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/*
* Copyright (c) 2017-2020 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 __HICN_FACE_H__
#define __HICN_FACE_H__
#include <vnet/vnet.h>
#include <vlib/vlib.h>
#include <vnet/ip/ip46_address.h>
#include <vnet/dpo/dpo.h>
#include <vnet/adj/adj_types.h>
#include <vppinfra/bihash_8_8.h>
typedef u8 hicn_face_flags_t;
typedef index_t hicn_face_id_t;
//typedef dpo_type_t hicn_face_type_t;
/**
* @file
*
* @brief Face
*
* This file implements a general face type. A face is carried through nodes as a
* dpo. The face state (hicn_face_t) is the object pointed by the
* dpoi_index in the dpo_id_t (see
* https://docs.fd.io/vpp/18.07/d0/d37/dpo_8h_source.html).
* A face state that does not contain the indication of the l2 adjacency is an
* incomplete face (iface), otherwise it is considered to be complete. Each face type
* provide specific node for processing packets in input or output of complete
* and incomplete faces.
*/
/**
* @brief Structure holding the face state. It containes the fields shared among
* all the types of faces as well it leaves some space for storing additional
* information specific to each type.
*/
typedef struct __attribute__ ((packed)) hicn_face_s
{
/* Flags to idenfity if the face is incomplete (iface), complete (face) */
/* And a network or application face (1B) */
hicn_face_flags_t flags;
/* Align the upcoming fields */
u8 align;
/* Path label (2B) */
u16 pl_id;
/* Number of dpo holding a reference to the dpoi (4B) */
u32 locks;
/* Dpo for the adjacency (8B) */
union {
dpo_id_t dpo;
u64 align_dpo;
};
/* Local address of the interface sw_if */
ip46_address_t nat_addr;
/* local interface for the local ip address */
u32 sw_if;
/* To align a face to 8 bytes */
u32 padding;
} hicn_face_t;
/* Pool of faces */
extern hicn_face_t *hicn_dpoi_face_pool;
//extern dpo_type_t hicn_face_type;
/* Flags */
/* A face is complete and it stores all the information. A iface lacks of the
adj index, therefore sending a packet through a iface require a lookup in
the FIB. */
#define HICN_FACE_FLAGS_DEFAULT 0x00
#define HICN_FACE_FLAGS_FACE 0x01
#define HICN_FACE_FLAGS_IFACE 0x02
#define HICN_FACE_FLAGS_APPFACE_PROD 0x04 /* Currently only IP face can be appface */
#define HICN_FACE_FLAGS_APPFACE_CONS 0x08 /* Currently only IP face can be appface */
#define HICN_FACE_FLAGS_DELETED 0x10
#define HICN_FACE_NULL (hicn_face_id_t) ~0
#define HICN_FACE_FLAGS_APPFACE_PROD_BIT 2
#define HICN_FACE_FLAGS_APPFACE_CONS_BIT 3
#define HICN_BUFFER_FLAGS_DEFAULT 0x00
#define HICN_BUFFER_FLAGS_FACE_IS_APP 0x01
STATIC_ASSERT ((1 << HICN_FACE_FLAGS_APPFACE_PROD_BIT) ==
HICN_FACE_FLAGS_APPFACE_PROD,
"HICN_FACE_FLAGS_APPFACE_PROD_BIT and HICN_FACE_FLAGS_APPFACE_PROD must correspond");
STATIC_ASSERT ((1 << HICN_FACE_FLAGS_APPFACE_CONS_BIT) ==
HICN_FACE_FLAGS_APPFACE_CONS,
"HICN_FACE_FLAGS_APPFACE_CONS_BIT and HICN_FACE_FLAGS_APPFACE_CONS must correspond");
STATIC_ASSERT ((HICN_FACE_FLAGS_APPFACE_PROD >>
HICN_FACE_FLAGS_APPFACE_PROD_BIT) ==
HICN_BUFFER_FLAGS_FACE_IS_APP,
"hicn buffer app flag does not correspond to HICN_FACE_FLAGS_APPFACE_PROD");
STATIC_ASSERT ((HICN_FACE_FLAGS_APPFACE_CONS >>
HICN_FACE_FLAGS_APPFACE_CONS_BIT) ==
HICN_BUFFER_FLAGS_FACE_IS_APP,
"hicn buffer app flag does not correspond to HICN_FACE_FLAGS_APPFACE_PROD");
/**
* @brief Definition of the virtual functin table for an hICN FACE DPO.
