链路层源码阅读笔记.txt

struct  datalink_proto{
    unsigned short type_len;
	unsigend cahr type[8];
	cahr* string_name;
	unsigned short header_length;
	int (*rcvfun)(struct sk_buff*,struct device*,struct packet_type*);
	void(*datalink_header)(struct datalink_proto*,struct sk_buff*,unsigend char*);
	struct datalink_proto*next;
	}
	
	
struct datalink_proto*p8022_list=NULL;//维护上层协议队列



struct  datalink_proto* find_8022_client(unsigned char type)
{
    for(proto=p8022_list;(proto!=NULL)&&(proto->type!=type);proto=proto->next)
	{
	    ;
	}
	return proto;
}

int p8022_rcv(struct sk_buff*skb,struct device*dev,struct paket_type*pt)
{
    proto=find_8022_client(*(skb->h.raw));
	if(proto!=NULL)
	{
	    skb->h.raw+=3;
		skb->len-=3;//去除LLC层头部
		return proto->rcvfun(skb,dev,pt);
	}
	skb->sk=NULL;
	kfree_skb(skb,FREE_READ);
	return 0;
}

LLC层首部创建
void p8022_datalink_header(struct datalink_proto*dl,struct sk_buff*skb,unsigned char*dest_node)
{
    len=skb->len;
    hard_len=dev->hard_header_len;
    dev->hard_header(skb->data,dev,len-hard_len,dest_node,NULL,len-hard_len,skb);
	rawp=skb->data+hard_len;
	*rawp=dl->type[0];//0xAA
	rawp++;
	*rawp=dl->type[0];
	rawp++;
	*rawp=0x03;
	rawp++;
	skb->h.raw=rawp;//指向链路层头
	
}
802.2协议注册
struct packet_type p8022_packet_type={
    0,
	NULL,
	p8022_rcv,
	NULL,
	NULL,
};
void p8022_proto_init(struct net_proto*pro)
{
    p8022_packet_type.type=htons(ETH_P_802_2);
	dev_add_pack(&p8022_packet_type);
}

8022.2提供给上层注册协议函数
struct datalink_proto*register_8022_client(unsigned char type,int (*rcvfun)(....))
{
    proto=(struct datalink_proto*)kmalloc(...);
	if(proto!=NULL)
	{
	    proto->type[0]=type;
		proto->type_len=1;
        proto->rcvfun=rcvfun;
        proto->header_length=3;
        proto->datalink_header=p8022_datalink_header;//创建链路层头部函数被snap函数调用		
		proto->string_name="802.2";
		proto->next=p8022_list;
		p8022_list=proto;
	}
}

eth
void eth_setup(char*str,int *ints)
{
    d=dev_base;
	if(!str||!*str)
	{
	    return ;//参数检查
	}
	while(d)
	{
	    if(!strcmp(d->name,str))
	    {
			if(ints[0]>0)
		        d->irq=ints[1];
	     	if(inst[0]>1)
		        d->base_addr=inst[2];
		    if(ints[0]>2)
                d->mem_start=ints[3];
			if(ints[0]>3)
				d->mem_end=ints[4];
			break;
        }
        d=d->next;		
	}
}
struct ethhdr
{
    unsigned char h_dest[ETH_ALEN]; //目的MAC地址
     
    unsigned char h_source[ETH_ALEN]; //源MAC地址
     
    __u16 h_proto ; //网络层所使用的协议类型
}；

int eth_header(unsigned char*buff,struct device*dev,unsigned short type,void*addr,void*saddr,
                unsigned len,struct sk_buff*skb)
{
	struct ethhdr*eth=(struct ethhdr*)buff;
	if(type!=ETH_P_802_3)
		eth->h_proto=htons(type);
    else
        eth->h_proto=htons(len);
    if(saddr)
		memcpy(eth->h_source,saddr,dev->addr_len);
    else 
		memcpy(eth->h_source,dev->dev_addr,dev->addr_len);//指定了源地址则设置源地址否则取设备地址
	if(dev->flags&IFF_LOOPBACK)//环回设备直接设置dest为0
	{
		memset(eth->h_dest,0,dev->addr_len);
		return dev->hard_header_len;
	}	
	if(daddr)
	{	
		memcpy(eth->h_dest,daddr,dev->addr_len);//指定了目的地址直接拷贝否则返回失败
		return dev->hard_header_len;
	}
    return -dev->hard_header_len;	
}				
//重建mac报文头
int eth_rebuild_header(void*buff,struct device*dev,unsigned long dst,struct sk_buff*skb)
{
    eth=(struct ethhdr*)buff;
	if(eth->h_proto!=htons(ETH_P_IP))
	{
		memcpy(eth->h_source,dev->dev_addr,dev->addr_len);
		return 0;//是否使用ip协议使用才进行下下面工作否则直接返回
	}
	return arp_find(eth->h_dest,dst,dev,dev->pa_addr,skb)? 1:0;
}

