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w5100.h
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w5100.h
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/****************************************************************************************************************************
w5100.cpp - Driver for W5x00
EthernetWebServer is a library for the Ethernet shields to run WebServer
Based on and modified from ESP8266 https://github.com/esp8266/Arduino/releases
Built by Khoi Hoang https://github.com/khoih-prog/EthernetWebServer
Licensed under MIT license
Version: 1.0.9
Copyright 2018 Paul Stoffregen
Copyright (c) 2010 by Cristian Maglie <c.maglie@bug.st>
This file is free software; you can redistribute it and/or modify
it under the terms of either the GNU General Public License version 2
or the GNU Lesser General Public License version 2.1, both as
published by the Free Software Foundation.
Version Modified By Date Comments
------- ----------- ---------- -----------
1.0.0 K Hoang 13/02/2020 Initial coding for Arduino Mega, Teensy, etc to support Ethernetx libraries
1.0.1 K Hoang 20/02/2020 Add support to lambda functions
1.0.2 K Hoang 20/02/2020 Add support to UIPEthernet library for ENC28J60
1.0.3 K Hoang 23/02/2020 Add support to SAM DUE / SAMD21 boards
1.0.4 K Hoang 16/04/2020 Add support to SAMD51 boards
1.0.5 K Hoang 24/04/2020 Add support to nRF52 boards, such as AdaFruit Feather nRF52832, nRF52840 Express, BlueFruit Sense,
Itsy-Bitsy nRF52840 Express, Metro nRF52840 Express, NINA_B30_ublox, etc.
More Custom Ethernet libraries supported such as Ethernet2, Ethernet3, EthernetLarge
1.0.6 K Hoang 27/04/2020 Add support to ESP32/ESP8266 boards
1.0.7 K Hoang 30/04/2020 Add ENC28J60 support to ESP32/ESP8266 boards
1.0.8 K Hoang 12/05/2020 Fix W5x00 support for ESP8266 boards.
1.0.9 K Hoang 15/05/2020 Add EthernetWrapper.h for easier W5x00 support as well as more Ethernet libs in the future.
*****************************************************************************************************************************/
// w5100.h contains private W5x00 hardware "driver" level definitions
// which are not meant to be exposed to other libraries or Arduino users
#ifndef W5100_H_INCLUDED
#define W5100_H_INCLUDED
#include <Arduino.h>
#include <SPI.h>
#ifndef USE_W5100
#define USE_W5100 false
#else
#define USE_W5100 true
#endif
#if !USE_W5100
// Safe for W5200 and W5500, but also tested OK on W5100
// Use 14MHz if you know your W5100 can't run
// Higher SPI clock results in faster transfer to hosts on a LAN
// or with very low packet latency. With ordinary internet latency,
// the TCP window size & packet loss determine your overall speed.
#warning Use 25MHz clock for W5200/W5500. Not for W5100
#define SPI_ETHERNET_SETTINGS SPISettings(25000000, MSBFIRST, SPI_MODE0)
#else
// Safe for all chips but too slow
#define SPI_ETHERNET_SETTINGS SPISettings(14000000, MSBFIRST, SPI_MODE0)
#warning Use 14MHz clock for W5100/W5200/W5500. Slow.
#endif
// Require Ethernet.h, because we need MAX_SOCK_NUM
#ifndef ethernet_h_
#error "EthernetLarge.h must be included before w5100.h"
#endif
// Arduino 101's SPI can not run faster than 8 MHz.
