numam-dpdk/drivers/net/qede/base/ecore_sriov.h
Rasesh Mody 40cf1e753e net/qede/base: update firmware to 8.30.12.0
Upgrade QEDE PMD FW to version 8.30.12.0.

The firmware upgrade change details are as:
 - Add support for steering by IP and UDP destination port.
 - Add source QP field for GSI offload.
 - Add UFP support.
 - Add support for outer IPv4 TX CSO with unknown tunnel type (in addition
   to inner header CSO).
 - Support flow ID in accelerated RFS flow.
 - Allow Doorbell on empty SPQ and LL2 TX queue (for doorbell recovery).
 - Enable PCI Relaxed Ordering for L2 RX data placement.
 - Additional enhancements and bug fixes

Signed-off-by: Rasesh Mody <rasesh.mody@cavium.com>
2017-10-06 02:49:49 +02:00

295 lines
7.2 KiB
C

/*
* Copyright (c) 2016 QLogic Corporation.
* All rights reserved.
* www.qlogic.com
*
* See LICENSE.qede_pmd for copyright and licensing details.
*/
#ifndef __ECORE_SRIOV_H__
#define __ECORE_SRIOV_H__
#include "ecore_status.h"
#include "ecore_vfpf_if.h"
#include "ecore_iov_api.h"
#include "ecore_hsi_common.h"
#include "ecore_l2.h"
#define ECORE_ETH_MAX_VF_NUM_VLAN_FILTERS \
(MAX_NUM_VFS_E4 * ECORE_ETH_VF_NUM_VLAN_FILTERS)
/* Represents a full message. Both the request filled by VF
* and the response filled by the PF. The VF needs one copy
* of this message, it fills the request part and sends it to
* the PF. The PF will copy the response to the response part for
* the VF to later read it. The PF needs to hold a message like this
* per VF, the request that is copied to the PF is placed in the
* request size, and the response is filled by the PF before sending
* it to the VF.
*/
struct ecore_vf_mbx_msg {
union vfpf_tlvs req;
union pfvf_tlvs resp;
};
/* This mailbox is maintained per VF in its PF
* contains all information required for sending / receiving
* a message
*/
struct ecore_iov_vf_mbx {
union vfpf_tlvs *req_virt;
dma_addr_t req_phys;
union pfvf_tlvs *reply_virt;
dma_addr_t reply_phys;
/* Address in VF where a pending message is located */
dma_addr_t pending_req;
/* Message from VF awaits handling */
bool b_pending_msg;
u8 *offset;
#ifdef CONFIG_ECORE_SW_CHANNEL
struct ecore_iov_sw_mbx sw_mbx;
#endif
/* VF GPA address */
u32 vf_addr_lo;
u32 vf_addr_hi;
struct vfpf_first_tlv first_tlv; /* saved VF request header */
u8 flags;
#define VF_MSG_INPROCESS 0x1 /* failsafe - the FW should prevent
* more then one pending msg
*/
};
#define ECORE_IOV_LEGACY_QID_RX (0)
#define ECORE_IOV_LEGACY_QID_TX (1)
#define ECORE_IOV_QID_INVALID (0xFE)
struct ecore_vf_queue_cid {
bool b_is_tx;
struct ecore_queue_cid *p_cid;
};
/* Describes a qzone associated with the VF */
struct ecore_vf_queue {
/* Input from upper-layer, mapping relateive queue to queue-zone */
u16 fw_rx_qid;
u16 fw_tx_qid;
struct ecore_vf_queue_cid cids[MAX_QUEUES_PER_QZONE];
};
enum vf_state {
VF_FREE = 0, /* VF ready to be acquired holds no resc */
VF_ACQUIRED = 1, /* VF, acquired, but not initalized */
VF_ENABLED = 2, /* VF, Enabled */
VF_RESET = 3, /* VF, FLR'd, pending cleanup */
VF_STOPPED = 4 /* VF, Stopped */
};
struct ecore_vf_vlan_shadow {
bool used;
u16 vid;
};
struct ecore_vf_shadow_config {
/* Shadow copy of all guest vlans */
struct ecore_vf_vlan_shadow vlans[ECORE_ETH_VF_NUM_VLAN_FILTERS + 1];
/* Shadow copy of all configured MACs; Empty if forcing MACs */
u8 macs[ECORE_ETH_VF_NUM_MAC_FILTERS][ETH_ALEN];
u8 inner_vlan_removal;
};
/* PFs maintain an array of this structure, per VF */
struct ecore_vf_info {
struct ecore_iov_vf_mbx vf_mbx;
enum vf_state state;
bool b_init;
bool b_malicious;
u8 to_disable;
struct ecore_bulletin bulletin;
dma_addr_t vf_bulletin;
/* PF saves a copy of the last VF acquire message */
struct vfpf_acquire_tlv acquire;
u32 concrete_fid;
u16 opaque_fid;
u16 mtu;
u8 vport_id;
u8 rss_eng_id;
u8 relative_vf_id;
u8 abs_vf_id;
#define ECORE_VF_ABS_ID(p_hwfn, p_vf) (ECORE_PATH_ID(p_hwfn) ? \