获取链路层首部上层协议字段值
unsigned short eth_type_trans(struct sk_buff*skb,struct device*dev)
{
	eth=(struct ethhdr*)skb->data;
	if(*eth->h_dest&1)//最高字节最低位是否为1，如果是1则表示是多播或者广播
	{
		if(memcmp(eth->h_dest,dev->broadcast,ETH_ALEN)==0)
		{
		    skb->pkt_type=PACKET_BROADCAST;//广播
		}
		else
			skb->pkt_type=PACKET_MULTICAST;	//多播
	}
    if(dev->flags&IFF_PROMISC)//混杂模式
	{
	    if(memcmp(eth->h_dest,dev->dev_addr,ETH_ALEN))//相等返回0否则非0进入表示不是本机地址
			skb->pkt_type=PACKET_OTHERHOST;
	}	
	if(ntohs(eth->h_proto)>=1536)//802.3首部封装最后两个字节 表示长度，如果大于1536表示是类型值
		return eth->h_proto;
	if(*((unsgned char*)eth+1)==0xffff)
		return htons(ETH_P_802_3);
	return ETH_P_802_2;	//通常的802.2封装
}

arp.c
struct  arp_table{
		struct arp_table*	next;
		unsigned long 		last_used;//最后一次使用时间
		unsigned int 		flags;
		unsigned long 		ip;//arp对应的IP地址
		unsigned long   	mask；//ip地址对应的网络掩码
		unsigned char		ha[MAX_ADDR_LEN];//硬件地址
		unisigned char 		hlen;//硬件地址长度
		unisigned char		htype;//硬件地址类型
		struct  device		*dev;//此arp表绑定的设备
		struct  timer_list	timer;//超时时间
		int 				retries;//重试次数
		struct  sk_buff_head	skb;//用于未解析的skb队列
}
enmu{
	PROXY_EXACT=0,
	PROXY_ANY,
	PROXY_NONE,
}		

struct timer_list arp_timer{NULL,NULL,ARP_CHECK_INTERVAL,0L,&arp_check_expire};
void arp_check_expire(unsigned long dummy)
{
		for(i=0;i<FULL_ARP_TABLE_SIZE;i++)//遍历每个arp表
		{
			pentry=&arp_table[i];//arp_table是总表地址,数组每个元素是链表
			while((entry=*pentry)!=NULL)
			{
				if(now-entry->last_used>ARP_TIMEOUT&&!(entry->flags&ATF_PERM))
				{
					*pentry=entry->next;
					del_timer(&entry->timer);
					kfree_s(entry,sizeof(struct arp_table));
				}
				else
					pentry=&entry->next;
			}
		}
		del_timer(&arp_timer);
		arp_timer.expires=ARP_CHECK_INTERVAL;//更新定时器
		add_timer(&arp_timer);
}

void arp_release_entry(struct arp_table*entry)//释放arp一个表项并释放挂在其上的数据包
{
	while(skb=skb_dequeue(&entry->skb)!=NULL)
	{
		skb_device_lcok(skb);
		dev_kfree_skb(skb,FREE_WRITE);
	}
	del_timer(&entry->timer);
	kfree_s(entry,sizeof(struct arp_table));
}


int arp_device_event(unsigned long event,void*ptr)
{
    dev=ptr;
    if(event!=NETDEV_DOWN)
	    return NOTIFY_DONE;
    for(i=0;i<FULL_ARP_TABLE_SIZE;i++)
    {
	    pentry=&arp_tables[i];
		while((entry=*pentry)!=NULL)
		{
		    if(entry->dev==dev)
			{
			    *pentry=entry->next;
				del_timer(&entry->timer);//删除定时器
				kfree_s(entry,sizeof(struct arp_table));//释放arp表	
			}
			else
			    pentry=&entry->next;//非指定设备dev的arp表项进行下一个查找
			   
