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numam-dpdk/lib/librte_flow_classify/rte_flow_classify.h
David Marchand 18218713bf enforce experimental tag at beginning of declarations 
Putting a '__attribute__((deprecated))' in the middle of a function
prototype does not result in the expected result with gcc (while clang
is fine with this syntax).

$ cat deprecated.c
void * __attribute__((deprecated)) incorrect() { return 0; }
__attribute__((deprecated)) void *correct(void) { return 0; }
int main(int argc, char *argv[]) { incorrect(); correct(); return 0; }
$ gcc -o deprecated.o -c deprecated.c
deprecated.c: In function ‘main’:
deprecated.c:3:1: warning: ‘correct’ is deprecated (declared at
deprecated.c:2) [-Wdeprecated-declarations]
 int main(int argc, char *argv[]) { incorrect(); correct(); return 0; }
 ^

Move the tag on a separate line and make it the first thing of function
prototypes.
This is not perfect but we will trust reviewers to catch the other not
so easy to detect patterns.

sed -i \
     -e '/^\([^#].*\)\?__rte_experimental */{' \
     -e 's//\1/; s/ *$//; i\' \
     -e __rte_experimental \
     -e '/^$/d}' \
     $(git grep -l __rte_experimental -- '*.h')

Special mention for rte_mbuf_data_addr_default():

There is either a bug or a (not yet understood) issue with gcc.
gcc won't drop this inline when unused and rte_mbuf_data_addr_default()
calls rte_mbuf_buf_addr() which itself is experimental.
This results in a build warning when not accepting experimental apis
from sources just including rte_mbuf.h.

For this specific case, we hide the call to rte_mbuf_buf_addr() under
the ALLOW_EXPERIMENTAL_API flag.

Signed-off-by: Adrien Mazarguil <adrien.mazarguil@6wind.com>
Signed-off-by: David Marchand <david.marchand@redhat.com>
2019-06-29 19:04:48 +02:00

