/* Include Unity header */ #include /* Include standard libraries */ #include #include #include #include "FreeRTOS.h" #include "task.h" #include "list.h" #include "FreeRTOS_IP.h" #include "FreeRTOS_IP_Private.h" struct xNetworkEndPoint * pxNetworkEndPoints = NULL; NetworkInterface_t xInterfaces[ 1 ]; DHCPData_t xDHCPData; volatile BaseType_t xInsideInterrupt = pdFALSE; /** @brief The expected IP version and header length coded into the IP header itself. */ #define ipIP_VERSION_AND_HEADER_LENGTH_BYTE ( ( uint8_t ) 0x45 ) #define xSizeofUDPBuffer 300 Socket_t xDHCPSocket; extern Socket_t xDHCPv4Socket; eDHCPCallbackPhase_t eStubExpectedDHCPPhase; struct xNetworkEndPoint * pxStubExpectedEndPoint; uint32_t ulStubExpectedIPAddress; eDHCPCallbackAnswer_t eStubExpectedReturn; static uint8_t * ucGenericPtr; static int32_t ulGenericLength; static NetworkBufferDescriptor_t * pxGlobalNetworkBuffer[ 10 ]; static uint8_t GlobalBufferCounter = 0; static uint8_t pucUDPBuffer[ xSizeofUDPBuffer ]; static uint8_t DHCP_header[] = { dhcpREPLY_OPCODE, /**< Operation Code: Specifies the general type of message. */ 0x01, /**< Hardware type used on the local network. */ 0x06, /**< Hardware Address Length: Specifies how long hardware * addresses are in this message. */ 0x02, /**< Hops. */ 0x01, 0xAB, 0xCD, 0xEF, /**< A 32-bit identification field generated by the client, * to allow it to match up the request with replies received * from DHCP servers. */ 0x01, /**< Number of seconds elapsed since a client began an attempt to acquire or renew a lease. */ 0x00, /**< Just one bit used to indicate broadcast. */ 0xC0, 0xA8, 0x00, 0x0A, /**< Client's IP address if it has one or 0 is put in this field. */ 0x00, 0xAA, 0xAA, 0xAA, /**< The IP address that the server is assigning to the client. */ 0x00, 0xAA, 0xAA, 0xAA, /**< The DHCP server address that the client should use. */ 0x00, 0xAA, 0xAA, 0xAA /**< Gateway IP address in case the server client are on different subnets. */ }; UDPPacketHeader_t xDefaultPartUDPPacketHeader = { /* .ucBytes : */ { 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, /* Ethernet source MAC address. */ 0x08, 0x00, /* Ethernet frame type. */ ipIP_VERSION_AND_HEADER_LENGTH_BYTE, /* ucVersionHeaderLength. */ 0x00, /* ucDifferentiatedServicesCode. */ 0x00, 0x00, /* usLength. */ 0x00, 0x00, /* usIdentification. */ 0x00, 0x00, /* usFragmentOffset. */ ipconfigUDP_TIME_TO_LIVE, /* ucTimeToLive */ ipPROTOCOL_UDP, /* ucProtocol. */ 0x00, 0x00, /* usHeaderChecksum. */ 0x00, 0x00, 0x00, 0x00 /* Source IP address. */ } }; /* * IP-clash detection is currently only used internally. When DHCP doesn't respond, the * driver can try out a random LinkLayer IP address (169.254.x.x). It will send out a * gratuitous ARP message and, after a period of time, check the variables here below: */ #if ( ipconfigARP_USE_CLASH_DETECTION != 0 ) /* Becomes non-zero if another device responded to a gratuitous ARP message. */ BaseType_t xARPHadIPClash; /* MAC-address of the other device containing the same IP-address. */ MACAddress_t xARPClashMacAddress; #endif /* ipconfigARP_USE_CLASH_DETECTION */ /** @brief For convenience, a MAC address of all 0xffs is defined const for quick * reference. */ const MACAddress_t xBroadcastMACAddress = { { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff } }; /** @brief Structure that stores the netmask, gateway address and DNS server addresses. */ NetworkAddressingParameters_t xNetworkAddressing = { 0xC0C0C0C0, /* 192.192.192.192 - Default IP address. */ 0xFFFFFF00, /* 255.255.255.0 - Netmask. */ 