src/vnet/ipsec/ipsec_itf.h - fdio/vpp - Gitiles

 /*
  * ipsec_itf.c: IPSec dedicated interface type
  *
  * Copyright (c) 2020 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 __IPSEC_ITF_H__
 #define __IPSEC_ITF_H__

 #include <vnet/tunnel/tunnel.h>
 #include <vnet/ipsec/ipsec_sa.h>

 /**
  * @brief A dedicated IPSec interface type
  *
  * In order to support route based VPNs one needs 3 elements: an interface,
  * for routing to resolve routes through, an SA from the peer to describe
  * security, and encap, to describe how to reach the peer. There are two
  * ways one could model this:
  *
  *  interface + encap + SA = (interface + encap) + SA =
  *          ipip-interface + SA transport mode
  *
  * or
  *
  *  interface + encap + SA = interface + (encap + SA) =
  *          IPSec-interface + SA tunnel mode
  *
  * It's a question of where you add the parenthesis, from the perspective
  * of the external user the effect is identical.
  *
  * The IPsec interface serves as the encap-free interface to be used
  * in conjunction with an encap-describing tunnel mode SA.
  *
  * VPP supports both models, which modelshould you pick?
  * A route based VPN could impose 0, 1 or 2 encaps. the support matrix for
  * these use cases is:
  *
  *        |  0  |  1  |  2  |
  *  --------------------------
  *  ipip  |  N  |  Y  |  Y  |
  *  ipsec |  P  |  Y  |  P  |
  *
  * Where P = potentially.
  * ipsec could potnetially support 0 encap (i.e. transport mode) since neither
  * the interface nor the SA *requires* encap. However, for a route beased VPN
  * to use transport mode is probably wrong since one shouldn't use thransport
  * mode for transit traffic, since without encap it is not guaranteed to return.
  * ipsec could potnetially support 2 encaps, but that would require the SA to
  * describe both, something it does not do at this time.
  *
  * ipsec currently does not support:
  *   - multipoint interfaces
  * but this is only because it is not yet implemented, rather than it cannot
  * be done.
  *
  * Internally the difference is that the midchain adjacency for the IPSec
  * interface has no associated encap (whereas for an ipip tunnel it describes
  * the peer). Consequently, features on the output arc see packets without
  * any encap. Since the protecting SAs are in tunnel mode,
  * they apply the encap. The midchain adj is stacked only once the proctecting
  * SA is known, since only then is the peer known. Otherwise the VLIB graph
  * nodes used are the same:
  *    (routing) --> ipX-michain --> espX-encrypt --> adj-midchain-tx --> (routing)
  * where X = 4 or 6.
  *
  * Some benefits to the ipsec interface:
  *   - it is slightly more efficient since the encapsulating IP header has
  *     its checksum updated only once.
  *   - even when the interface is admin up traffic cannot be sent to a peer
  *     unless the SA is available (since it's the SA that determines the
  *     encap). With ipip interfaces a client must use the admin state to
  *     prevent sending until the SA is available.
  *
  * The best recommendations i can make are:
  *   - pick a model that supports your use case
  *   - make sure any other features you wish to use are supported by the model
  *   - choose the model that best fits your control plane's model.
  *
  *
  * gun reloaded, fire away.
  */
 typedef struct ipsec_itf_t_
 {
   tunnel_mode_t ii_mode;
   int ii_user_instance;
   u32 ii_sw_if_index;
 } __clib_packed ipsec_itf_t;


 extern int ipsec_itf_create (u32 user_instance,
 			     tunnel_mode_t mode, u32 * sw_if_indexp);
 extern int ipsec_itf_delete (u32 sw_if_index);
 extern void ipsec_itf_reset_tx_nodes (u32 sw_if_index);

 extern void ipsec_itf_adj_stack (adj_index_t ai, u32 sai);
 extern void ipsec_itf_adj_unstack (adj_index_t ai);

 extern u8 *format_ipsec_itf (u8 * s, va_list * a);

 extern ipsec_itf_t *ipsec_itf_get (index_t ii);
 extern u32 ipsec_itf_count (void);

 typedef walk_rc_t (*ipsec_itf_walk_cb_t) (ipsec_itf_t *itf, void *ctx);
 extern void ipsec_itf_walk (ipsec_itf_walk_cb_t cd, void *ctx);