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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2017 Intel Corporation
*/
#ifndef _RTE_FLOW_CLASSIFY_H_
#define _RTE_FLOW_CLASSIFY_H_
/**
* @file
*
* RTE Flow Classify Library
*
* @b EXPERIMENTAL: this API may change without prior notice
*
* This library provides flow record information with some measured properties.
*
* Application should define the flow and measurement criteria (action) for it.
*
* The Library doesn't maintain any flow records itself, instead flow
* information is returned to upper layer only for given packets.
*
* It is application's responsibility to call rte_flow_classifier_query()
* for a burst of packets, just after receiving them or before transmitting
* them.
* Application should provide the flow type interested in, measurement to apply
* to that flow in rte_flow_classify_table_entry_add() API, and should provide
* the rte_flow_classifier object and storage to put results in for the
* rte_flow_classifier_query() API.
*
* Usage:
* - application calls rte_flow_classifier_create() to create an
* rte_flow_classifier object.
* - application calls rte_flow_classify_table_create() to create a table
* in the rte_flow_classifier object.
* - application calls rte_flow_classify_table_entry_add() to add a rule to
* the table in the rte_flow_classifier object.
* - application calls rte_flow_classifier_query() in a polling manner,
* preferably after rte_eth_rx_burst(). This will cause the library to
* match packet information to flow information with some measurements.
* - rte_flow_classifier object can be destroyed when it is no longer needed
* with rte_flow_classifier_free()
*/
#include <rte_compat.h>
#include <rte_common.h>
#include <rte_ethdev.h>
#include <rte_ether.h>
#include <rte_flow.h>
#include <rte_acl.h>
#include <rte_table_acl.h>
#ifdef __cplusplus
extern "C" {
#endif
extern int librte_flow_classify_logtype;
#define RTE_FLOW_CLASSIFY_LOG(level, ...) \
rte_log(RTE_LOG_ ## level, \
librte_flow_classify_logtype, \
RTE_FMT("%s(): " RTE_FMT_HEAD(__VA_ARGS__,), \
__func__, \
RTE_FMT_TAIL(__VA_ARGS__,)))
#ifndef RTE_FLOW_CLASSIFY_TABLE_MAX
#define RTE_FLOW_CLASSIFY_TABLE_MAX 32
#endif
/** Opaque data type for flow classifier */
struct rte_flow_classifier;
/** Opaque data type for flow classify rule */
struct rte_flow_classify_rule;
/** Flow classify rule type */
enum rte_flow_classify_rule_type {
/** no type */
RTE_FLOW_CLASSIFY_RULE_TYPE_NONE,
/** IPv4 5tuple type */
RTE_FLOW_CLASSIFY_RULE_TYPE_IPV4_5TUPLE,
};
/** Flow classify table type */
enum rte_flow_classify_table_type {
/** No type */
RTE_FLOW_CLASSIFY_TABLE_TYPE_NONE = 1 << 0,
/** ACL IP4 5TUPLE */
RTE_FLOW_CLASSIFY_TABLE_ACL_IP4_5TUPLE = 1 << 1,
/** ACL VLAN IP4 5TUPLE */
RTE_FLOW_CLASSIFY_TABLE_ACL_VLAN_IP4_5TUPLE = 1 << 2,
/** ACL QinQ IP4 5TUPLE */
RTE_FLOW_CLASSIFY_TABLE_ACL_QINQ_IP4_5TUPLE = 1 << 3,
};
/** Parameters for flow classifier creation */
struct rte_flow_classifier_params {
/** flow classifier name */
const char *name;
/** CPU socket ID where memory for the flow classifier and its */
/** elements (tables) should be allocated */
int socket_id;
};
/** Parameters for table creation */
struct rte_flow_classify_table_params {
/** Table operations (specific to each table type) */
struct rte_table_ops *ops;
/** Opaque param to be passed to the table create operation */
void *arg_create;
/** Classifier table type */
enum rte_flow_classify_table_type type;
};
/** IPv4 5-tuple data */
struct rte_flow_classify_ipv4_5tuple {
uint32_t dst_ip; /**< Destination IP address in big endian. */
uint32_t dst_ip_mask; /**< Mask of destination IP address. */
uint32_t src_ip; /**< Source IP address in big endian. */
uint32_t src_ip_mask; /**< Mask of destination IP address. */
uint16_t dst_port; /**< Destination port in big endian. */
uint16_t dst_port_mask; /**< Mask of destination port. */
uint16_t src_port; /**< Source Port in big endian. */
uint16_t src_port_mask; /**< Mask of source port. */
uint8_t proto; /**< L4 protocol. */
uint8_t proto_mask; /**< Mask of L4 protocol. */
};
/**
* Flow stats
*
* For the count action, stats can be returned by the query API.
*
* Storage for stats is provided by application.
*/
struct rte_flow_classify_stats {
void *stats;
};
struct rte_flow_classify_ipv4_5tuple_stats {
/** count of packets that match IPv4 5tuple pattern */
uint64_t counter1;
/** IPv4 5tuple data */
struct rte_flow_classify_ipv4_5tuple ipv4_5tuple;
};
/**
* Flow classifier create
*
* @param params
* Parameters for flow classifier creation
* @return
* Handle to flow classifier instance on success or NULL otherwise
*/
__rte_experimental
struct rte_flow_classifier *
rte_flow_classifier_create(struct rte_flow_classifier_params *params);
/**
* Flow classifier free
*
* @param cls
* Handle to flow classifier instance
* @return
* 0 on success, error code otherwise
*/
__rte_experimental
int
rte_flow_classifier_free(struct rte_flow_classifier *cls);
/**
* Flow classify table create
*
* @param cls
* Handle to flow classifier instance
* @param params
* Parameters for flow_classify table creation
* @return
* 0 on success, error code otherwise
*/
__rte_experimental
int
rte_flow_classify_table_create(struct rte_flow_classifier *cls,
struct rte_flow_classify_table_params *params);
/**
* Flow classify validate
*
* @param cls
* Handle to flow classifier instance
* @param[in] attr
* Flow rule attributes
* @param[in] pattern
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END pattern item).
* @param[out] error
* Perform verbose error reporting if not NULL. Structure
* initialised in case of error only.
* @return
* 0 on success, error code otherwise
*/
__rte_experimental
int
rte_flow_classify_validate(struct rte_flow_classifier *cls,
const struct rte_flow_attr *attr,
const struct rte_flow_item pattern[],
const struct rte_flow_action actions[],
struct rte_flow_error *error);
/**
* Add a flow classify rule to the flow_classifier table.
*
* @param[in] cls
* Flow classifier handle
* @param[in] attr
* Flow rule attributes
* @param[in] pattern
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END pattern item).
* @param[out] key_found
* returns 1 if rule present already, 0 otherwise.
* @param[out] error
* Perform verbose error reporting if not NULL. Structure
* initialised in case of error only.
* @return
* A valid handle in case of success, NULL otherwise.
*/
__rte_experimental
struct rte_flow_classify_rule *
rte_flow_classify_table_entry_add(struct rte_flow_classifier *cls,
const struct rte_flow_attr *attr,
const struct rte_flow_item pattern[],
const struct rte_flow_action actions[],
int *key_found,
struct rte_flow_error *error);
/**
* Delete a flow classify rule from the flow_classifier table.
*
* @param[in] cls
* Flow classifier handle
* @param[in] rule
* Flow classify rule
* @return
* 0 on success, error code otherwise.
*/
__rte_experimental
int
rte_flow_classify_table_entry_delete(struct rte_flow_classifier *cls,
struct rte_flow_classify_rule *rule);
/**
* Query flow classifier for given rule.
*
* @param[in] cls
* Flow classifier handle
* @param[in] pkts
* Pointer to packets to process
* @param[in] nb_pkts
* Number of packets to process
* @param[in] rule
* Flow classify rule
* @param[in] stats
* Flow classify stats
*
* @return
* 0 on success, error code otherwise.
*/
__rte_experimental
int
rte_flow_classifier_query(struct rte_flow_classifier *cls,
struct rte_mbuf **pkts,
const uint16_t nb_pkts,
struct rte_flow_classify_rule *rule,
struct rte_flow_classify_stats *stats);
#ifdef __cplusplus
}
#endif
#endif /* _RTE_FLOW_CLASSIFY_H_ */
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