 + 1 = 2 */
        uint16_t usChecksum;       /**< The checksum of whole ICMP packet 2 + 2 = 4 */
        uint16_t usIdentifier;     /**< Used in some types of ICMP        4 + 2 = 6 */
        uint16_t usSequenceNumber; /**< Used in some types of ICMP        6 + 2 = 8 */
    }
    #include "pack_struct_end.h"
    typedef struct xICMP_HEADER ICMPHeader_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( ICMPHeader_t )
    {
        return ( ICMPHeader_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( ICMPHeader_t )
    {
        return ( const ICMPHeader_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xUDP_HEADER
    {
        uint16_t usSourcePort;      /**< The source port                      0 + 2 = 2 */
        uint16_t usDestinationPort; /**< The destination port                 2 + 2 = 4 */
        uint16_t usLength;          /**< The size of the whole UDP packet     4 + 2 = 6 */
        uint16_t usChecksum;        /**< The checksum of the whole UDP Packet 6 + 2 = 8 */
    }
    #include "pack_struct_end.h"
    typedef struct xUDP_HEADER UDPHeader_t;

    #include "pack_struct_start.h"
    struct xTCP_HEADER
    {
        uint16_t usSourcePort;                       /**< The Source port                      +  2 =  2 */
        uint16_t usDestinationPort;                  /**< The destination port                 +  2 =  4 */
        uint32_t ulSequenceNumber;                   /**< The Sequence number                  +  4 =  8 */
        uint32_t ulAckNr;                            /**< The acknowledgement number           +  4 = 12 */
        uint8_t ucTCPOffset;                         /**< The value of TCP offset              +  1 = 13 */
        uint8_t ucTCPFlags;                          /**< The TCP-flags field                  +  1 = 14 */
        uint16_t usWindow;                           /**< The size of the receive window       +  2 = 15 */
        uint16_t usChecksum;                         /**< The checksum of the header           +  2 = 18 */
        uint16_t usUrgent;                           /**< Pointer to the last urgent data byte +  2 = 20 */
        #if ipconfigUSE_TCP == 1
            uint8_t ucOptdata[ ipSIZE_TCP_OPTIONS ]; /**< The options + 12 = 32 */
        #endif
    }
    #include "pack_struct_end.h"
    typedef struct xTCP_HEADER TCPHeader_t;


/*-----------------------------------------------------------*/
/* Nested protocol packets.                                  */
/*-----------------------------------------------------------*/

    #include "pack_struct_start.h"
    struct xARP_PACKET
    {
        EthernetHeader_t xEthernetHeader; /**< The ethernet header of an ARP Packet  0 + 14 = 14 */
        ARPHeader_t xARPHeader;           /**< The ARP header of an ARP Packet       14 + 28 = 42 */
    }
    #include "pack_struct_end.h"
    typedef struct xARP_PACKET ARPPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( ARPPacket_t )
    {
        return ( ARPPacket_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( ARPPacket_t )
    {
        return ( const ARPPacket_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xIP_PACKET
    {
        EthernetHeader_t xEthernetHeader;
        IPHeader_t xIPHeader;
    }
    #include "pack_struct_end.h"
    typedef struct xIP_PACKET IPPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( IPPacket_t )
    {
        return ( IPPacket_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( IPPacket_t )
    {
        return ( const IPPacket_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xICMP_PACKET
    {
        EthernetHeader_t xEthernetHeader; /**< The Ethernet header of an ICMP packet. */
        IPHeader_t xIPHeader;             /**< The IP header of an ICMP packet. */
        ICMPHeader_t xICMPHeader;         /**< The ICMP header of an ICMP packet. */
    }
    #include "pack_struct_end.h"
    typedef struct xICMP_PACKET ICMPPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( ICMPPacket_t )
    {
        return ( ICMPPacket_t * ) pvArgument;
    }


    #include "pack_struct_start.h"
    struct xUDP_PACKET
    {
        EthernetHeader_t xEthernetHeader; /**< UDP-Packet ethernet header  0 + 14 = 14 */
        IPHeader_t xIPHeader;             /**< UDP-Packet IP header        14 + 20 = 34 */
        UDPHeader_t xUDPHeader;           /**< UDP-Packet UDP header       34 +  8 = 42 */
    }
    #include "pack_struct_end.h"
    typedef struct xUDP_PACKET UDPPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( UDPPacket_t )
    {
        return ( UDPPacket_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( UDPPacket_t )
    {
        return ( const UDPPacket_t * ) pvArgument;
    }

    #include "pack_struct_start.h"
    struct xTCP_PACKET
    {
        EthernetHeader_t xEthernetHeader; /**< The ethernet header  0 + 14 = 14 */
        IPHeader_t xIPHeader;             /**< The IP header        14 + 20 = 34 */
        TCPHeader_t xTCPHeader;           /**< The TCP header       34 + 32 = 66 */
    }
    #include "pack_struct_end.h"
    typedef struct xTCP_PACKET TCPPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( TCPPacket_t )
    {
        return ( TCPPacket_t * ) pvArgument;
    }

