src/vnet/gre/gre.h - fdio/vpp - Gitiles

 /*
  * gre.h: types/functions for gre.
  *
  * Copyright (c) 2012 Cisco and/or its affiliates.
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at:
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef included_gre_h
 #define included_gre_h

 #include <vnet/vnet.h>
 #include <vnet/gre/packet.h>
 #include <vnet/ip/ip.h>
 #include <vnet/pg/pg.h>
 #include <vnet/ip/format.h>
 #include <vnet/adj/adj_types.h>

 extern vnet_hw_interface_class_t gre_hw_interface_class;

 typedef enum
 {
 #define gre_error(n,s) GRE_ERROR_##n,
 #include <vnet/gre/error.def>
 #undef gre_error
   GRE_N_ERROR,
 } gre_error_t;

 /**
  * @brief The GRE tunnel type
  */
 typedef enum gre_tunnel_type_t_
 {
   /**
    * L3 GRE (i.e. this tunnel is in L3 mode)
    */
   GRE_TUNNEL_TYPE_L3 = 0,
   /**
    * Transparent Ethernet Bridging - the tunnel is in L2 mode
    */
   GRE_TUNNEL_TYPE_TEB = 1,
   /**
    * ERSPAN type 2 - the tunnel is for port mirror SPAN output. Each tunnel is
    * associated with a session ID and expected to be used for encap and output
    * of mirrored packet from a L2 network only. There is no support for
    * receiving ERSPAN packets from a GRE ERSPAN tunnel in VPP.
    */
   GRE_TUNNEL_TYPE_ERSPAN = 2,

   GRE_TUNNEL_TYPE_N
 } gre_tunnel_type_t;

 #define GRE_TUNNEL_TYPE_NAMES {    \
     [GRE_TUNNEL_TYPE_L3] = "L3",   \
     [GRE_TUNNEL_TYPE_TEB] = "TEB", \
     [GRE_TUNNEL_TYPE_ERSPAN] = "ERSPAN", \
 }

 /**
  * A GRE payload protocol registration
  */
 typedef struct
 {
   /** Name (a c string). */
   char *name;

   /** GRE protocol type in host byte order. */
   gre_protocol_t protocol;

   /** GRE tunnel type */
   gre_tunnel_type_t tunnel_type;

   /** Node which handles this type. */
   u32 node_index;

   /** Next index for this type. */
   u32 next_index;
 } gre_protocol_info_t;

 /**
  * @brief Key for a IPv4 GRE Tunnel
  */
 typedef struct gre_tunnel_key4_t_
 {
   /**
    * Source and destination IP addresses
    */
   union
   {
     struct
     {
       ip4_address_t gtk_src;
       ip4_address_t gtk_dst;
     };
     u64 gtk_as_u64;
   };

   /**
    * FIB table index, ERSPAN session ID and tunnel type in u32 bit fields:
    * - The FIB table index the src,dst addresses are in, top 20 bits
    * - The Session ID for ERSPAN tunnel type and 0 otherwise, next 10 bits
    * - Tunnel type, bottom 2 bits
    */
   u32 gtk_fidx_ssid_type;
 } __attribute__ ((packed)) gre_tunnel_key4_t;

 /**
  * @brief Key for a IPv6 GRE Tunnel
  * We use a different type so that the V4 key hash is as small as possible
  */
 typedef struct gre_tunnel_key6_t_
 {
   /**
    * Source and destination IP addresses
    */
   ip6_address_t gtk_src;
   ip6_address_t gtk_dst;

   /**
    * FIB table index, ERSPAN session ID and tunnel type in u32 bit fields:
    * - The FIB table index the src,dst addresses are in, top 20 bits
    * - The Session ID for ERSPAN tunnel type and 0 otherwise, next 10 bits
    * - Tunnel type, bottom 2 bits
    */
   u32 gtk_fidx_ssid_type;
 } __attribute__ ((packed)) gre_tunnel_key6_t;

 #define GTK_FIB_INDEX_SHIFT	12
 #define GTK_FIB_INDEX_MASK	0xfffff000
 #define GTK_TYPE_SHIFT		0
 #define GTK_TYPE_MASK		0x3
 #define GTK_SESSION_ID_SHIFT	2
 #define GTK_SESSION_ID_MASK	0xffc
 #define GTK_SESSION_ID_MAX	(GTK_SESSION_ID_MASK >> GTK_SESSION_ID_SHIFT)

