circuitpython/drivers/wiznet5k/ethernet/w5500/w5500.h

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//*****************************************************************************
//
//! \file w5500.h
//! \brief W5500 HAL Header File.
//! \version 1.0.0
//! \date 2013/10/21
//! \par Revision history
//! <2013/10/21> 1st Release
//! \author MidnightCow
//! \copyright
//!
//! Copyright (c) 2013, WIZnet Co., LTD.
//! All rights reserved.
//!
//! Redistribution and use in source and binary forms, with or without
//! modification, are permitted provided that the following conditions
//! are met:
//!
//! * Redistributions of source code must retain the above copyright
//! notice, this list of conditions and the following disclaimer.
//! * Redistributions in binary form must reproduce the above copyright
//! notice, this list of conditions and the following disclaimer in the
//! documentation and/or other materials provided with the distribution.
//! * Neither the name of the <ORGANIZATION> nor the names of its
//! contributors may be used to endorse or promote products derived
//! from this software without specific prior written permission.
//!
//! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
//! AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
//! IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
//! ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
//! LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
//! CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
//! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
//! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
//! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
//! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
//! THE POSSIBILITY OF SUCH DAMAGE.
//
//*****************************************************************************
#ifndef _W5500_H_
#define _W5500_H_
#include <stdint.h>
#include "../wizchip_conf.h"
#include "board.h"
#define _W5500_IO_BASE_ 0x00000000
#define _W5500_SPI_READ_ (0x00 << 2) //< SPI interface Read operation in Control Phase
#define _W5500_SPI_WRITE_ (0x01 << 2) //< SPI interface Write operation in Control Phase
#define WIZCHIP_CREG_BLOCK 0x00 //< Common register block
#define WIZCHIP_SREG_BLOCK(N) (1+4*N) //< Socket N register block
#define WIZCHIP_TXBUF_BLOCK(N) (2+4*N) //< Socket N Tx buffer address block
#define WIZCHIP_RXBUF_BLOCK(N) (3+4*N) //< Socket N Rx buffer address block
#define WIZCHIP_OFFSET_INC(ADDR, N) (ADDR + (N<<8)) //< Increase offset address
///////////////////////////////////////
// Definition For Legacy Chip Driver //
///////////////////////////////////////
#define IINCHIP_READ(ADDR) WIZCHIP_READ(ADDR) ///< The defined for legacy chip driver
#define IINCHIP_WRITE(ADDR,VAL) WIZCHIP_WRITE(ADDR,VAL) ///< The defined for legacy chip driver
#define IINCHIP_READ_BUF(ADDR,BUF,LEN) WIZCHIP_READ_BUF(ADDR,BUF,LEN) ///< The defined for legacy chip driver
#define IINCHIP_WRITE_BUF(ADDR,BUF,LEN) WIZCHIP_WRITE(ADDR,BUF,LEN) ///< The defined for legacy chip driver
//////////////////////////////
//-------------------------- defgroup ---------------------------------
/**
* @defgroup W5500 W5500
*
* @brief WHIZCHIP register defines and I/O functions of @b W5500.
*
* - @ref WIZCHIP_register : @ref Common_register_group and @ref Socket_register_group
* - @ref WIZCHIP_IO_Functions : @ref Basic_IO_function, @ref Common_register_access_function and @ref Socket_register_access_function
*/
/**
* @defgroup WIZCHIP_register WIZCHIP register
* @ingroup W5500
*
* @brief WHIZCHIP register defines register group of @b W5500.
*
* - @ref Common_register_group : Common register group
* - @ref Socket_register_group : \c SOCKET n register group
*/
/**
* @defgroup WIZCHIP_IO_Functions WIZCHIP I/O functions
* @ingroup W5500
*
* @brief This supports the basic I/O functions for @ref WIZCHIP_register.
*
* - <b> Basic I/O function </b> \n
* WIZCHIP_READ(), WIZCHIP_WRITE(), WIZCHIP_READ_BUF(), WIZCHIP_WRITE_BUF() \n\n
*
* - @ref Common_register_group <b>access functions</b> \n
* -# @b Mode \n
* getMR(), setMR()
* -# @b Interrupt \n
* getIR(), setIR(), getIMR(), setIMR(), getSIR(), setSIR(), getSIMR(), setSIMR(), getINTLEVEL(), setINTLEVEL()
* -# <b> Network Information </b> \n
* getSHAR(), setSHAR(), getGAR(), setGAR(), getSUBR(), setSUBR(), getSIPR(), setSIPR()
* -# @b Retransmission \n
* getRCR(), setRCR(), getRTR(), setRTR()
* -# @b PPPoE \n
* getPTIMER(), setPTIMER(), getPMAGIC(), getPMAGIC(), getPSID(), setPSID(), getPHAR(), setPHAR(), getPMRU(), setPMRU()
* -# <b> ICMP packet </b>\n
* getUIPR(), getUPORTR()
* -# @b etc. \n
* getPHYCFGR(), setPHYCFGR(), getVERSIONR() \n\n
*
* - \ref Socket_register_group <b>access functions</b> \n
* -# <b> SOCKET control</b> \n
* getSn_MR(), setSn_MR(), getSn_CR(), setSn_CR(), getSn_IMR(), setSn_IMR(), getSn_IR(), setSn_IR()
* -# <b> SOCKET information</b> \n
* getSn_SR(), getSn_DHAR(), setSn_DHAR(), getSn_PORT(), setSn_PORT(), getSn_DIPR(), setSn_DIPR(), getSn_DPORT(), setSn_DPORT()
* getSn_MSSR(), setSn_MSSR()
* -# <b> SOCKET communication </b> \n
* getSn_RXBUF_SIZE(), setSn_RXBUF_SIZE(), getSn_TXBUF_SIZE(), setSn_TXBUF_SIZE() \n
* getSn_TX_RD(), getSn_TX_WR(), setSn_TX_WR() \n
* getSn_RX_RD(), setSn_RX_RD(), getSn_RX_WR() \n
* getSn_TX_FSR(), getSn_RX_RSR(), getSn_KPALVTR(), setSn_KPALVTR()
* -# <b> IP header field </b> \n
* getSn_FRAG(), setSn_FRAG(), getSn_TOS(), setSn_TOS() \n
* getSn_TTL(), setSn_TTL()
*/
/**
* @defgroup Common_register_group Common register
* @ingroup WIZCHIP_register
*
* @brief Common register group\n
* It set the basic for the networking\n
* It set the configuration such as interrupt, network information, ICMP, etc.
* @details
* @sa MR : Mode register.
* @sa GAR, SUBR, SHAR, SIPR
* @sa INTLEVEL, IR, IMR, SIR, SIMR : Interrupt.
* @sa RTR, RCR : Data retransmission.
* @sa PTIMER, PMAGIC, PHAR, PSID, PMRU : PPPoE.
* @sa UIPR, UPORTR : ICMP message.
* @sa PHYCFGR, VERSIONR : etc.
*/
/**
* @defgroup Socket_register_group Socket register
* @ingroup WIZCHIP_register
*
* @brief Socket register group.\n
* Socket register configures and control SOCKETn which is necessary to data communication.
* @details
* @sa Sn_MR, Sn_CR, Sn_IR, Sn_IMR : SOCKETn Control
* @sa Sn_SR, Sn_PORT, Sn_DHAR, Sn_DIPR, Sn_DPORT : SOCKETn Information
* @sa Sn_MSSR, Sn_TOS, Sn_TTL, Sn_KPALVTR, Sn_FRAG : Internet protocol.
* @sa Sn_RXBUF_SIZE, Sn_TXBUF_SIZE, Sn_TX_FSR, Sn_TX_RD, Sn_TX_WR, Sn_RX_RSR, Sn_RX_RD, Sn_RX_WR : Data communication
*/
/**
* @defgroup Basic_IO_function Basic I/O function
* @ingroup WIZCHIP_IO_Functions
* @brief These are basic input/output functions to read values from register or write values to register.
*/
/**
* @defgroup Common_register_access_function Common register access functions
* @ingroup WIZCHIP_IO_Functions
* @brief These are functions to access <b>common registers</b>.
*/
/**
* @defgroup Socket_register_access_function Socket register access functions
* @ingroup WIZCHIP_IO_Functions
* @brief These are functions to access <b>socket registers</b>.
*/
//------------------------------- defgroup end --------------------------------------------
//----------------------------- W5500 Common Registers IOMAP -----------------------------
/**
* @ingroup Common_register_group
* @brief Mode Register address(R/W)\n
* @ref MR is used for S/W reset, ping block mode, PPPoE mode and etc.
* @details Each bit of @ref MR defined as follows.
* <table>
* <tr> <td>7</td> <td>6</td> <td>5</td> <td>4</td> <td>3</td> <td>2</td> <td>1</td> <td>0</td> </tr>
* <tr> <td>RST</td> <td>Reserved</td> <td>WOL</td> <td>PB</td> <td>PPPoE</td> <td>Reserved</td> <td>FARP</td> <td>Reserved</td> </tr>
* </table>
* - \ref MR_RST : Reset
* - \ref MR_WOL : Wake on LAN
* - \ref MR_PB : Ping block
* - \ref MR_PPPOE : PPPoE mode
* - \ref MR_FARP : Force ARP mode
*/
#define MR (_W5500_IO_BASE_ + (0x0000 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Gateway IP Register address(R/W)
* @details @ref GAR configures the default gateway address.
*/
#define GAR (_W5500_IO_BASE_ + (0x0001 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Subnet mask Register address(R/W)
* @details @ref SUBR configures the subnet mask address.
*/
#define SUBR (_W5500_IO_BASE_ + (0x0005 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Source MAC Register address(R/W)
* @details @ref SHAR configures the source hardware address.
*/
#define SHAR (_W5500_IO_BASE_ + (0x0009 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Source IP Register address(R/W)
* @details @ref SIPR configures the source IP address.