#if defined(ARDUINO_ARCH_ARC32)
#undef SPI_ETHERNET_SETTINGS
#define SPI_ETHERNET_SETTINGS SPISettings(8000000, MSBFIRST, SPI_MODE0)
#endif
// Arduino Zero can't use W5100-based shields faster than 8 MHz
// https://github.com/arduino-libraries/Ethernet/issues/37#issuecomment-408036848
// W5500 does seem to work at 12 MHz. Delete this if only using W5500
#if defined(__SAMD21G18A__)
#undef SPI_ETHERNET_SETTINGS
//#warning Use SAMD21 architecture SPISettings(8000000, MSBFIRST, SPI_MODE3) => IP OK
#warning Use SAMD21 architecture SPISettings(30000000, MSBFIRST, SPI_MODE3) => IP OK
// Still not working !!! Original SPI_MODE0 not OK at all
//#define SPI_ETHERNET_SETTINGS SPISettings(8000000, MSBFIRST, SPI_MODE3)
#define SPI_ETHERNET_SETTINGS SPISettings(30000000, MSBFIRST, SPI_MODE3)
#endif
typedef uint8_t SOCKET;
class SnMR
{
public:
static const uint8_t CLOSE = 0x00;
static const uint8_t TCP = 0x21;
static const uint8_t UDP = 0x02;
static const uint8_t IPRAW = 0x03;
static const uint8_t MACRAW = 0x04;
static const uint8_t PPPOE = 0x05;
static const uint8_t ND = 0x20;
static const uint8_t MULTI = 0x80;
};
enum SockCMD
{
Sock_OPEN = 0x01,
Sock_LISTEN = 0x02,
Sock_CONNECT = 0x04,
Sock_DISCON = 0x08,
Sock_CLOSE = 0x10,
Sock_SEND = 0x20,
Sock_SEND_MAC = 0x21,
Sock_SEND_KEEP = 0x22,
Sock_RECV = 0x40
};
class SnIR
{
public:
static const uint8_t SEND_OK = 0x10;
static const uint8_t TIMEOUT = 0x08;
static const uint8_t RECV = 0x04;
static const uint8_t DISCON = 0x02;
static const uint8_t CON = 0x01;
};
class SnSR
{
public:
static const uint8_t CLOSED = 0x00;
static const uint8_t INIT = 0x13;
static const uint8_t LISTEN = 0x14;
static const uint8_t SYNSENT = 0x15;
static const uint8_t SYNRECV = 0x16;
static const uint8_t ESTABLISHED = 0x17;
static const uint8_t FIN_WAIT = 0x18;
static const uint8_t CLOSING = 0x1A;
static const uint8_t TIME_WAIT = 0x1B;
static const uint8_t CLOSE_WAIT = 0x1C;
static const uint8_t LAST_ACK = 0x1D;
static const uint8_t UDP = 0x22;
static const uint8_t IPRAW = 0x32;
static const uint8_t MACRAW = 0x42;
static const uint8_t PPPOE = 0x5F;
};
class IPPROTO
{
public:
static const uint8_t IP = 0;
static const uint8_t ICMP = 1;
static const uint8_t IGMP = 2;
static const uint8_t GGP = 3;
static const uint8_t TCP = 6;
static const uint8_t PUP = 12;
static const uint8_t UDP = 17;
static const uint8_t IDP = 22;
static const uint8_t ND = 77;
static const uint8_t RAW = 255;
};
enum W5100Linkstatus
{
UNKNOWN,
LINK_ON,
LINK_OFF
};
class W5100Class
{
public:
// KH
uint8_t init(uint8_t socketNumbers = MAX_SOCK_NUM, uint8_t new_ss_pin = 10);
inline void setGatewayIp(const uint8_t * addr)
{
writeGAR(addr);
}
inline void getGatewayIp(uint8_t * addr)
{
readGAR(addr);
}
inline void setSubnetMask(const uint8_t * addr)
{
writeSUBR(addr);
}
inline void getSubnetMask(uint8_t * addr)
{
readSUBR(addr);
}
inline void setMACAddress(const uint8_t * addr)
{
writeSHAR(addr);
}
inline void getMACAddress(uint8_t * addr)
{
readSHAR(addr);
}
inline void setIPAddress(const uint8_t * addr)
{
writeSIPR(addr);
}
inline void getIPAddress(uint8_t * addr)
{
readSIPR(addr);
}
inline void setRetransmissionTime(uint16_t timeout)
{
writeRTR(timeout);
}
inline void setRetransmissionCount(uint8_t retry)
{
writeRCR(retry);
}
static void execCmdSn(SOCKET s, SockCMD _cmd);
// W5100 Registers
// ---------------
//private:
public:
static uint16_t write(uint16_t addr, const uint8_t *buf, uint16_t len);
static uint8_t write(uint16_t addr, uint8_t data)
{
return write(addr, &data, 1);
}
static uint16_t read(uint16_t addr, uint8_t *buf, uint16_t len);
static uint8_t read(uint16_t addr)
{
uint8_t data;
read(addr, &data, 1);
return data;
}
#define __GP_REGISTER8(name, address) \