    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( TCPPacket_t )
    {
        return ( const TCPPacket_t * ) pvArgument;
    }


/**
 * Union for the protocol packet to save space. Any packet cannot have more than one
 * of the below protocol packets.
 */
    typedef union XPROT_PACKET
    {
        ARPPacket_t xARPPacket;   /**< Union member: ARP packet struct */
        TCPPacket_t xTCPPacket;   /**< Union member: TCP packet struct */
        UDPPacket_t xUDPPacket;   /**< Union member: UDP packet struct */
        ICMPPacket_t xICMPPacket; /**< Union member: ICMP packet struct */
    } ProtocolPacket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( ProtocolPacket_t )
    {
        return ( ProtocolPacket_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( ProtocolPacket_t )
    {
        return ( const ProtocolPacket_t * ) pvArgument;
    }

/**
 * Union for protocol headers to save space (RAM). Any packet cannot have more than one of
 * the below protocols.
 */
    typedef union xPROT_HEADERS
    {
        ICMPHeader_t xICMPHeader; /**< Union member: ICMP header */
        UDPHeader_t xUDPHeader;   /**< Union member: UDP header */
        TCPHeader_t xTCPHeader;   /**< Union member: TCP header */
    } ProtocolHeaders_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( ProtocolHeaders_t )
    {
        return ( ProtocolHeaders_t * ) pvArgument;
    }

    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( ProtocolHeaders_t )
    {
        return ( const ProtocolHeaders_t * ) pvArgument;
    }

/* The maximum UDP payload length. */
    #define ipMAX_UDP_PAYLOAD_LENGTH    ( ( ipconfigNETWORK_MTU - ipSIZE_OF_IPv4_HEADER ) - ipSIZE_OF_UDP_HEADER )

    typedef enum
    {
        eReleaseBuffer = 0,   /* Processing the frame did not find anything to do - just release the buffer. */
        eProcessBuffer,       /* An Ethernet frame has a valid address - continue process its contents. */
        eReturnEthernetFrame, /* The Ethernet frame contains an ARP or ICMP packet that can be returned to its source. */
        eFrameConsumed        /* Processing the Ethernet packet contents resulted in the payload being sent to the stack. */
    } eFrameProcessingResult_t;

    typedef enum
    {
        eNoEvent = -1,
        eNetworkDownEvent,  /* 0: The network interface has been lost and/or needs [re]connecting. */
        eNetworkRxEvent,    /* 1: The network interface has queued a received Ethernet frame. */
        eNetworkTxEvent,    /* 2: Let the IP-task send a network packet. */
        eARPTimerEvent,     /* 3: The ARP timer expired. */
        eStackTxEvent,      /* 4: The software stack has queued a packet to transmit. */
        eDHCPEvent,         /* 5: Process the DHCP state machine. */
        eTCPTimerEvent,     /* 6: See if any TCP socket needs attention. */
        eTCPAcceptEvent,    /* 7: Client API FreeRTOS_accept() waiting for client connections. */
        eTCPNetStat,        /* 8: IP-task is asked to produce a netstat listing. */
        eSocketBindEvent,   /* 9: Send a message to the IP-task to bind a socket to a port. */
        eSocketCloseEvent,  /*10: Send a message to the IP-task to close a socket. */
        eSocketSelectEvent, /*11: Send a message to the IP-task for select(). */
        eSocketSignalEvent, /*12: A socket must be signalled. */
    } eIPEvent_t;

/**
 * Structure for the information of the commands issued to the IP task.
 */
    typedef struct IP_TASK_COMMANDS
    {
        eIPEvent_t eEventType; /**< The event-type enum */
        void * pvData;         /**< The data in the event */
    } IPStackEvent_t;

    #define ipBROADCAST_IP_ADDRESS    0xffffffffUL


/* Offset into the Ethernet frame that is used to temporarily store information
 * on the fragmentation status of the packet being sent.  The value is important,
 * as it is past the location into which the destination address will get placed. */
    #define ipFRAGMENTATION_PARAMETERS_OFFSET    ( 6 )
    #define ipSOCKET_OPTIONS_OFFSET              ( 6 )

/* Only used when outgoing fragmentation is being used (FreeRTOSIPConfig.h
 * setting. */
    #define ipGET_UDP_PAYLOAD_OFFSET_FOR_FRAGMENT( usFragmentOffset )    ( ( ( usFragmentOffset ) == 0 ) ? ipUDP_PAYLOAD_OFFSET_IPv4 : ipIP_PAYLOAD_OFFSET )

/* The offset into a UDP packet at which the UDP data (payload) starts. */
    #define ipUDP_PAYLOAD_OFFSET_IPv4    ( sizeof( UDPPacket_t ) )

/* The offset into an IP packet into which the IP data (payload) starts. */
    #define ipIP_PAYLOAD_OFFSET          ( sizeof( IPPacket_t ) )

