numam-dpdk/lib/librte_table/rte_table.h
Bruce Richardson 369991d997 lib: use SPDX tag for Intel copyright files
Replace the BSD license header with the SPDX tag for files
with only an Intel copyright on them.

Signed-off-by: Bruce Richardson <bruce.richardson@intel.com>
2018-01-04 22:41:39 +01:00

273 lines
9.3 KiB
C

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2010-2014 Intel Corporation
*/
#ifndef __INCLUDE_RTE_TABLE_H__
#define __INCLUDE_RTE_TABLE_H__
#ifdef __cplusplus
extern "C" {
#endif
/**
* @file
* RTE Table
*
* This tool is part of the DPDK Packet Framework tool suite and provides
* a standard interface to implement different types of lookup tables for data
* plane processing.
*
* Virtually any search algorithm that can uniquely associate data to a lookup
* key can be fitted under this lookup table abstraction. For the flow table
* use-case, the lookup key is an n-tuple of packet fields that uniquely
* identifies a traffic flow, while data represents actions and action
* meta-data associated with the same traffic flow.
*
***/
#include <stdint.h>
#include <rte_port.h>
struct rte_mbuf;
/** Lookup table statistics */
struct rte_table_stats {
uint64_t n_pkts_in;
uint64_t n_pkts_lookup_miss;
};
/**
* Lookup table create
*
* @param params
* Parameters for lookup table creation. The underlying data structure is
* different for each lookup table type.
* @param socket_id
* CPU socket ID (e.g. for memory allocation purpose)
* @param entry_size
* Data size of each lookup table entry (measured in bytes)
* @return
* Handle to lookup table instance
*/
typedef void* (*rte_table_op_create)(void *params, int socket_id,
uint32_t entry_size);
/**
* Lookup table free
*
* @param table
* Handle to lookup table instance
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_free)(void *table);
/**
* Lookup table entry add
*
* @param table
* Handle to lookup table instance
* @param key
* Lookup key
* @param entry
* Data to be associated with the current key. This parameter has to point to
* a valid memory buffer where the first entry_size bytes (table create
* parameter) are populated with the data.
* @param key_found
* After successful invocation, *key_found is set to a value different than 0
* if the current key is already present in the table and to 0 if not. This
* pointer has to be set to a valid memory location before the table entry add
* function is called.
* @param entry_ptr
* After successful invocation, *entry_ptr stores the handle to the table
* entry containing the data associated with the current key. This handle can
* be used to perform further read-write accesses to this entry. This handle
* is valid until the key is deleted from the table or the same key is
* re-added to the table, typically to associate it with different data. This
* pointer has to be set to a valid memory location before the function is
* called.
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_entry_add)(
void *table,
void *key,
void *entry,
int *key_found,
void **entry_ptr);
/**
* Lookup table entry delete
*
* @param table
* Handle to lookup table instance
* @param key
* Lookup key
* @param key_found
* After successful invocation, *key_found is set to a value different than 0
* if the current key was present in the table before the delete operation
* was performed and to 0 if not. This pointer has to be set to a valid
* memory location before the table entry delete function is called.
* @param entry
* After successful invocation, if the key is found in the table (*key found
* is different than 0 after function call is completed) and entry points to
* a valid buffer (entry is set to a value different than NULL before the
* function is called), then the first entry_size bytes (table create
* parameter) in *entry store a copy of table entry that contained the data
* associated with the current key before the key was deleted.
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_entry_delete)(
void *table,
void *key,
int *key_found,
void *entry);
/**
* Lookup table entry add bulk
*
* @param table
* Handle to lookup table instance
* @param key
* Array containing lookup keys
* @param entries
* Array containing data to be associated with each key. Every item in the
* array has to point to a valid memory buffer where the first entry_size
* bytes (table create parameter) are populated with the data.
* @param n_keys
* Number of keys to add
* @param key_found
* After successful invocation, key_found for every item in the array is set
* to a value different than 0 if the current key is already present in the