*/
#define SIPR (_W5500_IO_BASE_ + (0x000F << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Set Interrupt low level timer register address(R/W)
* @details @ref INTLEVEL configures the Interrupt Assert Time.
*/
#define INTLEVEL (_W5500_IO_BASE_ + (0x0013 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Interrupt Register(R/W)
* @details @ref IR indicates the interrupt status. Each bit of @ref IR will be still until the bit will be written to by the host.
* If @ref IR is not equal to x00 INTn PIN is asserted to low until it is x00\n\n
* Each bit of @ref IR defined as follows.
* <table>
* <tr> <td>7</td> <td>6</td> <td>5</td> <td>4</td> <td>3</td> <td>2</td> <td>1</td> <td>0</td> </tr>
* <tr> <td>CONFLICT</td> <td>UNREACH</td> <td>PPPoE</td> <td>MP</td> <td>Reserved</td> <td>Reserved</td> <td>Reserved</td> <td>Reserved</td> </tr>
* </table>
* - \ref IR_CONFLICT : IP conflict
* - \ref IR_UNREACH : Destination unreachable
* - \ref IR_PPPoE : PPPoE connection close
* - \ref IR_MP : Magic packet
*/
#define IR (_W5500_IO_BASE_ + (0x0015 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Interrupt mask register(R/W)
* @details @ref IMR is used to mask interrupts. Each bit of @ref IMR corresponds to each bit of @ref IR.
* When a bit of @ref IMR is and the corresponding bit of @ref IR is an interrupt will be issued. In other words,
* if a bit of @ref IMR is an interrupt will not be issued even if the corresponding bit of @ref IR is \n\n
* Each bit of @ref IMR defined as the following.
* <table>
* <tr> <td>7</td> <td>6</td> <td>5</td> <td>4</td> <td>3</td> <td>2</td> <td>1</td> <td>0</td> </tr>
* <tr> <td>IM_IR7</td> <td>IM_IR6</td> <td>IM_IR5</td> <td>IM_IR4</td> <td>Reserved</td> <td>Reserved</td> <td>Reserved</td> <td>Reserved</td> </tr>
* </table>
* - \ref IM_IR7 : IP Conflict Interrupt Mask
* - \ref IM_IR6 : Destination unreachable Interrupt Mask
* - \ref IM_IR5 : PPPoE Close Interrupt Mask
* - \ref IM_IR4 : Magic Packet Interrupt Mask
*/
#define IMR (_W5500_IO_BASE_ + (0x0016 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Socket Interrupt Register(R/W)
* @details @ref SIR indicates the interrupt status of Socket.\n
* Each bit of @ref SIR be still until @ref Sn_IR is cleared by the host.\n
* If @ref Sn_IR is not equal to x00 the n-th bit of @ref SIR is and INTn PIN is asserted until @ref SIR is x00 */
#define SIR (_W5500_IO_BASE_ + (0x0017 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Socket Interrupt Mask Register(R/W)
* @details Each bit of @ref SIMR corresponds to each bit of @ref SIR.
* When a bit of @ref SIMR is and the corresponding bit of @ref SIR is Interrupt will be issued.
* In other words, if a bit of @ref SIMR is an interrupt will be not issued even if the corresponding bit of @ref SIR is
*/
#define SIMR (_W5500_IO_BASE_ + (0x0018 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Timeout register address( 1 is 100us )(R/W)
* @details @ref RTR configures the retransmission timeout period. The unit of timeout period is 100us and the default of @ref RTR is x07D0or 000
* And so the default timeout period is 200ms(100us X 2000). During the time configured by @ref RTR, W5500 waits for the peer response
* to the packet that is transmitted by \ref Sn_CR (CONNECT, DISCON, CLOSE, SEND, SEND_MAC, SEND_KEEP command).
* If the peer does not respond within the @ref RTR time, W5500 retransmits the packet or issues timeout.
*/
#define RTR (_W5500_IO_BASE_ + (0x0019 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Retry count register(R/W)
* @details @ref RCR configures the number of time of retransmission.
* When retransmission occurs as many as ref RCR+1 Timeout interrupt is issued (@ref Sn_IR[TIMEOUT] = .
*/
#define RCR (_W5500_IO_BASE_ + (0x001B << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PPP LCP Request Timer register in PPPoE mode(R/W)
* @details @ref PTIMER configures the time for sending LCP echo request. The unit of time is 25ms.
*/
#define PTIMER (_W5500_IO_BASE_ + (0x001C << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PPP LCP Magic number register in PPPoE mode(R/W)
* @details @ref PMAGIC configures the 4bytes magic number to be used in LCP negotiation.
*/
#define PMAGIC (_W5500_IO_BASE_ + (0x001D << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PPP Destination MAC Register address(R/W)
* @details @ref PHAR configures the PPPoE server hardware address that is acquired during PPPoE connection process.
*/
#define PHAR (_W5500_IO_BASE_ + (0x001E << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PPP Session Identification Register(R/W)
* @details @ref PSID configures the PPPoE sever session ID acquired during PPPoE connection process.
*/
#define PSID (_W5500_IO_BASE_ + (0x0024 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PPP Maximum Segment Size(MSS) register(R/W)
* @details @ref PMRU configures the maximum receive unit of PPPoE.
*/
#define PMRU (_W5500_IO_BASE_ + (0x0026 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Unreachable IP register address in UDP mode(R)
* @details W5500 receives an ICMP packet(Destination port unreachable) when data is sent to a port number
* which socket is not open and @ref UNREACH bit of @ref IR becomes and @ref UIPR & @ref UPORTR indicates
* the destination IP address & port number respectively.
*/
#define UIPR (_W5500_IO_BASE_ + (0x0028 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief Unreachable Port register address in UDP mode(R)
* @details W5500 receives an ICMP packet(Destination port unreachable) when data is sent to a port number
* which socket is not open and @ref UNREACH bit of @ref IR becomes and @ref UIPR & @ref UPORTR
* indicates the destination IP address & port number respectively.
*/
#define UPORTR (_W5500_IO_BASE_ + (0x002C << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief PHY Status Register(R/W)
* @details @ref PHYCFGR configures PHY operation mode and resets PHY. In addition, @ref PHYCFGR indicates the status of PHY such as duplex, Speed, Link.
*/
#define PHYCFGR (_W5500_IO_BASE_ + (0x002E << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x002F << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0030 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0031 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0032 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0033 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0034 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0035 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0036 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0037 << 8) + (WIZCHIP_CREG_BLOCK << 3))
// Reserved (_W5500_IO_BASE_ + (0x0038 << 8) + (WIZCHIP_CREG_BLOCK << 3))
/**
* @ingroup Common_register_group
* @brief chip version register address(R)
* @details @ref VERSIONR always indicates the W5500 version as @b 0x04.
*/
#define VERSIONR (_W5500_IO_BASE_ + (0x0039 << 8) + (WIZCHIP_CREG_BLOCK << 3))
//----------------------------- W5500 Socket Registers IOMAP -----------------------------
/**
* @ingroup Socket_register_group
* @brief socket Mode register(R/W)
* @details @ref Sn_MR configures the option or protocol type of Socket n.\n\n
* Each bit of @ref Sn_MR defined as the following.
* <table>
* <tr> <td>7</td> <td>6</td> <td>5</td> <td>4</td> <td>3</td> <td>2</td> <td>1</td> <td>0</td> </tr>
* <tr> <td>MULTI/MFEN</td> <td>BCASTB</td> <td>ND/MC/MMB</td> <td>UCASTB/MIP6B</td> <td>Protocol[3]</td> <td>Protocol[2]</td> <td>Protocol[1]</td> <td>Protocol[0]</td> </tr>
* </table>
* - @ref Sn_MR_MULTI : Support UDP Multicasting
* - @ref Sn_MR_BCASTB : Broadcast block <b>in UDP Multicasting</b>
* - @ref Sn_MR_ND : No Delayed Ack(TCP) flag
* - @ref Sn_MR_MC : IGMP version used <b>in UDP mulitcasting</b>
* - @ref Sn_MR_MMB : Multicast Blocking <b>in @ref Sn_MR_MACRAW mode</b>
* - @ref Sn_MR_UCASTB : Unicast Block <b>in UDP Multicating</b>
* - @ref Sn_MR_MIP6B : IPv6 packet Blocking <b>in @ref Sn_MR_MACRAW mode</b>
* - <b>Protocol</b>
* <table>
* <tr> <td><b>Protocol[3]</b></td> <td><b>Protocol[2]</b></td> <td><b>Protocol[1]</b></td> <td><b>Protocol[0]</b></td> <td>@b Meaning</td> </tr>
* <tr> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>Closed</td> </tr>
* <tr> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>TCP</td> </tr>
* <tr> <td>0</td> <td>0</td> <td>1</td> <td>0</td> <td>UDP</td> </tr>
* <tr> <td>0</td> <td>1</td> <td>0</td> <td>0</td> <td>MACRAW</td> </tr>
* </table>
* - @ref Sn_MR_MACRAW : MAC LAYER RAW SOCK \n
* - @ref Sn_MR_UDP : UDP
* - @ref Sn_MR_TCP : TCP
* - @ref Sn_MR_CLOSE : Unused socket
* @note MACRAW mode should be only used in Socket 0.
*/
#define Sn_MR(N) (_W5500_IO_BASE_ + (0x0000 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Socket command register(R/W)
* @details This is used to set the command for Socket n such as OPEN, CLOSE, CONNECT, LISTEN, SEND, and RECEIVE.\n
* After W5500 accepts the command, the @ref Sn_CR register is automatically cleared to 0x00.
* Even though @ref Sn_CR is cleared to 0x00, the command is still being processed.\n
* To check whether the command is completed or not, please check the @ref Sn_IR or @ref Sn_SR.