 /**
  * Union of the two possible key types
  */
 typedef union gre_tunnel_key_t_
 {
   gre_tunnel_key4_t gtk_v4;
   gre_tunnel_key6_t gtk_v6;
 } gre_tunnel_key_t;

 /**
  * Used for GRE header seq number generation for ERSPAN encap
  */
 typedef struct
 {
   u32 seq_num;
   u32 ref_count;
 } gre_sn_t;

 /**
  * Hash key for GRE header seq number generation for ERSPAN encap
  */
 typedef struct
 {
   ip46_address_t src;
   ip46_address_t dst;
   u32 fib_index;
 } gre_sn_key_t;

 /**
  * @brief A representation of a GRE tunnel
  */
 typedef struct
 {
   /**
    * Required for pool_get_aligned
    */
   CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);

   /**
    * Linkage into the FIB object graph
    */
   fib_node_t node;

   /**
    * The hash table's key stored in separate memory since the tunnel_t
    * memory can realloc.
    */
   gre_tunnel_key_t *key;

   /**
    * The tunnel's source/local address
    */
   ip46_address_t tunnel_src;
   /**
    * The tunnel's destination/remote address
    */
   fib_prefix_t tunnel_dst;
   /**
    * The FIB in which the src.dst address are present
    */
   u32 outer_fib_index;
   u32 hw_if_index;
   u32 sw_if_index;
   gre_tunnel_type_t type;

   /**
    * The FIB entry sourced by the tunnel for its destination prefix
    */
   fib_node_index_t fib_entry_index;

   /**
    * The tunnel is a child of the FIB entry for its desintion. This is
    * so it receives updates when the forwarding information for that entry
    * changes.
    * The tunnels sibling index on the FIB entry's dependency list.
    */
   u32 sibling_index;

   /**
    * an L2 tunnel always rquires an L2 midchain. cache here for DP.
    */
   adj_index_t l2_adj_index;

   /**
    * ERSPAN type 2 session ID, least significant 10 bits of u16
    */
   u16 session_id;

   /**
    * GRE header sequence number (SN) used for ERSPAN type 2 header, must be
    * bumped automically to be thread safe. As multiple GRE tunnels are created
    * for the same fib-idx/DIP/SIP with different ERSPAN session number, they all
    * share the same SN which is kept per FIB/DIP/SIP, as specified by RFC2890.
    */
   gre_sn_t *gre_sn;


   u32 dev_instance;		/* Real device instance in tunnel vector */
   u32 user_instance;		/* Instance name being shown to user */
 } gre_tunnel_t;

 typedef struct
 {
   u8 next_index;
   u8 tunnel_type;
 } next_info_t;

 /**
  * @brief GRE related global data
  */
 typedef struct
 {
   /**
    * pool of tunnel instances
    */
   gre_tunnel_t *tunnels;

   /**
    * GRE payload protocol registrations
    */
   gre_protocol_info_t *protocol_infos;

   /**
    *  Hash tables mapping name/protocol to protocol info index.
    */
   uword *protocol_info_by_name, *protocol_info_by_protocol;

   /**
    * Hash mapping to tunnels with ipv4 src/dst addr
    */
   uword *tunnel_by_key4;

   /**
    * Hash mapping to tunnels with ipv6 src/dst addr
    */
   uword *tunnel_by_key6;

   /**
    * Hash mapping tunnel src/dst addr and fib-idx to sequence number
    */
   uword *seq_num_by_key;

   /**
    * Mapping from sw_if_index to tunnel index
    */
   u32 *tunnel_index_by_sw_if_index;

   /* Sparse vector mapping gre protocol in network byte order
      to next index. */
   next_info_t *next_by_protocol;

   /* convenience */
   vlib_main_t *vlib_main;
   vnet_main_t *vnet_main;

   /* Record used instances */
   uword *instance_used;
 } gre_main_t;

 /**
  * @brief IPv4 and GRE header.
  */
 /* *INDENT-OFF* */
 typedef CLIB_PACKED (struct {
   ip4_header_t ip4;
   gre_header_t gre;
 }) ip4_and_gre_header_t;
 /* *INDENT-ON* */