		}
	}	
	return NOTIFY_DONE;
}


//
typedef struct arphdr
{
//arp首部
unsigned short arp_hrd;    /* format of hardware address */
unsigned short arp_pro;    /* format of protocol address */
unsigned char arp_hln;    /* length of hardware address */
unsigned char arp_pln;    /* length of protocol address */
unsigned short arp_op;     /* ARP/RARP operation */

unsigned char arp_sha[6];    /* sender hardware address */
unsigned long arp_spa;    /* sender protocol address */
unsigned char arp_tha[6];    /* target hardware address */
unsigned long arp_tpa;    /* target protocol address */
};


void arp_send(int type,int ptype,unsigned long dest_ip,struct device*dev,unsigned long src_ip,
              unsigned char*dest_hw,unsigned char src_hw)
{
    if(dev->flags&IFF_NOARP)
	    return ;
	skb=alloc_skb(sizeof(struct arphdr)+2*(dev->addr_len+4)+dev->hard_len);//分配一个arm+两个ip地址+一个硬件地址	
	skb->len=sizeof(struct arphdr)+2*(dev->addr_len+4)+dev->hard_len;
	skb->arp=1;
	skb->dev=dev;
	skb->free=1;//不缓存
	dev->hard_header(skb->data,dev,ptype,dest_hw?dest_hw:dev->broadcast,src_hw?src_hw:NULL,skb->len,skb);
	arp=(struct arphdr*)(dev->data+dev->hard_header_len);
	arp->ar_hrd=htons(dev->type);//硬件地址类型
	arp->ar_pro=htons(ETH_P_IP);//协议地址
	arp->ar_hln=dev->addr_len;//硬件地址长度
    arp->ar_pln=4;//协议地址长度
	arp->ar_op=htons(type);//操作码
	arp_ptr=(unsigned char*)arp+1;
	memcpy(arp_ptr,src_hw,dev->addr_len);//拷贝源地址
	arp_ptr+=dev->addr_len;
	memcpy(arp_ptr,&src_ip,4);//拷贝源协议地址
	arp_ptr+=4;
	memcpy(arp_ptr,dest_hw?dest_hw:0,dev->addr_len);//拷贝硬件目的地址
	arp_ptr+=dev->addr_len;
	memcpy(arp_ptr,dest_ip,4);
	dev_queue_xmit(skb,dev,0);	
}			  
//处理arp超时报文重发
void arp_expire_request(unsigend long arg)
{
    entry=(struct arp_table*)arg;
	if(entry->flags&ATF_COM)
	     return ;//ATF_COM表示此表项解析完成
	if(--entry->retries>0)	 
	{
	     del_timer(&entry->timer);
		 entry->timer.expires=ARP_RES_TIME;
		 add_timer(&entry->timer);
		 arp_send(ARPOP_REQUEST,ETH_P_ARP,ip,dev,dev->pa_addr,NULL,dev->dev_addr);
		 return ;	 
	}
	hash=HASH(entry->ip);//这里表示解析失败释放创建的表项
	if(entry->flags&ATF_PUBL)
	     pentry=&arp_table[PROXY_HASH];
    else  
         pentry=&arp_table[hash];
    while(pentry!=NULL)
    {
	     if(*pentry==entry)
		 {
		    *pentry=entry->next;
			del_timer(entry->timer);
			arp_release_entry(entry);
			return ;
		 }
		 pentry=&(*pentry)->next;
	}	
}

发送所有缓存的数据包
void arp_send_q(struct arp_table*entry,unsigned char*src_hw)
{
	if(!(entry->flags*ATF_COM))
		return;//未解析完成
	while(skb=skb_dequeue(&entry->skb)!=NULL)
	{
	    if(!skb->dev->rebuild_header(skb->data,skb->dev,skb->raddr,skb))//完成数据包首部创建
		{
		    skb->arp=1;
			if(dev->sk==NULL)
			   dev_queue_xmit(skb,skb->dev,0);
			else
               dev_queue_xmit(skb,skb->dev,skb->sk->priority);			
		}
	}
}