*
* An hICN dpo is a combination of a dpo context (hicn_dpo_ctx or struct that
* extends a hicn_dpo_ctx) and a strategy node. The following virtual function table
* template that glues together the fuction to interact with the context and the
* creating the dpo
*/
typedef struct hicn_face_vft_s
{
u8 *(*format_face) (u8 * s, va_list * args);
/**< Format an hICN face dpo*/
int (*hicn_face_del) (hicn_face_id_t face_id);
void (*hicn_face_get_dpo) (hicn_face_t * face, dpo_id_t * dpo);
} hicn_face_vft_t;
#define foreach_hicn_face_counter \
_(INTEREST_RX, 0, "Interest rx") \
_(INTEREST_TX, 1, "Interest tx") \
_(DATA_RX, 2, "Data rx") \
_(DATA_TX, 3, "Data tx") \
typedef enum
{
#define _(a,b,c) HICN_FACE_COUNTERS_##a = (b),
foreach_hicn_face_counter
#undef _
HICN_N_COUNTER
} hicn_face_counters_t;
extern mhash_t hicn_face_hashtb;
extern const char *HICN_FACE_CTRX_STRING[];
#define get_face_counter_string(ctrxno) (char *)(HICN_FACE_CTRX_STRING[ctrxno])
/* Vector maintaining a dpo per face */
extern dpo_id_t *face_dpo_vec;
extern hicn_face_vft_t *face_vft_vec;
/* Vector holding the set of face names */
extern char **face_type_names_vec;
/* First face type registered in the sytem.*/
extern dpo_type_t first_type;
/* Per-face counters */
extern vlib_combined_counter_main_t *counters;
/**
* @brief Return the face id from the face state
*
* @param Pointer to the face state
* @return face id
*/
always_inline hicn_face_id_t
hicn_dpoi_get_index (hicn_face_t * face_dpoi)
{
return face_dpoi - hicn_dpoi_face_pool;
}
/**
* @brief Return the face from the face id. Face id must be valid.
*
* @param dpoi_index Face identifier
* @return Pointer to the face
*/
always_inline hicn_face_t *
hicn_dpoi_get_from_idx_safe (hicn_face_id_t dpoi_index)
{
if (!pool_is_free_index(hicn_dpoi_face_pool, dpoi_index))
return (hicn_face_t *) pool_elt_at_index (hicn_dpoi_face_pool, dpoi_index);
else
return NULL;
}
/**
* @brief Return the face from the face id. Face id must be valid.
*
* @param dpoi_index Face identifier
* @return Pointer to the face
*/
always_inline hicn_face_t *
hicn_dpoi_get_from_idx (hicn_face_id_t dpoi_index)
{
return (hicn_face_t *) pool_elt_at_index (hicn_dpoi_face_pool, dpoi_index);
}
/**
* @brief Return true if the face id belongs to an existing face
*/
always_inline int
hicn_dpoi_idx_is_valid (hicn_face_id_t face_id)
{
return pool_len (hicn_dpoi_face_pool) > face_id
&& !pool_is_free_index (hicn_dpoi_face_pool, face_id);
}
/**
* @brief Add a lock to the face dpo
*
* @param dpo Pointer to the face dpo
*/
always_inline void
hicn_face_lock_with_id (hicn_face_id_t face_id)
{
hicn_face_t *face;
face = hicn_dpoi_get_from_idx (face_id);
face->locks++;
}
/**
* @brief Remove a lock to the face dpo. Deallocate the face id locks == 0
*
* @param dpo Pointer to the face dpo
*/
always_inline void
hicn_face_unlock_with_id (hicn_face_id_t face_id)
{
hicn_face_t *face;
face = hicn_dpoi_get_from_idx (face_id);
face->locks--;
}
/**
* @brief Add a lock to the face dpo
*
* @param dpo Pointer to the face dpo
*/
always_inline void
hicn_face_lock (dpo_id_t * dpo)
{
hicn_face_lock_with_id(dpo->dpoi_index);
}
/**
* @brief Remove a lock to the face dpo. Deallocate the face id locks == 0
*
* @param dpo Pointer to the face dpo
*/
always_inline void
hicn_face_unlock (dpo_id_t * dpo)
{