 /**
  * @brief IPv6 and GRE header.
  */
 /* *INDENT-OFF* */
 typedef CLIB_PACKED (struct {
   ip6_header_t ip6;
   gre_header_t gre;
 }) ip6_and_gre_header_t;
 /* *INDENT-ON* */

 always_inline gre_protocol_info_t *
 gre_get_protocol_info (gre_main_t * em, gre_protocol_t protocol)
 {
   uword *p = hash_get (em->protocol_info_by_protocol, protocol);
   return p ? vec_elt_at_index (em->protocol_infos, p[0]) : 0;
 }

 extern gre_main_t gre_main;

 extern clib_error_t *gre_interface_admin_up_down (vnet_main_t * vnm,
 						  u32 hw_if_index, u32 flags);

 extern void gre_tunnel_stack (adj_index_t ai);
 extern void gre_update_adj (vnet_main_t * vnm,
 			    u32 sw_if_index, adj_index_t ai);

 format_function_t format_gre_protocol;
 format_function_t format_gre_header;
 format_function_t format_gre_header_with_length;

 extern vlib_node_registration_t gre4_input_node;
 extern vlib_node_registration_t gre6_input_node;
 extern vlib_node_registration_t gre_encap_node;
 extern vnet_device_class_t gre_device_class;

 /* Parse gre protocol as 0xXXXX or protocol name.
    In either host or network byte order. */
 unformat_function_t unformat_gre_protocol_host_byte_order;
 unformat_function_t unformat_gre_protocol_net_byte_order;

 /* Parse gre header. */
 unformat_function_t unformat_gre_header;
 unformat_function_t unformat_pg_gre_header;

 void
 gre_register_input_protocol (vlib_main_t * vm, gre_protocol_t protocol,
 			     u32 node_index, gre_tunnel_type_t tunnel_type);

 /* manually added to the interface output node in gre.c */
 #define GRE_OUTPUT_NEXT_LOOKUP	1

 typedef struct
 {
   u8 is_add;
   u8 tunnel_type;
   u8 is_ipv6;
   u32 instance;
   ip46_address_t src, dst;
   u32 outer_fib_id;
   u16 session_id;
 } vnet_gre_add_del_tunnel_args_t;

 int vnet_gre_add_del_tunnel
   (vnet_gre_add_del_tunnel_args_t * a, u32 * sw_if_indexp);

 static inline void
 gre_mk_key4 (ip4_address_t src,
 	     ip4_address_t dst,
 	     u32 fib_index, u8 ttype, u16 session_id, gre_tunnel_key4_t * key)
 {
   key->gtk_src = src;
   key->gtk_dst = dst;
   key->gtk_fidx_ssid_type = ttype |
     (fib_index << GTK_FIB_INDEX_SHIFT) | (session_id << GTK_SESSION_ID_SHIFT);
 }

 static inline int
 gre_match_key4 (const gre_tunnel_key4_t * key1,
 		const gre_tunnel_key4_t * key2)
 {
   return ((key1->gtk_as_u64 == key2->gtk_as_u64) &&
 	  (key1->gtk_fidx_ssid_type == key2->gtk_fidx_ssid_type));
 }

 static inline void
 gre_mk_key6 (const ip6_address_t * src,
 	     const ip6_address_t * dst,
 	     u32 fib_index, u8 ttype, u16 session_id, gre_tunnel_key6_t * key)
 {
   key->gtk_src = *src;
   key->gtk_dst = *dst;
   key->gtk_fidx_ssid_type = ttype |
     (fib_index << GTK_FIB_INDEX_SHIFT) | (session_id << GTK_SESSION_ID_SHIFT);
 }

 static inline int
 gre_match_key6 (const gre_tunnel_key6_t * key1,
 		const gre_tunnel_key6_t * key2)
 {
   return ((key1->gtk_src.as_u64[0] == key2->gtk_src.as_u64[0]) &&
 	  (key1->gtk_src.as_u64[1] == key2->gtk_src.as_u64[1]) &&
 	  (key1->gtk_dst.as_u64[0] == key2->gtk_dst.as_u64[0]) &&
 	  (key1->gtk_dst.as_u64[1] == key2->gtk_dst.as_u64[1]) &&
 	  (key1->gtk_fidx_ssid_type == key2->gtk_fidx_ssid_type));
 }

 static inline void
 gre_mk_sn_key (const gre_tunnel_t * gt, gre_sn_key_t * key)
 {
   key->src = gt->tunnel_src;
   key->dst = gt->tunnel_dst.fp_addr;
   key->fib_index = gt->outer_fib_index;
 }

