include/qtn/qtn_net_packet.h - kernel/skids - Git at Google

 #ifndef __QTN_NET_PACKET_H__
 #define __QTN_NET_PACKET_H__

 #include <qtn/qtn_global.h>

 #ifndef ETHERTYPE_ARP
 #define	ETHERTYPE_ARP	0x0806		/* ARP protocol */
 #endif

 #ifndef ETHERTYPE_AARP
 #define ETHERTYPE_AARP	0x80f3		/* Appletalk AARP */
 #endif

 #ifndef ETHERTYPE_PAE
 #define	ETHERTYPE_PAE	0x888e		/* EAPOL PAE/802.1x */
 #endif

 #ifndef ETHERTYPE_IP
 #define	ETHERTYPE_IP	0x0800		/* IP protocol */
 #endif

 #ifndef ETHERTYPE_IPV6
 #define	ETHERTYPE_IPV6	0x86DD		/* IPv6 protocol */
 #endif

 #ifndef ETHERTYPE_IPX
 #define ETHERTYPE_IPX	0x8137		/* IPX over DIX */
 #endif

 #ifndef ETHERTYPE_802A
 #define ETHERTYPE_802A	0x88B7
 #endif

 #ifndef ETHERTYPE_8021Q
 #define	ETHERTYPE_8021Q	0x8100          /* 802.1Q VLAN header */
 #endif

 #ifndef ETHERTYPE_8021AD
 #define ETHERTYPE_8021AD	0x88A8  /* 802.1AD VLAN S-TAG header */
 #endif

 #ifndef ETHERTYPE_WAKE_ON_LAN
 #define ETHERTYPE_WAKE_ON_LAN	0X0842
 #endif

 union qtn_ipv4_addr {
 	uint32_t ip32;
 	uint16_t ip16[2];
 	uint8_t ip8[4];
 };

 struct qtn_ipv4 {
 	uint8_t	vers_ihl;
 	uint8_t dscp;
 	uint16_t length;
 	uint16_t ident;
 	uint16_t flags:3,
 		 fragoffset:13;
 	uint8_t ttl;
 	uint8_t proto;
 	uint16_t csum;
 	union qtn_ipv4_addr srcip;
 	union qtn_ipv4_addr dstip;
 	uint32_t opt[0];
 };

 union qtn_ipv6_addr {
 	uint64_t ip64[2];
 	uint32_t ip32[4];
 	uint16_t ip16[8];
 	uint8_t ip8[16];
 };

 struct qtn_ipv6 {
 	uint16_t vers_tclass_flowlabel[2];
 	uint16_t length;
 	uint8_t next_hdr;
 	uint8_t hop_limit;
 	union qtn_ipv6_addr srcip;
 	union qtn_ipv6_addr dstip;
 };

 RUBY_INLINE uint8_t qtn_ipv6_tclass(const struct qtn_ipv6 *ipv6)
 {
 	return ((ipv6->vers_tclass_flowlabel[0]) >> 4) & 0xFF;
 }

 #define QTN_IP_PROTO_ICMP	1
 #define QTN_IP_PROTO_IGMP	2
 #define QTN_IP_PROTO_TCP	6
 #define QTN_IP_PROTO_UDP	17
 #define QTN_IP_PROTO_IPV6FRAG	44
 #define QTN_IP_PROTO_ICMPV6	58
 #define QTN_IP_PROTO_RAW	255

 #define QTN_MAX_VLANS	4

 struct qtn_8021q {
 	uint16_t tpid;
 	uint16_t tci;
 };

 struct qtn_udp {
 	uint16_t src_port;
 	uint16_t dst_port;
 	uint16_t length;
 	uint16_t csum;
 };

 RUBY_INLINE void qtn_mcast_ipv4_to_mac(uint8_t *const mac_be,
 		const uint8_t *const ipv4)
 {
 	mac_be[0] = 0x01;
 	mac_be[1] = 0x00;
 	mac_be[2] = 0x5E;
 	mac_be[3] = ipv4[1] & 0x7F;
 	mac_be[4] = ipv4[2];
 	mac_be[5] = ipv4[3];
 }