    #if ( ipconfigBYTE_ORDER == pdFREERTOS_LITTLE_ENDIAN )

/* Ethernet frame types. */
        #define ipARP_FRAME_TYPE                ( 0x0608U )
        #define ipIPv4_FRAME_TYPE               ( 0x0008U )

/* ARP related definitions. */
        #define ipARP_PROTOCOL_TYPE             ( 0x0008U )
        #define ipARP_HARDWARE_TYPE_ETHERNET    ( 0x0100U )
        #define ipARP_REQUEST                   ( 0x0100U )
        #define ipARP_REPLY                     ( 0x0200U )

    #else /* if ( ipconfigBYTE_ORDER == pdFREERTOS_LITTLE_ENDIAN ) */

/* Ethernet frame types. */
        #define ipARP_FRAME_TYPE                ( 0x0806U )
        #define ipIPv4_FRAME_TYPE               ( 0x0800U )

/* ARP related definitions. */
        #define ipARP_PROTOCOL_TYPE             ( 0x0800U )
        #define ipARP_HARDWARE_TYPE_ETHERNET    ( 0x0001U )
        #define ipARP_REQUEST                   ( 0x0001 )
        #define ipARP_REPLY                     ( 0x0002 )

    #endif /* ipconfigBYTE_ORDER == pdFREERTOS_LITTLE_ENDIAN */


/* For convenience, a MAC address of all zeros and another of all 0xffs are
 * defined const for quick reference. */
    extern const MACAddress_t xBroadcastMACAddress; /* all 0xff's */
    extern uint16_t usPacketIdentifier;

/**
 * Define a default UDP packet header (declared in FreeRTOS_UDP_IP.c)
 */
    typedef union xUDPPacketHeader
    {
        uint8_t ucBytes[ 24 ]; /**< Member: 8-bit array */
        uint32_t ulWords[ 6 ]; /**< Member: 32-bit array */
    } UDPPacketHeader_t;
    extern UDPPacketHeader_t xDefaultPartUDPPacketHeader;


/* Structure that stores the netmask, gateway address and DNS server addresses. */
    extern NetworkAddressingParameters_t xNetworkAddressing;

/* Structure that stores the defaults for netmask, gateway address and DNS.
 * These values will be copied to 'xNetworkAddressing' in case DHCP is not used,
 * and also in case DHCP does not lead to a confirmed request. */
/*lint -e9003*/
    extern NetworkAddressingParameters_t xDefaultAddressing; /*lint !e9003 could define variable 'xDefaultAddressing' at block scope [MISRA 2012 Rule 8.9, advisory]. */

/* True when BufferAllocation_1.c was included, false for BufferAllocation_2.c */
    extern const BaseType_t xBufferAllocFixedSize;

/* Defined in FreeRTOS_Sockets.c */
    #if ( ipconfigUSE_TCP == 1 )
        extern List_t xBoundTCPSocketsList;
    #endif

/* The local IP address is accessed from within xDefaultPartUDPPacketHeader,
 * rather than duplicated in its own variable. */
    #define ipLOCAL_IP_ADDRESS_POINTER    ( ( uint32_t * ) &( xDefaultPartUDPPacketHeader.ulWords[ 20U / sizeof( uint32_t ) ] ) )

/* The local MAC address is accessed from within xDefaultPartUDPPacketHeader,
 * rather than duplicated in its own variable. */
    #define ipLOCAL_MAC_ADDRESS           ( xDefaultPartUDPPacketHeader.ucBytes )

/* In this library, there is often a cast from a character pointer
 * to a pointer to a struct.
 * In order to suppress MISRA warnings, do the cast within a macro,
 * which can be exempt from warnings:
 *
 * 3 required by MISRA:
 * -emacro(740,ipPOINTER_CAST)    // 750:  Unusual pointer cast (incompatible indirect types) [MISRA 2012 Rule 1.3, required])
 * -emacro(9005,ipPOINTER_CAST)   // 9005: attempt to cast away const/volatile from a pointer or reference [MISRA 2012 Rule 11.8, required]
 * -emacro(9087,ipPOINTER_CAST)   // 9087: cast performed between a pointer to object type and a pointer to a different object type [MISRA 2012 Rule 11.3, required]
 *
 * 2 advisory by MISRA:
 * -emacro(9079,ipPOINTER_CAST)   // 9079: conversion from pointer to void to pointer to other type [MISRA 2012 Rule 11.5, advisory])
 * --emacro((826),ipPOINTER_CAST) // 826:  Suspicious pointer-to-pointer conversion (area too small)
 *
 * The MISRA warnings can safely be suppressed because all casts are planned with care.
 */

    #define ipPOINTER_CAST( TYPE, pointer )    ( ( TYPE ) ( pointer ) )

