/* SPDX-License-Identifier: BSD-3-Clause
*
- * Copyright(c) 2019-2020 Xilinx, Inc.
+ * Copyright(c) 2019-2021 Xilinx, Inc.
* Copyright(c) 2019 Solarflare Communications Inc.
*
* This software was jointly developed between OKTET Labs (under contract
#include <stdbool.h>
+#include <rte_spinlock.h>
+
#include "efx.h"
#ifdef __cplusplus
extern "C" {
#endif
+/** FW-allocatable resource context */
+struct sfc_mae_fw_rsrc {
+ unsigned int refcnt;
+ RTE_STD_C11
+ union {
+ efx_mae_aset_id_t aset_id;
+ efx_mae_rule_id_t rule_id;
+ efx_mae_eh_id_t eh_id;
+ };
+};
+
+/** Outer rule registry entry */
+struct sfc_mae_outer_rule {
+ TAILQ_ENTRY(sfc_mae_outer_rule) entries;
+ unsigned int refcnt;
+ efx_mae_match_spec_t *match_spec;
+ efx_tunnel_protocol_t encap_type;
+ struct sfc_mae_fw_rsrc fw_rsrc;
+};
+
+TAILQ_HEAD(sfc_mae_outer_rules, sfc_mae_outer_rule);
+
+/** Encap. header registry entry */
+struct sfc_mae_encap_header {
+ TAILQ_ENTRY(sfc_mae_encap_header) entries;
+ unsigned int refcnt;
+ uint8_t *buf;
+ size_t size;
+ efx_tunnel_protocol_t type;
+ struct sfc_mae_fw_rsrc fw_rsrc;
+};
+
+TAILQ_HEAD(sfc_mae_encap_headers, sfc_mae_encap_header);
+
/** Action set registry entry */
struct sfc_mae_action_set {
TAILQ_ENTRY(sfc_mae_action_set) entries;
unsigned int refcnt;
efx_mae_actions_t *spec;
+ struct sfc_mae_encap_header *encap_header;
+ struct sfc_mae_fw_rsrc fw_rsrc;
};
TAILQ_HEAD(sfc_mae_action_sets, sfc_mae_action_set);
SFC_MAE_STATUS_SUPPORTED
};
+/*
+ * Encap. header bounce buffer. It is used to store header data
+ * when parsing the header definition in the action VXLAN_ENCAP.
+ */
+struct sfc_mae_bounce_eh {
+ uint8_t *buf;
+ size_t buf_size;
+ size_t size;
+ efx_tunnel_protocol_t type;
+};
+
struct sfc_mae {
+ /** Assigned switch domain identifier */
+ uint16_t switch_domain_id;
+ /** Assigned switch port identifier */
+ uint16_t switch_port_id;
/** NIC support for MAE status */
enum sfc_mae_status status;
+ /** Priority level limit for MAE outer rules */
+ unsigned int nb_outer_rule_prios_max;
/** Priority level limit for MAE action rules */
unsigned int nb_action_rule_prios_max;
+ /** Encapsulation support status */
+ uint32_t encap_types_supported;
+ /** Outer rule registry */
+ struct sfc_mae_outer_rules outer_rules;
+ /** Encap. header registry */
+ struct sfc_mae_encap_headers encap_headers;
/** Action set registry */
struct sfc_mae_action_sets action_sets;
+ /** Encap. header bounce buffer */
+ struct sfc_mae_bounce_eh bounce_eh;
};
struct sfc_adapter;
struct sfc_flow_spec;
+/** This implementation supports double-tagging */
+#define SFC_MAE_MATCH_VLAN_MAX_NTAGS (2)
+
+/** It is possible to keep track of one item ETH and two items VLAN */
+#define SFC_MAE_L2_MAX_NITEMS (SFC_MAE_MATCH_VLAN_MAX_NTAGS + 1)
+
+/** Auxiliary entry format to keep track of L2 "type" ("inner_type") */
+struct sfc_mae_ethertype {
+ rte_be16_t value;
+ rte_be16_t mask;
+};
+
+struct sfc_mae_pattern_data {
+ /**
+ * Keeps track of "type" ("inner_type") mask and value for each
+ * parsed L2 item in a pattern. These values/masks get filled
+ * in MAE match specification at the end of parsing. Also, this
+ * information is used to conduct consistency checks:
+ *
+ * - If an item ETH is followed by a single item VLAN,
+ * the former must have "type" set to one of supported
+ * TPID values (0x8100, 0x88a8, 0x9100, 0x9200, 0x9300),
+ * or 0x0000/0x0000.
