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Elixir Cross Referencer

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/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright(c) 2020 Intel Corporation
 */

#include <sys/queue.h>
#include <stdio.h>
#include <errno.h>
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <stdarg.h>

#include <rte_ether.h>
#include <ethdev_driver.h>
#include <rte_malloc.h>
#include <rte_tailq.h>

#include "iavf.h"
#include "iavf_generic_flow.h"
#include "virtchnl.h"
#include "iavf_rxtx.h"

#define IAVF_FDIR_MAX_QREGION_SIZE 128

#define IAVF_FDIR_IPV6_TC_OFFSET 20
#define IAVF_IPV6_TC_MASK  (0xFF << IAVF_FDIR_IPV6_TC_OFFSET)

#define IAVF_GTPU_EH_DWLINK 0
#define IAVF_GTPU_EH_UPLINK 1

#define IAVF_FDIR_INSET_ETH (\
	IAVF_INSET_ETHERTYPE)

#define IAVF_FDIR_INSET_ETH_IPV4 (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_IPV4_PROTO | IAVF_INSET_IPV4_TOS | \
	IAVF_INSET_IPV4_TTL)

#define IAVF_FDIR_INSET_ETH_IPV4_UDP (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_IPV4_TOS | IAVF_INSET_IPV4_TTL | \
	IAVF_INSET_UDP_SRC_PORT | IAVF_INSET_UDP_DST_PORT)

#define IAVF_FDIR_INSET_ETH_IPV4_TCP (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_IPV4_TOS | IAVF_INSET_IPV4_TTL | \
	IAVF_INSET_TCP_SRC_PORT | IAVF_INSET_TCP_DST_PORT)

#define IAVF_FDIR_INSET_ETH_IPV4_SCTP (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_IPV4_TOS | IAVF_INSET_IPV4_TTL | \
	IAVF_INSET_SCTP_SRC_PORT | IAVF_INSET_SCTP_DST_PORT)

#define IAVF_FDIR_INSET_ETH_IPV6 (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_IPV6_NEXT_HDR | IAVF_INSET_IPV6_TC | \
	IAVF_INSET_IPV6_HOP_LIMIT)

#define IAVF_FDIR_INSET_ETH_IPV6_UDP (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_IPV6_TC | IAVF_INSET_IPV6_HOP_LIMIT | \
	IAVF_INSET_UDP_SRC_PORT | IAVF_INSET_UDP_DST_PORT)

#define IAVF_FDIR_INSET_ETH_IPV6_TCP (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_IPV6_TC | IAVF_INSET_IPV6_HOP_LIMIT | \
	IAVF_INSET_TCP_SRC_PORT | IAVF_INSET_TCP_DST_PORT)

#define IAVF_FDIR_INSET_ETH_IPV6_SCTP (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_IPV6_TC | IAVF_INSET_IPV6_HOP_LIMIT | \
	IAVF_INSET_SCTP_SRC_PORT | IAVF_INSET_SCTP_DST_PORT)

#define IAVF_FDIR_INSET_IPV4_GTPU (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_GTPU_TEID)

#define IAVF_FDIR_INSET_IPV4_GTPU_EH (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_GTPU_TEID | IAVF_INSET_GTPU_QFI)

#define IAVF_FDIR_INSET_IPV6_GTPU (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_GTPU_TEID)

#define IAVF_FDIR_INSET_IPV6_GTPU_EH (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_GTPU_TEID | IAVF_INSET_GTPU_QFI)

#define IAVF_FDIR_INSET_L2TPV3OIP (\
	IAVF_L2TPV3OIP_SESSION_ID)

#define IAVF_FDIR_INSET_ESP (\
	IAVF_INSET_ESP_SPI)

#define IAVF_FDIR_INSET_AH (\
	IAVF_INSET_AH_SPI)

#define IAVF_FDIR_INSET_IPV4_NATT_ESP (\
	IAVF_INSET_IPV4_SRC | IAVF_INSET_IPV4_DST | \
	IAVF_INSET_ESP_SPI)

#define IAVF_FDIR_INSET_IPV6_NATT_ESP (\
	IAVF_INSET_IPV6_SRC | IAVF_INSET_IPV6_DST | \
	IAVF_INSET_ESP_SPI)

#define IAVF_FDIR_INSET_PFCP (\
	IAVF_INSET_PFCP_S_FIELD)

