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linux/drivers/net/ethernet/intel/ice/ice_tc_lib.h
Michal Swiatkowski 9e300987d4 ice: VXLAN and Geneve TC support 
Add definition for VXLAN and Geneve dummy packet. Define VXLAN and
Geneve type of fields to match on correct UDP tunnel header.

Parse tunnel specific fields from TC tool like outer MACs, outer IPs,
outer destination port and VNI. Save values and masks in outer header
struct and move header pointer to inner to simplify parsing inner
values.

There are two cases for redirect action:
- from uplink to VF - TC filter is added on tunnel device
- from VF to uplink - TC filter is added on PR, for this case check if
  redirect device is tunnel device

VXLAN example:
- create tunnel device
ip l add $VXLAN_DEV type vxlan id $VXLAN_VNI dstport $VXLAN_PORT \
dev $PF
- add TC filter (in switchdev mode)
tc filter add dev $VXLAN_DEV protocol ip parent ffff: flower \
enc_dst_ip $VF1_IP enc_key_id $VXLAN_VNI action mirred egress \
redirect dev $VF1_PR

Geneve example:
- create tunnel device
ip l add $GENEVE_DEV type geneve id $GENEVE_VNI dstport $GENEVE_PORT \
remote $GENEVE_IP
- add TC filter (in switchdev mode)
tc filter add dev $GENEVE_DEV protocol ip parent ffff: flower \
enc_key_id $GENEVE_VNI dst_ip $GENEVE1_IP action mirred egress \
redirect dev $VF1_PR

Signed-off-by: Michal Swiatkowski <michal.swiatkowski@linux.intel.com>
Tested-by: Sandeep Penigalapati <sandeep.penigalapati@intel.com>
Signed-off-by: Tony Nguyen <anthony.l.nguyen@intel.com>
2021-10-28 11:00:18 -07:00