static inline void write##name(uint8_t _data) { \
write(address, _data); \
} \
static inline uint8_t read##name() { \
return read(address); \
}
#define __GP_REGISTER16(name, address) \
static void write##name(uint16_t _data) { \
uint8_t buf[2]; \
buf[0] = _data >> 8; \
buf[1] = _data & 0xFF; \
write(address, buf, 2); \
} \
static uint16_t read##name() { \
uint8_t buf[2]; \
read(address, buf, 2); \
return (buf[0] << 8) | buf[1]; \
}
#define __GP_REGISTER_N(name, address, size) \
static uint16_t write##name(const uint8_t *_buff) { \
return write(address, _buff, size); \
} \
static uint16_t read##name(uint8_t *_buff) { \
return read(address, _buff, size); \
}
// KH
W5100Linkstatus getLinkStatus();
public:
__GP_REGISTER8 (MR, 0x0000); // Mode
__GP_REGISTER_N(GAR, 0x0001, 4); // Gateway IP address
__GP_REGISTER_N(SUBR, 0x0005, 4); // Subnet mask address
__GP_REGISTER_N(SHAR, 0x0009, 6); // Source MAC address
__GP_REGISTER_N(SIPR, 0x000F, 4); // Source IP address
__GP_REGISTER8 (IR, 0x0015); // Interrupt
__GP_REGISTER8 (IMR, 0x0016); // Interrupt Mask
__GP_REGISTER16(RTR, 0x0017); // Timeout address
__GP_REGISTER8 (RCR, 0x0019); // Retry count
__GP_REGISTER8 (RMSR, 0x001A); // Receive memory size (W5100 only)
__GP_REGISTER8 (TMSR, 0x001B); // Transmit memory size (W5100 only)
__GP_REGISTER8 (PATR, 0x001C); // Authentication type address in PPPoE mode
__GP_REGISTER8 (PTIMER, 0x0028); // PPP LCP Request Timer
__GP_REGISTER8 (PMAGIC, 0x0029); // PPP LCP Magic Number
__GP_REGISTER_N(UIPR, 0x002A, 4); // Unreachable IP address in UDP mode (W5100 only)
__GP_REGISTER16(UPORT, 0x002E); // Unreachable Port address in UDP mode (W5100 only)
__GP_REGISTER8 (VERSIONR_W5200, 0x001F); // Chip Version Register (W5200 only)
__GP_REGISTER8 (VERSIONR_W5500, 0x0039); // Chip Version Register (W5500 only)
__GP_REGISTER8 (PSTATUS_W5200, 0x0035); // PHY Status
__GP_REGISTER8 (PHYCFGR_W5500, 0x002E); // PHY Configuration register, default: 10111xxx
#undef __GP_REGISTER8
#undef __GP_REGISTER16
#undef __GP_REGISTER_N
// W5100 Socket registers
// ----------------------
private:
static uint16_t CH_BASE(void)
{
//if (chip == 55) return 0x1000;
//if (chip == 52) return 0x4000;
//return 0x0400;
return CH_BASE_MSB << 8;
}
static uint8_t CH_BASE_MSB; // 1 redundant byte, saves ~80 bytes code on AVR
static const uint16_t CH_SIZE = 0x0100;
static inline uint8_t readSn(SOCKET s, uint16_t addr)
{
return read(CH_BASE() + s * CH_SIZE + addr);
}
static inline uint8_t writeSn(SOCKET s, uint16_t addr, uint8_t data)
{
return write(CH_BASE() + s * CH_SIZE + addr, data);
}
static inline uint16_t readSn(SOCKET s, uint16_t addr, uint8_t *buf, uint16_t len)
{
return read(CH_BASE() + s * CH_SIZE + addr, buf, len);
}
static inline uint16_t writeSn(SOCKET s, uint16_t addr, uint8_t *buf, uint16_t len)
{
return write(CH_BASE() + s * CH_SIZE + addr, buf, len);
}
#define __SOCKET_REGISTER8(name, address) \
static inline void write##name(SOCKET _s, uint8_t _data) { \
writeSn(_s, address, _data); \
} \
static inline uint8_t read##name(SOCKET _s) { \
return readSn(_s, address); \
}
#define __SOCKET_REGISTER16(name, address) \
static void write##name(SOCKET _s, uint16_t _data) { \
uint8_t buf[2]; \
buf[0] = _data >> 8; \
buf[1] = _data & 0xFF; \
writeSn(_s, address, buf, 2); \
} \
static uint16_t read##name(SOCKET _s) { \
uint8_t buf[2]; \
readSn(_s, address, buf, 2); \
return (buf[0] << 8) | buf[1]; \
}
#define __SOCKET_REGISTER_N(name, address, size) \
static uint16_t write##name(SOCKET _s, uint8_t *_buff) { \
return writeSn(_s, address, _buff, size); \
} \
static uint16_t read##name(SOCKET _s, uint8_t *_buff) { \
return readSn(_s, address, _buff, size); \
}
public:
