numam-dpdk/lib/librte_distributor/rte_distributor_private.h
John McNamara 8bd5f07c7a doc: fix spelling reported by aspell in comments
Fix spelling errors in the doxygen docs.

Signed-off-by: John McNamara <john.mcnamara@intel.com>
2019-05-03 00:38:14 +02:00

175 lines
5.3 KiB
C

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2017 Intel Corporation
*/
#ifndef _RTE_DIST_PRIV_H_
#define _RTE_DIST_PRIV_H_
/**
* @file
* RTE distributor
*
* The distributor is a component which is designed to pass packets
* one-at-a-time to workers, with dynamic load balancing.
*/
#ifdef __cplusplus
extern "C" {
#endif
#define NO_FLAGS 0
#define RTE_DISTRIB_PREFIX "DT_"
/*
* We will use the bottom four bits of pointer for flags, shifting out
* the top four bits to make room (since a 64-bit pointer actually only uses
* 48 bits). An arithmetic-right-shift will then appropriately restore the
* original pointer value with proper sign extension into the top bits.
*/
#define RTE_DISTRIB_FLAG_BITS 4
#define RTE_DISTRIB_FLAGS_MASK (0x0F)
#define RTE_DISTRIB_NO_BUF 0 /**< empty flags: no buffer requested */
#define RTE_DISTRIB_GET_BUF (1) /**< worker requests a buffer, returns old */
#define RTE_DISTRIB_RETURN_BUF (2) /**< worker returns a buffer, no request */
#define RTE_DISTRIB_VALID_BUF (4) /**< set if bufptr contains ptr */
#define RTE_DISTRIB_BACKLOG_SIZE 8
#define RTE_DISTRIB_BACKLOG_MASK (RTE_DISTRIB_BACKLOG_SIZE - 1)
#define RTE_DISTRIB_MAX_RETURNS 128
#define RTE_DISTRIB_RETURNS_MASK (RTE_DISTRIB_MAX_RETURNS - 1)
/**
* Maximum number of workers allowed.
* Be aware of increasing the limit, because it is limited by how we track
* in-flight tags. See in_flight_bitmask and rte_distributor_process
*/
#define RTE_DISTRIB_MAX_WORKERS 64
#define RTE_DISTRIBUTOR_NAMESIZE 32 /**< Length of name for instance */
/**
* Buffer structure used to pass the pointer data between cores. This is cache
* line aligned, but to improve performance and prevent adjacent cache-line
* prefetches of buffers for other workers, e.g. when worker 1's buffer is on
* the next cache line to worker 0, we pad this out to three cache lines.
* Only 64-bits of the memory is actually used though.
*/
union rte_distributor_buffer_v20 {
volatile int64_t bufptr64;
char pad[RTE_CACHE_LINE_SIZE*3];
} __rte_cache_aligned;
/*
* Transfer up to 8 mbufs at a time to/from workers, and
* flow matching algorithm optimized for 8 flow IDs at a time
*/
#define RTE_DIST_BURST_SIZE 8
struct rte_distributor_backlog {
unsigned int start;
unsigned int count;
int64_t pkts[RTE_DIST_BURST_SIZE] __rte_cache_aligned;
uint16_t *tags; /* will point to second cacheline of inflights */
} __rte_cache_aligned;
struct rte_distributor_returned_pkts {
unsigned int start;
unsigned int count;
struct rte_mbuf *mbufs[RTE_DISTRIB_MAX_RETURNS];
};
struct rte_distributor_v20 {
TAILQ_ENTRY(rte_distributor_v20) next; /**< Next in list. */
char name[RTE_DISTRIBUTOR_NAMESIZE]; /**< Name of the ring. */
unsigned int num_workers; /**< Number of workers polling */
uint32_t in_flight_tags[RTE_DISTRIB_MAX_WORKERS];
/**< Tracks the tag being processed per core */
uint64_t in_flight_bitmask;
/**< on/off bits for in-flight tags.
* Note that if RTE_DISTRIB_MAX_WORKERS is larger than 64 then
* the bitmask has to expand.
*/
struct rte_distributor_backlog backlog[RTE_DISTRIB_MAX_WORKERS];
union rte_distributor_buffer_v20 bufs[RTE_DISTRIB_MAX_WORKERS];
struct rte_distributor_returned_pkts returns;
};
/* All different signature compare functions */
enum rte_distributor_match_function {
RTE_DIST_MATCH_SCALAR = 0,
RTE_DIST_MATCH_VECTOR,
RTE_DIST_NUM_MATCH_FNS
};
/**
* Buffer structure used to pass the pointer data between cores. This is cache
* line aligned, but to improve performance and prevent adjacent cache-line
* prefetches of buffers for other workers, e.g. when worker 1's buffer is on
* the next cache line to worker 0, we pad this out to two cache lines.
* We can pass up to 8 mbufs at a time in one cacheline.
* There is a separate cacheline for returns in the burst API.
*/
struct rte_distributor_buffer {
volatile int64_t bufptr64[RTE_DIST_BURST_SIZE]
__rte_cache_aligned; /* <= outgoing to worker */
int64_t pad1 __rte_cache_aligned; /* <= one cache line */
volatile int64_t retptr64[RTE_DIST_BURST_SIZE]
__rte_cache_aligned; /* <= incoming from worker */
int64_t pad2 __rte_cache_aligned; /* <= one cache line */
int count __rte_cache_aligned; /* <= number of current mbufs */
};
struct rte_distributor {
TAILQ_ENTRY(rte_distributor) next; /**< Next in list. */
char name[RTE_DISTRIBUTOR_NAMESIZE]; /**< Name of the ring. */
unsigned int num_workers; /**< Number of workers polling */
unsigned int alg_type; /**< Number of alg types */
/**>
* First cache line in the this array are the tags inflight
* on the worker core. Second cache line are the backlog
* that are going to go to the worker core.
*/
uint16_t in_flight_tags[RTE_DISTRIB_MAX_WORKERS][RTE_DIST_BURST_SIZE*2]
__rte_cache_aligned;
struct rte_distributor_backlog backlog[RTE_DISTRIB_MAX_WORKERS]
__rte_cache_aligned;
struct rte_distributor_buffer bufs[RTE_DISTRIB_MAX_WORKERS];
struct rte_distributor_returned_pkts returns;
enum rte_distributor_match_function dist_match_fn;
struct rte_distributor_v20 *d_v20;
};
void
find_match_scalar(struct rte_distributor *d,
uint16_t *data_ptr,
uint16_t *output_ptr);
void
find_match_vec(struct rte_distributor *d,
uint16_t *data_ptr,
uint16_t *output_ptr);
#ifdef __cplusplus
}
#endif
#endif