 RUBY_INLINE void qtn_mcast_ipv6_to_mac(uint8_t *const mac_be,
 		const uint8_t *const ipv6)
 {
 	mac_be[0] = 0x33;
 	mac_be[1] = 0x33;
 	mac_be[2] = ipv6[12];
 	mac_be[3] = ipv6[13];
 	mac_be[4] = ipv6[14];
 	mac_be[5] = ipv6[15];
 }

 RUBY_INLINE void qtn_mcast_mac_to_ipv4(uint8_t *const ipv4,
 		const uint8_t *const mac_be, const uint8_t ip_map)
 {
 	ipv4[0] = ((ip_map >> 1) & 0xF) | (0xE << 4);
 	ipv4[1] = (mac_be[3] & 0x7F) | ((ip_map & 1) << 7);
 	ipv4[2] = mac_be[4];
 	ipv4[3] = mac_be[5];
 }

 RUBY_INLINE void qtn_mcast_to_mac(uint8_t *mac_be, const void *addr, uint16_t ether_type)
 {
 	if (ether_type == htons(ETHERTYPE_IP)) {
 		qtn_mcast_ipv4_to_mac(mac_be, addr);
 	} else if (ether_type == htons(ETHERTYPE_IPV6)) {
 		qtn_mcast_ipv6_to_mac(mac_be, addr);
 	} else {
 		/* invalid address family */
 	}
 }

 /*
  * IPV4 extra metadata per entry
  * Size derive from ipv4 address[27:23]
  * ipv4[0] is always 0xe followed by 5 bits that define the ipv4
  * table size so in this way we can differentiate between similar multicast mac addresses
  * the other 23 bits assemble the mac multicast id.
  */
 RUBY_INLINE uint8_t qtn_mcast_ipv4_alias(const uint8_t *ipv4)
 {
 	return ((ipv4[1] >> 7) | (ipv4[0] & 0xF) << 1);
 }

 RUBY_INLINE uint8_t qtn_ether_type_is_vlan(const uint16_t type)
 {
 	return ((type == htons(ETHERTYPE_8021Q))
 			|| (type == htons(ETHERTYPE_8021AD)));
 }

 #endif	// __QTN_NET_PACKET_H__
	#ifndef __QTN_NET_PACKET_H__
	#define __QTN_NET_PACKET_H__

	#include <qtn/qtn_global.h>

	#ifndef ETHERTYPE_ARP
	#define ETHERTYPE_ARP 0x0806 /* ARP protocol */
	#endif

	#ifndef ETHERTYPE_AARP
	#define ETHERTYPE_AARP 0x80f3 /* Appletalk AARP */
	#endif

	#ifndef ETHERTYPE_PAE
	#define ETHERTYPE_PAE 0x888e /* EAPOL PAE/802.1x */
	#endif

	#ifndef ETHERTYPE_IP
	#define ETHERTYPE_IP 0x0800 /* IP protocol */
	#endif

	#ifndef ETHERTYPE_IPV6
	#define ETHERTYPE_IPV6 0x86DD /* IPv6 protocol */
	#endif

	#ifndef ETHERTYPE_IPX
	#define ETHERTYPE_IPX 0x8137 /* IPX over DIX */
	#endif

	#ifndef ETHERTYPE_802A
	#define ETHERTYPE_802A 0x88B7
	#endif

	#ifndef ETHERTYPE_8021Q
	#define ETHERTYPE_8021Q 0x8100 /* 802.1Q VLAN header */
	#endif

	#ifndef ETHERTYPE_8021AD
	#define ETHERTYPE_8021AD 0x88A8 /* 802.1AD VLAN S-TAG header */
	#endif