删除一个arp表项
void arp_destroy(unsigned long  ip_addr,int force)
{
    hash=HASH(ip_addr);
ugly:	
	pentry=&arp_table[hash];
	if(!*pentry)
	   pentry=&arp_table[PROXY_HASH];
	while((entry=*pentry)!=NULL)
    {   if(entry->ip==ip_addr)
	    {
	        if(entry->flags&ATF_PERM&&!force)
		       return;
			*pentry=entry->next;
			del_timer(entry->timer);
            arp_release_entry(entry);//删除表项
            goto ugly;			
		}
        pentry=&entry->next;
        if(!checked_proxyies&&!*pentry)
		    checked_proxyies=1;
		pentry=&arp_tables[PROXY_HASH];		
	}	
}

int arp_rcv(struct sk_buff*skb,struct device*dev,struct packet_type*pt)
{
    arp=skb->h.raw;
	arp_ptr=(unsigned  char*)arp+1;
	if(arp->ar_hln!=dev->addr_len||dev->type!=ntohs(arp->ar_hdr)
	 ||dev->flags&IF_NOARP||arp->ar_pln!=4)//参数检查
	{
	    kfree_skb(skb,FREE_READ);
		return ;
	}
	switch(dev->type)
	{
	    case ARPHRD_AX25:
		    if(arp->ar_pro!=htons(AX25_P_IP))
			{
			   kfree_skb(skb,FREE_READ);
			   return 0;
			}
			break;
		case ARPHDR_ETHER:
        case ARPHDR_ARCNET:
            if(arp->ar_pro!=htons(ETH_P_IP))
			{
			   kfree_skb(skb,FREE_READ);
			   return 0;
			}
			break;
        default:
		    kfree_skb(skb,FREE_READ);
			return 0;
            		
	}
	hlen=dev->addr_len;//硬件地址长度
	htype=dev->type;
	sha=arp_ptr;
	arp_ptr+=hlen;
	memcpy(&sip,arp_ptr,4);//读取源地址
	arp_ptr+=4;
	tha=arp_ptr;
	arp_ptr+=hlen;
	memcpy(&tip,arp_ptr,4);//读取目的地址
	if(tip==INADDR_LOOPBACK)//若目的地址是环回地址直接丢弃
	{
	   kfree_skb(skb,FREE_READ);
	   return 0;
	}
	addr_hint=ip_chk_addr(tip);
	if(arp->ar_op==htons(ARPOP_REPLY))
	{
	    if(addr_hint!=IS_MYADDR)//非本机
		{
		   kfree_skb(skb,FREE_READ);
		   return 0;
		}
	}
	else
	{
	    if(tip!=dev->pa_addr)
		{
		   for(proxy_entry=arp_table[PROXY_HASH];proxy_hash,proxy_entry=proxy_entry->next)
		   {
		      if(proxy_entry->dev!=dev&&proxy_entry->htype!=htype&&!((proxy_entry->ip^tip)&proxy_entry->mnask))
			     break;
		   }
		   if(proxy_entry)
		   {
		      memcpy(ha,proxy_entry->ha,hlen);
			  arp_send(ARPOP_REPLY,ETH_P_IP,sip,dev,tip,sha,ha);
			  kfree_skb(skb,FREE_READ);
			  return 0;
		   }
		   else
		   {
		      kfree_skb(skb,FREE_READ);
			  return 0;
		   }
		}
		else
		   arp_send(ARPOP_REPLY,ETH_P_IP,sip,dev,tip,sha,ha);//此处else是tip==dev->pa_addr
	}
	hash=HASH(sip);
	for(entry=arp_tables[hash];entry;entry=entry->next)
	{
	    if(entry->ip==sip&&entry->htype==htype)//查找存在的表项
		{
		   break;
		}
	}
	if(entry)
	{
	  //找到
	  memcpy(entry->ha,sha,hlen);
	  entry->hlen=hlen;
	  entry->last_used=jiffies;
	  if(!(entry->flags&ATF_COM))
	  {
	      del_timer(&entry->timer);
		  entry->flags|=ATF_COM;
		  arp_send_q(entry,sha);
		  
	  }
	  
	}
	else
	{
	   entry=lmalloc(...);
	   entry->mask=DEF_ARP_NETMASK;
	   entry->ip=sip;
	   entry->hlen=hlen;
	   entry->htype=htype;
	   entry->flags=ATF_COM;
	   init_timer(&entry->timer);
       memcpy(entry->ha,sha,hlen);
	   entry->last_used=jiffies;
	   entry->dev=skb->dev;
	   skb_queue_head_init(&entry->skb);
	   entry->next=arp_tables[hash];
	   arp_tables[hash]=entry;//插入新表项
	   
