lm_vf.h revision d14abf155341d55053c76eeec58b787a456b753b
#ifndef _LM_VF_H
#define _LM_VF_H
#include "lm_vf_common.h"
/* VF_INFO*/
#define MAX_VF_ETH_CONS ((1 << (LM_VF_MAX_RVFID_SIZE + LM_VF_CID_WND_SIZE + 1)) - MAX_ETH_CONS) /*128 - MAX_ETH_CONS for single connection*/
#define MAX_NUM_OF_SB_BLOCKS 16
#define SB_ARRAY_SIZE ((MAX_NUM_OF_SB_BLOCKS - 1)/ELEM_OF_RES_ARRAY_SIZE_IN_BITS + 1)
#define MAX_NUM_OF_CLIENTS 24
#define CLIENTS_ARRAY_SIZE ((MAX_NUM_OF_CLIENTS - 1)/ELEM_OF_RES_ARRAY_SIZE_IN_BITS + 1)
#define MAX_NUM_OF_STATS 18
#define STATS_ARRAY_SIZE ((MAX_NUM_OF_STATS - 1)/ELEM_OF_RES_ARRAY_SIZE_IN_BITS + 1)
#define MAX_NUM_OF_CAM_OFFSETS 40
#define CAM_OFFSETS_ARRAY_SIZE ((MAX_NUM_OF_CAM_OFFSETS - 1)/ELEM_OF_RES_ARRAY_SIZE_IN_BITS + 1)
#define MAX_NUM_OF_VFS 64
#define FLRED_VFS_ARRAY_SIZE ((MAX_NUM_OF_VFS - 1)/ELEM_OF_RES_ARRAY_SIZE_IN_BITS + 1)
/**
typedef struct _vf_info_t {
struct _lm_device_t * ppfdev;
u8_t num_fw_sbs;
u8_t stats_id;
u8_t base_fw_client_id;
u8_t base_fw_sb_id;
u8_t base_cam_offset;
} vf_info_t;
*/
typedef struct _pf_resources_set_t {
u32_t free_sbs[SB_ARRAY_SIZE];
u32_t free_clients[CLIENTS_ARRAY_SIZE];
u32_t free_stats[CLIENTS_ARRAY_SIZE];
u32_t free_cam_offsets[CAM_OFFSETS_ARRAY_SIZE];
u32_t flred_vfs[FLRED_VFS_ARRAY_SIZE];
} pf_resources_set_t;
#endif
/* */