numam-dpdk/drivers/net/octeontx2/otx2_flow.h
Satheesh Paul ce3a1c3164 net/octeontx2: support VF base steering rule
Adds support for merging a base steering rule with
all flow rules created on a VF.

Signed-off-by: Satheesh Paul <psatheesh@marvell.com>
Acked-by: Jerin Jacob <jerinj@marvell.com>
2020-11-03 23:35:06 +01:00

405 lines
11 KiB
C

/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(C) 2019 Marvell International Ltd.
*/
#ifndef __OTX2_FLOW_H__
#define __OTX2_FLOW_H__
#include <stdint.h>
#include <rte_flow_driver.h>
#include <rte_malloc.h>
#include <rte_tailq.h>
#include "otx2_common.h"
#include "otx2_ethdev.h"
#include "otx2_mbox.h"
struct otx2_eth_dev;
int otx2_flow_init(struct otx2_eth_dev *hw);
int otx2_flow_fini(struct otx2_eth_dev *hw);
extern const struct rte_flow_ops otx2_flow_ops;
enum {
OTX2_INTF_RX = 0,
OTX2_INTF_TX = 1,
OTX2_INTF_MAX = 2,
};
#define NPC_IH_LENGTH 8
#define NPC_TPID_LENGTH 2
#define NPC_HIGIG2_LENGTH 16
#define NPC_COUNTER_NONE (-1)
/* 32 bytes from LDATA_CFG & 32 bytes from FLAGS_CFG */
#define NPC_MAX_EXTRACT_DATA_LEN (64)
#define NPC_LDATA_LFLAG_LEN (16)
#define NPC_MCAM_TOT_ENTRIES (4096)
#define NPC_MAX_KEY_NIBBLES (31)
/* Nibble offsets */
#define NPC_LAYER_KEYX_SZ (3)
#define NPC_PARSE_KEX_S_LA_OFFSET (7)
#define NPC_PARSE_KEX_S_LID_OFFSET(lid) \
((((lid) - NPC_LID_LA) * NPC_LAYER_KEYX_SZ) \
+ NPC_PARSE_KEX_S_LA_OFFSET)
/* supported flow actions flags */
#define OTX2_FLOW_ACT_MARK (1 << 0)
#define OTX2_FLOW_ACT_FLAG (1 << 1)
#define OTX2_FLOW_ACT_DROP (1 << 2)
#define OTX2_FLOW_ACT_QUEUE (1 << 3)
#define OTX2_FLOW_ACT_RSS (1 << 4)
#define OTX2_FLOW_ACT_DUP (1 << 5)
#define OTX2_FLOW_ACT_SEC (1 << 6)
#define OTX2_FLOW_ACT_COUNT (1 << 7)
#define OTX2_FLOW_ACT_PF (1 << 8)
#define OTX2_FLOW_ACT_VF (1 << 9)
#define OTX2_FLOW_ACT_VLAN_STRIP (1 << 10)
#define OTX2_FLOW_ACT_VLAN_INSERT (1 << 11)
#define OTX2_FLOW_ACT_VLAN_ETHTYPE_INSERT (1 << 12)
#define OTX2_FLOW_ACT_VLAN_PCP_INSERT (1 << 13)
/* terminating actions */
#define OTX2_FLOW_ACT_TERM (OTX2_FLOW_ACT_DROP | \
OTX2_FLOW_ACT_QUEUE | \
OTX2_FLOW_ACT_RSS | \
OTX2_FLOW_ACT_DUP | \
OTX2_FLOW_ACT_SEC)
/* This mark value indicates flag action */
#define OTX2_FLOW_FLAG_VAL (0xffff)
#define NIX_RX_ACT_MATCH_OFFSET (40)
#define NIX_RX_ACT_MATCH_MASK (0xFFFF)
#define NIX_RSS_ACT_GRP_OFFSET (20)
#define NIX_RSS_ACT_ALG_OFFSET (56)
#define NIX_RSS_ACT_GRP_MASK (0xFFFFF)
#define NIX_RSS_ACT_ALG_MASK (0x1F)
/* PMD-specific definition of the opaque struct rte_flow */
#define OTX2_MAX_MCAM_WIDTH_DWORDS 7
enum npc_mcam_intf {
NPC_MCAM_RX,
NPC_MCAM_TX
};
struct npc_xtract_info {
/* Length in bytes of pkt data extracted. len = 0
* indicates that extraction is disabled.