* - @ref Sn_CR_OPEN : Initialize or open socket.
* - @ref Sn_CR_LISTEN : Wait connection request in TCP mode(<b>Server mode</b>)
* - @ref Sn_CR_CONNECT : Send connection request in TCP mode(<b>Client mode</b>)
* - @ref Sn_CR_DISCON : Send closing request in TCP mode.
* - @ref Sn_CR_CLOSE : Close socket.
* - @ref Sn_CR_SEND : Update TX buffer pointer and send data.
* - @ref Sn_CR_SEND_MAC : Send data with MAC address, so without ARP process.
* - @ref Sn_CR_SEND_KEEP : Send keep alive message.
* - @ref Sn_CR_RECV : Update RX buffer pointer and receive data.
*/
#define Sn_CR(N) (_W5500_IO_BASE_ + (0x0001 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Socket interrupt register(R)
* @details @ref Sn_IR indicates the status of Socket Interrupt such as establishment, termination, receiving data, timeout).\n
* When an interrupt occurs and the corresponding bit of @ref Sn_IMR is the corresponding bit of @ref Sn_IR becomes \n
* In order to clear the @ref Sn_IR bit, the host should write the bit to \n
* <table>
* <tr> <td>7</td> <td>6</td> <td>5</td> <td>4</td> <td>3</td> <td>2</td> <td>1</td> <td>0</td> </tr>
* <tr> <td>Reserved</td> <td>Reserved</td> <td>Reserved</td> <td>SEND_OK</td> <td>TIMEOUT</td> <td>RECV</td> <td>DISCON</td> <td>CON</td> </tr>
* </table>
* - \ref Sn_IR_SENDOK : <b>SEND_OK Interrupt</b>
* - \ref Sn_IR_TIMEOUT : <b>TIMEOUT Interrupt</b>
* - \ref Sn_IR_RECV : <b>RECV Interrupt</b>
* - \ref Sn_IR_DISCON : <b>DISCON Interrupt</b>
* - \ref Sn_IR_CON : <b>CON Interrupt</b>
*/
#define Sn_IR(N) (_W5500_IO_BASE_ + (0x0002 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Socket status register(R)
* @details @ref Sn_SR indicates the status of Socket n.\n
* The status of Socket n is changed by @ref Sn_CR or some special control packet as SYN, FIN packet in TCP.
* @par Normal status
* - @ref SOCK_CLOSED : Closed
* - @ref SOCK_INIT : Initiate state
* - @ref SOCK_LISTEN : Listen state
* - @ref SOCK_ESTABLISHED : Success to connect
* - @ref SOCK_CLOSE_WAIT : Closing state
* - @ref SOCK_UDP : UDP socket
* - @ref SOCK_MACRAW : MAC raw mode socket
*@par Temporary status during changing the status of Socket n.
* - @ref SOCK_SYNSENT : This indicates Socket n sent the connect-request packet (SYN packet) to a peer.
* - @ref SOCK_SYNRECV : It indicates Socket n successfully received the connect-request packet (SYN packet) from a peer.
* - @ref SOCK_FIN_WAIT : Connection state
* - @ref SOCK_CLOSING : Closing state
* - @ref SOCK_TIME_WAIT : Closing state
* - @ref SOCK_LAST_ACK : Closing state
*/
#define Sn_SR(N) (_W5500_IO_BASE_ + (0x0003 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief source port register(R/W)
* @details @ref Sn_PORT configures the source port number of Socket n.
* It is valid when Socket n is used in TCP/UPD mode. It should be set before OPEN command is ordered.
*/
#define Sn_PORT(N) (_W5500_IO_BASE_ + (0x0004 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Peer MAC register address(R/W)
* @details @ref Sn_DHAR configures the destination hardware address of Socket n when using SEND_MAC command in UDP mode or
* it indicates that it is acquired in ARP-process by CONNECT/SEND command.
*/
#define Sn_DHAR(N) (_W5500_IO_BASE_ + (0x0006 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Peer IP register address(R/W)
* @details @ref Sn_DIPR configures or indicates the destination IP address of Socket n. It is valid when Socket n is used in TCP/UDP mode.
* In TCP client mode, it configures an IP address of <EFBFBD>TCP serverbefore CONNECT command.
* In TCP server mode, it indicates an IP address of <EFBFBD>TCP clientafter successfully establishing connection.
* In UDP mode, it configures an IP address of peer to be received the UDP packet by SEND or SEND_MAC command.
*/
#define Sn_DIPR(N) (_W5500_IO_BASE_ + (0x000C << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Peer port register address(R/W)
* @details @ref Sn_DPORT configures or indicates the destination port number of Socket n. It is valid when Socket n is used in TCP/UDP mode.
* In <EFBFBD>TCP clientmode, it configures the listen port number of <EFBFBD>TCP serverbefore CONNECT command.
* In <EFBFBD>TCP Servermode, it indicates the port number of TCP client after successfully establishing connection.
* In UDP mode, it configures the port number of peer to be transmitted the UDP packet by SEND/SEND_MAC command.
*/
#define Sn_DPORT(N) (_W5500_IO_BASE_ + (0x0010 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Maximum Segment Size(Sn_MSSR0) register address(R/W)
* @details @ref Sn_MSSR configures or indicates the MTU(Maximum Transfer Unit) of Socket n.
*/
#define Sn_MSSR(N) (_W5500_IO_BASE_ + (0x0012 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x0014 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief IP Type of Service(TOS) Register(R/W)
* @details @ref Sn_TOS configures the TOS(Type Of Service field in IP Header) of Socket n.
* It is set before OPEN command.
*/
#define Sn_TOS(N) (_W5500_IO_BASE_ + (0x0015 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief IP Time to live(TTL) Register(R/W)
* @details @ref Sn_TTL configures the TTL(Time To Live field in IP header) of Socket n.
* It is set before OPEN command.
*/
#define Sn_TTL(N) (_W5500_IO_BASE_ + (0x0016 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x0017 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x0018 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x0019 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x001A << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x001B << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x001C << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
// Reserved (_W5500_IO_BASE_ + (0x001D << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Receive memory size register(R/W)
* @details @ref Sn_RXBUF_SIZE configures the RX buffer block size of Socket n.
* Socket n RX Buffer Block size can be configured with 1,2,4,8, and 16 Kbytes.
* If a different size is configured, the data cannot be normally received from a peer.
* Although Socket n RX Buffer Block size is initially configured to 2Kbytes,
* user can re-configure its size using @ref Sn_RXBUF_SIZE. The total sum of @ref Sn_RXBUF_SIZE can not be exceed 16Kbytes.
* When exceeded, the data reception error is occurred.
*/
#define Sn_RXBUF_SIZE(N) (_W5500_IO_BASE_ + (0x001E << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Transmit memory size register(R/W)
* @details @ref Sn_TXBUF_SIZE configures the TX buffer block size of Socket n. Socket n TX Buffer Block size can be configured with 1,2,4,8, and 16 Kbytes.
* If a different size is configured, the data can<EFBFBD>t be normally transmitted to a peer.
* Although Socket n TX Buffer Block size is initially configured to 2Kbytes,
* user can be re-configure its size using @ref Sn_TXBUF_SIZE. The total sum of @ref Sn_TXBUF_SIZE can not be exceed 16Kbytes.
* When exceeded, the data transmission error is occurred.
*/
#define Sn_TXBUF_SIZE(N) (_W5500_IO_BASE_ + (0x001F << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Transmit free memory size register(R)
* @details @ref Sn_TX_FSR indicates the free size of Socket n TX Buffer Block. It is initialized to the configured size by @ref Sn_TXBUF_SIZE.
* Data bigger than @ref Sn_TX_FSR should not be saved in the Socket n TX Buffer because the bigger data overwrites the previous saved data not yet sent.
* Therefore, check before saving the data to the Socket n TX Buffer, and if data is equal or smaller than its checked size,
* transmit the data with SEND/SEND_MAC command after saving the data in Socket n TX buffer. But, if data is bigger than its checked size,
* transmit the data after dividing into the checked size and saving in the Socket n TX buffer.
*/
#define Sn_TX_FSR(N) (_W5500_IO_BASE_ + (0x0020 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Transmit memory read pointer register address(R)
* @details @ref Sn_TX_RD is initialized by OPEN command. However, if Sn_MR(P[3:0]) is TCP mode(001, it is re-initialized while connecting with TCP.
* After its initialization, it is auto-increased by SEND command.
* SEND command transmits the saved data from the current @ref Sn_TX_RD to the @ref Sn_TX_WR in the Socket n TX Buffer.
* After transmitting the saved data, the SEND command increases the @ref Sn_TX_RD as same as the @ref Sn_TX_WR.
* If its increment value exceeds the maximum value 0xFFFF, (greater than 0x10000 and the carry bit occurs),
* then the carry bit is ignored and will automatically update with the lower 16bits value.
*/
#define Sn_TX_RD(N) (_W5500_IO_BASE_ + (0x0022 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Transmit memory write pointer register address(R/W)
* @details @ref Sn_TX_WR is initialized by OPEN command. However, if Sn_MR(P[3:0]) is TCP mode(001, it is re-initialized while connecting with TCP.\n
* It should be read or be updated like as follows.\n
* 1. Read the starting address for saving the transmitting data.\n
* 2. Save the transmitting data from the starting address of Socket n TX buffer.\n
* 3. After saving the transmitting data, update @ref Sn_TX_WR to the increased value as many as transmitting data size.
* If the increment value exceeds the maximum value 0xFFFF(greater than 0x10000 and the carry bit occurs),
* then the carry bit is ignored and will automatically update with the lower 16bits value.\n
* 4. Transmit the saved data in Socket n TX Buffer by using SEND/SEND command
*/
#define Sn_TX_WR(N) (_W5500_IO_BASE_ + (0x0024 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Received data size register(R)
* @details @ref Sn_RX_RSR indicates the data size received and saved in Socket n RX Buffer.