/* Sequence and ACK numbers are essentially unsigned (uint32_t). But when
 * a distance is calculated, it is useful to use signed numbers:
 * int32_t lDistance = ( int32_t ) ( ulSeq1 - ulSeq2 );
 *
 * 1 required by MISRA:
 * -emacro(9033,ipNUMERIC_CAST) // 9033: Impermissible cast of composite expression (different essential type categories) [MISRA 2012 Rule 10.8, required])
 *
 * 1 advisory by MISRA:
 * -emacro(9030,ipNUMERIC_CAST) // 9030: Impermissible cast; cannot cast from 'essentially Boolean' to 'essentially signed' [MISRA 2012 Rule 10.5, advisory])
 */

    #define ipNUMERIC_CAST( TYPE, expression )    ( ( TYPE ) ( expression ) )

/* ICMP packets are sent using the same function as UDP packets.  The port
 * number is used to distinguish between the two, as 0 is an invalid UDP port. */
    #define ipPACKET_CONTAINS_ICMP_DATA    ( 0 )

/* For now, the lower 8 bits in 'xEventBits' will be reserved for the above
 * socket events. */
    #define SOCKET_EVENT_BIT_COUNT         8

    #define vSetField16( pxBase, xType, xField, usValue )                                                    \
    {                                                                                                        \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 0 ] = ( uint8_t ) ( ( usValue ) >> 8 );    \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 1 ] = ( uint8_t ) ( ( usValue ) & 0xffU ); \
    }

    #define vSetField32( pxBase, xType, xField, ulValue )                                                              \
    {                                                                                                                  \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 0 ] = ( uint8_t ) ( ( ulValue ) >> 24 );             \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 1 ] = ( uint8_t ) ( ( ( ulValue ) >> 16 ) & 0xffU ); \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 2 ] = ( uint8_t ) ( ( ( ulValue ) >> 8 ) & 0xffU );  \
        ( ( uint8_t * ) ( pxBase ) )[ offsetof( xType, xField ) + 3 ] = ( uint8_t ) ( ( ulValue ) & 0xffU );           \
    }

    #define vFlip_16( left, right ) \
    do {                            \
        uint16_t tmp = ( left );    \
        ( left ) = ( right );       \
        ( right ) = tmp;            \
    } while( ipFALSE_BOOL )

    #define vFlip_32( left, right ) \
    do {                            \
        uint32_t tmp = ( left );    \
        ( left ) = ( right );       \
        ( right ) = tmp;            \
    } while( ipFALSE_BOOL )

/* WARNING: Do NOT use this macro when the array was received as a parameter. */
    #ifndef ARRAY_SIZE
        #define ARRAY_SIZE( x )    ( ( BaseType_t ) ( sizeof( x ) / sizeof( ( x )[ 0 ] ) ) )
    #endif

/*
 * Create a message that contains a command to initialise the network interface.
 * This is used during initialisation, and at any time the network interface
 * goes down thereafter.  The network interface hardware driver is responsible
 * for sending the message that contains the network interface down command/
 * event.
 *
 * Only use the FreeRTOS_NetworkDownFromISR() version if the function is to be
 * called from an interrupt service routine.  If FreeRTOS_NetworkDownFromISR()
 * returns a non-zero value then a context switch should be performed before
 * the interrupt is exited.
 */
    void FreeRTOS_NetworkDown( void );
    BaseType_t FreeRTOS_NetworkDownFromISR( void );

/*
 * Processes incoming ARP packets.
 */
    eFrameProcessingResult_t eARPProcessPacket( ARPPacket_t * const pxARPFrame );

/*
 * Inspect an Ethernet frame to see if it contains data that the stack needs to
 * process.  eProcessBuffer is returned if the frame should be processed by the
 * stack.  eReleaseBuffer is returned if the frame should be discarded.
 */
    eFrameProcessingResult_t eConsiderFrameForProcessing( const uint8_t * const pucEthernetBuffer );

/*
 * Return the checksum generated over xDataLengthBytes from pucNextData.
 */
    uint16_t usGenerateChecksum( uint16_t usSum,
                                 const uint8_t * pucNextData,
                                 size_t uxByteCount );

/* Socket related private functions. */

/*
 * The caller must ensure that pxNetworkBuffer->xDataLength is the UDP packet
 * payload size (excluding packet headers) and that the packet in pucEthernetBuffer
 * is at least the size of UDPPacket_t.
 */
    BaseType_t xProcessReceivedUDPPacket( NetworkBufferDescriptor_t * pxNetworkBuffer,
                                          uint16_t usPort );

/*
 * Initialize the socket list data structures for TCP and UDP.
 */
    void vNetworkSocketsInit( void );

/*
 * Returns pdTRUE if the IP task has been created and is initialised.  Otherwise
 * returns pdFALSE.
 */
    BaseType_t xIPIsNetworkTaskReady( void );

    #if ( ipconfigSOCKET_HAS_USER_WAKE_CALLBACK == 1 )
        struct xSOCKET;
        typedef void (* SocketWakeupCallback_t)( struct xSOCKET * pxSocket );
    #endif