*/
uint8_t len;
uint8_t hdr_off; /* Byte offset of proto hdr: extract_src */
uint8_t key_off; /* Byte offset in MCAM key where data is placed */
uint8_t enable; /* Extraction enabled or disabled */
uint8_t flags_enable; /* Flags extraction enabled */
};
/* Information for a given {LAYER, LTYPE} */
struct npc_lid_lt_xtract_info {
/* Info derived from parser configuration */
uint16_t npc_proto; /* Network protocol identified */
uint8_t valid_flags_mask; /* Flags applicable */
uint8_t is_terminating:1; /* No more parsing */
struct npc_xtract_info xtract[NPC_MAX_LD];
};
union npc_kex_ldata_flags_cfg {
struct {
#if defined(__BIG_ENDIAN_BITFIELD)
uint64_t rvsd_62_1 : 61;
uint64_t lid : 3;
#else
uint64_t lid : 3;
uint64_t rvsd_62_1 : 61;
#endif
} s;
uint64_t i;
};
typedef struct npc_lid_lt_xtract_info
otx2_dxcfg_t[NPC_MAX_INTF][NPC_MAX_LID][NPC_MAX_LT];
typedef struct npc_lid_lt_xtract_info
otx2_fxcfg_t[NPC_MAX_INTF][NPC_MAX_LD][NPC_MAX_LFL];
typedef union npc_kex_ldata_flags_cfg otx2_ld_flags_t[NPC_MAX_LD];
/* MBOX_MSG_NPC_GET_DATAX_CFG Response */
struct npc_get_datax_cfg {
/* NPC_AF_KEX_LDATA(0..1)_FLAGS_CFG */
union npc_kex_ldata_flags_cfg ld_flags[NPC_MAX_LD];
/* Extract information indexed with [LID][LTYPE] */
struct npc_lid_lt_xtract_info lid_lt_xtract[NPC_MAX_LID][NPC_MAX_LT];
/* Flags based extract indexed with [LDATA][FLAGS_LOWER_NIBBLE]
* Fields flags_ena_ld0, flags_ena_ld1 in
* struct npc_lid_lt_xtract_info indicate if this is applicable
* for a given {LAYER, LTYPE}
*/
struct npc_xtract_info flag_xtract[NPC_MAX_LD][NPC_MAX_LT];
};
struct otx2_mcam_ents_info {
/* Current max & min values of mcam index */
uint32_t max_id;
uint32_t min_id;
uint32_t free_ent;
uint32_t live_ent;
};
struct rte_flow {
uint8_t nix_intf;
uint32_t mcam_id;
int32_t ctr_id;
uint32_t priority;
/* Contiguous match string */
uint64_t mcam_data[OTX2_MAX_MCAM_WIDTH_DWORDS];
uint64_t mcam_mask[OTX2_MAX_MCAM_WIDTH_DWORDS];
uint64_t npc_action;
uint64_t vtag_action;
TAILQ_ENTRY(rte_flow) next;
};
TAILQ_HEAD(otx2_flow_list, rte_flow);
/* Accessed from ethdev private - otx2_eth_dev */
struct otx2_npc_flow_info {
rte_atomic32_t mark_actions;
uint32_t vtag_actions;
uint32_t keyx_supp_nmask[NPC_MAX_INTF];/* nibble mask */
uint32_t keyx_len[NPC_MAX_INTF]; /* per intf key len in bits */
uint32_t datax_len[NPC_MAX_INTF]; /* per intf data len in bits */
uint32_t keyw[NPC_MAX_INTF]; /* max key + data len bits */
uint32_t mcam_entries; /* mcam entries supported */
otx2_dxcfg_t prx_dxcfg; /* intf, lid, lt, extract */
otx2_fxcfg_t prx_fxcfg; /* Flag extract */
otx2_ld_flags_t prx_lfcfg; /* KEX LD_Flags CFG */
/* mcam entry info per priority level: both free & in-use */
struct otx2_mcam_ents_info *flow_entry_info;
/* Bitmap of free preallocated entries in ascending index &
* descending priority
*/
struct rte_bitmap **free_entries;