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

 #endif
	/*
	* ipsec_itf.c: IPSec dedicated interface type
	*
	* Copyright (c) 2020 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 __IPSEC_ITF_H__
	#define __IPSEC_ITF_H__

	#include <vnet/tunnel/tunnel.h>
	#include <vnet/ipsec/ipsec_sa.h>

	/**
	* @brief A dedicated IPSec interface type
	*
	* In order to support route based VPNs one needs 3 elements: an interface,
	* for routing to resolve routes through, an SA from the peer to describe
	* security, and encap, to describe how to reach the peer. There are two
	* ways one could model this:
	*
	* interface + encap + SA = (interface + encap) + SA =
	* ipip-interface + SA transport mode
	*
	* or
	*
	* interface + encap + SA = interface + (encap + SA) =
	* IPSec-interface + SA tunnel mode
	*
	* It's a question of where you add the parenthesis, from the perspective
	* of the external user the effect is identical.
	*
	* The IPsec interface serves as the encap-free interface to be used
	* in conjunction with an encap-describing tunnel mode SA.
	*
	* VPP supports both models, which modelshould you pick?
	* A route based VPN could impose 0, 1 or 2 encaps. the support matrix for
	* these use cases is:
	*
	* \| 0 \| 1 \| 2 \|
	* --------------------------
	* ipip \| N \| Y \| Y \|
	* ipsec \| P \| Y \| P \|
	*
	* Where P = potentially.
	* ipsec could potnetially support 0 encap (i.e. transport mode) since neither
	* the interface nor the SA requires encap. However, for a route beased VPN
	* to use transport mode is probably wrong since one shouldn't use thransport
	* mode for transit traffic, since without encap it is not guaranteed to return.
	* ipsec could potnetially support 2 encaps, but that would require the SA to
	* describe both, something it does not do at this time.
	*
	* ipsec currently does not support:
	* - multipoint interfaces
	* but this is only because it is not yet implemented, rather than it cannot
	* be done.
	*
	* Internally the difference is that the midchain adjacency for the IPSec
	* interface has no associated encap (whereas for an ipip tunnel it describes
	* the peer). Consequently, features on the output arc see packets without
	* any encap. Since the protecting SAs are in tunnel mode,
	* they apply the encap. The midchain adj is stacked only once the proctecting
	* SA is known, since only then is the peer known. Otherwise the VLIB graph
	* nodes used are the same:
	* (routing) --> ipX-michain --> espX-encrypt --> adj-midchain-tx --> (routing)
	* where X = 4 or 6.
	*
	* Some benefits to the ipsec interface:
	* - it is slightly more efficient since the encapsulating IP header has
	* its checksum updated only once.
	* - even when the interface is admin up traffic cannot be sent to a peer
	* unless the SA is available (since it's the SA that determines the
	* encap). With ipip interfaces a client must use the admin state to
	* prevent sending until the SA is available.
	*
	* The best recommendations i can make are:
	* - pick a model that supports your use case
	* - make sure any other features you wish to use are supported by the model
	* - choose the model that best fits your control plane's model.
	*
	*
	* gun reloaded, fire away.
	*/
	typedef struct ipsec_itf_t_
	{
	tunnel_mode_t ii_mode;
	int ii_user_instance;
	u32 ii_sw_if_index;
	} __clib_packed ipsec_itf_t;


	extern int ipsec_itf_create (u32 user_instance,
	tunnel_mode_t mode, u32 * sw_if_indexp);
	extern int ipsec_itf_delete (u32 sw_if_index);
	extern void ipsec_itf_reset_tx_nodes (u32 sw_if_index);

	extern void ipsec_itf_adj_stack (adj_index_t ai, u32 sai);
	extern void ipsec_itf_adj_unstack (adj_index_t ai);

	extern u8 format_ipsec_itf (u8 s, va_list * a);

	extern ipsec_itf_t *ipsec_itf_get (index_t ii);
	extern u32 ipsec_itf_count (void);

	typedef walk_rc_t (ipsec_itf_walk_cb_t) (ipsec_itf_t itf, void *ctx);
	extern void ipsec_itf_walk (ipsec_itf_walk_cb_t cd, void *ctx);

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

	#endif