    #if ( ipconfigUSE_TCP == 1 )

/*
 * Actually a user thing, but because xBoundTCPSocketsList, let it do by the
 * IP-task
 */
        #if ( ipconfigHAS_PRINTF != 0 )
            void vTCPNetStat( void );
        #endif

/*
 * At least one socket needs to check for timeouts
 */
        TickType_t xTCPTimerCheck( BaseType_t xWillSleep );

/**
 * Every TCP socket has a buffer space just big enough to store
 * the last TCP header received.
 * As a reference of this field may be passed to DMA, force the
 * alignment to 8 bytes.
 */
        typedef union
        {
            struct
            {
                uint64_t ullAlignmentWord; /**< Increase the alignment of this union by adding a 64-bit variable. */
            } a;                           /**< A struct to increase alignment. */
            struct
            {
                /* The next field only serves to give 'ucLastPacket' a correct
                 * alignment of 8 + 2.  See comments in FreeRTOS_IP.h */
                uint8_t ucFillPacket[ ipconfigPACKET_FILLER_SIZE ];
                uint8_t ucLastPacket[ sizeof( TCPPacket_t ) ];
            } u; /**< The structure to give an alignment of 8 + 2 */
        } LastTCPPacket_t;

/**
 * Note that the values of all short and long integers in these structs
 * are being stored in the native-endian way
 * Translation should take place when accessing any structure which defines
 * network packets, such as IPHeader_t and TCPHeader_t
 */
        typedef struct TCPSOCKET
        {
            uint32_t ulRemoteIP;   /**< IP address of remote machine */
            uint16_t usRemotePort; /**< Port on remote machine */
            struct
            {
                /* Most compilers do like bit-flags */
                uint32_t
                    bMssChange : 1,        /**< This socket has seen a change in MSS */
                    bPassAccept : 1,       /**< when true, this socket may be returned in a call to accept() */
                    bPassQueued : 1,       /**< when true, this socket is an orphan until it gets connected
                                            * Why an orphan? Because it may not be returned in a accept() call until it
                                            * gets the state eESTABLISHED */
                    bReuseSocket : 1,      /**< When a listening socket gets a connection, do not create a new instance but keep on using it */
                    bCloseAfterSend : 1,   /**< As soon as the last byte has been transmitted, finalise the connection
                                            * Useful in e.g. FTP connections, where the last data bytes are sent along with the FIN flag */
                    bUserShutdown : 1,     /**< User requesting a graceful shutdown */
                    bCloseRequested : 1,   /**< Request to finalise the connection */
                    bLowWater : 1,         /**< high-water level has been reached. Cleared as soon as 'rx-count < lo-water' */
                    bWinChange : 1,        /**< The value of bLowWater has changed, must send a window update */
                    bSendKeepAlive : 1,    /**< When this flag is true, a TCP keep-alive message must be send */
                    bWaitKeepAlive : 1,    /**< When this flag is true, a TCP keep-alive reply is expected */
                    bConnPrepared : 1,     /**< Connecting socket: Message has been prepared */
                #if ( ipconfigSUPPORT_SELECT_FUNCTION == 1 )
                    bConnPassed : 1,       /**< Connecting socket: Socket has been passed in a successful select()  */
                #endif /* ipconfigSUPPORT_SELECT_FUNCTION */
                bFinAccepted : 1,          /**< This socket has received (or sent) a FIN and accepted it */
                    bFinSent : 1,          /**< We've sent out a FIN */
                    bFinRecv : 1,          /**< We've received a FIN from our peer */
                    bFinAcked : 1,         /**< Our FIN packet has been acked */
                    bFinLast : 1,          /**< The last ACK (after FIN and FIN+ACK) has been sent or will be sent by the peer */
                    bRxStopped : 1,        /**< Application asked to temporarily stop reception */
                    bMallocError : 1,      /**< There was an error allocating a stream */
                    bWinScaling : 1;       /**< A TCP-Window Scaling option was offered and accepted in the SYN phase. */
            } bits;                        /**< The bits structure */
            uint32_t ulHighestRxAllowed;   /**< The highest sequence number that we can receive at any moment */
            uint16_t usTimeout;            /**< Time (in ticks) after which this socket needs attention */
            uint16_t usCurMSS;             /**< Current Maximum Segment Size */
            uint16_t usInitMSS;            /**< Initial maximum segment Size */
            uint16_t usChildCount;         /**< In case of a listening socket: number of connections on this port number */
            uint16_t usBacklog;            /**< In case of a listening socket: maximum number of concurrent connections on this port number */
            uint8_t ucRepCount;            /**< Send repeat count, for retransmissions
                                            * This counter is separate from the xmitCount in the
                                            * TCP win segments */
            uint8_t ucTCPState;            /**< TCP state: see eTCP_STATE */
            struct xSOCKET * pxPeerSocket; /**< for server socket: child, for child socket: parent */
            #if ( ipconfigTCP_KEEP_ALIVE == 1 )
                uint8_t ucKeepRepCount;
                TickType_t xLastAliveTime; /**< The last value of keepalive time.*/
            #endif /* ipconfigTCP_KEEP_ALIVE */
            #if ( ipconfigTCP_HANG_PROTECTION == 1 )
                TickType_t xLastActTime;                  /**< The last time when hang-protection was done.*/
            #endif /* ipconfigTCP_HANG_PROTECTION */
            size_t uxLittleSpace;                         /**< The value deemed as low amount of space. */
            size_t uxEnoughSpace;                         /**< The value deemed as enough space. */
            size_t uxRxStreamSize;                        /**< The Receive stream size */
            size_t uxTxStreamSize;                        /**< The transmit stream size */
            StreamBuffer_t * rxStream;                    /**< The pointer to the receive stream buffer. */
            StreamBuffer_t * txStream;                    /**< The pointer to the transmit stream buffer. */
            #if ( ipconfigUSE_TCP_WIN == 1 )
                NetworkBufferDescriptor_t * pxAckMessage; /**< The pointer to the ACK message */
            #endif /* ipconfigUSE_TCP_WIN */
            LastTCPPacket_t xPacket;                      /**< Buffer space to store the last TCP header received. */
            uint8_t tcpflags;                             /**< TCP flags */
            #if ( ipconfigUSE_TCP_WIN != 0 )
                uint8_t ucMyWinScaleFactor;               /**< Scaling factor of this device. */
                uint8_t ucPeerWinScaleFactor;             /**< Scaling factor of the peer. */
            #endif
            #if ( ipconfigUSE_CALLBACKS == 1 )
                FOnTCPReceive_t pxHandleReceive;  /**<
                                                   * In case of a TCP socket:
                                                   * typedef void (* FOnTCPReceive_t) (Socket_t xSocket, void *pData, size_t xLength );
                                                   */
                FOnTCPSent_t pxHandleSent;        /**< Function pointer to handle a successful send event.  */
                FOnConnected_t pxHandleConnected; /**< Actually type: typedef void (* FOnConnected_t) (Socket_t xSocket, BaseType_t ulConnected ); */
            #endif /* ipconfigUSE_CALLBACKS */
            uint32_t ulWindowSize;                /**< Current Window size advertised by peer */
            size_t uxRxWinSize;                   /**< Fixed value: size of the TCP reception window */
            size_t uxTxWinSize;                   /**< Fixed value: size of the TCP transmit window */