#define IAVF_FDIR_INSET_ECPRI (\
	IAVF_INSET_ECPRI)

static struct iavf_pattern_match_item iavf_fdir_pattern[] = {
	{iavf_pattern_ethertype,		IAVF_FDIR_INSET_ETH,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4,			IAVF_FDIR_INSET_ETH_IPV4,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_udp,		IAVF_FDIR_INSET_ETH_IPV4_UDP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_tcp,		IAVF_FDIR_INSET_ETH_IPV4_TCP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_sctp,		IAVF_FDIR_INSET_ETH_IPV4_SCTP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6,			IAVF_FDIR_INSET_ETH_IPV6,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_udp,		IAVF_FDIR_INSET_ETH_IPV6_UDP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_tcp,		IAVF_FDIR_INSET_ETH_IPV6_TCP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_sctp,		IAVF_FDIR_INSET_ETH_IPV6_SCTP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_gtpu,		IAVF_FDIR_INSET_IPV4_GTPU,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_gtpu_eh,		IAVF_FDIR_INSET_IPV4_GTPU_EH,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_gtpu,		IAVF_FDIR_INSET_IPV6_GTPU,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_gtpu_eh,		IAVF_FDIR_INSET_IPV6_GTPU_EH,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_l2tpv3,		IAVF_FDIR_INSET_L2TPV3OIP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_l2tpv3,		IAVF_FDIR_INSET_L2TPV3OIP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_esp,		IAVF_FDIR_INSET_ESP,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_esp,		IAVF_FDIR_INSET_ESP,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_ah,		IAVF_FDIR_INSET_AH,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_ah,		IAVF_FDIR_INSET_AH,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_udp_esp,		IAVF_FDIR_INSET_IPV4_NATT_ESP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_udp_esp,		IAVF_FDIR_INSET_IPV6_NATT_ESP,		IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_pfcp,		IAVF_FDIR_INSET_PFCP,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv6_pfcp,		IAVF_FDIR_INSET_PFCP,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ecpri,		IAVF_FDIR_INSET_ECPRI,			IAVF_INSET_NONE},
	{iavf_pattern_eth_ipv4_ecpri,		IAVF_FDIR_INSET_ECPRI,			IAVF_INSET_NONE},
};

static struct iavf_flow_parser iavf_fdir_parser;

static int
iavf_fdir_init(struct iavf_adapter *ad)
{
	struct iavf_info *vf = IAVF_DEV_PRIVATE_TO_VF(ad);
	struct iavf_flow_parser *parser;

	if (!vf->vf_res)
		return -EINVAL;

	if (vf->vf_res->vf_cap_flags & VIRTCHNL_VF_OFFLOAD_FDIR_PF)
		parser = &iavf_fdir_parser;
	else
		return -ENOTSUP;

	return iavf_register_parser(parser, ad);
}

static void
iavf_fdir_uninit(struct iavf_adapter *ad)
{
	iavf_unregister_parser(&iavf_fdir_parser, ad);
}

static int
iavf_fdir_create(struct iavf_adapter *ad,
		struct rte_flow *flow,
		void *meta,
		struct rte_flow_error *error)
{
	struct iavf_fdir_conf *filter = meta;
	struct iavf_fdir_conf *rule;
	int ret;

	rule = rte_zmalloc("fdir_entry", sizeof(*rule), 0);
	if (!rule) {
		rte_flow_error_set(error, ENOMEM,
				RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
				"Failed to allocate memory for fdir rule");
		return -rte_errno;
	}

	ret = iavf_fdir_add(ad, filter);
	if (ret) {
		rte_flow_error_set(error, -ret,
				RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
				"Failed to add filter rule.");
		goto free_entry;
	}

	if (filter->mark_flag == 1)
		iavf_fdir_rx_proc_enable(ad, 1);

	rte_memcpy(rule, filter, sizeof(*rule));
	flow->rule = rule;

	return 0;

free_entry:
	rte_free(rule);
	return -rte_errno;
}

static int
iavf_fdir_destroy(struct iavf_adapter *ad,
		struct rte_flow *flow,
		struct rte_flow_error *error)
{
	struct iavf_fdir_conf *filter;
	int ret;

	filter = (struct iavf_fdir_conf *)flow->rule;

	ret = iavf_fdir_del(ad, filter);
	if (ret) {
		rte_flow_error_set(error, -ret,
				RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
				"Failed to delete filter rule.");
		return -rte_errno;
	}