* @ref Sn_RX_RSR does not exceed the @ref Sn_RXBUF_SIZE and is calculated as the difference between
* <EFBFBD>Socket n RX Write Pointer (@ref Sn_RX_WR)and <EFBFBD>Socket n RX Read Pointer (@ref Sn_RX_RD)
*/
#define Sn_RX_RSR(N) (_W5500_IO_BASE_ + (0x0026 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Read point of Receive memory(R/W)
* @details @ref Sn_RX_RD is initialized by OPEN command. Make sure to be read or updated as follows.\n
* 1. Read the starting save address of the received data.\n
* 2. Read data from the starting address of Socket n RX Buffer.\n
* 3. After reading the received data, Update @ref Sn_RX_RD to the increased value as many as the reading size.
* If the increment value exceeds the maximum value 0xFFFF, that is, is greater than 0x10000 and the carry bit occurs,
* update with the lower 16bits value ignored the carry bit.\n
* 4. Order RECV command is for notifying the updated @ref Sn_RX_RD to W5500.
*/
#define Sn_RX_RD(N) (_W5500_IO_BASE_ + (0x0028 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Write point of Receive memory(R)
* @details @ref Sn_RX_WR is initialized by OPEN command and it is auto-increased by the data reception.
* If the increased value exceeds the maximum value 0xFFFF, (greater than 0x10000 and the carry bit occurs),
* then the carry bit is ignored and will automatically update with the lower 16bits value.
*/
#define Sn_RX_WR(N) (_W5500_IO_BASE_ + (0x002A << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief socket interrupt mask register(R)
* @details @ref Sn_IMR masks the interrupt of Socket n.
* Each bit corresponds to each bit of @ref Sn_IR. When a Socket n Interrupt is occurred and the corresponding bit of @ref Sn_IMR is
* the corresponding bit of @ref Sn_IR becomes When both the corresponding bit of @ref Sn_IMR and @ref Sn_IR are and the n-th bit of @ref IR is
* Host is interrupted by asserted INTn PIN to low.
*/
#define Sn_IMR(N) (_W5500_IO_BASE_ + (0x002C << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Fragment field value in IP header register(R/W)
* @details @ref Sn_FRAG configures the FRAG(Fragment field in IP header).
*/
#define Sn_FRAG(N) (_W5500_IO_BASE_ + (0x002D << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
/**
* @ingroup Socket_register_group
* @brief Keep Alive Timer register(R/W)
* @details @ref Sn_KPALVTR configures the transmitting timer of <EFBFBD>KEEP ALIVE(KA)packet of SOCKETn. It is valid only in TCP mode,
* and ignored in other modes. The time unit is 5s.
* KA packet is transmittable after @ref Sn_SR is changed to SOCK_ESTABLISHED and after the data is transmitted or received to/from a peer at least once.
* In case of '@ref Sn_KPALVTR > 0', W5500 automatically transmits KA packet after time-period for checking the TCP connection (Auto-keepalive-process).
* In case of '@ref Sn_KPALVTR = 0', Auto-keep-alive-process will not operate,
* and KA packet can be transmitted by SEND_KEEP command by the host (Manual-keep-alive-process).
* Manual-keep-alive-process is ignored in case of '@ref Sn_KPALVTR > 0'.
*/
#define Sn_KPALVTR(N) (_W5500_IO_BASE_ + (0x002F << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
//#define Sn_TSR(N) (_W5500_IO_BASE_ + (0x0030 << 8) + (WIZCHIP_SREG_BLOCK(N) << 3))
//----------------------------- W5500 Register values -----------------------------
/* MODE register values */
/**
* @brief Reset
* @details If this bit is All internal registers will be initialized. It will be automatically cleared as after S/W reset.
*/
#define MR_RST 0x80
/**
* @brief Wake on LAN
* @details 0 : Disable WOL mode\n
* 1 : Enable WOL mode\n
* If WOL mode is enabled and the received magic packet over UDP has been normally processed, the Interrupt PIN (INTn) asserts to low.
* When using WOL mode, the UDP Socket should be opened with any source port number. (Refer to Socket n Mode Register (@ref Sn_MR) for opening Socket.)
* @note The magic packet over UDP supported by W5500 consists of 6 bytes synchronization stream (xFFFFFFFFFFFF and
* 16 times Target MAC address stream in UDP payload. The options such like password are ignored. You can use any UDP source port number for WOL mode.
*/
#define MR_WOL 0x20
/**
* @brief Ping block
* @details 0 : Disable Ping block\n
* 1 : Enable Ping block\n
* If the bit is it blocks the response to a ping request.
*/
#define MR_PB 0x10
/**
* @brief Enable PPPoE
* @details 0 : DisablePPPoE mode\n
* 1 : EnablePPPoE mode\n
* If you use ADSL, this bit should be
*/
#define MR_PPPOE 0x08
/**
* @brief Enable UDP_FORCE_ARP CHECHK
* @details 0 : Disable Force ARP mode\n
* 1 : Enable Force ARP mode\n
* In Force ARP mode, It forces on sending ARP Request whenever data is sent.
*/
#define MR_FARP 0x02
/* IR register values */
/**
* @brief Check IP conflict.
* @details Bit is set as when own source IP address is same with the sender IP address in the received ARP request.
*/
#define IR_CONFLICT 0x80
/**
* @brief Get the destination unreachable message in UDP sending.
* @details When receiving the ICMP (Destination port unreachable) packet, this bit is set as
* When this bit is Destination Information such as IP address and Port number may be checked with the corresponding @ref UIPR & @ref UPORTR.
*/
#define IR_UNREACH 0x40
/**
* @brief Get the PPPoE close message.
* @details When PPPoE is disconnected during PPPoE mode, this bit is set.
*/
#define IR_PPPoE 0x20
/**
* @brief Get the magic packet interrupt.
* @details When WOL mode is enabled and receives the magic packet over UDP, this bit is set.
*/
#define IR_MP 0x10
/* PHYCFGR register value */
#define PHYCFGR_RST ~(1<<7) //< For PHY reset, must operate AND mask.
#define PHYCFGR_OPMD (1<<6) // Configre PHY with OPMDC value
#define PHYCFGR_OPMDC_ALLA (7<<3)
#define PHYCFGR_OPMDC_PDOWN (6<<3)
#define PHYCFGR_OPMDC_NA (5<<3)
#define PHYCFGR_OPMDC_100FA (4<<3)
#define PHYCFGR_OPMDC_100F (3<<3)
#define PHYCFGR_OPMDC_100H (2<<3)
#define PHYCFGR_OPMDC_10F (1<<3)
#define PHYCFGR_OPMDC_10H (0<<3)
#define PHYCFGR_DPX_FULL (1<<2)
#define PHYCFGR_DPX_HALF (0<<2)
#define PHYCFGR_SPD_100 (1<<1)
#define PHYCFGR_SPD_10 (0<<1)
#define PHYCFGR_LNK_ON (1<<0)
#define PHYCFGR_LNK_OFF (0<<0)
/* IMR register values */
/**
* @brief IP Conflict Interrupt Mask.
* @details 0: Disable IP Conflict Interrupt\n
* 1: Enable IP Conflict Interrupt
*/
#define IM_IR7 0x80
/**
* @brief Destination unreachable Interrupt Mask.
* @details 0: Disable Destination unreachable Interrupt\n
* 1: Enable Destination unreachable Interrupt
*/
#define IM_IR6 0x40
/**
* @brief PPPoE Close Interrupt Mask.
* @details 0: Disable PPPoE Close Interrupt\n
* 1: Enable PPPoE Close Interrupt
*/
#define IM_IR5 0x20
/**
* @brief Magic Packet Interrupt Mask.
* @details 0: Disable Magic Packet Interrupt\n
* 1: Enable Magic Packet Interrupt
*/
#define IM_IR4 0x10
/* Sn_MR Default values */
/**
* @brief Support UDP Multicasting
* @details 0 : disable Multicasting\n
* 1 : enable Multicasting\n
* This bit is applied only during UDP mode(P[3:0] = 010.\n
* To use multicasting, @ref Sn_DIPR & @ref Sn_DPORT should be respectively configured with the multicast group IP address & port number
* before Socket n is opened by OPEN command of @ref Sn_CR.
*/
#define Sn_MR_MULTI 0x80
/**
* @brief Broadcast block in UDP Multicasting.
* @details 0 : disable Broadcast Blocking\n
* 1 : enable Broadcast Blocking\n
* This bit blocks to receive broadcasting packet during UDP mode(P[3:0] = 010.\m
* In addition, This bit does when MACRAW mode(P[3:0] = 100
*/
#define Sn_MR_BCASTB 0x40
/**
* @brief No Delayed Ack(TCP), Multicast flag
* @details 0 : Disable No Delayed ACK option\n
* 1 : Enable No Delayed ACK option\n
* This bit is applied only during TCP mode (P[3:0] = 001.\n
* When this bit is It sends the ACK packet without delay as soon as a Data packet is received from a peer.\n
* When this bit is It sends the ACK packet after waiting for the timeout time configured by @ref RTR.
*/
#define Sn_MR_ND 0x20
/**
* @brief Unicast Block in UDP Multicasting
* @details 0 : disable Unicast Blocking\n
* 1 : enable Unicast Blocking\n
* This bit blocks receiving the unicast packet during UDP mode(P[3:0] = 010 and MULTI =
*/
#define Sn_MR_UCASTB 0x10
/**
* @brief MAC LAYER RAW SOCK
* @details This configures the protocol mode of Socket n.
* @note MACRAW mode should be only used in Socket 0.
*/
#define Sn_MR_MACRAW 0x04
//#define Sn_MR_IPRAW 0x03 /**< IP LAYER RAW SOCK */
/**
* @brief UDP
* @details This configures the protocol mode of Socket n.