/* Bitmap of free preallocated entries in descending index &
* ascending priority
*/
struct rte_bitmap **free_entries_rev;
/* Bitmap of live entries in ascending index & descending priority */
struct rte_bitmap **live_entries;
/* Bitmap of live entries in descending index & ascending priority */
struct rte_bitmap **live_entries_rev;
/* Priority bucket wise tail queue of all rte_flow resources */
struct otx2_flow_list *flow_list;
uint32_t rss_grps; /* rss groups supported */
struct rte_bitmap *rss_grp_entries;
uint16_t channel; /*rx channel */
uint16_t flow_prealloc_size;
uint16_t flow_max_priority;
uint16_t switch_header_type;
};
struct otx2_parse_state {
struct otx2_npc_flow_info *npc;
const struct rte_flow_item *pattern;
const struct rte_flow_item *last_pattern; /* Temp usage */
struct rte_flow_error *error;
struct rte_flow *flow;
uint8_t tunnel;
uint8_t terminate;
uint8_t layer_mask;
uint8_t lt[NPC_MAX_LID];
uint8_t flags[NPC_MAX_LID];
uint8_t *mcam_data; /* point to flow->mcam_data + key_len */
uint8_t *mcam_mask; /* point to flow->mcam_mask + key_len */
bool is_vf;
};
struct otx2_flow_item_info {
const void *def_mask; /* rte_flow default mask */
void *hw_mask; /* hardware supported mask */
int len; /* length of item */
const void *spec; /* spec to use, NULL implies match any */
const void *mask; /* mask to use */
uint8_t hw_hdr_len; /* Extra data len at each layer*/
};
struct otx2_idev_kex_cfg {
struct npc_get_kex_cfg_rsp kex_cfg;
rte_atomic16_t kex_refcnt;
};
enum npc_kpu_parser_flag {
NPC_F_NA = 0,
NPC_F_PKI,
NPC_F_PKI_VLAN,
NPC_F_PKI_ETAG,
NPC_F_PKI_ITAG,
NPC_F_PKI_MPLS,
NPC_F_PKI_NSH,
NPC_F_ETYPE_UNK,
NPC_F_ETHER_VLAN,
NPC_F_ETHER_ETAG,
NPC_F_ETHER_ITAG,
NPC_F_ETHER_MPLS,
NPC_F_ETHER_NSH,
NPC_F_STAG_CTAG,
NPC_F_STAG_CTAG_UNK,
NPC_F_STAG_STAG_CTAG,
NPC_F_STAG_STAG_STAG,
NPC_F_QINQ_CTAG,
NPC_F_QINQ_CTAG_UNK,
NPC_F_QINQ_QINQ_CTAG,
NPC_F_QINQ_QINQ_QINQ,
NPC_F_BTAG_ITAG,
NPC_F_BTAG_ITAG_STAG,
NPC_F_BTAG_ITAG_CTAG,
NPC_F_BTAG_ITAG_UNK,
NPC_F_ETAG_CTAG,
NPC_F_ETAG_BTAG_ITAG,
NPC_F_ETAG_STAG,
NPC_F_ETAG_QINQ,
NPC_F_ETAG_ITAG,
NPC_F_ETAG_ITAG_STAG,
NPC_F_ETAG_ITAG_CTAG,
NPC_F_ETAG_ITAG_UNK,
NPC_F_ITAG_STAG_CTAG,
NPC_F_ITAG_STAG,
NPC_F_ITAG_CTAG,
NPC_F_MPLS_4_LABELS,
NPC_F_MPLS_3_LABELS,
NPC_F_MPLS_2_LABELS,
NPC_F_IP_HAS_OPTIONS,
NPC_F_IP_IP_IN_IP,
NPC_F_IP_6TO4,
NPC_F_IP_MPLS_IN_IP,
NPC_F_IP_UNK_PROTO,
NPC_F_IP_IP_IN_IP_HAS_OPTIONS,
NPC_F_IP_6TO4_HAS_OPTIONS,
NPC_F_IP_MPLS_IN_IP_HAS_OPTIONS,
NPC_F_IP_UNK_PROTO_HAS_OPTIONS,
NPC_F_IP6_HAS_EXT,
NPC_F_IP6_TUN_IP6,
NPC_F_IP6_MPLS_IN_IP,
NPC_F_TCP_HAS_OPTIONS,
NPC_F_TCP_HTTP,
NPC_F_TCP_HTTPS,
NPC_F_TCP_PPTP,
NPC_F_TCP_UNK_PORT,
NPC_F_TCP_HTTP_HAS_OPTIONS,
NPC_F_TCP_HTTPS_HAS_OPTIONS,
NPC_F_TCP_PPTP_HAS_OPTIONS,
NPC_F_TCP_UNK_PORT_HAS_OPTIONS,
NPC_F_UDP_VXLAN,
NPC_F_UDP_VXLAN_NOVNI,
NPC_F_UDP_VXLAN_NOVNI_NSH,
NPC_F_UDP_VXLANGPE,
NPC_F_UDP_VXLANGPE_NSH,
NPC_F_UDP_VXLANGPE_MPLS,
NPC_F_UDP_VXLANGPE_NOVNI,