+ *
+ * - If an item ETH is followed by two items VLAN, the
+ * item ETH must have "type" set to one of supported TPID
+ * values (0x88a8, 0x9100, 0x9200, 0x9300), or 0x0000/0x0000,
+ * and the outermost VLAN item must have "inner_type" set
+ * to TPID value 0x8100, or 0x0000/0x0000
+ *
+ * - If a L2 item is followed by a L3 one, the former must
+ * indicate "type" ("inner_type") which corresponds to
+ * the protocol used in the L3 item, or 0x0000/0x0000.
+ *
+ * In turn, mapping between RTE convention (above requirements) and
+ * MAE fields is non-trivial. The following scheme indicates
+ * which item EtherTypes go to which MAE fields in the case
+ * of single tag:
+ *
+ * ETH (0x8100) --> VLAN0_PROTO_BE
+ * VLAN (L3 EtherType) --> ETHER_TYPE_BE
+ *
+ * Similarly, in the case of double tagging:
+ *
+ * ETH (0x88a8) --> VLAN0_PROTO_BE
+ * VLAN (0x8100) --> VLAN1_PROTO_BE
+ * VLAN (L3 EtherType) --> ETHER_TYPE_BE
+ */
+ struct sfc_mae_ethertype ethertypes[SFC_MAE_L2_MAX_NITEMS];
+
+ rte_be16_t tci_masks[SFC_MAE_MATCH_VLAN_MAX_NTAGS];
+
+ unsigned int nb_vlan_tags;
+
+ /**
+ * L3 requirement for the innermost L2 item's "type" ("inner_type").
+ * This contains one of:
+ * - 0x0800/0xffff: IPV4
+ * - 0x86dd/0xffff: IPV6
+ * - 0x0000/0x0000: no L3 item
+ */
+ struct sfc_mae_ethertype innermost_ethertype_restriction;
+
+ /**
+ * The following two fields keep track of L3 "proto" mask and value.
+ * The corresponding fields get filled in MAE match specification
+ * at the end of parsing. Also, the information is used by a
+ * post-check to enforce consistency requirements:
+ *
+ * - If a L3 item is followed by an item TCP, the former has
+ * its "proto" set to either 0x06/0xff or 0x00/0x00.
+ *
+ * - If a L3 item is followed by an item UDP, the former has
+ * its "proto" set to either 0x11/0xff or 0x00/0x00.
+ */
+ uint8_t l3_next_proto_value;
+ uint8_t l3_next_proto_mask;
+
+ /*
+ * L4 requirement for L3 item's "proto".
+ * This contains one of:
+ * - 0x06/0xff: TCP
+ * - 0x11/0xff: UDP
+ * - 0x00/0x00: no L4 item
+ */
+ uint8_t l3_next_proto_restriction_value;
+ uint8_t l3_next_proto_restriction_mask;
+
+ /* Projected state of EFX_MAE_FIELD_HAS_OVLAN match bit */
+ bool has_ovlan_value;
+ bool has_ovlan_mask;
+
+ /* Projected state of EFX_MAE_FIELD_HAS_IVLAN match bit */
+ bool has_ivlan_value;
+ bool has_ivlan_mask;
+};
+
struct sfc_mae_parse_ctx {
+ struct sfc_adapter *sa;
efx_mae_match_spec_t *match_spec_action;
+ efx_mae_match_spec_t *match_spec_outer;
+ /*
+ * This points to either of the above two specifications depending
+ * on which part of the pattern is being parsed (outer / inner).
+ */
+ efx_mae_match_spec_t *match_spec;
+ /*
+ * This points to either "field_ids_remap_to_encap"
+ * or "field_ids_no_remap" (see sfc_mae.c) depending on
+ * which part of the pattern is being parsed.
+ */
+ const efx_mae_field_id_t *field_ids_remap;
+ /* These two fields correspond to the tunnel-specific default mask. */
+ size_t tunnel_def_mask_size;
+ const void *tunnel_def_mask;
bool match_mport_set;
+ struct sfc_mae_pattern_data pattern_data;
+ efx_tunnel_protocol_t encap_type;
+ unsigned int priority;
};
int sfc_mae_attach(struct sfc_adapter *sa);
struct rte_flow_error *error);
int sfc_mae_rule_parse_actions(struct sfc_adapter *sa,
const struct rte_flow_action actions[],
- struct sfc_mae_action_set **action_setp,
+ struct sfc_flow_spec_mae *spec_mae,
struct rte_flow_error *error);
sfc_flow_verify_cb_t sfc_mae_flow_verify;
+sfc_flow_insert_cb_t sfc_mae_flow_insert;
+sfc_flow_remove_cb_t sfc_mae_flow_remove;
#ifdef __cplusplus
}