*/
#define Sn_MR_UDP 0x02
/**
* @brief TCP
* @details This configures the protocol mode of Socket n.
*/
#define Sn_MR_TCP 0x01
/**
* @brief Unused socket
* @details This configures the protocol mode of Socket n.
*/
#define Sn_MR_CLOSE 0x00
/* Sn_MR values used with Sn_MR_MACRAW */
/**
* @brief MAC filter enable in @ref Sn_MR_MACRAW mode
* @details 0 : disable MAC Filtering\n
* 1 : enable MAC Filtering\n
* This bit is applied only during MACRAW mode(P[3:0] = 100.\n
* When set as W5500 can only receive broadcasting packet or packet sent to itself.
* When this bit is W5500 can receive all packets on Ethernet.
* If user wants to implement Hybrid TCP/IP stack,
* it is recommended that this bit is set as for reducing host overhead to process the all received packets.
*/
#define Sn_MR_MFEN Sn_MR_MULTI
/**
* @brief Multicast Blocking in @ref Sn_MR_MACRAW mode
* @details 0 : using IGMP version 2\n
* 1 : using IGMP version 1\n
* This bit is applied only during UDP mode(P[3:0] = 010 and MULTI =
* It configures the version for IGMP messages (Join/Leave/Report).
*/
#define Sn_MR_MMB Sn_MR_ND
/**
* @brief IPv6 packet Blocking in @ref Sn_MR_MACRAW mode
* @details 0 : disable IPv6 Blocking\n
* 1 : enable IPv6 Blocking\n
* This bit is applied only during MACRAW mode (P[3:0] = 100. It blocks to receiving the IPv6 packet.
*/
#define Sn_MR_MIP6B Sn_MR_UCASTB
/* Sn_MR value used with Sn_MR_UDP & Sn_MR_MULTI */
/**
* @brief IGMP version used in UDP mulitcasting
* @details 0 : disable Multicast Blocking\n
* 1 : enable Multicast Blocking\n
* This bit is applied only when MACRAW mode(P[3:0] = 100. It blocks to receive the packet with multicast MAC address.
*/
#define Sn_MR_MC Sn_MR_ND
/* Sn_MR alternate values */
/**
* @brief For Berkeley Socket API
*/
#define SOCK_STREAM Sn_MR_TCP
/**
* @brief For Berkeley Socket API
*/
#define SOCK_DGRAM Sn_MR_UDP
/* Sn_CR values */
/**
* @brief Initialize or open socket
* @details Socket n is initialized and opened according to the protocol selected in Sn_MR(P3:P0).
* The table below shows the value of @ref Sn_SR corresponding to @ref Sn_MR.\n
* <table>
* <tr> <td>\b Sn_MR (P[3:0])</td> <td>\b Sn_SR</td> </tr>
* <tr> <td>Sn_MR_CLOSE (000</td> <td></td> </tr>
* <tr> <td>Sn_MR_TCP (001</td> <td>SOCK_INIT (0x13)</td> </tr>
* <tr> <td>Sn_MR_UDP (010</td> <td>SOCK_UDP (0x22)</td> </tr>
* <tr> <td>S0_MR_MACRAW (100</td> <td>SOCK_MACRAW (0x02)</td> </tr>
* </table>
*/
#define Sn_CR_OPEN 0x01
/**
* @brief Wait connection request in TCP mode(Server mode)
* @details This is valid only in TCP mode (Sn_MR(P3:P0) = Sn_MR_TCP).
* In this mode, Socket n operates as a <EFBFBD>TCP serverand waits for connection-request (SYN packet) from any <EFBFBD>TCP client
* The @ref Sn_SR changes the state from SOCK_INIT to SOCKET_LISTEN.
* When a <EFBFBD>TCP clientconnection request is successfully established,
* the @ref Sn_SR changes from SOCK_LISTEN to SOCK_ESTABLISHED and the Sn_IR(0) becomes
* But when a <EFBFBD>TCP clientconnection request is failed, Sn_IR(3) becomes and the status of @ref Sn_SR changes to SOCK_CLOSED.
*/
#define Sn_CR_LISTEN 0x02
/**
* @brief Send connection request in TCP mode(Client mode)
* @details To connect, a connect-request (SYN packet) is sent to b>TCP server</b>configured by @ref Sn_DIPR & Sn_DPORT(destination address & port).
* If the connect-request is successful, the @ref Sn_SR is changed to @ref SOCK_ESTABLISHED and the Sn_IR(0) becomes \n\n
* The connect-request fails in the following three cases.\n
* 1. When a @b ARPTO occurs (@ref Sn_IR[3] = ) because destination hardware address is not acquired through the ARP-process.\n
* 2. When a @b SYN/ACK packet is not received and @b TCPTO (Sn_IR(3) = )\n
* 3. When a @b RST packet is received instead of a @b SYN/ACK packet. In these cases, @ref Sn_SR is changed to @ref SOCK_CLOSED.
* @note This is valid only in TCP mode and operates when Socket n acts as b>TCP client</b>
*/
#define Sn_CR_CONNECT 0x04
/**
* @brief Send closing request in TCP mode
* @details Regardless of b>TCP server</b>or b>TCP client</b> the DISCON command processes the disconnect-process (b>Active close</b>or b>Passive close</b>.\n
* @par Active close
* it transmits disconnect-request(FIN packet) to the connected peer\n
* @par Passive close
* When FIN packet is received from peer, a FIN packet is replied back to the peer.\n
* @details When the disconnect-process is successful (that is, FIN/ACK packet is received successfully), @ref Sn_SR is changed to @ref SOCK_CLOSED.\n
* Otherwise, TCPTO occurs (Sn_IR(3)=)= and then @ref Sn_SR is changed to @ref SOCK_CLOSED.
* @note Valid only in TCP mode.
*/
#define Sn_CR_DISCON 0x08
/**
* @brief Close socket
* @details Sn_SR is changed to @ref SOCK_CLOSED.
*/
#define Sn_CR_CLOSE 0x10
/**
* @brief Update TX buffer pointer and send data
* @details SEND transmits all the data in the Socket n TX buffer.\n
* For more details, please refer to Socket n TX Free Size Register (@ref Sn_TX_FSR), Socket n,
* TX Write Pointer Register(@ref Sn_TX_WR), and Socket n TX Read Pointer Register(@ref Sn_TX_RD).
*/
#define Sn_CR_SEND 0x20
/**
* @brief Send data with MAC address, so without ARP process
* @details The basic operation is same as SEND.\n
* Normally SEND transmits data after destination hardware address is acquired by the automatic ARP-process(Address Resolution Protocol).\n
* But SEND_MAC transmits data without the automatic ARP-process.\n
* In this case, the destination hardware address is acquired from @ref Sn_DHAR configured by host, instead of APR-process.
* @note Valid only in UDP mode.
*/
#define Sn_CR_SEND_MAC 0x21
/**
* @brief Send keep alive message
* @details It checks the connection status by sending 1byte keep-alive packet.\n
* If the peer can not respond to the keep-alive packet during timeout time, the connection is terminated and the timeout interrupt will occur.
* @note Valid only in TCP mode.
*/
#define Sn_CR_SEND_KEEP 0x22
/**
* @brief Update RX buffer pointer and receive data
* @details RECV completes the processing of the received data in Socket n RX Buffer by using a RX read pointer register (@ref Sn_RX_RD).\n
* For more details, refer to Socket n RX Received Size Register (@ref Sn_RX_RSR), Socket n RX Write Pointer Register (@ref Sn_RX_WR),
* and Socket n RX Read Pointer Register (@ref Sn_RX_RD).
*/
#define Sn_CR_RECV 0x40
/* Sn_IR values */
/**
* @brief SEND_OK Interrupt
* @details This is issued when SEND command is completed.
*/
#define Sn_IR_SENDOK 0x10
/**
* @brief TIMEOUT Interrupt
* @details This is issued when ARPTO or TCPTO occurs.
*/
#define Sn_IR_TIMEOUT 0x08
/**
* @brief RECV Interrupt
* @details This is issued whenever data is received from a peer.
*/
#define Sn_IR_RECV 0x04
/**
* @brief DISCON Interrupt
* @details This is issued when FIN or FIN/ACK packet is received from a peer.
*/
#define Sn_IR_DISCON 0x02
/**
* @brief CON Interrupt
* @details This is issued one time when the connection with peer is successful and then @ref Sn_SR is changed to @ref SOCK_ESTABLISHED.
*/
#define Sn_IR_CON 0x01
/* Sn_SR values */
/**
* @brief Closed
* @details This indicates that Socket n is released.\N
* When DICON, CLOSE command is ordered, or when a timeout occurs, it is changed to @ref SOCK_CLOSED regardless of previous status.
*/
#define SOCK_CLOSED 0x00
/**
* @brief Initiate state
* @details This indicates Socket n is opened with TCP mode.\N
* It is changed to @ref SOCK_INIT when Sn_MR(P[3:0]) = 001and OPEN command is ordered.\N
* After @ref SOCK_INIT, user can use LISTEN /CONNECT command.
*/
#define SOCK_INIT 0x13
/**
* @brief Listen state
* @details This indicates Socket n is operating as b>TCP server</b>mode and waiting for connection-request (SYN packet) from a peer (b>TCP client</b>.\n
* It will change to @ref SOCK_ESTALBLISHED when the connection-request is successfully accepted.\n
* Otherwise it will change to @ref SOCK_CLOSED after TCPTO occurred (Sn_IR(TIMEOUT) = .
