前辈们,能否帮我简单解释一下一下代码, #include <stdio.h>
#include <ctype.h>
#include <string.h>
#include "alt_lwip_dev.h"
#include "alt_types.h"
#include "sys/alt_flash.h"
#include "includes.h"
#include "io.h"
#include "user.h" /*
* The "adapter" storage here is declared so that when LWIP calls the
* get_ip_addr() routine, the adapter struct will be populated with the
* network device (Ethernet MAC) that LWIP is currently trying to setup an IP
* address for. This is later used in the dhcp_timeout_task() routine to
* determine if DHCP was successful for the particular adapter.
*/
struct netif* adapter; /*
* MicroC/OS-II semaphores are used to signal when an IP address has been
* aquired (declared in web_serer.c), and when the LCD may be opened for
* write.
*/
extern OS_EVENT *attained_ip_address_sem;
#ifdef LCD_DISPLAY_NAME
OS_EVENT *lcd_sem; /* File handle for writing to LCD display. Defined in web_server.c */
extern FILE* lcdDevice;
#endif /* LCD_DISPLAY_NAME */ /*
* die_with_error()
*
* This routine is just called when a blocking error occurs with the example
* design. It deletes the current task.
*/
void die_with_error(char err_msg[DIE_WITH_ERROR_BUFFER])
{
printf("\n%s\n", err_msg);
OSTaskDel(OS_PRIO_SELF);
while(1);
} /*
* generate_and_store_mac_addr()
*
* This routine is called when, upon program initialization, we discover
* that there is no valid network settings (including MAC address) programmed
* into flash memory. The user is prompted for their Nios development board's
* serial number, and a unique MAC address within the Altera pool generated
* based on that number.
*
* It should be noted that this number, while unique, will likely differ from
* the also unique (but now lost forever) MAC address programmed into the
* development board on the production line.
*
* As we are erasing the entire flash sector, we'll re-program it with not
* only the MAC address, but static IP, subnet, gateway, and "Use DHCP"
* sections. These fail-safe static settings are compatible with previous
* Nios Ethernet designs, and allow the "factory-safe" design to behave
* as expected if the last flash sector is erased.
*/
err_t generate_and_store_mac_addr()
{
err_t ret_code = ERR_IF;
alt_u32 ser_num = 0;
char serial_number[9], flash_content[32];
alt_flash_fd* flash_handle;
int i = 0;
printf("Can't read the MAC address from your board (this probably means\n");
printf("that your flash was erased). We will assign you a MAC address and\n");
printf("static network settings\n\n");
while(!ser_num)
{
printf("Please enter your 9-digit serial number. This is printed on a \n");
printf("label under your Nios dev. board. The first 3 digits of the \n");
printf("label are ASJ and the serial number follows this.\n -->");
for(i=0; i<9; i++)
{
serial_number = getchar();
putchar(serial_number);
/* Handle backspaces. How civilized. */
if ((serial_number == 0x08) && (i >= 0))
{
i--;
}
}
printf("\n");
for(i=0; i<9; i++)
{
if (isdigit(serial_number))
{
ser_num *= 10;
ser_num += serial_number - '0';
}
else
{
ser_num = 0;
printf("Serial number only contains decimal digits and is non-zero\n");
break;
}
}
if (ser_num)
{
/* This says the image is safe */
flash_content[0] = 0xfe;
flash_content[1] = 0x5a;
flash_content[2] = 0x0;
flash_content[3] = 0x0;
/* This is the Altera Vendor ID */
flash_content[4] = 0x0;
flash_content[5] = 0x7;
flash_content[6] = 0xed;