0xC0C0C001, /* 192.192.192.1 - Gateway Address. */ 0x01020304, /* 1.2.3.4 - DNS server address. */ 0xC0C0C0FF }; /* 192.192.192.255 - Broadcast address. */ /** @brief Structure that stores the netmask, gateway address and DNS server addresses. */ NetworkAddressingParameters_t xDefaultAddressing = { 0xC0C0C0C0, /* 192.192.192.192 - Default IP address. */ 0xFFFFFF00, /* 255.255.255.0 - Netmask. */ 0xC0C0C001, /* 192.192.192.1 - Gateway Address. */ 0x01020304, /* 1.2.3.4 - DNS server address. */ 0xC0C0C0FF }; size_t xPortGetMinimumEverFreeHeapSize( void ) { return 0; } BaseType_t xApplicationDNSQueryHook_Multi( struct xNetworkEndPoint * pxEndPoint, const char * pcName ) { } StackType_t * pxPortInitialiseStack( StackType_t * pxTopOfStack, StackType_t * pxEndOfStack, TaskFunction_t pxCode, void * pvParameters ) { } uint32_t ulApplicationGetNextSequenceNumber( uint32_t ulSourceAddress, uint16_t usSourcePort, uint32_t ulDestinationAddress, uint16_t usDestinationPort ) { } BaseType_t xNetworkInterfaceInitialise( void ) { } void vApplicationIPNetworkEventHook_Multi( eIPCallbackEvent_t eNetworkEvent, struct xNetworkEndPoint * pxEndPoint ) { } void vApplicationDaemonTaskStartupHook( void ) { } void vApplicationGetTimerTaskMemory( StaticTask_t ** ppxTimerTaskTCBBuffer, StackType_t ** ppxTimerTaskStackBuffer, uint32_t * pulTimerTaskStackSize ) { } void vPortDeleteThread( void * pvTaskToDelete ) { } void vApplicationIdleHook( void ) { } void vApplicationTickHook( void ) { } unsigned long ulGetRunTimeCounterValue( void ) { } void vPortEndScheduler( void ) { } BaseType_t xPortStartScheduler( void ) { } void vPortEnterCritical( void ) { } void vPortExitCritical( void ) { } void * pvPortMalloc( size_t xWantedSize ) { return malloc( xWantedSize ); } void vPortFree( void * pv ) { free( pv ); } void vPortGenerateSimulatedInterrupt( uint32_t ulInterruptNumber ) { } void vPortCloseRunningThread( void * pvTaskToDelete, volatile BaseType_t * pxPendYield ) { } void vApplicationGetIdleTaskMemory( StaticTask_t ** ppxIdleTaskTCBBuffer, StackType_t ** ppxIdleTaskStackBuffer, uint32_t * pulIdleTaskStackSize ) { } void vConfigureTimerForRunTimeStats( void ) { } /*--------------------------------STUB Functions---------------------------------------*/ eDHCPCallbackAnswer_t xStubApplicationDHCPHook_Multi( eDHCPCallbackPhase_t eDHCPPhase, struct xNetworkEndPoint * pxEndPoint, IP_Address_t * pxIPAddress ) { TEST_ASSERT_EQUAL( eStubExpectedDHCPPhase, eDHCPPhase ); TEST_ASSERT_EQUAL( pxStubExpectedEndPoint, pxEndPoint ); TEST_ASSERT_EQUAL( ulStubExpectedIPAddress, pxIPAddress->ulIP_IPv4 ); return eStubExpectedReturn; } BaseType_t NetworkInterfaceOutputFunction_Stub_Called = 0; BaseType_t NetworkInterfaceOutputFunction_Stub( struct xNetworkInterface * pxDescriptor, NetworkBufferDescriptor_t * const pxNetworkBuffer, BaseType_t xReleaseAfterSend ) { NetworkInterfaceOutputFunction_Stub_Called++; return 0; } static NetworkBufferDescriptor_t * GetNetworkBuffer( size_t SizeOfEthBuf, long unsigned int xTimeToBlock, int callbacks ) { NetworkBufferDescriptor_t * pxNetworkBuffer = malloc( sizeof( NetworkBufferDescriptor_t ) + ipBUFFER_PADDING ) + ipBUFFER_PADDING; pxNetworkBuffer->pucEthernetBuffer = malloc( SizeOfEthBuf + ipBUFFER_PADDING ) + ipBUFFER_PADDING; /* Ignore the callback count. */ ( void ) callbacks; /* Ignore the timeout. */ ( void ) xTimeToBlock; /* Set the global network buffer so that memory can be freed later on. */ pxGlobalNetworkBuffer[ GlobalBufferCounter++ ] = pxNetworkBuffer; return pxNetworkBuffer; } static void