__SOCKET_REGISTER8(SnMR, 0x0000) // Mode
__SOCKET_REGISTER8(SnCR, 0x0001) // Command
__SOCKET_REGISTER8(SnIR, 0x0002) // Interrupt
__SOCKET_REGISTER8(SnSR, 0x0003) // Status
__SOCKET_REGISTER16(SnPORT, 0x0004) // Source Port
__SOCKET_REGISTER_N(SnDHAR, 0x0006, 6) // Destination Hardw Addr
__SOCKET_REGISTER_N(SnDIPR, 0x000C, 4) // Destination IP Addr
__SOCKET_REGISTER16(SnDPORT, 0x0010) // Destination Port
__SOCKET_REGISTER16(SnMSSR, 0x0012) // Max Segment Size
__SOCKET_REGISTER8(SnPROTO, 0x0014) // Protocol in IP RAW Mode
__SOCKET_REGISTER8(SnTOS, 0x0015) // IP TOS
__SOCKET_REGISTER8(SnTTL, 0x0016) // IP TTL
__SOCKET_REGISTER8(SnRX_SIZE, 0x001E) // RX Memory Size (W5200 only)
__SOCKET_REGISTER8(SnTX_SIZE, 0x001F) // RX Memory Size (W5200 only)
__SOCKET_REGISTER16(SnTX_FSR, 0x0020) // TX Free Size
__SOCKET_REGISTER16(SnTX_RD, 0x0022) // TX Read Pointer
__SOCKET_REGISTER16(SnTX_WR, 0x0024) // TX Write Pointer
__SOCKET_REGISTER16(SnRX_RSR, 0x0026) // RX Free Size
__SOCKET_REGISTER16(SnRX_RD, 0x0028) // RX Read Pointer
__SOCKET_REGISTER16(SnRX_WR, 0x002A) // RX Write Pointer (supported?)
#undef __SOCKET_REGISTER8
#undef __SOCKET_REGISTER16
#undef __SOCKET_REGISTER_N
private:
// KH
bool initialized = false;
static uint8_t chip;
static uint8_t ss_pin;
static uint8_t isW5100(void);
static uint8_t isW5200(void);
static uint8_t isW5500(void);
public:
// KH
static uint8_t softReset(void);
static uint8_t getChip(void)
{
return chip;
}
#ifdef ETHERNET_LARGE_BUFFERS
static uint16_t SSIZE;
static uint16_t SMASK;
#else
static const uint16_t SSIZE = 2048;
static const uint16_t SMASK = 0x07FF;
#endif
static uint16_t SBASE(uint8_t socknum)
{
if (chip == 51)
{
return socknum * SSIZE + 0x4000;
}
else
{
return socknum * SSIZE + 0x8000;
}
}
static uint16_t RBASE(uint8_t socknum)
{
if (chip == 51)
{
return socknum * SSIZE + 0x6000;
}
else
{
return socknum * SSIZE + 0xC000;
}
}
static bool hasOffsetAddressMapping(void)
{
if (chip == 55)
return true;
return false;
}
static void setSS(uint8_t pin)
{
ss_pin = pin;
}
private:
#if defined(__AVR__)
#warning Use AVR architecture
static volatile uint8_t *ss_pin_reg;
static uint8_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = portOutputRegister(digitalPinToPort(ss_pin));
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg) &= ~ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg) |= ss_pin_mask;
}
#elif defined(__MK20DX128__) || defined(__MK20DX256__) || defined(__MK66FX1M0__) || defined(__MK64FX512__)
#warning Use MK architecture
static volatile uint8_t *ss_pin_reg;
inline static void initSS()
{
ss_pin_reg = portOutputRegister(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 256) = 1;
}
inline static void resetSS()
{
*(ss_pin_reg + 128) = 1;
}
#elif defined(__IMXRT1062__)