            TCPWindow_t xTCPWindow;               /**< The TCP window struct*/
        } IPTCPSocket_t;

    #endif /* ipconfigUSE_TCP */

/**
 * Structure to hold the information about a UDP socket.
 */
    typedef struct UDPSOCKET
    {
        List_t xWaitingPacketsList;   /**< Incoming packets */
        #if ( ipconfigUDP_MAX_RX_PACKETS > 0 )
            UBaseType_t uxMaxPackets; /**< Protection: limits the number of packets buffered per socket */
        #endif /* ipconfigUDP_MAX_RX_PACKETS */
        #if ( ipconfigUSE_CALLBACKS == 1 )
            FOnUDPReceive_t pxHandleReceive; /**<
                                              * In case of a UDP socket:
                                              * typedef void (* FOnUDPReceive_t) (Socket_t xSocket, void *pData, size_t xLength, struct freertos_sockaddr *pxAddr );
                                              */
            FOnUDPSent_t pxHandleSent;       /**< Function pointer to handle the events after a successful send. */
        #endif /* ipconfigUSE_CALLBACKS */
    } IPUDPSocket_t;

/* Formally typedef'd as eSocketEvent_t. */
    enum eSOCKET_EVENT
    {
        eSOCKET_RECEIVE = 0x0001,
        eSOCKET_SEND = 0x0002,
        eSOCKET_ACCEPT = 0x0004,
        eSOCKET_CONNECT = 0x0008,
        eSOCKET_BOUND = 0x0010,
        eSOCKET_CLOSED = 0x0020,
        eSOCKET_INTR = 0x0040,
        eSOCKET_ALL = 0x007F,
    };


/**
 * Structure to hold information for a socket.
 */
    typedef struct xSOCKET
    {
        EventBits_t xEventBits;                /**< The eventbits to keep track of events. */
        EventGroupHandle_t xEventGroup;        /**< The event group for this socket. */

        ListItem_t xBoundSocketListItem;       /**< Used to reference the socket from a bound sockets list. */
        TickType_t xReceiveBlockTime;          /**< if recv[to] is called while no data is available, wait this amount of time. Unit in clock-ticks */
        TickType_t xSendBlockTime;             /**< if send[to] is called while there is not enough space to send, wait this amount of time. Unit in clock-ticks */

        uint16_t usLocalPort;                  /**< Local port on this machine */
        uint8_t ucSocketOptions;               /**< Socket options */
        uint8_t ucProtocol;                    /**< choice of FREERTOS_IPPROTO_UDP/TCP */
        #if ( ipconfigSOCKET_HAS_USER_SEMAPHORE == 1 )
            SemaphoreHandle_t pxUserSemaphore; /**< The user semaphore */
        #endif /* ipconfigSOCKET_HAS_USER_SEMAPHORE */
        #if ( ipconfigSOCKET_HAS_USER_WAKE_CALLBACK == 1 )
            SocketWakeupCallback_t pxUserWakeCallback; /**< Pointer to the callback function. */
        #endif /* ipconfigSOCKET_HAS_USER_WAKE_CALLBACK */