*/
#define SOCK_LISTEN 0x14
/**
* @brief Connection state
* @details This indicates Socket n sent the connect-request packet (SYN packet) to a peer.\n
* It is temporarily shown when @ref Sn_SR is changed from @ref SOCK_INIT to @ref SOCK_ESTABLISHED by CONNECT command.\n
* If connect-accept(SYN/ACK packet) is received from the peer at SOCK_SYNSENT, it changes to @ref SOCK_ESTABLISHED.\n
* Otherwise, it changes to @ref SOCK_CLOSED after TCPTO (@ref Sn_IR[TIMEOUT] = is occurred.
*/
#define SOCK_SYNSENT 0x15
/**
* @brief Connection state
* @details It indicates Socket n successfully received the connect-request packet (SYN packet) from a peer.\n
* If socket n sends the response (SYN/ACK packet) to the peer successfully, it changes to @ref SOCK_ESTABLISHED. \n
* If not, it changes to @ref SOCK_CLOSED after timeout occurs (@ref Sn_IR[TIMEOUT] = .
*/
#define SOCK_SYNRECV 0x16
/**
* @brief Success to connect
* @details This indicates the status of the connection of Socket n.\n
* It changes to @ref SOCK_ESTABLISHED when the b>TCP SERVER</b>processed the SYN packet from the b>TCP CLIENT</b>during @ref SOCK_LISTEN, or
* when the CONNECT command is successful.\n
* During @ref SOCK_ESTABLISHED, DATA packet can be transferred using SEND or RECV command.
*/
#define SOCK_ESTABLISHED 0x17
/**
* @brief Closing state
* @details These indicate Socket n is closing.\n
* These are shown in disconnect-process such as active-close and passive-close.\n
* When Disconnect-process is successfully completed, or when timeout occurs, these change to @ref SOCK_CLOSED.
*/
#define SOCK_FIN_WAIT 0x18
/**
* @brief Closing state
* @details These indicate Socket n is closing.\n
* These are shown in disconnect-process such as active-close and passive-close.\n
* When Disconnect-process is successfully completed, or when timeout occurs, these change to @ref SOCK_CLOSED.
*/
#define SOCK_CLOSING 0x1A
/**
* @brief Closing state
* @details These indicate Socket n is closing.\n
* These are shown in disconnect-process such as active-close and passive-close.\n
* When Disconnect-process is successfully completed, or when timeout occurs, these change to @ref SOCK_CLOSED.
*/
#define SOCK_TIME_WAIT 0x1B
/**
* @brief Closing state
* @details This indicates Socket n received the disconnect-request (FIN packet) from the connected peer.\n
* This is half-closing status, and data can be transferred.\n
* For full-closing, DISCON command is used. But For just-closing, CLOSE command is used.
*/
#define SOCK_CLOSE_WAIT 0x1C
/**
* @brief Closing state
* @details This indicates Socket n is waiting for the response (FIN/ACK packet) to the disconnect-request (FIN packet) by passive-close.\n
* It changes to @ref SOCK_CLOSED when Socket n received the response successfully, or when timeout occurs (@ref Sn_IR[TIMEOUT] = .
*/
#define SOCK_LAST_ACK 0x1D
/**
* @brief UDP socket
* @details This indicates Socket n is opened in UDP mode(Sn_MR(P[3:0]) = 010.\n
* It changes to SOCK_UPD when Sn_MR(P[3:0]) = 010 and OPEN command is ordered.\n
* Unlike TCP mode, data can be transfered without the connection-process.
*/
#define SOCK_UDP 0x22
//#define SOCK_IPRAW 0x32 /**< IP raw mode socket */
/**
* @brief MAC raw mode socket
* @details This indicates Socket 0 is opened in MACRAW mode (S0_MR(P[3:0]) = 100and is valid only in Socket 0.\n
* It changes to SOCK_MACRAW when S0_MR(P[3:0] = 100and OPEN command is ordered.\n
* Like UDP mode socket, MACRAW mode Socket 0 can transfer a MAC packet (Ethernet frame) without the connection-process.
*/
#define SOCK_MACRAW 0x42
//#define SOCK_PPPOE 0x5F
/* IP PROTOCOL */
#define IPPROTO_IP 0 //< Dummy for IP
#define IPPROTO_ICMP 1 //< Control message protocol
#define IPPROTO_IGMP 2 //< Internet group management protocol
#define IPPROTO_GGP 3 //< Gateway^2 (deprecated)
#define IPPROTO_TCP 6 //< TCP
#define IPPROTO_PUP 12 //< PUP
#define IPPROTO_UDP 17 //< UDP
#define IPPROTO_IDP 22 //< XNS idp
#define IPPROTO_ND 77 //< UNOFFICIAL net disk protocol
#define IPPROTO_RAW 255 //< Raw IP packet
/**
* @brief Enter a critical section
*
* @details It is provided to protect your shared code which are executed without distribution. \n \n
*
* In non-OS environment, It can be just implemented by disabling whole interrupt.\n
* In OS environment, You can replace it to critical section api supported by OS.
*
* \sa WIZCHIP_READ(), WIZCHIP_WRITE(), WIZCHIP_READ_BUF(), WIZCHIP_WRITE_BUF()
* \sa WIZCHIP_CRITICAL_EXIT()
*/
#define WIZCHIP_CRITICAL_ENTER() WIZCHIP.CRIS._enter()
/**
* @brief Exit a critical section
*
* @details It is provided to protect your shared code which are executed without distribution. \n\n
*
* In non-OS environment, It can be just implemented by disabling whole interrupt. \n
* In OS environment, You can replace it to critical section api supported by OS.
*
* @sa WIZCHIP_READ(), WIZCHIP_WRITE(), WIZCHIP_READ_BUF(), WIZCHIP_WRITE_BUF()
* @sa WIZCHIP_CRITICAL_ENTER()
*/
#ifdef _exit
#undef _exit
#endif
#define WIZCHIP_CRITICAL_EXIT() WIZCHIP.CRIS._exit()
////////////////////////
// Basic I/O Function //
////////////////////////
/**
* @ingroup Basic_IO_function
* @brief It reads 1 byte value from a register.
* @param AddrSel Register address
* @return The value of register
*/
uint8_t WIZCHIP_READ (uint32_t AddrSel);
/**
* @ingroup Basic_IO_function
* @brief It writes 1 byte value to a register.
* @param AddrSel Register address
* @param wb Write data
* @return void
*/
void WIZCHIP_WRITE(uint32_t AddrSel, uint8_t wb );
/**
* @ingroup Basic_IO_function
* @brief It reads sequence data from registers.
* @param AddrSel Register address
* @param pBuf Pointer buffer to read data
* @param len Data length
*/
void WIZCHIP_READ_BUF (uint32_t AddrSel, uint8_t* pBuf, uint16_t len);
/**
* @ingroup Basic_IO_function
* @brief It writes sequence data to registers.
* @param AddrSel Register address
* @param pBuf Pointer buffer to write data
* @param len Data length
*/
void WIZCHIP_WRITE_BUF(uint32_t AddrSel, uint8_t* pBuf, uint16_t len);
/////////////////////////////////
// Common Register I/O function //
/////////////////////////////////
/**
* @ingroup Common_register_access_function
* @brief Set Mode Register
* @param (uint8_t)mr The value to be set.
* @sa getMR()
*/
#define setMR(mr) \
WIZCHIP_WRITE(MR,mr)
/**
* @ingroup Common_register_access_function
* @brief Get Mode Register
* @return uint8_t. The value of Mode register.
* @sa setMR()
*/
#define getMR() \
WIZCHIP_READ(MR)
/**
* @ingroup Common_register_access_function
* @brief Set gateway IP address
* @param (uint8_t*)gar Pointer variable to set gateway IP address. It should be allocated 4 bytes.
* @sa getGAR()
*/
#define setGAR(gar) \
WIZCHIP_WRITE_BUF(GAR,gar,4)
/**
* @ingroup Common_register_access_function
* @brief Get gateway IP address
* @param (uint8_t*)gar Pointer variable to get gateway IP address. It should be allocated 4 bytes.
* @sa setGAR()
*/
#define getGAR(gar) \
WIZCHIP_READ_BUF(GAR,gar,4)
/**
* @ingroup Common_register_access_function
* @brief Set subnet mask address
* @param (uint8_t*)subr Pointer variable to set subnet mask address. It should be allocated 4 bytes.
* @sa getSUBR()
*/
#define setSUBR(subr) \
WIZCHIP_WRITE_BUF(SUBR, subr,4)
/**
* @ingroup Common_register_access_function
* @brief Get subnet mask address
* @param (uint8_t*)subr Pointer variable to get subnet mask address. It should be allocated 4 bytes.
* @sa setSUBR()
*/
#define getSUBR(subr) \
WIZCHIP_READ_BUF(SUBR, subr, 4)
/**
* @ingroup Common_register_access_function
* @brief Set local MAC address
* @param (uint8_t*)shar Pointer variable to set local MAC address. It should be allocated 6 bytes.
* @sa getSHAR()
*/
#define setSHAR(shar) \
WIZCHIP_WRITE_BUF(SHAR, shar, 6)
/**
* @ingroup Common_register_access_function
* @brief Get local MAC address
* @param (uint8_t*)shar Pointer variable to get local MAC address. It should be allocated 6 bytes.
* @sa setSHAR()
*/
#define getSHAR(shar) \
WIZCHIP_READ_BUF(SHAR, shar, 6)
/**
* @ingroup Common_register_access_function
* @brief Set local IP address
* @param (uint8_t*)sipr Pointer variable to set local IP address. It should be allocated 4 bytes.
* @sa getSIPR()
*/
#define setSIPR(sipr) \
WIZCHIP_WRITE_BUF(SIPR, sipr, 4)
/**
* @ingroup Common_register_access_function
* @brief Get local IP address
* @param (uint8_t*)sipr Pointer variable to get local IP address. It should be allocated 4 bytes.
* @sa setSIPR()
*/
#define getSIPR(sipr) \
WIZCHIP_READ_BUF(SIPR, sipr, 4)
/**
* @ingroup Common_register_access_function
* @brief Set INTLEVEL register
* @param (uint16_t)intlevel Value to set @ref INTLEVEL register.