	#ifndef ETHERTYPE_WAKE_ON_LAN
	#define ETHERTYPE_WAKE_ON_LAN 0X0842
	#endif

	union qtn_ipv4_addr {
	uint32_t ip32;
	uint16_t ip16[2];
	uint8_t ip8[4];
	};

	struct qtn_ipv4 {
	uint8_t vers_ihl;
	uint8_t dscp;
	uint16_t length;
	uint16_t ident;
	uint16_t flags:3,
	fragoffset:13;
	uint8_t ttl;
	uint8_t proto;
	uint16_t csum;
	union qtn_ipv4_addr srcip;
	union qtn_ipv4_addr dstip;
	uint32_t opt[0];
	};

	union qtn_ipv6_addr {
	uint64_t ip64[2];
	uint32_t ip32[4];
	uint16_t ip16[8];
	uint8_t ip8[16];
	};

	struct qtn_ipv6 {
	uint16_t vers_tclass_flowlabel[2];
	uint16_t length;
	uint8_t next_hdr;
	uint8_t hop_limit;
	union qtn_ipv6_addr srcip;
	union qtn_ipv6_addr dstip;
	};

	RUBY_INLINE uint8_t qtn_ipv6_tclass(const struct qtn_ipv6 *ipv6)
	{
	return ((ipv6->vers_tclass_flowlabel[0]) >> 4) & 0xFF;
	}

	#define QTN_IP_PROTO_ICMP 1
	#define QTN_IP_PROTO_IGMP 2
	#define QTN_IP_PROTO_TCP 6
	#define QTN_IP_PROTO_UDP 17
	#define QTN_IP_PROTO_IPV6FRAG 44
	#define QTN_IP_PROTO_ICMPV6 58
	#define QTN_IP_PROTO_RAW 255

	#define QTN_MAX_VLANS 4

	struct qtn_8021q {
	uint16_t tpid;
	uint16_t tci;
	};

	struct qtn_udp {
	uint16_t src_port;
	uint16_t dst_port;
	uint16_t length;
	uint16_t csum;
	};

	RUBY_INLINE void qtn_mcast_ipv4_to_mac(uint8_t *const mac_be,
	const uint8_t *const ipv4)
	{
	mac_be[0] = 0x01;
	mac_be[1] = 0x00;
	mac_be[2] = 0x5E;
	mac_be[3] = ipv4[1] & 0x7F;
	mac_be[4] = ipv4[2];
	mac_be[5] = ipv4[3];
	}

	RUBY_INLINE void qtn_mcast_ipv6_to_mac(uint8_t *const mac_be,
	const uint8_t *const ipv6)
	{
	mac_be[0] = 0x33;
	mac_be[1] = 0x33;
	mac_be[2] = ipv6[12];
	mac_be[3] = ipv6[13];
	mac_be[4] = ipv6[14];
	mac_be[5] = ipv6[15];
	}

	RUBY_INLINE void qtn_mcast_mac_to_ipv4(uint8_t *const ipv4,
	const uint8_t *const mac_be, const uint8_t ip_map)
	{
	ipv4[0] = ((ip_map >> 1) & 0xF) \| (0xE << 4);
	ipv4[1] = (mac_be[3] & 0x7F) \| ((ip_map & 1) << 7);
	ipv4[2] = mac_be[4];
	ipv4[3] = mac_be[5];
	}

	RUBY_INLINE void qtn_mcast_to_mac(uint8_t mac_be, const void addr, uint16_t ether_type)
	{
	if (ether_type == htons(ETHERTYPE_IP)) {
	qtn_mcast_ipv4_to_mac(mac_be, addr);
	} else if (ether_type == htons(ETHERTYPE_IPV6)) {
	qtn_mcast_ipv6_to_mac(mac_be, addr);
	} else {
	/* invalid address family */
	}
	}

	/*
	* IPV4 extra metadata per entry
	* Size derive from ipv4 address[27:23]
	* ipv4[0] is always 0xe followed by 5 bits that define the ipv4
	* table size so in this way we can differentiate between similar multicast mac addresses
	* the other 23 bits assemble the mac multicast id.
	*/
	RUBY_INLINE uint8_t qtn_mcast_ipv4_alias(const uint8_t *ipv4)
	{
	return ((ipv4[1] >> 7) \| (ipv4[0] & 0xF) << 1);
	}

	RUBY_INLINE uint8_t qtn_ether_type_is_vlan(const uint16_t type)
	{
	return ((type == htons(ETHERTYPE_8021Q))
	\|\| (type == htons(ETHERTYPE_8021AD)));
	}

	#endif // __QTN_NET_PACKET_H__