        #if ( ipconfigSUPPORT_SELECT_FUNCTION == 1 )
            struct xSOCKET_SET * pxSocketSet; /**< Pointer to the socket set structure */
            EventBits_t xSelectBits;          /**< User may indicate which bits are interesting for this socket. */

            EventBits_t xSocketBits;          /**< These bits indicate the events which have actually occurred.
                                               * They are maintained by the IP-task */
        #endif /* ipconfigSUPPORT_SELECT_FUNCTION */
        /* TCP/UDP specific fields: */
        /* Before accessing any member of this structure, it should be confirmed */
        /* that the protocol corresponds with the type of structure */

        union
        {
            IPUDPSocket_t xUDP;           /**< Union member: UDP socket*/
            #if ( ipconfigUSE_TCP == 1 )
                IPTCPSocket_t xTCP;       /**< Union member: TCP socket */

                uint64_t ullTCPAlignment; /**< Make sure that xTCP is 8-bytes aligned by
                                           * declaring a 64-bit variable in the same union */
            #endif /* ipconfigUSE_TCP */
        } u;                              /**< Union of TCP/UDP socket */
    } FreeRTOS_Socket_t;

    static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( FreeRTOS_Socket_t )
    {
        return ( FreeRTOS_Socket_t * ) pvArgument;
    }
    static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( FreeRTOS_Socket_t )
    {
        return ( const FreeRTOS_Socket_t * ) pvArgument;
    }

    #if ( ipconfigUSE_TCP == 1 )

/*
 * Lookup a TCP socket, using a multiple matching: both port numbers and
 * return IP address.
 */
        FreeRTOS_Socket_t * pxTCPSocketLookup( uint32_t ulLocalIP,
                                               UBaseType_t uxLocalPort,
                                               uint32_t ulRemoteIP,
                                               UBaseType_t uxRemotePort );

    #endif /* ipconfigUSE_TCP */


/*
 * Look up a local socket by finding a match with the local port.
 */
    FreeRTOS_Socket_t * pxUDPSocketLookup( UBaseType_t uxLocalPort );

/*
 * Called when the application has generated a UDP packet to send.
 */
    void vProcessGeneratedUDPPacket( NetworkBufferDescriptor_t * const pxNetworkBuffer );

/*
 * Calculate the upper-layer checksum
 * Works both for UDP, ICMP and TCP packages
 * bOut = true: checksum will be set in outgoing packets
 * bOut = false: checksum will be calculated for incoming packets
 *     returning 0xffff means: checksum was correct
 */
    uint16_t usGenerateProtocolChecksum( const uint8_t * const pucEthernetBuffer,
                                         size_t uxBufferLength,
                                         BaseType_t xOutgoingPacket );

/*
 * An Ethernet frame has been updated (maybe it was an ARP request or a PING
 * request?) and is to be sent back to its source.
 */
    void vReturnEthernetFrame( NetworkBufferDescriptor_t * pxNetworkBuffer,
                               BaseType_t xReleaseAfterSend );

/*
 * The internal version of bind()
 * If 'ulInternal' is true, it is called by the driver
 * The TCP driver needs to bind a socket at the moment a listening socket
 * creates a new connected socket
 */
    BaseType_t vSocketBind( FreeRTOS_Socket_t * pxSocket,
                            struct freertos_sockaddr * pxBindAddress,
                            size_t uxAddressLength,
                            BaseType_t xInternal );

/*
 * Internal function to add streaming data to a TCP socket. If ulIn == true,
 * data will be added to the rxStream, otherwise to the tXStream.  Normally data
 * will be written with ulOffset == 0, meaning: at the end of the FIFO.  When
 * packet come in out-of-order, an offset will be used to put it in front and
 * the head will not change yet.
 */
    int32_t lTCPAddRxdata( FreeRTOS_Socket_t * pxSocket,
                           size_t uxOffset,
                           const uint8_t * pcData,
                           uint32_t ulByteCount );

/*
 * Currently called for any important event.
 */
    void vSocketWakeUpUser( FreeRTOS_Socket_t * pxSocket );