 #endif /* included_gre_h */

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "gnu")
  * End:
  */
	/*
	* gre.h: types/functions for gre.
	*
	* Copyright (c) 2012 Cisco and/or its affiliates.
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at:
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef included_gre_h
	#define included_gre_h

	#include <vnet/vnet.h>
	#include <vnet/gre/packet.h>
	#include <vnet/ip/ip.h>
	#include <vnet/pg/pg.h>
	#include <vnet/ip/format.h>
	#include <vnet/adj/adj_types.h>

	extern vnet_hw_interface_class_t gre_hw_interface_class;

	typedef enum
	{
	#define gre_error(n,s) GRE_ERROR_##n,
	#include <vnet/gre/error.def>
	#undef gre_error
	GRE_N_ERROR,
	} gre_error_t;

	/**
	* @brief The GRE tunnel type
	*/
	typedef enum gre_tunnel_type_t_
	{
	/**
	* L3 GRE (i.e. this tunnel is in L3 mode)
	*/
	GRE_TUNNEL_TYPE_L3 = 0,
	/**
	* Transparent Ethernet Bridging - the tunnel is in L2 mode
	*/
	GRE_TUNNEL_TYPE_TEB = 1,
	/**
	* ERSPAN type 2 - the tunnel is for port mirror SPAN output. Each tunnel is
	* associated with a session ID and expected to be used for encap and output
	* of mirrored packet from a L2 network only. There is no support for
	* receiving ERSPAN packets from a GRE ERSPAN tunnel in VPP.
	*/
	GRE_TUNNEL_TYPE_ERSPAN = 2,

	GRE_TUNNEL_TYPE_N
	} gre_tunnel_type_t;

	#define GRE_TUNNEL_TYPE_NAMES { \
	[GRE_TUNNEL_TYPE_L3] = "L3", \
	[GRE_TUNNEL_TYPE_TEB] = "TEB", \
	[GRE_TUNNEL_TYPE_ERSPAN] = "ERSPAN", \
	}

	/**
	* A GRE payload protocol registration
	*/
	typedef struct
	{
	/** Name (a c string). */
	char *name;

	/** GRE protocol type in host byte order. */
	gre_protocol_t protocol;

	/** GRE tunnel type */
	gre_tunnel_type_t tunnel_type;

	/** Node which handles this type. */
	u32 node_index;

	/** Next index for this type. */
	u32 next_index;
	} gre_protocol_info_t;

	/**
	* @brief Key for a IPv4 GRE Tunnel
	*/
	typedef struct gre_tunnel_key4_t_
	{
	/**
	* Source and destination IP addresses
	*/
	union
	{
	struct
	{
	ip4_address_t gtk_src;
	ip4_address_t gtk_dst;
	};
	u64 gtk_as_u64;
	};

	/**
	* FIB table index, ERSPAN session ID and tunnel type in u32 bit fields:
	* - The FIB table index the src,dst addresses are in, top 20 bits
	* - The Session ID for ERSPAN tunnel type and 0 otherwise, next 10 bits
	* - Tunnel type, bottom 2 bits
	*/
	u32 gtk_fidx_ssid_type;
	} __attribute__ ((packed)) gre_tunnel_key4_t;

	/**
	* @brief Key for a IPv6 GRE Tunnel
	* We use a different type so that the V4 key hash is as small as possible
	*/
	typedef struct gre_tunnel_key6_t_
	{
	/**
	* Source and destination IP addresses
	*/
	ip6_address_t gtk_src;
	ip6_address_t gtk_dst;

	/**
	* FIB table index, ERSPAN session ID and tunnel type in u32 bit fields:
	* - The FIB table index the src,dst addresses are in, top 20 bits
	* - The Session ID for ERSPAN tunnel type and 0 otherwise, next 10 bits
	* - Tunnel type, bottom 2 bits
	*/
	u32 gtk_fidx_ssid_type;
	} __attribute__ ((packed)) gre_tunnel_key6_t;

	#define GTK_FIB_INDEX_SHIFT 12
	#define GTK_FIB_INDEX_MASK 0xfffff000
	#define GTK_TYPE_SHIFT 0
	#define GTK_TYPE_MASK 0x3
	#define GTK_SESSION_ID_SHIFT 2
	#define GTK_SESSION_ID_MASK 0xffc
	#define GTK_SESSION_ID_MAX (GTK_SESSION_ID_MASK >> GTK_SESSION_ID_SHIFT)