* @sa getINTLEVEL()
*/
#define setINTLEVEL(intlevel) {\
WIZCHIP_WRITE(INTLEVEL, (uint8_t)(intlevel >> 8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(INTLEVEL,1), (uint8_t) intlevel); \
}
/**
* @ingroup Common_register_access_function
* @brief Get INTLEVEL register
* @return uint16_t. Value of @ref INTLEVEL register.
* @sa setINTLEVEL()
*/
#define getINTLEVEL() \
((WIZCHIP_READ(INTLEVEL) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(INTLEVEL,1)))
/**
* @ingroup Common_register_access_function
* @brief Set @ref IR register
* @param (uint8_t)ir Value to set @ref IR register.
* @sa getIR()
*/
#define setIR(ir) \
WIZCHIP_WRITE(IR, (ir & 0xF0))
/**
* @ingroup Common_register_access_function
* @brief Get @ref IR register
* @return uint8_t. Value of @ref IR register.
* @sa setIR()
*/
#define getIR() \
(WIZCHIP_READ(IR) & 0xF0)
/**
* @ingroup Common_register_access_function
* @brief Set @ref IMR register
* @param (uint8_t)imr Value to set @ref IMR register.
* @sa getIMR()
*/
#define setIMR(imr) \
WIZCHIP_WRITE(IMR, imr)
/**
* @ingroup Common_register_access_function
* @brief Get @ref IMR register
* @return uint8_t. Value of @ref IMR register.
* @sa setIMR()
*/
#define getIMR() \
WIZCHIP_READ(IMR)
/**
* @ingroup Common_register_access_function
* @brief Set @ref SIR register
* @param (uint8_t)sir Value to set @ref SIR register.
* @sa getSIR()
*/
#define setSIR(sir) \
WIZCHIP_WRITE(SIR, sir)
/**
* @ingroup Common_register_access_function
* @brief Get @ref SIR register
* @return uint8_t. Value of @ref SIR register.
* @sa setSIR()
*/
#define getSIR() \
WIZCHIP_READ(SIR)
/**
* @ingroup Common_register_access_function
* @brief Set @ref SIMR register
* @param (uint8_t)simr Value to set @ref SIMR register.
* @sa getSIMR()
*/
#define setSIMR(simr) \
WIZCHIP_WRITE(SIMR, simr)
/**
* @ingroup Common_register_access_function
* @brief Get @ref SIMR register
* @return uint8_t. Value of @ref SIMR register.
* @sa setSIMR()
*/
#define getSIMR() \
WIZCHIP_READ(SIMR)
/**
* @ingroup Common_register_access_function
* @brief Set @ref RTR register
* @param (uint16_t)rtr Value to set @ref RTR register.
* @sa getRTR()
*/
#define setRTR(rtr) {\
WIZCHIP_WRITE(RTR, (uint8_t)(rtr >> 8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(RTR,1), (uint8_t) rtr); \
}
/**
* @ingroup Common_register_access_function
* @brief Get @ref RTR register
* @return uint16_t. Value of @ref RTR register.
* @sa setRTR()
*/
#define getRTR() \
((WIZCHIP_READ(RTR) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(RTR,1)))
/**
* @ingroup Common_register_access_function
* @brief Set @ref RCR register
* @param (uint8_t)rcr Value to set @ref RCR register.
* @sa getRCR()
*/
#define setRCR(rcr) \
WIZCHIP_WRITE(RCR, rcr)
/**
* @ingroup Common_register_access_function
* @brief Get @ref RCR register
* @return uint8_t. Value of @ref RCR register.
* @sa setRCR()
*/
#define getRCR() \
WIZCHIP_READ(RCR)
//================================================== test done ===========================================================
/**
* @ingroup Common_register_access_function
* @brief Set @ref PTIMER register
* @param (uint8_t)ptimer Value to set @ref PTIMER register.
* @sa getPTIMER()
*/
#define setPTIMER(ptimer) \
WIZCHIP_WRITE(PTIMER, ptimer)
/**
* @ingroup Common_register_access_function
* @brief Get @ref PTIMER register
* @return uint8_t. Value of @ref PTIMER register.
* @sa setPTIMER()
*/
#define getPTIMER() \
WIZCHIP_READ(PTIMER)
/**
* @ingroup Common_register_access_function
* @brief Set @ref PMAGIC register
* @param (uint8_t)pmagic Value to set @ref PMAGIC register.
* @sa getPMAGIC()
*/
#define setPMAGIC(pmagic) \
WIZCHIP_WRITE(PMAGIC, pmagic)
/**
* @ingroup Common_register_access_function
* @brief Get @ref PMAGIC register
* @return uint8_t. Value of @ref PMAGIC register.
* @sa setPMAGIC()
*/
#define getPMAGIC() \
WIZCHIP_READ(PMAGIC)
/**
* @ingroup Common_register_access_function
* @brief Set PHAR address
* @param (uint8_t*)phar Pointer variable to set PPP destination MAC register address. It should be allocated 6 bytes.
* @sa getPHAR()
*/
#define setPHAR(phar) \
WIZCHIP_WRITE_BUF(PHAR, phar, 6)
/**
* @ingroup Common_register_access_function
* @brief Get local IP address
* @param (uint8_t*)phar Pointer variable to PPP destination MAC register address. It should be allocated 6 bytes.
* @sa setPHAR()
*/
#define getPHAR(phar) \
WIZCHIP_READ_BUF(PHAR, phar, 6)
/**
* @ingroup Common_register_access_function
* @brief Set @ref PSID register
* @param (uint16_t)psid Value to set @ref PSID register.
* @sa getPSID()
*/
#define setPSID(psid) {\
WIZCHIP_WRITE(PSID, (uint8_t)(psid >> 8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(PSID,1), (uint8_t) psid); \
}
/**
* @ingroup Common_register_access_function
* @brief Get @ref PSID register
* @return uint16_t. Value of @ref PSID register.
* @sa setPSID()
*/
//uint16_t getPSID(void);
#define getPSID() \
((WIZCHIP_READ(PSID) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(PSID,1)))
/**
* @ingroup Common_register_access_function
* @brief Set @ref PMRU register
* @param (uint16_t)pmru Value to set @ref PMRU register.
* @sa getPMRU()
*/
#define setPMRU(pmru) { \
WIZCHIP_WRITE(PMRU, (uint8_t)(pmru>>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(PMRU,1), (uint8_t) pmru); \
}
/**
* @ingroup Common_register_access_function
* @brief Get @ref PMRU register
* @return uint16_t. Value of @ref PMRU register.
* @sa setPMRU()
*/
#define getPMRU() \
((WIZCHIP_READ(PMRU) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(PMRU,1)))
/**
* @ingroup Common_register_access_function
* @brief Get unreachable IP address
* @param (uint8_t*)uipr Pointer variable to get unreachable IP address. It should be allocated 4 bytes.
*/
#define getUIPR(uipr) \
WIZCHIP_READ_BUF(UIPR,uipr,6)
/**
* @ingroup Common_register_access_function
* @brief Get @ref UPORTR register
* @return uint16_t. Value of @ref UPORTR register.
*/
#define getUPORTR() \
((WIZCHIP_READ(UPORTR) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(UPORTR,1)))
/**
* @ingroup Common_register_access_function
* @brief Set @ref PHYCFGR register
* @param (uint8_t)phycfgr Value to set @ref PHYCFGR register.
* @sa getPHYCFGR()
*/
#define setPHYCFGR(phycfgr) \
WIZCHIP_WRITE(PHYCFGR, phycfgr)
/**
* @ingroup Common_register_access_function
* @brief Get @ref PHYCFGR register
* @return uint8_t. Value of @ref PHYCFGR register.
* @sa setPHYCFGR()
*/
#define getPHYCFGR() \
WIZCHIP_READ(PHYCFGR)
/**
* @ingroup Common_register_access_function
* @brief Get @ref VERSIONR register
* @return uint8_t. Value of @ref VERSIONR register.
*/
#define getVERSIONR() \
WIZCHIP_READ(VERSIONR)
/////////////////////////////////////
///////////////////////////////////
// Socket N register I/O function //
///////////////////////////////////
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_MR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)mr Value to set @ref Sn_MR
* @sa getSn_MR()
*/
#define setSn_MR(sn, mr) \
WIZCHIP_WRITE(Sn_MR(sn),mr)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_MR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_MR.
* @sa setSn_MR()
*/
#define getSn_MR(sn) \
WIZCHIP_READ(Sn_MR(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_CR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)cr Value to set @ref Sn_CR
* @sa getSn_CR()
*/
#define setSn_CR(sn, cr) \
WIZCHIP_WRITE(Sn_CR(sn), cr)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_CR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_CR.
* @sa setSn_CR()
*/
#define getSn_CR(sn) \
WIZCHIP_READ(Sn_CR(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_IR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)ir Value to set @ref Sn_IR
* @sa getSn_IR()
*/
#define setSn_IR(sn, ir) \
WIZCHIP_WRITE(Sn_IR(sn), (ir & 0x1F))
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_IR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_IR.
* @sa setSn_IR()
*/
#define getSn_IR(sn) \
(WIZCHIP_READ(Sn_IR(sn)) & 0x1F)
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_IMR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)imr Value to set @ref Sn_IMR
* @sa getSn_IMR()
*/
#define setSn_IMR(sn, imr) \
WIZCHIP_WRITE(Sn_IMR(sn), (imr & 0x1F))
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_IMR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_IMR.
* @sa setSn_IMR()
*/
#define getSn_IMR(sn) \
(WIZCHIP_READ(Sn_IMR(sn)) & 0x1F)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_SR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_SR.
