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Flow Director allows for redirection based on ntuple rules. Rules are programmed using the ethtool set-ntuple interface. Supported actions are redirect to queue and drop. Setup the initial framework to process Flow Director filters. Create and allocate resources to manage and program filters to the hardware. Filters are processed via a sideband interface; a control VSI is created to manage communication and process requests through the sideband. Upon allocation of resources, update the hardware tables to accept perfect filters. Signed-off-by: Henry Tieman <henry.w.tieman@intel.com> Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com> Tested-by: Andrew Bowers <andrewx.bowers@intel.com> Signed-off-by: Jeff Kirsher <jeffrey.t.kirsher@intel.com>
252 lines
7.2 KiB
C
252 lines
7.2 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/* Copyright (c) 2018, Intel Corporation. */
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#ifndef _ICE_SWITCH_H_
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#define _ICE_SWITCH_H_
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#include "ice_common.h"
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#define ICE_SW_CFG_MAX_BUF_LEN 2048
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#define ICE_DFLT_VSI_INVAL 0xff
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#define ICE_FLTR_RX BIT(0)
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#define ICE_FLTR_TX BIT(1)
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#define ICE_FLTR_TX_RX (ICE_FLTR_RX | ICE_FLTR_TX)
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#define ICE_VSI_INVAL_ID 0xffff
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#define ICE_INVAL_Q_HANDLE 0xFFFF
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/* VSI context structure for add/get/update/free operations */
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struct ice_vsi_ctx {
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u16 vsi_num;
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u16 vsis_allocd;
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u16 vsis_unallocated;
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u16 flags;
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struct ice_aqc_vsi_props info;
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struct ice_sched_vsi_info sched;
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u8 alloc_from_pool;
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u8 vf_num;
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u16 num_lan_q_entries[ICE_MAX_TRAFFIC_CLASS];
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struct ice_q_ctx *lan_q_ctx[ICE_MAX_TRAFFIC_CLASS];
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};
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enum ice_sw_fwd_act_type {
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ICE_FWD_TO_VSI = 0,
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ICE_FWD_TO_VSI_LIST, /* Do not use this when adding filter */
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ICE_FWD_TO_Q,
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ICE_FWD_TO_QGRP,
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ICE_DROP_PACKET,
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ICE_INVAL_ACT
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};
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/* Switch recipe ID enum values are specific to hardware */
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enum ice_sw_lkup_type {
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ICE_SW_LKUP_ETHERTYPE = 0,
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ICE_SW_LKUP_MAC = 1,
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ICE_SW_LKUP_MAC_VLAN = 2,
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ICE_SW_LKUP_PROMISC = 3,
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ICE_SW_LKUP_VLAN = 4,
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ICE_SW_LKUP_DFLT = 5,
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ICE_SW_LKUP_ETHERTYPE_MAC = 8,
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ICE_SW_LKUP_PROMISC_VLAN = 9,
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ICE_SW_LKUP_LAST
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};
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/* type of filter src ID */
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enum ice_src_id {
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ICE_SRC_ID_UNKNOWN = 0,
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ICE_SRC_ID_VSI,
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ICE_SRC_ID_QUEUE,
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ICE_SRC_ID_LPORT,
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};
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struct ice_fltr_info {
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/* Look up information: how to look up packet */
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enum ice_sw_lkup_type lkup_type;
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/* Forward action: filter action to do after lookup */
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enum ice_sw_fwd_act_type fltr_act;
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/* rule ID returned by firmware once filter rule is created */
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u16 fltr_rule_id;
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u16 flag;
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/* Source VSI for LOOKUP_TX or source port for LOOKUP_RX */
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u16 src;
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enum ice_src_id src_id;
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union {
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struct {
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u8 mac_addr[ETH_ALEN];
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} mac;
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struct {
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u8 mac_addr[ETH_ALEN];
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u16 vlan_id;
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} mac_vlan;
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struct {
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u16 vlan_id;
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} vlan;
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/* Set lkup_type as ICE_SW_LKUP_ETHERTYPE
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* if just using ethertype as filter. Set lkup_type as
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* ICE_SW_LKUP_ETHERTYPE_MAC if MAC also needs to be
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* passed in as filter.
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*/
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struct {
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u16 ethertype;
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u8 mac_addr[ETH_ALEN]; /* optional */
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} ethertype_mac;
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} l_data; /* Make sure to zero out the memory of l_data before using
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* it or only set the data associated with lookup match
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* rest everything should be zero
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*/
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/* Depending on filter action */
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union {
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/* queue ID in case of ICE_FWD_TO_Q and starting
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* queue ID in case of ICE_FWD_TO_QGRP.
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*/
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u16 q_id:11;
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u16 hw_vsi_id:10;
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u16 vsi_list_id:10;
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} fwd_id;
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/* Sw VSI handle */
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u16 vsi_handle;
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/* Set to num_queues if action is ICE_FWD_TO_QGRP. This field
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* determines the range of queues the packet needs to be forwarded to.
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* Note that qgrp_size must be set to a power of 2.