	/**
	* Union of the two possible key types
	*/
	typedef union gre_tunnel_key_t_
	{
	gre_tunnel_key4_t gtk_v4;
	gre_tunnel_key6_t gtk_v6;
	} gre_tunnel_key_t;

	/**
	* Used for GRE header seq number generation for ERSPAN encap
	*/
	typedef struct
	{
	u32 seq_num;
	u32 ref_count;
	} gre_sn_t;

	/**
	* Hash key for GRE header seq number generation for ERSPAN encap
	*/
	typedef struct
	{
	ip46_address_t src;
	ip46_address_t dst;
	u32 fib_index;
	} gre_sn_key_t;

	/**
	* @brief A representation of a GRE tunnel
	*/
	typedef struct
	{
	/**
	* Required for pool_get_aligned
	*/
	CLIB_CACHE_LINE_ALIGN_MARK (cacheline0);

	/**
	* Linkage into the FIB object graph
	*/
	fib_node_t node;

	/**
	* The hash table's key stored in separate memory since the tunnel_t
	* memory can realloc.
	*/
	gre_tunnel_key_t *key;

	/**
	* The tunnel's source/local address
	*/
	ip46_address_t tunnel_src;
	/**
	* The tunnel's destination/remote address
	*/
	fib_prefix_t tunnel_dst;
	/**
	* The FIB in which the src.dst address are present
	*/
	u32 outer_fib_index;
	u32 hw_if_index;
	u32 sw_if_index;
	gre_tunnel_type_t type;

	/**
	* The FIB entry sourced by the tunnel for its destination prefix
	*/
	fib_node_index_t fib_entry_index;

	/**
	* The tunnel is a child of the FIB entry for its desintion. This is
	* so it receives updates when the forwarding information for that entry
	* changes.
	* The tunnels sibling index on the FIB entry's dependency list.
	*/
	u32 sibling_index;

	/**
	* an L2 tunnel always rquires an L2 midchain. cache here for DP.
	*/
	adj_index_t l2_adj_index;

	/**
	* ERSPAN type 2 session ID, least significant 10 bits of u16
	*/
	u16 session_id;

	/**
	* GRE header sequence number (SN) used for ERSPAN type 2 header, must be
	* bumped automically to be thread safe. As multiple GRE tunnels are created
	* for the same fib-idx/DIP/SIP with different ERSPAN session number, they all
	* share the same SN which is kept per FIB/DIP/SIP, as specified by RFC2890.
	*/
	gre_sn_t *gre_sn;


	u32 dev_instance; /* Real device instance in tunnel vector */
	u32 user_instance; /* Instance name being shown to user */
	} gre_tunnel_t;

	typedef struct
	{
	u8 next_index;
	u8 tunnel_type;
	} next_info_t;

	/**
	* @brief GRE related global data
	*/
	typedef struct
	{
	/**
	* pool of tunnel instances
	*/
	gre_tunnel_t *tunnels;

	/**
	* GRE payload protocol registrations
	*/
	gre_protocol_info_t *protocol_infos;

	/**
	* Hash tables mapping name/protocol to protocol info index.
	*/
	uword protocol_info_by_name, protocol_info_by_protocol;

	/**
	* Hash mapping to tunnels with ipv4 src/dst addr
	*/
	uword *tunnel_by_key4;

	/**
	* Hash mapping to tunnels with ipv6 src/dst addr
	*/
	uword *tunnel_by_key6;

	/**
	* Hash mapping tunnel src/dst addr and fib-idx to sequence number
	*/
	uword *seq_num_by_key;

	/**
	* Mapping from sw_if_index to tunnel index
	*/
	u32 *tunnel_index_by_sw_if_index;

	/* Sparse vector mapping gre protocol in network byte order
	to next index. */
	next_info_t *next_by_protocol;

	/* convenience */
	vlib_main_t *vlib_main;
	vnet_main_t *vnet_main;

	/* Record used instances */
	uword *instance_used;
	} gre_main_t;

	/**
	* @brief IPv4 and GRE header.
	*/
	/* INDENT-OFF */
	typedef CLIB_PACKED (struct {
	ip4_header_t ip4;
	gre_header_t gre;
	}) ip4_and_gre_header_t;
	/* INDENT-ON */