	if (filter->mark_flag == 1)
		iavf_fdir_rx_proc_enable(ad, 0);

	flow->rule = NULL;
	rte_free(filter);

	return 0;
}

static int
iavf_fdir_validation(struct iavf_adapter *ad,
		__rte_unused struct rte_flow *flow,
		void *meta,
		struct rte_flow_error *error)
{
	struct iavf_fdir_conf *filter = meta;
	int ret;

	ret = iavf_fdir_check(ad, filter);
	if (ret) {
		rte_flow_error_set(error, -ret,
				RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
				"Failed to validate filter rule.");
		return -rte_errno;
	}

	return 0;
};

static struct iavf_flow_engine iavf_fdir_engine = {
	.init = iavf_fdir_init,
	.uninit = iavf_fdir_uninit,
	.create = iavf_fdir_create,
	.destroy = iavf_fdir_destroy,
	.validation = iavf_fdir_validation,
	.type = IAVF_FLOW_ENGINE_FDIR,
};

static int
iavf_fdir_parse_action_qregion(struct iavf_adapter *ad,
			struct rte_flow_error *error,
			const struct rte_flow_action *act,
			struct virtchnl_filter_action *filter_action)
{
	struct iavf_info *vf = IAVF_DEV_PRIVATE_TO_VF(ad);
	const struct rte_flow_action_rss *rss = act->conf;
	uint32_t i;

	if (act->type != RTE_FLOW_ACTION_TYPE_RSS) {
		rte_flow_error_set(error, EINVAL,
				RTE_FLOW_ERROR_TYPE_ACTION, act,
				"Invalid action.");
		return -rte_errno;
	}

	if (rss->queue_num <= 1) {
		rte_flow_error_set(error, EINVAL,
				RTE_FLOW_ERROR_TYPE_ACTION, act,
				"Queue region size can't be 0 or 1.");
		return -rte_errno;
	}

	/* check if queue index for queue region is continuous */
	for (i = 0; i < rss->queue_num - 1; i++) {
		if (rss->queue[i + 1] != rss->queue[i] + 1) {
			rte_flow_error_set(error, EINVAL,
					RTE_FLOW_ERROR_TYPE_ACTION, act,
					"Discontinuous queue region");
			return -rte_errno;
		}
	}

	if (rss->queue[rss->queue_num - 1] >= ad->eth_dev->data->nb_rx_queues) {
		rte_flow_error_set(error, EINVAL,
				RTE_FLOW_ERROR_TYPE_ACTION, act,
				"Invalid queue region indexes.");
		return -rte_errno;
	}

	if (!(rte_is_power_of_2(rss->queue_num) &&
		rss->queue_num <= IAVF_FDIR_MAX_QREGION_SIZE)) {
		rte_flow_error_set(error, EINVAL,
				RTE_FLOW_ERROR_TYPE_ACTION, act,
				"The region size should be any of the following values:"
				"1, 2, 4, 8, 16, 32, 64, 128 as long as the total number "
				"of queues do not exceed the VSI allocation.");
		return -rte_errno;
	}

	if (rss->queue_num > vf->max_rss_qregion) {
		rte_flow_error_set(error, EINVAL,
				RTE_FLOW_ERROR_TYPE_ACTION, act,
				"The region size cannot be large than the supported max RSS queue region");
		return -rte_errno;
	}

	filter_action->act_conf.queue.index = rss->queue[0];
	filter_action->act_conf.queue.region = rte_fls_u32(rss->queue_num) - 1;

	return 0;
}

static int
iavf_fdir_parse_action(struct iavf_adapter *ad,
			const struct rte_flow_action actions[],
			struct rte_flow_error *error,
			struct iavf_fdir_conf *filter)
{
	const struct rte_flow_action_queue *act_q;
	const struct rte_flow_action_mark *mark_spec = NULL;
	uint32_t dest_num = 0;
	uint32_t mark_num = 0;
	int ret;

	int number = 0;
	struct virtchnl_filter_action *filter_action;

	for (; actions->type != RTE_FLOW_ACTION_TYPE_END; actions++) {
		switch (actions->type) {
		case RTE_FLOW_ACTION_TYPE_VOID:
			break;

		case RTE_FLOW_ACTION_TYPE_PASSTHRU:
			dest_num++;

			filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];

			filter_action->type = VIRTCHNL_ACTION_PASSTHRU;