hicn_face_unlock_with_id (dpo->dpoi_index);
}
/**
* @brief Init the internal structures of the face module
*
* Must be called before processing any packet
*/
void hicn_face_module_init (vlib_main_t * vm);
u8 * format_hicn_face (u8 * s, va_list * args);
/**
* @brief Format all the existing faces
*
* @param s Pointer to a previous string. If null it will be initialize
* @param n Number of input parameters
* @return String with the faces formatted
*/
u8 *format_hicn_face_all (u8 * s, int n, ...);
/**
* @brief Delete a face
*
* @param face_id Id of the face to delete
* @return HICN_ERROR_FACE_NOT_FOUND if the face does not exist, otherwise
* HICN_ERROR_NONE
*/
int hicn_face_del (hicn_face_id_t face_id);
/* FACE IP CODE */
/**
* @bried vector of faces used to collect faces having the same local address
*
*/
typedef hicn_face_id_t *hicn_face_vec_t;
typedef struct hicn_input_faces_s_
{
/* Vector of all possible input faces */
u32 vec_id;
/* Preferred face. If an prod_app face is in the vector it will be the preferred one. */
/* It's not possible to have multiple prod_app face in the same vector, they would have */
/* the same local address. Every prod_app face is a point-to-point face between the forwarder */
/* and the application. */
hicn_face_id_t face_id;
} hicn_face_input_faces_t;
/**
* Pool containing the vector of possible incoming faces.
*/
extern hicn_face_vec_t *hicn_vec_pool;
/**
* Hash tables that indexes a face by remote address. For fast lookup when an
* interest arrives.
*/
extern mhash_t hicn_face_vec_hashtb;
/**
* Key definition for the mhash table. An ip face is uniquely identified by ip
* address and the interface id. The ip address can correspond to the remote ip
* address of the next hicn hop, or to the local address of the receiving
* interface. The former is used to retrieve the incoming face when an interest
* is received, the latter when the arring packet is a data.
*/
typedef struct __attribute__ ((packed)) hicn_face_key_s
{
ip46_address_t addr;
union {
dpo_id_t dpo;
u64 align_dpo;
};
u32 sw_if;
} hicn_face_key_t;
/**
* @brief Create the key object for the mhash. Fill in the key object with the
* expected values.
*
* @param addr nat address of the face
* @param sw_if interface associated to the face
* @param key Pointer to an allocated hicn_face_ip_key_t object
*/
always_inline void
hicn_face_get_key (const ip46_address_t * addr,
u32 sw_if, const dpo_id_t * dpo, hicn_face_key_t * key)
{
key->dpo = *dpo;
key->addr = *addr;
key->sw_if = sw_if;
}
/**
* @brief Get the dpoi from the nat address. Does not add any lock.
*
* @param addr Ip v4 address used to create the key for the hash table.
* @param sw_if Software interface id used to create the key for the hash table.
* @param hashtb Hash table (remote or local) where to perform the lookup.
*
* @result Pointer to the face.
*/
always_inline hicn_face_t *
hicn_face_get (const ip46_address_t * addr, u32 sw_if, mhash_t * hashtb)
{
hicn_face_key_t key;
dpo_id_t dpo = DPO_INVALID;
hicn_face_get_key (addr, sw_if, &dpo, &key);
hicn_face_id_t *dpoi_index = (hicn_face_id_t *) mhash_get (hashtb,
&key);
if ( dpoi_index != NULL)
{
hicn_face_lock_with_id(*dpoi_index);
return hicn_dpoi_get_from_idx (*dpoi_index);
}
return NULL;
}
/**
* @brief Get the dpoi from the nat address. Does not add any lock.
