rpi4-osdev/part15-tcpip/kernel/arp.c

#include "../net/enc28j60.h"
#include "../include/fb.h"
#include "../tcpip/ip_arp_udp_tcp.h"

ENC_HandleTypeDef handle;

// Structure for Ethernet header

typedef struct {
   uint8_t DestAddrs[6];
   uint8_t SrcAddrs[6];
   uint16_t type;
} EtherNetII;

// Ethernet packet types

#define ARPPACKET 0x0608
#define IPPACKET  0x0008

// Structure for an ARP Packet

typedef struct {
   EtherNetII eth;
   uint16_t hardware;
   uint16_t protocol;
   uint8_t hardwareSize;
   uint8_t protocolSize;
   uint16_t opCode;
   uint8_t senderMAC[6];
   uint8_t senderIP[4];
   uint8_t targetMAC[6];
   uint8_t targetIP[4];
} ARP;

// ARP OpCodes

#define ARPREPLY   0x0200
#define ARPREQUEST 0x0100

// ARP hardware types

#define ETHERNET   0x0100

// MAC address to be assigned to the ENC28J60

uint8_t myMAC[6] = { 0xc0, 0xff, 0xee, 0xc0, 0xff, 0xee };

// Router MAC is not known to start with, and requires an ARP reply to find out

uint8_t routerMAC[6] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };

// IP address to be assigned to the ENC28J60

uint8_t deviceIP[4] = { 192, 168, 0, 66 };

// IP Address of the router, whose hardware address we will find using the ARP request

uint8_t routerIP[4] = { 192, 168, 0, 1 };

// HELPER FUNCTIONS

void *memset(void *dest, unsigned char val, unsigned short len)
{
    uint8_t *ptr = dest;
    while (len-- > 0)
       *ptr++ = val;
    return dest;
}

void *memcpy(void *dest, const void *src, unsigned short len)
{
    uint8_t *d = dest;
    const uint8_t *s = src;
    while (len--)
       *d++ = *s++;
    return dest;
}

uint8_t memcmp(void *str1, void *str2, unsigned count)
{
    uint8_t *s1 = str1;
    uint8_t *s2 = str2;

    while (count-- > 0)
    {
       if (*s1++ != *s2++)
          return s1[-1] < s2[-1] ? -1 : 1;
    }

    return 0;
}

// MAIN FUNCTIONS

void SendArpPacket(uint8_t *targetIP, uint8_t *deviceMAC)
{
   /* Parameters:
    *   targetIP - The target IP Address for the ARP request (the one whose hardware
    *              address we want)
    *   deviceMAC - The MAC address of the ENC28J60, i.e. the source MAC for the ARP
    *               request
   */

   ARP arpPacket;

   // The source of the packet will be the ENC28J60 MAC address
   memcpy(arpPacket.eth.SrcAddrs, deviceMAC, 6);
    
   // The destination is broadcast - a MAC address of FF:FF:FF:FF:FF:FF */
   memset(arpPacket.eth.DestAddrs, 0xFF, 6);
    
   arpPacket.eth.type = ARPPACKET;
   arpPacket.hardware = ETHERNET;
    
   // We want an IP address resolved

   arpPacket.protocol = IPPACKET;
   arpPacket.hardwareSize = 0x06; // sizeof(deviceMAC);
   arpPacket.protocolSize = 0x04; // sizeof(deviceIP);
   arpPacket.opCode = ARPREQUEST;
  
   // Target MAC is set to 0 as it is unknown
   memset(arpPacket.targetMAC, 0, 6);
    
   // Sender MAC is the ENC28J60's MAC address
   memcpy(arpPacket.senderMAC, deviceMAC, 6);
    
   // The target IP is the IP address we want resolved
   memcpy(arpPacket.targetIP, targetIP, 4);
  
   // Check if the last reply has come from an IP address that we want i.e. someone else is already using it
   if (!memcmp(targetIP, deviceIP, 4)) {
      // Yes, someone is using our IP so set the sender IP to 0.0.0.0
      memset(arpPacket.senderIP, 0, 4);
   } else {
      // No, nobody is using our IP so we can use it confidently
      memcpy(arpPacket.senderIP, deviceIP, 4);
   }