ReleaseNetworkBuffer( void ) { /* Free the ethernet buffer. */ free( ( ( uint8_t * ) pxGlobalNetworkBuffer[ --GlobalBufferCounter ]->pucEthernetBuffer ) - ipBUFFER_PADDING ); /* Free the network buffer. */ free( ( ( uint8_t * ) pxGlobalNetworkBuffer[ GlobalBufferCounter ] ) - ipBUFFER_PADDING ); } static void ReleaseUDPBuffer( const void * temp, int callbacks ) { /* Should just call network buffer. */ ReleaseNetworkBuffer(); } static int32_t RecvFromStub( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { switch( callbacks ) { case 0: memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); break; case 1: /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put incorrect DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE + 10; break; } if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_Generic( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = ucGenericPtr; } return ulGenericLength; } static int32_t FreeRTOS_recvfrom_Generic_NullBuffer( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { pvBuffer = NULL; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromLessBytesNoTimeout( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); return sizeof( DHCPMessage_IPv4_t ) - 1; } static int32_t FreeRTOS_recvfrom_ResetAndIncorrectStateWithSocketAlreadyCreated_validUDPmessage( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { NetworkEndPoint_t * pxIterator = pxNetworkEndPoints; while( pxIterator != NULL ) { pxIterator->xDHCPData.xDHCPSocket = NULL; pxIterator = pxIterator->pxNext; } if( xFlags == FREERTOS_ZERO_COPY + FREERTOS_MSG_PEEK ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_ResetAndIncorrectStateWithSocketAlreadyCreated_validUDPmessage_TwoFlagOptions_nullbytes( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { int32_t lBytes = 0; NetworkEndPoint_t * pxIterator = pxNetworkEndPoints; while( pxIterator != NULL ) { pxIterator->xDHCPData.xDHCPSocket = NULL; pxIterator = pxIterator->pxNext; } if( xFlags == FREERTOS_ZERO_COPY + FREERTOS_MSG_PEEK ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); lBytes = xSizeofUDPBuffer; } else { pvBuffer = NULL; } return lBytes; } static int32_t FreeRTOS_recvfrom_ResetAndIncorrectStateWithSocketAlreadyCreated_validUDPmessage_TwoFlagOptions_nullbuffer( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { NetworkEndPoint_t * pxIterator = pxNetworkEndPoints; while( pxIterator != NULL ) { pxIterator->xDHCPData.xDHCPSocket = NULL; pxIterator = pxIterator->pxNext; } if( xFlags == FREERTOS_ZERO_COPY + FREERTOS_MSG_PEEK ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); } else { *( ( uint8_t ** ) pvBuffer ) = NULL; } return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_ResetAndIncorrectStateWithSocketAlreadyCreated_validUDPmessage_IncorrectDHCPCookie( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { NetworkEndPoint_t * pxIterator = pxNetworkEndPoints; while( pxIterator != NULL ) { pxIterator->xDHCPData.xDHCPSocket = NULL; pxIterator = pxIterator->pxNext; } if( xFlags == FREERTOS_ZERO_COPY + FREERTOS_MSG_PEEK ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpBROADCAST; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_ResetAndIncorrectStateWithSocketAlreadyCreated_validUDPmessage_IncorrectOpCode( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { NetworkEndPoint_t * pxIterator = pxNetworkEndPoints; while( pxIterator != NULL ) { pxIterator->xDHCPData.xDHCPSocket = NULL; pxIterator = pxIterator->pxNext; } if( xFlags == FREERTOS_ZERO_COPY + FREERTOS_MSG_PEEK ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREQUEST_OPCODE; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSucceedsFalseCookieNoTimeout( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( 0x01ABCDEF ); return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSucceedsFalseOpcodeNoTimeout( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSucceedsCorrectCookieAndOpcodeNoTimeout( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccessCorrectTxID( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId ); return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccess_CorrectAddrType( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId ); /* Put in address type as ethernet. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressType = ( uint8_t ) dhcpADDRESS_TYPE_ETHERNET; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccess_CorrectAddrLen( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId ); /* Put in address type as ethernet. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressType = ( uint8_t ) dhcpADDRESS_TYPE_ETHERNET; /* Put in correct address length. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressLength = ( uint8_t ) dhcpETHERNET_ADDRESS_LENGTH; ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulYourIPAddress_yiaddr = 0xFFFFFFFF; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccess_LocalHostAddr( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId ); /* Put in address type as ethernet. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressType = ( uint8_t ) dhcpADDRESS_TYPE_ETHERNET; /* Put in correct address length. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressLength = ( uint8_t ) dhcpETHERNET_ADDRESS_LENGTH; /* Non local host address. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulYourIPAddress_yiaddr = 0x01FFFF7F; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccess_NonLocalHostAddr( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId + 1 ); /* Put in address type as ethernet. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressType = ( uint8_t ) dhcpADDRESS_TYPE_ETHERNET; /* Put in correct address length. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressLength = ( uint8_t ) dhcpETHERNET_ADDRESS_LENGTH; /* Non local host address. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulYourIPAddress_yiaddr = 0x01FFFF3F; return xSizeofUDPBuffer; } static int32_t FreeRTOS_recvfrom_eWaitingOfferRecvfromSuccess_LocalMACAddrNotMatching( Socket_t xSocket, void * pvBuffer, size_t uxBufferLength, BaseType_t xFlags, struct freertos_sockaddr * pxSourceAddress, socklen_t * pxSourceAddressLength, int callbacks ) { if( xFlags == FREERTOS_ZERO_COPY ) { *( ( uint8_t ** ) pvBuffer ) = pucUDPBuffer; } memset( pucUDPBuffer, 0, xSizeofUDPBuffer ); /* Put in correct DHCP cookie. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulDHCPCookie = dhcpCOOKIE; /* Put in correct DHCP opcode. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucOpcode = dhcpREPLY_OPCODE; /* Put in correct DHCP Tx ID. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulTransactionID = FreeRTOS_htonl( xDHCPData.ulTransactionId ); /* Put in address type as ethernet. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressType = ( uint8_t ) dhcpADDRESS_TYPE_ETHERNET; /* Put in correct address length. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ucAddressLength = ( uint8_t ) dhcpETHERNET_ADDRESS_LENGTH; /* Non local host address. */ ( ( struct xDHCPMessage_IPv4 * ) pucUDPBuffer )->ulYourIPAddress_yiaddr = 0x01FFFF3F; return xSizeofUDPBuffer; } /*-----------------------------------------------------------*/