/*
 * Some helping function, their meaning should be clear.
 * Going by MISRA rules, these utility functions should not be defined
 * if they are not being used anywhere. But their use depends on the
 * application and hence these functions are defined unconditionally.
 */
    static portINLINE uint32_t ulChar2u32( const uint8_t * apChr );
    static portINLINE uint32_t ulChar2u32( const uint8_t * apChr )
    {
        return ( ( ( uint32_t ) apChr[ 0 ] ) << 24 ) |
               ( ( ( uint32_t ) apChr[ 1 ] ) << 16 ) |
               ( ( ( uint32_t ) apChr[ 2 ] ) << 8 ) |
               ( ( ( uint32_t ) apChr[ 3 ] ) );
    }

    static portINLINE uint16_t usChar2u16( const uint8_t * apChr );
    static portINLINE uint16_t usChar2u16( const uint8_t * apChr )
    {
        return ( uint16_t )
               ( ( ( ( uint32_t ) apChr[ 0 ] ) << 8 ) |
                 ( ( ( uint32_t ) apChr[ 1 ] ) ) );
    }

/* Check a single socket for retransmissions and timeouts */
    BaseType_t xTCPSocketCheck( FreeRTOS_Socket_t * pxSocket );

    BaseType_t xTCPCheckNewClient( FreeRTOS_Socket_t * pxSocket );

/* Defined in FreeRTOS_Sockets.c
 * Close a socket
 */
    void * vSocketClose( FreeRTOS_Socket_t * pxSocket );

/*
 * Send the event eEvent to the IP task event queue, using a block time of
 * zero.  Return pdPASS if the message was sent successfully, otherwise return
 * pdFALSE.
 */
    BaseType_t xSendEventToIPTask( eIPEvent_t eEvent );

/*
 * The same as above, but a struct as a parameter, containing:
 *      eIPEvent_t eEventType;
 *      void *pvData;
 */
    BaseType_t xSendEventStructToIPTask( const IPStackEvent_t * pxEvent,
                                         TickType_t uxTimeout );

/*
 * Returns a pointer to the original NetworkBuffer from a pointer to a UDP
 * payload buffer.
 */
    NetworkBufferDescriptor_t * pxUDPPayloadBuffer_to_NetworkBuffer( const void * pvBuffer );

    #if ( ipconfigZERO_COPY_TX_DRIVER != 0 )

/*
 * For the case where the network driver passes a buffer directly to a DMA
 * descriptor, this function can be used to translate a 'network buffer' to
 * a 'network buffer descriptor'.
 */
        NetworkBufferDescriptor_t * pxPacketBuffer_to_NetworkBuffer( const void * pvBuffer );
    #endif

/*
 * Internal: Sets a new state for a TCP socket and performs the necessary
 * actions like calling a OnConnected handler to notify the socket owner.
 */
    #if ( ipconfigUSE_TCP == 1 )
        void vTCPStateChange( FreeRTOS_Socket_t * pxSocket,
                              enum eTCP_STATE eTCPState );
    #endif /* ipconfigUSE_TCP */

/* Returns pdTRUE is this function is called from the IP-task */
    BaseType_t xIsCallingFromIPTask( void );

    #if ( ipconfigSUPPORT_SELECT_FUNCTION == 1 )

/** @brief Structure for event groups of the Socket Select functions */
        typedef struct xSOCKET_SET
        {
            /** @brief Event group for the socket select function.
             */
            EventGroupHandle_t xSelectGroup;
        } SocketSelect_t;

        static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( SocketSelect_t )
        {
            return ( SocketSelect_t * ) pvArgument;
        }
        static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( SocketSelect_t )
        {
            return ( const SocketSelect_t * ) pvArgument;
        }

        extern void vSocketSelect( SocketSelect_t * pxSocketSet );

/** @brief Define the data that must be passed for a 'eSocketSelectEvent'. */
        typedef struct xSocketSelectMessage
        {
            TaskHandle_t xTaskhandle;     /**< Task handle for use in the socket select functionality. */
            SocketSelect_t * pxSocketSet; /**< The event group for the socket select functionality. */
        } SocketSelectMessage_t;

        static portINLINE ipDECL_CAST_PTR_FUNC_FOR_TYPE( SocketSelectMessage_t )
        {
            return ( SocketSelectMessage_t * ) pvArgument;
        }
        static portINLINE ipDECL_CAST_CONST_PTR_FUNC_FOR_TYPE( SocketSelectMessage_t )
        {
            return ( const SocketSelectMessage_t * ) pvArgument;
        }

    #endif /* ipconfigSUPPORT_SELECT_FUNCTION */

    void vIPSetDHCPTimerEnableState( BaseType_t xEnableState );
    void vIPReloadDHCPTimer( uint32_t ulLeaseTime );
    #if ( ipconfigDNS_USE_CALLBACKS != 0 )
        void vIPReloadDNSTimer( uint32_t ulCheckTime );
        void vIPSetDnsTimerEnableState( BaseType_t xEnableState );
    #endif


/* Send the network-up event and start the ARP timer. */
    void vIPNetworkUpCalls( void );

    #ifdef __cplusplus
        } /* extern "C" */
    #endif

#endif /* FREERTOS_IP_PRIVATE_H */