   // Send the packet

   debugstr("Sending ARP request.");
   debugcrlf();
   enc28j60PacketSend(sizeof(ARP), &arpPacket);
}

void net_test(void)
{
   while (1) {
      while (!ENC_GetReceivedFrame(&handle));
  
      uint16_t len = handle.RxFrameInfos.length;
      uint8_t *buffer = (uint8_t *)handle.RxFrameInfos.buffer;
      packetloop_arp_icmp_tcp(buffer, len);
   }
}

void enc28j60PacketSend(unsigned short buflen, void *buffer) {
   if (ENC_RestoreTXBuffer(&handle, buflen) == 0) {
      ENC_WriteBuffer((unsigned char *) buffer, buflen);
      handle.transmitLength = buflen;
      ENC_Transmit(&handle);
   }
}

void init_network(void)
{
   handle.Init.DuplexMode = ETH_MODE_HALFDUPLEX;
   handle.Init.MACAddr = myMAC;
   handle.Init.ChecksumMode = ETH_CHECKSUM_BY_HARDWARE;
   handle.Init.InterruptEnableBits = EIE_LINKIE | EIE_PKTIE;

   debugstr("Starting network up.");
   debugcrlf();
   if (!ENC_Start(&handle)) {
      debugstr("Could not initialise network card.");
   } else {
      debugstr("Setting MAC address to C0:FF:EE:C0:FF:EE.");
      debugcrlf();

      ENC_SetMacAddr(&handle);

      debugstr("Network card successfully initialised.");
   }
   debugcrlf();

   debugstr("Waiting for ifup... ");
   while (!(handle.LinkStatus & PHSTAT2_LSTAT)) ENC_IRQHandler(&handle);
   debugstr("done.");
   debugcrlf();

   debugstr("Initialising the TCP stack... ");
   init_udp_or_www_server(myMAC, deviceIP);
   debugstr("done.");
   debugcrlf();

   // Re-enable global interrupts
   ENC_EnableInterrupts(EIE_INTIE);
}
Added part15-tcpip - same as part14-ethernet, but replies to pings now 2021-11-06 17:16:46 +00:00			`#include "../net/enc28j60.h"`
			`#include "../include/fb.h"`
			`#include "../tcpip/ip_arp_udp_tcp.h"`

			`ENC_HandleTypeDef handle;`

			`// Structure for Ethernet header`

			`typedef struct {`
			`uint8_t DestAddrs[6];`
			`uint8_t SrcAddrs[6];`
			`uint16_t type;`
			`} EtherNetII;`

			`// Ethernet packet types`

			`#define ARPPACKET 0x0608`
			`#define IPPACKET 0x0008`

			`// Structure for an ARP Packet`

			`typedef struct {`
			`EtherNetII eth;`
			`uint16_t hardware;`
			`uint16_t protocol;`
			`uint8_t hardwareSize;`
			`uint8_t protocolSize;`
			`uint16_t opCode;`
			`uint8_t senderMAC[6];`
			`uint8_t senderIP[4];`
			`uint8_t targetMAC[6];`
			`uint8_t targetIP[4];`
			`} ARP;`

			`// ARP OpCodes`

			`#define ARPREPLY 0x0200`
			`#define ARPREQUEST 0x0100`

			`// ARP hardware types`

			`#define ETHERNET 0x0100`

			`// MAC address to be assigned to the ENC28J60`

			`uint8_t myMAC[6] = { 0xc0, 0xff, 0xee, 0xc0, 0xff, 0xee };`

			`// Router MAC is not known to start with, and requires an ARP reply to find out`

			`uint8_t routerMAC[6] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };`

			`// IP address to be assigned to the ENC28J60`

			`uint8_t deviceIP[4] = { 192, 168, 0, 66 };`

			`// IP Address of the router, whose hardware address we will find using the ARP request`

			`uint8_t routerIP[4] = { 192, 168, 0, 1 };`

			`// HELPER FUNCTIONS`

			`void memset(void dest, unsigned char val, unsigned short len)`
			`{`
			`uint8_t *ptr = dest;`
			`while (len-- > 0)`
			`*ptr++ = val;`
			`return dest;`
			`}`

			`void memcpy(void dest, const void *src, unsigned short len)`
			`{`
			`uint8_t *d = dest;`
			`const uint8_t *s = src;`
			`while (len--)`
			`d++ = s++;`
			`return dest;`
			`}`

			`uint8_t memcmp(void str1, void str2, unsigned count)`
			`{`
			`uint8_t *s1 = str1;`
			`uint8_t *s2 = str2;`