	}
	kfree_skb(skb,FREE_READ);
	return 0;	     
}


arp表查询函数
enum proxy
{
    PROXY_EXACT=0,
	PROXY_ANY,
	PROXY_NONE,
}

struct arp_table *arp_lookup(unsigned long paddr,enum proxy proxy)
{
    hash=HASH(paddr);
    for(entry=arp_table[hash];entry!=NULL;entry=entry->next)
    {
	    if(entry->ip==paddr) break;//找到了
	}    
	if(!entry&&proxy!=PROXY_NONE)//查找proxy代理表项
	  for(entry=arp_tables[PROXY_HASH];entry!=NULL；entry=entry->next)
	     if((proxy==PROXY_EXACT)? entry->ip=paddr:!((entry->ip^paddr)&entry->mask))
		      break;
	return entry;		  
}


int arp_find(unsigned char*haddr,unsigned long paddr,struct device*dev,unsigned long saddr,struct sk_buff*skb)
{
    switch(ip_check_addr(paddr))
	{
	    case IS_MYADDR://本机地址
		    memcpy(haddr,dev->dev_addr,dev->addr_len);
			skb->arp=1;
            return 0;	
        case  IS_MULTICAST:
            if(dev->type==ARPHDR_ETHER||dev->type==ARPHDR_IEEE802)
            {
			    haddr[0]=0x01;
				haddr[1]=0x00;
				haddr[2]=0x5e;
				taddr=ntohl(paddr);
				haddr[5]=taddr&0xff;
				taddr=taddr>>8;
				haddr[4]=taddr&0xff;
				taddr=taddr>>8;
				haddr[3]=taddr&0x7f;
				return 0;	//多播是01005e+低0+23位ip地址		
			}			
		case   IS_BROACAST:
		    memcpy(haddr,dev->broadcast,dev->addr_len);
			skb->arp=1;
			return 0;	
	}
	hash=HASH(paddr);
	entry=arp_lookup(paddr,PROXY_NONE);
	if(entry)
	{
	    if(!entry->flags&ATF_COM)//表项解析没有完成
		{
		    if(skb!=NULL)
			{
			    skb_queue_tail(&entry->skb,skb);
			}
			return 1;
		}//走到这里肯定是ATF_COM的表项
		entry->last_used=jiffies;
		memcpy(haddr,entry->ha,dev->addr_len);
		if(skb)
		    skb->arp=1;//解析完成
		return 0;	
	}
	//没找到表项
	entry=(struct arp_table*)kmalloc(...);
	if(entry!=NULL)
	{
	    entry->mask=DEF_ARP_NETMASK;
		entry->ip=paddr;
		entry->hlen=dev->addr_len;
		entry->htype=dev->type;
		entry->flags=0;
		memset(entry->ha,0,dev->addr_len);
		entry->dev=dev;
		entry->last_used=jiffies;
		init_timer(&entry->timer);
		entry->timer.function=arp_expire_request;//超时处理函数
		entry->timer.data=entry;
		entry->timer.expires=ARP_RES_TIME;
		entry->next=arp_table[hash];
		arp_tables[hash]=entry;
		add_timer(&entry->timer);
		entry->retries=ARP_MAX_TRIES;
		skb_queue_head_init(&entry->skb);
		if(skb!=NULL)
		{
		    skb_queue_tail(&entry->skb,skb);
		}
			
	}
	else
	{
	    if(skb!=NULL&&skb->free)
		    kfree_skb(skb,FREE_WRITE);
	}
	arp_send(ARPOP_REQUEST,ETH_P_ARP,paddr,dev,saddr,NULL,dev->dev_daddr);
	return 1;
}


int arp_get_info(char* buffer,char**start,off_t offset,int length)
{
    。。。从arp_tbales遍历
}