* table and to 0 if not. This pointer has to be set to a valid memory
* location before the table entry add function is called.
* @param entries_ptr
* After successful invocation, array *entries_ptr stores the handle to the
* table entry containing the data associated with every key. This handle can
* be used to perform further read-write accesses to this entry. This handle
* is valid until the key is deleted from the table or the same key is
* re-added to the table, typically to associate it with different data. This
* pointer has to be set to a valid memory location before the function is
* called.
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_entry_add_bulk)(
void *table,
void **keys,
void **entries,
uint32_t n_keys,
int *key_found,
void **entries_ptr);
/**
* Lookup table entry delete bulk
*
* @param table
* Handle to lookup table instance
* @param key
* Array containing lookup keys
* @param n_keys
* Number of keys to delete
* @param key_found
* After successful invocation, key_found for every item in the array is set
* to a value different than 0if the current key was present in the table
* before the delete operation was performed and to 0 if not. This pointer
* has to be set to a valid memory location before the table entry delete
* function is called.
* @param entries
* If entries pointer is NULL, this pointer is ignored for every entry found.
* Else, after successful invocation, if specific key is found in the table
* (key_found is different than 0 for this item after function call is
* completed) and item of entry array points to a valid buffer (entry is set
* to a value different than NULL before the function is called), then the
* first entry_size bytes (table create parameter) in *entry store a copy of
* table entry that contained the data associated with the current key before
* the key was deleted.
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_entry_delete_bulk)(
void *table,
void **keys,
uint32_t n_keys,
int *key_found,
void **entries);
/**
* Lookup table lookup
*
* @param table
* Handle to lookup table instance
* @param pkts
* Burst of input packets specified as array of up to 64 pointers to struct
* rte_mbuf
* @param pkts_mask
* 64-bit bitmask specifying which packets in the input burst are valid. When
* pkts_mask bit n is set, then element n of pkts array is pointing to a
* valid packet. Otherwise, element n of pkts array does not point to a valid
* packet, therefore it will not be accessed.
* @param lookup_hit_mask
* Once the table lookup operation is completed, this 64-bit bitmask
* specifies which of the valid packets in the input burst resulted in lookup
* hit. For each valid input packet (pkts_mask bit n is set), the following
* are true on lookup hit: lookup_hit_mask bit n is set, element n of entries
* array is valid and it points to the lookup table entry that was hit. For
* each valid input packet (pkts_mask bit n is set), the following are true
* on lookup miss: lookup_hit_mask bit n is not set and element n of entries
* array is not valid.
* @param entries
* Once the table lookup operation is completed, this array provides the
* lookup table entries that were hit, as described above. It is required
* that this array is always pre-allocated by the caller of this function
* with exactly 64 elements. The implementation is allowed to speculatively
* modify the elements of this array, so elements marked as invalid in
* lookup_hit_mask once the table lookup operation is completed might have
* been modified by this function.
* @return
* 0 on success, error code otherwise
*/
typedef int (*rte_table_op_lookup)(
void *table,
struct rte_mbuf **pkts,
uint64_t pkts_mask,
uint64_t *lookup_hit_mask,
void **entries);
/**
* Lookup table stats read
*
* @param table
* Handle to lookup table instance
* @param stats
* Handle to table stats struct to copy data
* @param clear
* Flag indicating that stats should be cleared after read
*
* @return
* Error code or 0 on success.
*/
typedef int (*rte_table_op_stats_read)(
void *table,
struct rte_table_stats *stats,
int clear);
/** Lookup table interface defining the lookup table operation */
struct rte_table_ops {
rte_table_op_create f_create; /**< Create */
rte_table_op_free f_free; /**< Free */
rte_table_op_entry_add f_add; /**< Entry add */
rte_table_op_entry_delete f_delete; /**< Entry delete */
rte_table_op_entry_add_bulk f_add_bulk; /**< Add entry bulk */
rte_table_op_entry_delete_bulk f_delete_bulk; /**< Delete entry bulk */
rte_table_op_lookup f_lookup; /**< Lookup */
rte_table_op_stats_read f_stats; /**< Stats */
};
#ifdef __cplusplus
}
#endif
#endif