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*/
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u8 qgrp_size;
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/* Rule creations populate these indicators basing on the switch type */
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u8 lb_en; /* Indicate if packet can be looped back */
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u8 lan_en; /* Indicate if packet can be forwarded to the uplink */
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};
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struct ice_sw_recipe {
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struct list_head l_entry;
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/* To protect modification of filt_rule list
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* defined below
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*/
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struct mutex filt_rule_lock;
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/* List of type ice_fltr_mgmt_list_entry */
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struct list_head filt_rules;
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struct list_head filt_replay_rules;
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/* linked list of type recipe_list_entry */
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struct list_head rg_list;
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/* linked list of type ice_sw_fv_list_entry*/
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struct list_head fv_list;
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struct ice_aqc_recipe_data_elem *r_buf;
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u8 recp_count;
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u8 root_rid;
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u8 num_profs;
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u8 *prof_ids;
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/* recipe bitmap: what all recipes makes this recipe */
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DECLARE_BITMAP(r_bitmap, ICE_MAX_NUM_RECIPES);
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};
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/* Bookkeeping structure to hold bitmap of VSIs corresponding to VSI list ID */
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struct ice_vsi_list_map_info {
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struct list_head list_entry;
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DECLARE_BITMAP(vsi_map, ICE_MAX_VSI);
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u16 vsi_list_id;
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/* counter to track how many rules are reusing this VSI list */
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u16 ref_cnt;
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};
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struct ice_fltr_list_entry {
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struct list_head list_entry;
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enum ice_status status;
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struct ice_fltr_info fltr_info;
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};
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/* This defines an entry in the list that maintains MAC or VLAN membership
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* to HW list mapping, since multiple VSIs can subscribe to the same MAC or
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* VLAN. As an optimization the VSI list should be created only when a
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* second VSI becomes a subscriber to the same MAC address. VSI lists are always
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* used for VLAN membership.
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*/
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struct ice_fltr_mgmt_list_entry {
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/* back pointer to VSI list ID to VSI list mapping */
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struct ice_vsi_list_map_info *vsi_list_info;
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u16 vsi_count;
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#define ICE_INVAL_LG_ACT_INDEX 0xffff
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u16 lg_act_idx;
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#define ICE_INVAL_SW_MARKER_ID 0xffff
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u16 sw_marker_id;
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struct list_head list_entry;
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struct ice_fltr_info fltr_info;
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#define ICE_INVAL_COUNTER_ID 0xff
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u8 counter_index;
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};
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enum ice_promisc_flags {
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ICE_PROMISC_UCAST_RX = 0x1,
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ICE_PROMISC_UCAST_TX = 0x2,
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ICE_PROMISC_MCAST_RX = 0x4,
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ICE_PROMISC_MCAST_TX = 0x8,
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ICE_PROMISC_BCAST_RX = 0x10,
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ICE_PROMISC_BCAST_TX = 0x20,
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ICE_PROMISC_VLAN_RX = 0x40,
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ICE_PROMISC_VLAN_TX = 0x80,
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};
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/* VSI related commands */
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enum ice_status
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ice_add_vsi(struct ice_hw *hw, u16 vsi_handle, struct ice_vsi_ctx *vsi_ctx,
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struct ice_sq_cd *cd);
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enum ice_status
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ice_free_vsi(struct ice_hw *hw, u16 vsi_handle, struct ice_vsi_ctx *vsi_ctx,
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bool keep_vsi_alloc, struct ice_sq_cd *cd);
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enum ice_status
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ice_update_vsi(struct ice_hw *hw, u16 vsi_handle, struct ice_vsi_ctx *vsi_ctx,
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struct ice_sq_cd *cd);
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bool ice_is_vsi_valid(struct ice_hw *hw, u16 vsi_handle);
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struct ice_vsi_ctx *ice_get_vsi_ctx(struct ice_hw *hw, u16 vsi_handle);
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void ice_clear_all_vsi_ctx(struct ice_hw *hw);
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/* Switch config */
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enum ice_status ice_get_initial_sw_cfg(struct ice_hw *hw);
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enum ice_status
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ice_alloc_res_cntr(struct ice_hw *hw, u8 type, u8 alloc_shared, u16 num_items,
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u16 *counter_id);
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enum ice_status
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ice_free_res_cntr(struct ice_hw *hw, u8 type, u8 alloc_shared, u16 num_items,
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u16 counter_id);
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/* Switch/bridge related commands */
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enum ice_status ice_update_sw_rule_bridge_mode(struct ice_hw *hw);
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enum ice_status ice_add_mac(struct ice_hw *hw, struct list_head *m_lst);
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enum ice_status ice_remove_mac(struct ice_hw *hw, struct list_head *m_lst);
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enum ice_status
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ice_add_eth_mac(struct ice_hw *hw, struct list_head *em_list);
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enum ice_status
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ice_remove_eth_mac(struct ice_hw *hw, struct list_head *em_list);
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void ice_remove_vsi_fltr(struct ice_hw *hw, u16 vsi_handle);
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enum ice_status
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ice_add_vlan(struct ice_hw *hw, struct list_head *m_list);
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enum ice_status ice_remove_vlan(struct ice_hw *hw, struct list_head *v_list);
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/* Promisc/defport setup for VSIs */
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enum ice_status
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ice_cfg_dflt_vsi(struct ice_hw *hw, u16 vsi_handle, bool set, u8 direction);
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enum ice_status
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ice_set_vsi_promisc(struct ice_hw *hw, u16 vsi_handle, u8 promisc_mask,
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u16 vid);
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enum ice_status
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ice_clear_vsi_promisc(struct ice_hw *hw, u16 vsi_handle, u8 promisc_mask,
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u16 vid);
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enum ice_status
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ice_set_vlan_vsi_promisc(struct ice_hw *hw, u16 vsi_handle, u8 promisc_mask,
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bool rm_vlan_promisc);
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enum ice_status ice_init_def_sw_recp(struct ice_hw *hw);
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u16 ice_get_hw_vsi_num(struct ice_hw *hw, u16 vsi_handle);
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bool ice_is_vsi_valid(struct ice_hw *hw, u16 vsi_handle);
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enum ice_status ice_replay_vsi_all_fltr(struct ice_hw *hw, u16 vsi_handle);
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void ice_rm_all_sw_replay_rule_info(struct ice_hw *hw);
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#endif /* _ICE_SWITCH_H_ */
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