设置arp表项

struct arpreq{
    struct sockaddr arp_pa;//协议地址
	struct sockaddr arp_ha;//硬件地址
	int  arp_flags;
	struct sockaddr arp_netmask;//掩码	
}
int arp_req_set(struct arpreq *req)
{
    memcpy_fromfs(&r,req,sizeof(r));
    if(r.arp_pa.sa_family!=AF_INET)
        return  -EPFNOSUPPORT;
	switch(r.arp_ha.sa_family):
    {
	    case ARPHDR_ETHER:
		    htype=ARPHDR_ETHER;
			hlen=ETH_ALEN;
			brek;
		case  ARPHDR_ARCNET:
            htype=ARPHDR_ARCNET;
            hlen=1;
			break;
		case  ARPHDR_AX25;
            htype=ARPHDR_AX25;
            hlen=7;
            break;
        default:
            return -EPNOSUPPORT;					
	}	
	si=(struct sockaddr_in*)&r.arp_pa;
	ip=si->sin_addr.s_addr;
	if(ip==0)
	   return -EINVAL;
	rt=ip_rt_route(ip,NULL,NULL);//完成目的地址的可直达检测
    if(rt!=NULL)
        return -ENETUNREACH;
	entry=arp_lookup(ip,PROXY_EXACT);
    if(entry&&(entry->flags&ATF_PUBL)!=(r.arp_flags&ATF_PUBL))
    {//ATF_PUBL表示是代理arp，如果新加入的标志和原来的代理标志不同则删除
	    arp_destroy(ip,1);
		entry=NULL;
	}	
	if(entry==NULL)
	{
	    if(r.arp_flags&ATF_PUBL)
		   hash=PROXY_HASH;
		entry=(struct arp_tables*)kmalloc(...);
	    entry->ip=ip;
    	entry->hlen=hlen;
		entry->htype=htype;
		init_timer(&entry->timer);
		entry->next=arp_tables[hash];
		arp_tables[hash]=entry;
		skb_queue_head_init(&entry->skb);
	}
	//存在原有的entry
	memcpy(&entry->ha,&r.arp_ha.sa_data,hlen);
	entry->last_used=jiffies;
	entry->flags=r.arp_flags|ATF_COM;
	if((entry->flags&ATF_PUBL)&&(entry->flags&ATF_NMETMASK))
	{
	    si=&r.arp_netmask;
		entry->mask=si->sin_addr.s_addr;
	}
	else
	{
	     entry->mask=DEF_ARP_NETMASK;
	}
	entry->dev=rt->rt_dev;
	return 0;	
}

int arp_req_get(struct arpreq *req)
{
    memcpy_fromfs(&r,req,sizeof(r));
	if(r.arp_pa.sa_family!=AF_INET);
	    return  -EPFNOSUPPORT;
	si=&r.arp_pa;
    entry=arp_lookup(si->sin_addr.s_addr,PROXY_ANY);
    if(entry==NULL)
         return -ENXIO;
    memcpy(r.arp_ha.sa_data,&entry->ha,entry->hlen);
    r.arp_ha.sa_family=entry->htype;
    r.arp_flags=entry->flags;
    memcpy_tofs(req,&r,sizoef(r));
    return 0;	
}
	
int arp_ioctl(unsigned int cmd,void*arg)
{
    switch(cmd):
	{
	    case SIOCDARP:
		    if(!suser())
			    return -EPERM;
			memcpy_fromfs(&r,arg,sizeof(r));
            if(r.arp_pa.sa_family!=AF_INET)
                return -EPFNOSUPPORT;
			si=&r.arp_pa;
            arp_destroy(si->sin_addr.s_addr,1);
            return 0;
        case SIOCGARP:
            return arp_req_get(arg);
        case  SIOCSARP:
             return arp_req_set(arg);
        default:
             return -EINVAL;
			 
	}
}

struct packet_type arp_packet_type{
    NULL,
	arp_rcv,
	NULL,
	NULL
};




unisgned long ip_get_mask(unsigned long addr)
{
    if(addr=0L)
	    return 0L;
	dst=ntohl(addr);
    if(IN_CLASSA(dst))
        return htonl(IN_CLASSA_NET);
    if(IN_CLASSB(dst))
        return htonl(IN_CLASSB_NET);
    if(IN_CLASSC(dst))
        return htonl(IN_CLASSC_NET);
    return 0;		
}

int ip_chk_addr(unsigned long addr)
{
    if(addr==INADDR_ANY||addr=INADDR_BROADCAST||addr==htonl(0x7FFFFFL))
	    return IS_BROACAST;
	if(addr&mask==htonl(0x7FFFFFL))
        return IS_MYADDR;//是回环地址
    for(dev=dev_base;dev!=NULL;dev=dev->next)
    {
	    if(!(dev->flags&IFF_UP))
		    continue;//未启动的设备不在查找范围
		if(dev->pa_addr==0)//未配置ip的设备
            return IS_MYADDR;
        if(addr==dev->pa_addr)
            return IS_MYADDR;//本机地址
        if((dev->flags&IFF_BROADCAST)&&addr==dev->pa_brdaddr)
            return IS_BROACAST;
		if(((addr^dev->pa_addr)&dev->pa_mask)==0)
		{
            if((addr&~dev->pa_mask)==0)
			    return IS_BROADCAST;
			if((addr&~dev->pa_mask)==~dev->pa_mask)
                return IS_BROADCAST;			
        }	
        if((addr^dev->pa_addr)&mask)==0)
        {
		    if((addr&~mask)==0)
			    return IS_BROADCAST;
			if((addr&~mask)==~mask)
                return IS_BROADCAST;				
		}		
		