163 lines
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/* SPDX-License-Identifier: GPL-2.0 */
/* Copyright (C) 2019-2021, Intel Corporation. */
#ifndef _ICE_TC_LIB_H_
#define _ICE_TC_LIB_H_
#define ICE_TC_FLWR_FIELD_DST_MAC BIT(0)
#define ICE_TC_FLWR_FIELD_SRC_MAC BIT(1)
#define ICE_TC_FLWR_FIELD_VLAN BIT(2)
#define ICE_TC_FLWR_FIELD_DEST_IPV4 BIT(3)
#define ICE_TC_FLWR_FIELD_SRC_IPV4 BIT(4)
#define ICE_TC_FLWR_FIELD_DEST_IPV6 BIT(5)
#define ICE_TC_FLWR_FIELD_SRC_IPV6 BIT(6)
#define ICE_TC_FLWR_FIELD_DEST_L4_PORT BIT(7)
#define ICE_TC_FLWR_FIELD_SRC_L4_PORT BIT(8)
#define ICE_TC_FLWR_FIELD_TENANT_ID BIT(9)
#define ICE_TC_FLWR_FIELD_ENC_DEST_IPV4 BIT(10)
#define ICE_TC_FLWR_FIELD_ENC_SRC_IPV4 BIT(11)
#define ICE_TC_FLWR_FIELD_ENC_DEST_IPV6 BIT(12)
#define ICE_TC_FLWR_FIELD_ENC_SRC_IPV6 BIT(13)
#define ICE_TC_FLWR_FIELD_ENC_DEST_L4_PORT BIT(14)
#define ICE_TC_FLWR_FIELD_ENC_SRC_L4_PORT BIT(15)
#define ICE_TC_FLWR_FIELD_ENC_DST_MAC BIT(16)
#define ICE_TC_FLWR_FIELD_ETH_TYPE_ID BIT(17)
#define ICE_TC_FLOWER_MASK_32 0xFFFFFFFF
struct ice_indr_block_priv {
struct net_device *netdev;
struct ice_netdev_priv *np;
struct list_head list;
};
struct ice_tc_flower_action {
u32 tc_class;
enum ice_sw_fwd_act_type fltr_act;
};
struct ice_tc_vlan_hdr {
__be16 vlan_id; /* Only last 12 bits valid */
u16 vlan_prio; /* Only last 3 bits valid (valid values: 0..7) */
};
struct ice_tc_l2_hdr {
u8 dst_mac[ETH_ALEN];
u8 src_mac[ETH_ALEN];
__be16 n_proto; /* Ethernet Protocol */
};
struct ice_tc_l3_hdr {
u8 ip_proto; /* IPPROTO value */
union {
struct {
struct in_addr dst_ip;
struct in_addr src_ip;
} v4;
struct {
struct in6_addr dst_ip6;
struct in6_addr src_ip6;
} v6;
} ip;
#define dst_ipv6 ip.v6.dst_ip6.s6_addr32
#define dst_ipv6_addr ip.v6.dst_ip6.s6_addr
#define src_ipv6 ip.v6.src_ip6.s6_addr32
#define src_ipv6_addr ip.v6.src_ip6.s6_addr
#define dst_ipv4 ip.v4.dst_ip.s_addr
#define src_ipv4 ip.v4.src_ip.s_addr
u8 tos;
u8 ttl;
};
struct ice_tc_l4_hdr {
__be16 dst_port;
__be16 src_port;
};
struct ice_tc_flower_lyr_2_4_hdrs {
/* L2 layer fields with their mask */
struct ice_tc_l2_hdr l2_key;
struct ice_tc_l2_hdr l2_mask;
struct ice_tc_vlan_hdr vlan_hdr;
/* L3 (IPv4[6]) layer fields with their mask */
struct ice_tc_l3_hdr l3_key;
struct ice_tc_l3_hdr l3_mask;
/* L4 layer fields with their mask */
struct ice_tc_l4_hdr l4_key;
struct ice_tc_l4_hdr l4_mask;
};
enum ice_eswitch_fltr_direction {
ICE_ESWITCH_FLTR_INGRESS,
ICE_ESWITCH_FLTR_EGRESS,
};
struct ice_tc_flower_fltr {
struct hlist_node tc_flower_node;
/* cookie becomes filter_rule_id if rule is added successfully */
unsigned long cookie;
/* add_adv_rule returns information like recipe ID, rule_id. Store
* those values since they are needed to remove advanced rule
*/
u16 rid;
u16 rule_id;
/* this could be queue/vsi_idx (sw handle)/queue_group, depending upon
* destination type
*/
u16 dest_id;
/* if dest_id is vsi_idx, then need to store destination VSI ptr */
struct ice_vsi *dest_vsi;
/* direction of fltr for eswitch use case */
enum ice_eswitch_fltr_direction direction;
/* Parsed TC flower configuration params */
struct ice_tc_flower_lyr_2_4_hdrs outer_headers;
struct ice_tc_flower_lyr_2_4_hdrs inner_headers;
struct ice_vsi *src_vsi;
__be32 tenant_id;
u32 flags;
u8 tunnel_type;
struct ice_tc_flower_action action;
/* cache ptr which is used wherever needed to communicate netlink
* messages
*/
struct netlink_ext_ack *extack;
};
/**
* ice_is_chnl_fltr - is this a valid channel filter
* @f: Pointer to tc-flower filter
*
* Criteria to determine of given filter is valid channel filter
* or not is based on its "destination". If destination is hw_tc (aka tc_class)
* and it is non-zero, then it is valid channel (aka ADQ) filter
*/
static inline bool ice_is_chnl_fltr(struct ice_tc_flower_fltr *f)
{
return !!f->action.tc_class;
}
/**
* ice_chnl_dmac_fltr_cnt - DMAC based CHNL filter count
* @pf: Pointer to PF
*/
static inline int ice_chnl_dmac_fltr_cnt(struct ice_pf *pf)
{
return pf->num_dmac_chnl_fltrs;
}
int
ice_add_cls_flower(struct net_device *netdev, struct ice_vsi *vsi,
struct flow_cls_offload *cls_flower);
int
ice_del_cls_flower(struct ice_vsi *vsi, struct flow_cls_offload *cls_flower);
void ice_replay_tc_fltrs(struct ice_pf *pf);
bool ice_is_tunnel_supported(struct net_device *dev);
#endif /* _ICE_TC_LIB_H_ */
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