	/**
	* @brief IPv6 and GRE header.
	*/
	/* INDENT-OFF */
	typedef CLIB_PACKED (struct {
	ip6_header_t ip6;
	gre_header_t gre;
	}) ip6_and_gre_header_t;
	/* INDENT-ON */

	always_inline gre_protocol_info_t *
	gre_get_protocol_info (gre_main_t * em, gre_protocol_t protocol)
	{
	uword *p = hash_get (em->protocol_info_by_protocol, protocol);
	return p ? vec_elt_at_index (em->protocol_infos, p[0]) : 0;
	}

	extern gre_main_t gre_main;

	extern clib_error_t gre_interface_admin_up_down (vnet_main_t vnm,
	u32 hw_if_index, u32 flags);

	extern void gre_tunnel_stack (adj_index_t ai);
	extern void gre_update_adj (vnet_main_t * vnm,
	u32 sw_if_index, adj_index_t ai);

	format_function_t format_gre_protocol;
	format_function_t format_gre_header;
	format_function_t format_gre_header_with_length;

	extern vlib_node_registration_t gre4_input_node;
	extern vlib_node_registration_t gre6_input_node;
	extern vlib_node_registration_t gre_encap_node;
	extern vnet_device_class_t gre_device_class;

	/* Parse gre protocol as 0xXXXX or protocol name.
	In either host or network byte order. */
	unformat_function_t unformat_gre_protocol_host_byte_order;
	unformat_function_t unformat_gre_protocol_net_byte_order;

	/* Parse gre header. */
	unformat_function_t unformat_gre_header;
	unformat_function_t unformat_pg_gre_header;

	void
	gre_register_input_protocol (vlib_main_t * vm, gre_protocol_t protocol,
	u32 node_index, gre_tunnel_type_t tunnel_type);

	/* manually added to the interface output node in gre.c */
	#define GRE_OUTPUT_NEXT_LOOKUP 1

	typedef struct
	{
	u8 is_add;
	u8 tunnel_type;
	u8 is_ipv6;
	u32 instance;
	ip46_address_t src, dst;
	u32 outer_fib_id;
	u16 session_id;
	} vnet_gre_add_del_tunnel_args_t;

	int vnet_gre_add_del_tunnel
	(vnet_gre_add_del_tunnel_args_t * a, u32 * sw_if_indexp);

	static inline void
	gre_mk_key4 (ip4_address_t src,
	ip4_address_t dst,
	u32 fib_index, u8 ttype, u16 session_id, gre_tunnel_key4_t * key)
	{
	key->gtk_src = src;
	key->gtk_dst = dst;
	key->gtk_fidx_ssid_type = ttype \|
	(fib_index << GTK_FIB_INDEX_SHIFT) \| (session_id << GTK_SESSION_ID_SHIFT);
	}

	static inline int
	gre_match_key4 (const gre_tunnel_key4_t * key1,
	const gre_tunnel_key4_t * key2)
	{
	return ((key1->gtk_as_u64 == key2->gtk_as_u64) &&
	(key1->gtk_fidx_ssid_type == key2->gtk_fidx_ssid_type));
	}

	static inline void
	gre_mk_key6 (const ip6_address_t * src,
	const ip6_address_t * dst,
	u32 fib_index, u8 ttype, u16 session_id, gre_tunnel_key6_t * key)
	{
	key->gtk_src = *src;
	key->gtk_dst = *dst;
	key->gtk_fidx_ssid_type = ttype \|
	(fib_index << GTK_FIB_INDEX_SHIFT) \| (session_id << GTK_SESSION_ID_SHIFT);
	}

	static inline int
	gre_match_key6 (const gre_tunnel_key6_t * key1,
	const gre_tunnel_key6_t * key2)
	{
	return ((key1->gtk_src.as_u64[0] == key2->gtk_src.as_u64[0]) &&
	(key1->gtk_src.as_u64[1] == key2->gtk_src.as_u64[1]) &&
	(key1->gtk_dst.as_u64[0] == key2->gtk_dst.as_u64[0]) &&
	(key1->gtk_dst.as_u64[1] == key2->gtk_dst.as_u64[1]) &&
	(key1->gtk_fidx_ssid_type == key2->gtk_fidx_ssid_type));
	}

	static inline void
	gre_mk_sn_key (const gre_tunnel_t * gt, gre_sn_key_t * key)
	{
	key->src = gt->tunnel_src;
	key->dst = gt->tunnel_dst.fp_addr;
	key->fib_index = gt->outer_fib_index;
	}

	#endif /* included_gre_h */

	/*
	* fd.io coding-style-patch-verification: ON
	*
	* Local Variables:
	* eval: (c-set-style "gnu")
	* End:
	*/