*/
#define getSn_SR(sn) \
WIZCHIP_READ(Sn_SR(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_PORT register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)port Value to set @ref Sn_PORT.
* @sa getSn_PORT()
*/
#define setSn_PORT(sn, port) { \
WIZCHIP_WRITE(Sn_PORT(sn), (uint8_t)(port >> 8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_PORT(sn),1), (uint8_t) port); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_PORT register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_PORT.
* @sa setSn_PORT()
*/
#define getSn_PORT(sn) \
((WIZCHIP_READ(Sn_PORT(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_PORT(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_DHAR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t*)dhar Pointer variable to set socket n destination hardware address. It should be allocated 6 bytes.
* @sa getSn_DHAR()
*/
#define setSn_DHAR(sn, dhar) \
WIZCHIP_WRITE_BUF(Sn_DHAR(sn), dhar, 6)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_MR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t*)dhar Pointer variable to get socket n destination hardware address. It should be allocated 6 bytes.
* @sa setSn_DHAR()
*/
#define getSn_DHAR(sn, dhar) \
WIZCHIP_READ_BUF(Sn_DHAR(sn), dhar, 6)
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_DIPR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t*)dipr Pointer variable to set socket n destination IP address. It should be allocated 4 bytes.
* @sa getSn_DIPR()
*/
#define setSn_DIPR(sn, dipr) \
WIZCHIP_WRITE_BUF(Sn_DIPR(sn), dipr, 4)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_DIPR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t*)dipr Pointer variable to get socket n destination IP address. It should be allocated 4 bytes.
* @sa SetSn_DIPR()
*/
#define getSn_DIPR(sn, dipr) \
WIZCHIP_READ_BUF(Sn_DIPR(sn), dipr, 4)
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_DPORT register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)dport Value to set @ref Sn_DPORT
* @sa getSn_DPORT()
*/
#define setSn_DPORT(sn, dport) { \
WIZCHIP_WRITE(Sn_DPORT(sn), (uint8_t) (dport>>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_DPORT(sn),1), (uint8_t) dport); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_DPORT register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_DPORT.
* @sa setSn_DPORT()
*/
#define getSn_DPORT(sn) \
((WIZCHIP_READ(Sn_DPORT(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_DPORT(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_MSSR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)mss Value to set @ref Sn_MSSR
* @sa setSn_MSSR()
*/
#define setSn_MSSR(sn, mss) { \
WIZCHIP_WRITE(Sn_MSSR(sn), (uint8_t)(mss>>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_MSSR(sn),1), (uint8_t) mss); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_MSSR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_MSSR.
* @sa setSn_MSSR()
*/
#define getSn_MSSR(sn) \
((WIZCHIP_READ(Sn_MSSR(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_MSSR(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_TOS register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)tos Value to set @ref Sn_TOS
* @sa getSn_TOS()
*/
#define setSn_TOS(sn, tos) \
WIZCHIP_WRITE(Sn_TOS(sn), tos)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TOS register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of Sn_TOS.
* @sa setSn_TOS()
*/
#define getSn_TOS(sn) \
WIZCHIP_READ(Sn_TOS(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_TTL register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)ttl Value to set @ref Sn_TTL
* @sa getSn_TTL()
*/
#define setSn_TTL(sn, ttl) \
WIZCHIP_WRITE(Sn_TTL(sn), ttl)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TTL register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_TTL.
* @sa setSn_TTL()
*/
#define getSn_TTL(sn) \
WIZCHIP_READ(Sn_TTL(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_RXBUF_SIZE register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)rxbufsize Value to set @ref Sn_RXBUF_SIZE
* @sa getSn_RXBUF_SIZE()
*/
#define setSn_RXBUF_SIZE(sn, rxbufsize) \
WIZCHIP_WRITE(Sn_RXBUF_SIZE(sn),rxbufsize)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_RXBUF_SIZE register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_RXBUF_SIZE.
* @sa setSn_RXBUF_SIZE()
*/
#define getSn_RXBUF_SIZE(sn) \
WIZCHIP_READ(Sn_RXBUF_SIZE(sn))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_TXBUF_SIZE register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)txbufsize Value to set @ref Sn_TXBUF_SIZE
* @sa getSn_TXBUF_SIZE()
*/
#define setSn_TXBUF_SIZE(sn, txbufsize) \
WIZCHIP_WRITE(Sn_TXBUF_SIZE(sn), txbufsize)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TXBUF_SIZE register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_TXBUF_SIZE.
* @sa setSn_TXBUF_SIZE()
*/
#define getSn_TXBUF_SIZE(sn) \
WIZCHIP_READ(Sn_TXBUF_SIZE(sn))
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TX_FSR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_TX_FSR.
*/
uint16_t getSn_TX_FSR(uint8_t sn);
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TX_RD register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_TX_RD.
*/
#define getSn_TX_RD(sn) \
((WIZCHIP_READ(Sn_TX_RD(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_TX_RD(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_TX_WR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)txwr Value to set @ref Sn_TX_WR
* @sa GetSn_TX_WR()
*/
#define setSn_TX_WR(sn, txwr) { \
WIZCHIP_WRITE(Sn_TX_WR(sn), (uint8_t)(txwr>>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_TX_WR(sn),1), (uint8_t) txwr); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_TX_WR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_TX_WR.
* @sa setSn_TX_WR()
*/
#define getSn_TX_WR(sn) \
((WIZCHIP_READ(Sn_TX_WR(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_TX_WR(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_RX_RSR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_RX_RSR.
*/
uint16_t getSn_RX_RSR(uint8_t sn);
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_RX_RD register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)rxrd Value to set @ref Sn_RX_RD
* @sa getSn_RX_RD()
*/
#define setSn_RX_RD(sn, rxrd) { \
WIZCHIP_WRITE(Sn_RX_RD(sn), (uint8_t)(rxrd>>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_RX_RD(sn),1), (uint8_t) rxrd); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_RX_RD register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @regurn uint16_t. Value of @ref Sn_RX_RD.
* @sa setSn_RX_RD()
*/
#define getSn_RX_RD(sn) \
((WIZCHIP_READ(Sn_RX_RD(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_RX_RD(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_RX_WR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_RX_WR.
*/
#define getSn_RX_WR(sn) \
((WIZCHIP_READ(Sn_RX_WR(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_RX_WR(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_FRAG register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint16_t)frag Value to set @ref Sn_FRAG
* @sa getSn_FRAD()
*/
#define setSn_FRAG(sn, frag) { \
WIZCHIP_WRITE(Sn_FRAG(sn), (uint8_t)(frag >>8)); \
WIZCHIP_WRITE(WIZCHIP_OFFSET_INC(Sn_FRAG(sn),1), (uint8_t) frag); \
}
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_FRAG register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of @ref Sn_FRAG.
* @sa setSn_FRAG()
*/
#define getSn_FRAG(sn) \
((WIZCHIP_READ(Sn_FRAG(sn)) << 8) + WIZCHIP_READ(WIZCHIP_OFFSET_INC(Sn_FRAG(sn),1)))
/**
* @ingroup Socket_register_access_function
* @brief Set @ref Sn_KPALVTR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param (uint8_t)kpalvt Value to set @ref Sn_KPALVTR
* @sa getSn_KPALVTR()
*/
#define setSn_KPALVTR(sn, kpalvt) \
WIZCHIP_WRITE(Sn_KPALVTR(sn), kpalvt)
/**
* @ingroup Socket_register_access_function
* @brief Get @ref Sn_KPALVTR register
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint8_t. Value of @ref Sn_KPALVTR.
* @sa setSn_KPALVTR()
*/
#define getSn_KPALVTR(sn) \
WIZCHIP_READ(Sn_KPALVTR(sn))
//////////////////////////////////////
/////////////////////////////////////
// Sn_TXBUF & Sn_RXBUF IO function //
/////////////////////////////////////
/**
* @brief Gets the max buffer size of socket sn passed as parameter.
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of Socket n RX max buffer size.
*/
#define getSn_RxMAX(sn) \
(getSn_RXBUF_SIZE(sn) << 10)
/**
* @brief Gets the max buffer size of socket sn passed as parameters.
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @return uint16_t. Value of Socket n TX max buffer size.
*/
//uint16_t getSn_TxMAX(uint8_t sn);
#define getSn_TxMAX(sn) \
(getSn_TXBUF_SIZE(sn) << 10)
/**
* @ingroup Basic_IO_function
* @brief It copies data to internal TX memory
*
* @details This function reads the Tx write pointer register and after that,
* it copies the <i>wizdata(pointer buffer)</i> of the length of <i>len(variable)</i> bytes to internal TX memory
* and updates the Tx write pointer register.
* This function is being called by send() and sendto() function also.
*
* @note User should read upper byte first and lower byte later to get proper value.
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param wizdata Pointer buffer to write data
* @param len Data length
* @sa wiz_recv_data()
*/
void wiz_send_data(uint8_t sn, uint8_t *wizdata, uint16_t len);
/**
* @ingroup Basic_IO_function
* @brief It copies data to your buffer from internal RX memory
*
* @details This function read the Rx read pointer register and after that,
* it copies the received data from internal RX memory
* to <i>wizdata(pointer variable)</i> of the length of <i>len(variable)</i> bytes.
* This function is being called by recv() also.
*
* @note User should read upper byte first and lower byte later to get proper value.
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param wizdata Pointer buffer to read data
* @param len Data length
* @sa wiz_send_data()
*/
void wiz_recv_data(uint8_t sn, uint8_t *wizdata, uint16_t len);
/**
* @ingroup Basic_IO_function
* @brief It discard the received data in RX memory.
* @details It discards the data of the length of <i>len(variable)</i> bytes in internal RX memory.
* @param (uint8_t)sn Socket number. It should be <b>0 ~ 7</b>.
* @param len Data length
*/
void wiz_recv_ignore(uint8_t sn, uint16_t len);
#endif // _W5500_H_