/* Reserverd Board identifier for erase boards */
flash_content[7] = 0xFF;
flash_content[8] = (ser_num & 0xff00) >> 8;
flash_content[9] = ser_num & 0xff; /* Then comes a 16-bit "flags" field (not used with LWIP) */
flash_content[10] = 0xFF;
flash_content[11] = 0xFF;
/* Then comes the static IP address */
flash_content[12] = IPADDR0;
flash_content[13] = IPADDR1;
flash_content[14] = IPADDR2;
flash_content[15] = IPADDR3;
/* Then comes the static nameserver address (not used with LWIP) */
flash_content[16] = 0xFF;
flash_content[17] = 0xFF;
flash_content[18] = 0xFF;
flash_content[19] = 0xFF;
/* Then comes the static subnet mask */
flash_content[20] = MSKADDR0;
flash_content[21] = MSKADDR1;
flash_content[22] = MSKADDR2;
flash_content[23] = MSKADDR3;
/* Then comes the static gateway address */
flash_content[24] = GWADDR0;
flash_content[25] = GWADDR1;
flash_content[26] = GWADDR2;
flash_content[27] = GWADDR3;
/* And finally whether to use DHCP - set all bits to be safe */
flash_content[28] = 0xFF;
flash_content[29] = 0xFF;
flash_content[30] = 0xFF;
flash_content[31] = 0xFF;
/* Write the MAC address to flash */
/*
flash_handle = alt_flash_open_dev(EXT_FLASH_NAME);
if (flash_handle)
{
alt_write_flash(flash_handle, LAST_SECTOR_OFFSET, flash_content, 32);
alt_flash_close_dev(flash_handle);
ret_code = ERR_OK;
}
*/
}
}
return ret_code;
} /*
* get_mac_addr()
*
* Read the MAC address in a board specific way. This routine must be provided
* by the LWIP user as each board will have its MAC address stored in a
* different way.
*/
err_t get_mac_addr(alt_lwip_dev* lwip_dev)
{
err_t ret_code = ERR_OK;
alt_u32 signature;
struct netif* netif = lwip_dev->netif;
netif->hwaddr[0] = 0x00;
netif->hwaddr[1] = 0x88;
netif->hwaddr[2] = 0x88;
netif->hwaddr[3] = 0x52;
netif->hwaddr[4] = 0x3b;
netif->hwaddr[5] = 0x95;
return ret_code;
} /*
* get_ip_addr()
*
* This routine is called by LWIP to obtain an IP address for the specified
* network adapter. Like the MAC address, obtaining an IP address is very
* system-dependant and therefore this function is exported for the developer
* to control.
*
* In our system, we are either attempting DHCP auto-negotiation of IP address,
* or we are setting our own static IP, Gateway, and Subnet Mask addresses our
* self. This routine is where that happens.
*/
int get_ip_addr(alt_lwip_dev* lwip_dev, struct ip_addr* ipaddr,
struct ip_addr* netmask, struct ip_addr* gw,
int* use_dhcp)
{
int ret_code = 0; IP4_ADDR(ipaddr, IPADDR0,IPADDR1,IPADDR2,IPADDR3);
IP4_ADDR(gw, GWADDR0,GWADDR1,GWADDR2,GWADDR3);
IP4_ADDR(netmask, MSKADDR0,MSKADDR1,MSKADDR2,MSKADDR3);
*use_dhcp = 0; printf("Static IP Address is %d.%d.%d.%d\n",
ip4_addr1(ipaddr),
ip4_addr2(ipaddr),
ip4_addr3(ipaddr),
ip4_addr4(ipaddr)); ret_code = 1;
return ret_code;
} /*
* dhcp_timeout_task()
*
* This LWIP-called routine is responsible for checking to see whether DHCP
* was sucessful. Here we check to see whether a timeout (120 seconds in this
* case) has elapsed. If so, display an error, assign a static address, and
* bail out. If not, continue checking for DHCP success and bail out once
* a DHCP address assignment is complete.
*
* This routine also displays the assigned IP address to the user (via STDOUT
* and, if equipped, LCD screen.
*
* Note: LCD_DISPLAY_NAME is defined in user.h to be the LCD interface for
* the "standard" example design.