		
	}  
    if(IN_MULTICAST(addr))
        return IN_MULTICAST; 
	return 0;		     
}


获取环回地址
unsigned long ip_my_addr(void)
{
    for(dev=dev_base;dev!=NULL;dev=dev->next)
	{
	    if(dev->flags&IFF_LOOPBACK)
		    return dev->pa_addr;
			
	}
	return 0;
}   
struct device* ip_dev_check(unsigned long addr)
{
    for(dev=dev_base;dev!=NULL;dev=dev->next)
	{
	    if(!(dev->flags&IFF_UP))
	        continue;
		if(!(dev->flags&IFF_POINTTOPOINT))
            continue;
		if(addr!=dev->pa_dstaddr)
            continue;
		return dev;	
	}
	for(dev=dev_base;dev!=NULL;dev=dev->next)
	{
	    if(!(dev->flags&IFF_UP))
	        continue;
		if(!(dev->flags&IFF_POINTTOPOINT))
            continue;
		if(dev->pa_mask&(addr^dev->pa_addr))//子网不相同
            continue;
		return dev;	//返回子网相同的设备
	}
	
}	



网络层注册函数
void dev_add_pack(struct packet_type*pt)
{
    if(pt->type==htons(ETH_P_ALL))
       dev_nit++;//统计接收所有数据包的协议
	pt->next=ptype_base;
    ptype_base=pt;	
}

移除网络层注册函数
void dev_remove_pack(struct packet_type*pt)
{
    if(pt->type==htons(ETH_P_ALL))
	    dev_nit--;
	for(ptl=&ptype_base;ptl!=NULL;ptl=ptl->next)
    {
	    if(pt==ptl)
		{
		    *ptl=pt->next;
			return ;
		}
	} 	
}

查找指定设备
struct device*dev_get(char*name)
{
    for(dev=dev_base;dev!=NULL;dev=dev->next)
	{
	    if(strcmp(dev->name,name)==0)
		    return dev;//返回name的device
	}
	return NULL;
}

int dev_open(struct device*dev)
{
    if(dev->open)
	    ret=dev->open(dev);//调用设备自身的open
	if(ret==0)
    {
	    dev->flags|=(IFF_UP|IFF_RUNNING);
		ip_mc_allhost(dev);
		dev_mc_upload(dev);		
	}	
	return ret;		
}

int dev_close(struct device *dev)
{
    if(dev->flags!=0)
	{
	    dev->flags=0;
		if(dev->stop)
		    dev->stop(dev);
		ip_rt_flusg(dev);//删除对应的路由
		arp_device_down(dev);
		dev_mc_discard(dev);
		dev->pa_addr=0;
		dev->pa_dstaddr=0;
		dev->pa_brdaddr=0;
		dev->pa_mask=0;
		while(ct<DEV_NUMBUFFERS)
		{
		    while(skb=skb_dequeue(&dev->buffs[ct]))!=NULL)//释放所有数据包
			    if(skb->free)
				    kfree_skb(skb,FREE_WRITE);
			ct++;		
		}
		
	}
	return 0;
}


void dev_queue_xmit(struct sk_buff*skb,struct device *dev,int pri)
{
    if(dev==NULL)
	    return ;
	if(pri>=0&&!skb_device_locked(skb))
        skb_device_locked(skb);//锁定数据包
	if(dev->slave!=NULL&&dev->slave->pkt_queue<dev->pkt_queue&&(dev->slave->flags&IFF_UP))
        dev=dev->slave;
	skb->dev=dev;
	if(skb->next!=NULL)
	{
	    dev->hard_start_xmit(NULL,dev);
		return ;
	}
	if(pri<0)
	{
	    pri=-pri-1;
		where=1;
	}    
	if(pri>DEV_NUMBUFFERS)
	{
	    pri=1;
	}
	if(!skb->arp&&dev->rebuild_header(skb->data,dev,skb->raddr,skb))//arp=1表示完成链路层首部创建否则重建失败返回
	   return ;
	if(!where)//where=0 表示是新的数据包
	{
	    skb->in_dev_queue=1;
		skb_queue_tail(dev->buffs+pri,skb);//缓存
		skb_device_unlock(skb);
		skb=skb_dequeue(dev->buffs+pri);//取下队列第一个数据包
		skb_device_lock(skb);
		skb->in_dev_queue=0;	 
	}
	if(!where)
	{
	    for(nitcount=dev_nit,ptype=ptype_base;nitcount>0&&ptypoe!=NULL;ptype=ptype->next)
		{
		    if(ptype->type==htonl(ETH_P_ALL)&&(ptype->dev==dev||!ptype!=dev)&&ptype->data!=skb->sk)
			{
			    if((skb2=skb_clone(skb))==NULL)
				    break;
				skb2->len-=skb->dev->hard_header_len;
                ptype->func(skb2,skb->dev,ptype);
                nitcopunt--;				
			}
			