*
* @param addr Ip v4 address used to create the key for the hash table.
* @param sw_if Software interface id used to create the key for the hash table.
* @param hashtb Hash table (remote or local) where to perform the lookup.
*
* @result Pointer to the face.
*/
always_inline hicn_face_t *
hicn_face_get_with_dpo (const ip46_address_t * addr, u32 sw_if, const dpo_id_t * dpo, mhash_t * hashtb)
{
hicn_face_key_t key;
hicn_face_get_key (addr, sw_if, dpo, &key);
hicn_face_id_t *dpoi_index = (hicn_face_id_t *) mhash_get (hashtb,
&key);
if ( dpoi_index != NULL)
{
hicn_face_lock_with_id(*dpoi_index);
return hicn_dpoi_get_from_idx (*dpoi_index);
}
return NULL;
}
/**
* @brief Get the vector of faces from the ip v4 address. Does not add any lock.
*
* @param addr Ip v4 address used to create the key for the hash table.
* @param sw_if Software interface id used to create the key for the hash table.
* @param hashtb Hash table (remote or local) where to perform the lookup.
*
* @result Pointer to the face.
*/
always_inline hicn_face_input_faces_t *
hicn_face_get_vec (const ip46_address_t * addr,
mhash_t * hashtb)
{
hicn_face_key_t key;
dpo_id_t dpo = DPO_INVALID;
hicn_face_get_key (addr, 0, &dpo, &key);
return (hicn_face_input_faces_t *) mhash_get (hashtb, &key);
}
/**
* @brief Create a new face ip. API for other modules (e.g., routing)
*
* @param local_addr Local ip v4 or v6 address of the face
* @param remote_addr Remote ip v4 or v6 address of the face
* @param sw_if interface associated to the face
* @param is_app_face Boolean to set the face as an application face
* @param pfaceid Pointer to return the face id
* @param is_app_prod if HICN_FACE_FLAGS_APPFACE_PROD the face is a local application face, all other values are ignored
* @return HICN_ERROR_FACE_NO_GLOBAL_IP if the face does not have a globally
* reachable ip address, otherwise HICN_ERROR_NONE
*/
int hicn_face_add (const dpo_id_t * dpo_nh,
ip46_address_t * nat_address,
int sw_if,
hicn_face_id_t * pfaceid,
u8 is_app_prod);
/**
* @brief Create a new incomplete face ip. (Meant to be used by the data plane)
*
* @param local_addr Local ip v4 or v6 address of the face
* @param remote_addr Remote ip v4 or v6 address of the face
* @param sw_if interface associated to the face
* @param pfaceid Pointer to return the face id
* @return HICN_ERROR_FACE_NO_GLOBAL_IP if the face does not have a globally
* reachable ip address, otherwise HICN_ERROR_NONE
*/
always_inline void
hicn_iface_add (ip46_address_t * nat_address, int sw_if,
hicn_face_id_t * pfaceid, dpo_proto_t proto)
{
hicn_face_t *face;
pool_get (hicn_dpoi_face_pool, face);
clib_memcpy (&(face->nat_addr), nat_address,
sizeof (ip46_address_t));
face->sw_if = sw_if;
face->dpo.dpoi_type = DPO_FIRST;
face->dpo.dpoi_proto = DPO_PROTO_NONE;
face->dpo.dpoi_index = INDEX_INVALID;
face->dpo.dpoi_next_node = 0;
face->pl_id = (u16) 0;
face->flags = HICN_FACE_FLAGS_IFACE;
face->locks = 1;
hicn_face_key_t key;
hicn_face_get_key (nat_address, sw_if, &face->dpo, &key);
*pfaceid = hicn_dpoi_get_index (face);
mhash_set_mem (&hicn_face_hashtb, &key, (uword *) pfaceid, 0);
for (int i = 0; i < HICN_N_COUNTER; i++)
{
vlib_validate_combined_counter (&counters[(*pfaceid) * HICN_N_COUNTER],
i);
vlib_zero_combined_counter (&counters[(*pfaceid) * HICN_N_COUNTER], i);
}
}
#endif // __HICN_FACE_H__
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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