#warning Use Teensy architecture
static volatile uint32_t *ss_pin_reg;
static uint32_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = portOutputRegister(digitalPinToPort(ss_pin));
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 34) = ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg + 33) = ss_pin_mask;
}
#elif defined(__MKL26Z64__)
static volatile uint8_t *ss_pin_reg;
static uint8_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = portOutputRegister(digitalPinToPort(ss_pin));
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 8) = ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg + 4) = ss_pin_mask;
}
#elif defined(__SAM3X8E__) || defined(__SAM3A8C__) || defined(__SAM3A4C__)
#warning Use SAM3 architecture
static volatile uint32_t *ss_pin_reg;
static uint32_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = &(digitalPinToPort(ss_pin)->PIO_PER);
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 13) = ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg + 12) = ss_pin_mask;
}
#elif defined(__PIC32MX__)
static volatile uint32_t *ss_pin_reg;
static uint32_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = portModeRegister(digitalPinToPort(ss_pin));
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 8 + 1) = ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg + 8 + 2) = ss_pin_mask;
}
#elif defined(ARDUINO_ARCH_ESP8266)
#warning Use ARDUINO_ARCH_ESP8266 architecture
static volatile uint32_t *ss_pin_reg;
static uint32_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = (volatile uint32_t*)GPO;
ss_pin_mask = 1 << ss_pin;
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
GPOC = ss_pin_mask;
}
inline static void resetSS()
{
GPOS = ss_pin_mask;
}
#elif defined(__SAMD21G18A__)
#warning Use SAMD21 architecture
static volatile uint32_t *ss_pin_reg;
static uint32_t ss_pin_mask;
inline static void initSS()
{
ss_pin_reg = portModeRegister(digitalPinToPort(ss_pin));
ss_pin_mask = digitalPinToBitMask(ss_pin);
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
*(ss_pin_reg + 5) = ss_pin_mask;
}
inline static void resetSS()
{
*(ss_pin_reg + 6) = ss_pin_mask;
}
#else
#warning Use Default architecture
inline static void initSS()
{
pinMode(ss_pin, OUTPUT);
}
inline static void setSS()
{
digitalWrite(ss_pin, LOW);
}
inline static void resetSS()
{
digitalWrite(ss_pin, HIGH);
}
#endif
};
extern W5100Class W5100;
#endif
#ifndef UTIL_H
#define UTIL_H
#ifndef htons
#define htons(x) ( (((x)<<8)&0xFF00) | (((x)>>8)&0xFF) )
#endif
#ifndef ntohs
#define ntohs(x) htons(x)
#endif
#ifndef htonl
#define htonl(x) ( ((x)<<24 & 0xFF000000UL) | \
((x)<< 8 & 0x00FF0000UL) | \
((x)>> 8 & 0x0000FF00UL) | \
((x)>>24 & 0x000000FFUL) )
#endif
#ifndef ntohl
#define ntohl(x) htonl(x)
#endif
#endif //W5100_H_INCLUDED