*/
#if LWIP_DHCP == 1
void dhcp_timeout_task()
{
int have_address = 0, timeout_dhcp = 0;
struct ip_addr ipaddr, netmask, gw;
INT8U return_code = OS_NO_ERR;
#ifdef LCD_DISPLAY_NAME
lcd_sem = OSSemCreate(1);
#endif /* LCD_DISPLAY_NAME */ OSSemPend(attained_ip_address_sem, 0, &return_code);
#ifdef LCD_DISPLAY_NAME
OSSemPend(lcd_sem, 0, &return_code);
#endif /* LCD_DISPLAY_NAME */
#ifdef LCD_DISPLAY_NAME
lcdDevice = fopen(LCD_DISPLAY_NAME, "w");
#endif /* LCD_DISPLAY_NAME */ while(1)
{
OSTimeDlyHMSM(0,0,0,100); /*
* For demo purposes we need to use DHCP to allocate an IP Address
* and LWIP had no mechanism to tell us one is allocated. Wait two
* minutes if we don't have one we use a static IP address
*/
if((timeout_dhcp < DHCP_TIMEOUT) && (have_address == 0))
{
timeout_dhcp++;
if (!ip_addr_isany(&adapter->ip_addr))
{
have_address = 1;
printf("Assigned IP Address is %d.%d.%d.%d\n\n",
ip4_addr1(&adapter->ip_addr),
ip4_addr2(&adapter->ip_addr),
ip4_addr3(&adapter->ip_addr),
ip4_addr4(&adapter->ip_addr)); #ifdef LCD_DISPLAY_NAME
/* Clear screen */
fprintf(lcdDevice, "\x1b");
fprintf(lcdDevice, "[2J");
fprintf(lcdDevice, "DHCP IP Addr is \n %d.%d.%d.%d",
ip4_addr1(&adapter->ip_addr),
ip4_addr2(&adapter->ip_addr),
ip4_addr3(&adapter->ip_addr),
ip4_addr4(&adapter->ip_addr));
#endif /* LCD_DISPLAY_NAME */
}
}
/*
* You're in a bit of trouble if this happens, you could assign a static
* IP address but how do we choose it?
*/
if (timeout_dhcp == DHCP_TIMEOUT)
{
dhcp_stop(adapter);
IP4_ADDR(&ipaddr, IPADDR0,IPADDR1,IPADDR2,IPADDR3);
IP4_ADDR(&gw, GWADDR0,GWADDR1,GWADDR2,GWADDR3);
IP4_ADDR(&netmask, MSKADDR0,MSKADDR1,MSKADDR2,MSKADDR3);
netif_set_addr( adapter,&ipaddr, &netmask, &gw);
netif_set_up(adapter);
printf("DHCP Failed to assign an IP Address\n\n");
printf("\nUsing static address: %d.%d.%d.%d\n\n\n",
ip4_addr1(&adapter->ip_addr),
ip4_addr2(&adapter->ip_addr),
ip4_addr3(&adapter->ip_addr),
ip4_addr4(&adapter->ip_addr)); #ifdef LCD_DISPLAY_NAME
/* Clear the LCD screen */
fprintf(lcdDevice, "\x1b");
fprintf(lcdDevice, "[2J");
fprintf(lcdDevice, "DHCP Failed using\n %d.%d.%d.%d",
ip4_addr1(&adapter->ip_addr),
ip4_addr2(&adapter->ip_addr),
ip4_addr3(&adapter->ip_addr),
ip4_addr4(&adapter->ip_addr));
#endif /* LCD_DISPLAY_NAME */
have_address = 1;
}
if (have_address == 1)
{
/*
* We have an IP address this task has served it's purpose - kill it.
*/
#ifdef LCD_DISPLAY_NAME
fclose(lcdDevice);
#endif /* LCD_DISPLAY_NAME */
OSSemPost(attained_ip_address_sem);
#ifdef LCD_DISPLAY_NAME
OSSemPost(lcd_sem);
#endif /* LCD_DISPLAY_NAME */
OSTaskDel(OS_PRIO_SELF);
}
}
}
#endif /* LWIP_DHCP */ | 