		}
	}
	if(dev->hard_start_xmit(skb,dev)==0)//等于0表示发送成功
	    return ;
	//走到这里表示发送失败	
	skb->in_dev_queue=1;
    dev->pkt_queue++;
    skb_device_unlock(skb);	
	skb_queue_head(dev->buffs+pri,skb);//重新将数据包插入队列头
}


驱动向上层传送数据包接口
void netif_rx(struct sk_buff*skb)
{
    skb->sk=NULL;
	skb->free=1;
	if(skb->stamp.tv_sec==0)
	    skb->stamp=xtime;//设置skb时间戳
	if(!backlog_size)
        dropping=0;
	else if(backlog_size>300)
        dropping=1;//缓存过大丢包
    if(dropping)
         kfree_skb(skb,FREE_READ);
	skb_queue_tail(&backlog,skb);//将数据包挂入队列
	backlog_size++;
	mark_bh(NET_BH);//启动中断下半部分
	return ;		
}

遍历硬件设备发送缓存数据包
void  dev_tint(struct sk_buff*skb)
{
    for(i=0;i<DEV_NUMBUFFERS;i++)
	{
	    while(skb=skb_dequeue(&dev->buffs[i]!=NULL))
		{
		    skb_device_lcok(skb);
			dev_queue_xmit(skb,dev,-i-1);//dev_queue_xmit里的优先级是-(-i-1)-1=i
			if(dev->tbusy)
			   return ;//设备忙
		}	
	}
}

void dev_transmit(void)
{
    for(dev=dev_base;dev!=NULL;dev=dev->next)//遍历所有设备
	{
	    if(dev->flags!=0&&!dev->tbusy)
		{
		    dev_tint(dev);
		}
	}
}
	
int in_net_bh()	
{
   return (in_bh()==0? 0:1);
}

void net_bh(void*tmp)
{
    if(set_bit(1,&in_bh))
       return ;//如果in_bh已经被设置成1则立刻返回net_bh 不允许重入
	dev_transmit();
    while((skb=skb_dequeue(&backlog)!=NULL))
    {
	   backlog_size--;
	   skb->h.raw=slb->data+dev->hard_header_len;//将h.raw指向网络层头部
	   skb->len-=skb->dev->hard_header_len;
	   type=skb->dev->type_trans(skb,skb->dev);
	   for(ptype=ptype_base;ptype!=NULL;ptype=ptype->next)
	   {   pt_pre=NULL;
	       if((ptype->type==type||ptype->type==htons(ETH_P_ALL))&&(!ptype->dev||ptype->dev==skb->dev))
		   {//type匹配
		       if(pt_pre)
			   {
			        skb2=skb_clone(skb,GFP_AUTOMIC);
				    if(skb2)
				        pt_pre->func(skb2,skb2->dev,pt_pre);//上传给每个为ETH_P_ALL的ptype或者匹配的type	  
			   }
			  
		   }
		   pt_pre=ptype;
	   }
	    if(pt_pre)
           pt_pre->func(skb,skb->dev,pt_pre);
	    else 
	       kfree_skb(skb,FREE_WRITE);
	    dev_transmit();	
	    
	}
	in_bh=0;
	dev_transmit();
   	
}


网络设备信息获取函数
int dev_ifconf(char*arg)
{....}
数据包接收发送统计函数
int sprintf_stats(char*buffer,struct device*dev)
int dev_get_info(char*buffer,char**start,off_t offset,int length)
ip地址掩码合法性检查函数
int bad_mask(unsigned long mask,unsigned long addr )
网络设备控制函数
int dev_ifsioc(void*arg,unsigned int getest)
链路层控制总入口函数
int dev_ioctl(unsigned int cmd,void*arg)
网络设备初始化函数
void dev_init(void)