(p_vf)->abs_vf_id + MAX_NUM_VFS_BB : \
(p_vf)->abs_vf_id)
u8 vport_instance; /* Number of active vports */
u8 num_rxqs;
u8 num_txqs;
u16 rx_coal;
u16 tx_coal;
u8 num_sbs;
u8 num_mac_filters;
u8 num_vlan_filters;
struct ecore_vf_queue vf_queues[ECORE_MAX_VF_CHAINS_PER_PF];
u16 igu_sbs[ECORE_MAX_VF_CHAINS_PER_PF];
/* TODO - Only windows is using it - should be removed */
u8 was_malicious;
u8 num_active_rxqs;
void *ctx;
struct ecore_public_vf_info p_vf_info;
bool spoof_chk; /* Current configured on HW */
bool req_spoofchk_val; /* Requested value */
/* Stores the configuration requested by VF */
struct ecore_vf_shadow_config shadow_config;
/* A bitfield using bulletin's valid-map bits, used to indicate
* which of the bulletin board features have been configured.
*/
u64 configured_features;
#define ECORE_IOV_CONFIGURED_FEATURES_MASK ((1 << MAC_ADDR_FORCED) | \
(1 << VLAN_ADDR_FORCED))
};
/* This structure is part of ecore_hwfn and used only for PFs that have sriov
* capability enabled.
*/
struct ecore_pf_iov {
struct ecore_vf_info vfs_array[MAX_NUM_VFS_E4];
u64 pending_flr[ECORE_VF_ARRAY_LENGTH];
#ifndef REMOVE_DBG
/* This doesn't serve anything functionally, but it makes windows
* debugging of IOV related issues easier.
*/
u64 active_vfs[ECORE_VF_ARRAY_LENGTH];
#endif
/* Allocate message address continuosuly and split to each VF */
void *mbx_msg_virt_addr;
dma_addr_t mbx_msg_phys_addr;
u32 mbx_msg_size;
void *mbx_reply_virt_addr;
dma_addr_t mbx_reply_phys_addr;
u32 mbx_reply_size;
void *p_bulletins;
dma_addr_t bulletins_phys;
u32 bulletins_size;
};
#ifdef CONFIG_ECORE_SRIOV
/**
* @brief Read sriov related information and allocated resources
* reads from configuraiton space, shmem, etc.
*
* @param p_hwfn
*
* @return enum _ecore_status_t
*/
enum _ecore_status_t ecore_iov_hw_info(struct ecore_hwfn *p_hwfn);
/**
* @brief ecore_add_tlv - place a given tlv on the tlv buffer at next offset
*
* @param offset
* @param type
* @param length
*
* @return pointer to the newly placed tlv
*/
void *ecore_add_tlv(u8 **offset, u16 type, u16 length);
/**
* @brief list the types and lengths of the tlvs on the buffer
*
* @param p_hwfn
* @param tlvs_list
*/
void ecore_dp_tlv_list(struct ecore_hwfn *p_hwfn,
void *tlvs_list);
/**
* @brief ecore_iov_alloc - allocate sriov related resources
*
* @param p_hwfn
*
* @return enum _ecore_status_t
*/
enum _ecore_status_t ecore_iov_alloc(struct ecore_hwfn *p_hwfn);
/**
* @brief ecore_iov_setup - setup sriov related resources
*
* @param p_hwfn
*/
void ecore_iov_setup(struct ecore_hwfn *p_hwfn);
/**
* @brief ecore_iov_free - free sriov related resources
*
* @param p_hwfn
*/
void ecore_iov_free(struct ecore_hwfn *p_hwfn);
/**
* @brief free sriov related memory that was allocated during hw_prepare
*
* @param p_dev
*/
void ecore_iov_free_hw_info(struct ecore_dev *p_dev);
/**
* @brief Mark structs of vfs that have been FLR-ed.
*
* @param p_hwfn
* @param disabled_vfs - bitmask of all VFs on path that were FLRed
*
* @return 1 iff one of the PF's vfs got FLRed. 0 otherwise.
*/
bool ecore_iov_mark_vf_flr(struct ecore_hwfn *p_hwfn,
u32 *disabled_vfs);
/**
* @brief Search extended TLVs in request/reply buffer.
*
* @param p_hwfn
* @param p_tlvs_list - Pointer to tlvs list
* @param req_type - Type of TLV
*
* @return pointer to tlv type if found, otherwise returns NULL.
*/
void *ecore_iov_search_list_tlvs(struct ecore_hwfn *p_hwfn,
void *p_tlvs_list, u16 req_type);
/**
* @brief ecore_iov_get_vf_info - return the database of a
* specific VF
*
* @param p_hwfn
* @param relative_vf_id - relative id of the VF for which info
* is requested
* @param b_enabled_only - false iff want to access even if vf is disabled
*
* @return struct ecore_vf_info*
*/
struct ecore_vf_info *ecore_iov_get_vf_info(struct ecore_hwfn *p_hwfn,
u16 relative_vf_id,
bool b_enabled_only);
#endif
#endif /* __ECORE_SRIOV_H__ */