			`while (count-- > 0)`
			`{`
			`if (s1++ != s2++)`
			`return s1[-1] < s2[-1] ? -1 : 1;`
			`}`

			`return 0;`
			`}`

			`// MAIN FUNCTIONS`

			`void SendArpPacket(uint8_t targetIP, uint8_t deviceMAC)`
			`{`
			`/* Parameters:`
			`* targetIP - The target IP Address for the ARP request (the one whose hardware`
			`* address we want)`
			`* deviceMAC - The MAC address of the ENC28J60, i.e. the source MAC for the ARP`
			`* request`
			`*/`

			`ARP arpPacket;`

			`// The source of the packet will be the ENC28J60 MAC address`
			`memcpy(arpPacket.eth.SrcAddrs, deviceMAC, 6);`

			`// The destination is broadcast - a MAC address of FF:FF:FF:FF:FF:FF */`
			`memset(arpPacket.eth.DestAddrs, 0xFF, 6);`

			`arpPacket.eth.type = ARPPACKET;`
			`arpPacket.hardware = ETHERNET;`

			`// We want an IP address resolved`

			`arpPacket.protocol = IPPACKET;`
			`arpPacket.hardwareSize = 0x06; // sizeof(deviceMAC);`
			`arpPacket.protocolSize = 0x04; // sizeof(deviceIP);`
			`arpPacket.opCode = ARPREQUEST;`

			`// Target MAC is set to 0 as it is unknown`
			`memset(arpPacket.targetMAC, 0, 6);`

			`// Sender MAC is the ENC28J60's MAC address`
			`memcpy(arpPacket.senderMAC, deviceMAC, 6);`

			`// The target IP is the IP address we want resolved`
			`memcpy(arpPacket.targetIP, targetIP, 4);`

			`// Check if the last reply has come from an IP address that we want i.e. someone else is already using it`
			`if (!memcmp(targetIP, deviceIP, 4)) {`
			`// Yes, someone is using our IP so set the sender IP to 0.0.0.0`
			`memset(arpPacket.senderIP, 0, 4);`
			`} else {`
			`// No, nobody is using our IP so we can use it confidently`
			`memcpy(arpPacket.senderIP, deviceIP, 4);`
			`}`

			`// Send the packet`

			`debugstr("Sending ARP request.");`
			`debugcrlf();`
			`enc28j60PacketSend(sizeof(ARP), &arpPacket);`
			`}`

			`void net_test(void)`
			`{`
			`while (1) {`
			`while (!ENC_GetReceivedFrame(&handle));`

			`uint16_t len = handle.RxFrameInfos.length;`
			`uint8_t buffer = (uint8_t )handle.RxFrameInfos.buffer;`
			`packetloop_arp_icmp_tcp(buffer, len);`
			`}`
			`}`

			`void enc28j60PacketSend(unsigned short buflen, void *buffer) {`
			`if (ENC_RestoreTXBuffer(&handle, buflen) == 0) {`
			`ENC_WriteBuffer((unsigned char *) buffer, buflen);`
			`handle.transmitLength = buflen;`
			`ENC_Transmit(&handle);`
			`}`
			`}`

			`void init_network(void)`
			`{`
			`handle.Init.DuplexMode = ETH_MODE_HALFDUPLEX;`
			`handle.Init.MACAddr = myMAC;`
			`handle.Init.ChecksumMode = ETH_CHECKSUM_BY_HARDWARE;`
			`handle.Init.InterruptEnableBits = EIE_LINKIE \| EIE_PKTIE;`

			`debugstr("Starting network up.");`
			`debugcrlf();`
			`if (!ENC_Start(&handle)) {`
			`debugstr("Could not initialise network card.");`
			`} else {`
			`debugstr("Setting MAC address to C0:FF:EE:C0:FF:EE.");`
			`debugcrlf();`

			`ENC_SetMacAddr(&handle);`

			`debugstr("Network card successfully initialised.");`
			`}`
			`debugcrlf();`

			`debugstr("Waiting for ifup... ");`
			`while (!(handle.LinkStatus & PHSTAT2_LSTAT)) ENC_IRQHandler(&handle);`
			`debugstr("done.");`
			`debugcrlf();`

			`debugstr("Initialising the TCP stack... ");`
			`init_udp_or_www_server(myMAC, deviceIP);`
			`debugstr("done.");`
			`debugcrlf();`

			`// Re-enable global interrupts`
			`ENC_EnableInterrupts(EIE_INTIE);`
			`}`