NPC_F_UDP_VXLANGPE_NOVNI_NSH,
NPC_F_UDP_VXLANGPE_NOVNI_MPLS,
NPC_F_UDP_VXLANGPE_UNK,
NPC_F_UDP_VXLANGPE_NONP,
NPC_F_UDP_GTP_GTPC,
NPC_F_UDP_GTP_GTPU_G_PDU,
NPC_F_UDP_GTP_GTPU_UNK,
NPC_F_UDP_UNK_PORT,
NPC_F_UDP_GENEVE,
NPC_F_UDP_GENEVE_OAM,
NPC_F_UDP_GENEVE_CRI_OPT,
NPC_F_UDP_GENEVE_OAM_CRI_OPT,
NPC_F_GRE_NVGRE,
NPC_F_GRE_HAS_SRE,
NPC_F_GRE_HAS_CSUM,
NPC_F_GRE_HAS_KEY,
NPC_F_GRE_HAS_SEQ,
NPC_F_GRE_HAS_CSUM_KEY,
NPC_F_GRE_HAS_CSUM_SEQ,
NPC_F_GRE_HAS_KEY_SEQ,
NPC_F_GRE_HAS_CSUM_KEY_SEQ,
NPC_F_GRE_HAS_ROUTE,
NPC_F_GRE_UNK_PROTO,
NPC_F_GRE_VER1,
NPC_F_GRE_VER1_HAS_SEQ,
NPC_F_GRE_VER1_HAS_ACK,
NPC_F_GRE_VER1_HAS_SEQ_ACK,
NPC_F_GRE_VER1_UNK_PROTO,
NPC_F_TU_ETHER_UNK,
NPC_F_TU_ETHER_CTAG,
NPC_F_TU_ETHER_CTAG_UNK,
NPC_F_TU_ETHER_STAG_CTAG,
NPC_F_TU_ETHER_STAG_CTAG_UNK,
NPC_F_TU_ETHER_STAG,
NPC_F_TU_ETHER_STAG_UNK,
NPC_F_TU_ETHER_QINQ_CTAG,
NPC_F_TU_ETHER_QINQ_CTAG_UNK,
NPC_F_TU_ETHER_QINQ,
NPC_F_TU_ETHER_QINQ_UNK,
NPC_F_LAST /* has to be the last item */
};
int otx2_flow_mcam_free_counter(struct otx2_mbox *mbox, uint16_t ctr_id);
int otx2_flow_mcam_read_counter(struct otx2_mbox *mbox, uint32_t ctr_id,
uint64_t *count);
int otx2_flow_mcam_clear_counter(struct otx2_mbox *mbox, uint32_t ctr_id);
int otx2_flow_mcam_free_entry(struct otx2_mbox *mbox, uint32_t entry);
int otx2_flow_mcam_free_all_entries(struct otx2_mbox *mbox);
int otx2_flow_update_parse_state(struct otx2_parse_state *pst,
struct otx2_flow_item_info *info,
int lid, int lt, uint8_t flags);
int otx2_flow_parse_item_basic(const struct rte_flow_item *item,
struct otx2_flow_item_info *info,
struct rte_flow_error *error);
void otx2_flow_keyx_compress(uint64_t *data, uint32_t nibble_mask);
int otx2_flow_mcam_alloc_and_write(struct rte_flow *flow,
struct otx2_mbox *mbox,
struct otx2_parse_state *pst,
struct otx2_npc_flow_info *flow_info);
void otx2_flow_get_hw_supp_mask(struct otx2_parse_state *pst,
struct otx2_flow_item_info *info,
int lid, int lt);
const struct rte_flow_item *
otx2_flow_skip_void_and_any_items(const struct rte_flow_item *pattern);
int otx2_flow_parse_lh(struct otx2_parse_state *pst);
int otx2_flow_parse_lg(struct otx2_parse_state *pst);
int otx2_flow_parse_lf(struct otx2_parse_state *pst);
int otx2_flow_parse_le(struct otx2_parse_state *pst);
int otx2_flow_parse_ld(struct otx2_parse_state *pst);
int otx2_flow_parse_lc(struct otx2_parse_state *pst);
int otx2_flow_parse_lb(struct otx2_parse_state *pst);
int otx2_flow_parse_la(struct otx2_parse_state *pst);
int otx2_flow_parse_higig2_hdr(struct otx2_parse_state *pst);
int otx2_flow_parse_actions(struct rte_eth_dev *dev,
const struct rte_flow_attr *attr,
const struct rte_flow_action actions[],
struct rte_flow_error *error,
struct rte_flow *flow);
int otx2_flow_free_all_resources(struct otx2_eth_dev *hw);
int otx2_flow_parse_mpls(struct otx2_parse_state *pst, int lid);
#endif /* __OTX2_FLOW_H__ */