			filter->add_fltr.rule_cfg.action_set.count = ++number;
			break;

		case RTE_FLOW_ACTION_TYPE_DROP:
			dest_num++;

			filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];

			filter_action->type = VIRTCHNL_ACTION_DROP;

			filter->add_fltr.rule_cfg.action_set.count = ++number;
			break;

		case RTE_FLOW_ACTION_TYPE_QUEUE:
			dest_num++;

			act_q = actions->conf;
			filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];

			filter_action->type = VIRTCHNL_ACTION_QUEUE;
			filter_action->act_conf.queue.index = act_q->index;

			if (filter_action->act_conf.queue.index >=
				ad->eth_dev->data->nb_rx_queues) {
				rte_flow_error_set(error, EINVAL,
					RTE_FLOW_ERROR_TYPE_ACTION,
					actions, "Invalid queue for FDIR.");
				return -rte_errno;
			}

			filter->add_fltr.rule_cfg.action_set.count = ++number;
			break;

		case RTE_FLOW_ACTION_TYPE_RSS:
			dest_num++;

			filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];

			filter_action->type = VIRTCHNL_ACTION_Q_REGION;

			ret = iavf_fdir_parse_action_qregion(ad,
						error, actions, filter_action);
			if (ret)
				return ret;

			filter->add_fltr.rule_cfg.action_set.count = ++number;
			break;

		case RTE_FLOW_ACTION_TYPE_MARK:
			mark_num++;

			filter->mark_flag = 1;
			mark_spec = actions->conf;
			filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];

			filter_action->type = VIRTCHNL_ACTION_MARK;
			filter_action->act_conf.mark_id = mark_spec->id;

			filter->add_fltr.rule_cfg.action_set.count = ++number;
			break;

		default:
			rte_flow_error_set(error, EINVAL,
					RTE_FLOW_ERROR_TYPE_ACTION, actions,
					"Invalid action.");
			return -rte_errno;
		}
	}

	if (number > VIRTCHNL_MAX_NUM_ACTIONS) {
		rte_flow_error_set(error, EINVAL,
			RTE_FLOW_ERROR_TYPE_ACTION, actions,
			"Action numbers exceed the maximum value");
		return -rte_errno;
	}

	if (dest_num >= 2) {
		rte_flow_error_set(error, EINVAL,
			RTE_FLOW_ERROR_TYPE_ACTION, actions,
			"Unsupported action combination");
		return -rte_errno;
	}

	if (mark_num >= 2) {
		rte_flow_error_set(error, EINVAL,
			RTE_FLOW_ERROR_TYPE_ACTION, actions,
			"Too many mark actions");
		return -rte_errno;
	}

	if (dest_num + mark_num == 0) {
		rte_flow_error_set(error, EINVAL,
			RTE_FLOW_ERROR_TYPE_ACTION, actions,
			"Empty action");
		return -rte_errno;
	}

	/* Mark only is equal to mark + passthru. */
	if (dest_num == 0) {
		filter_action = &filter->add_fltr.rule_cfg.action_set.actions[number];
		filter_action->type = VIRTCHNL_ACTION_PASSTHRU;
		filter->add_fltr.rule_cfg.action_set.count = ++number;
	}

	return 0;
}

static bool
iavf_fdir_refine_input_set(const uint64_t input_set,
			   const uint64_t input_set_mask,
			   struct iavf_fdir_conf *filter)
{
	struct virtchnl_proto_hdr *hdr, *hdr_last;
	struct rte_flow_item_ipv4 ipv4_spec;
	struct rte_flow_item_ipv6 ipv6_spec;
	int last_layer;
	uint8_t proto_id;

	if (input_set & ~input_set_mask)
		return false;
	else if (input_set)
		return true;

	last_layer = filter->add_fltr.rule_cfg.proto_hdrs.count - 1;
	/* Last layer of TCP/UDP pattern isn't less than 2. */
	if (last_layer < 2)
		return false;
	hdr_last = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[last_layer];
	if (hdr_last->type == VIRTCHNL_PROTO_HDR_TCP)
		proto_id = 6;
	else if (hdr_last->type == VIRTCHNL_PROTO_HDR_UDP)
		proto_id = 17;
	else
		return false;

	hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[last_layer - 1];
	switch (hdr->type) {
	case VIRTCHNL_PROTO_HDR_IPV4:
		VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, PROT);
		memset(&ipv4_spec, 0, sizeof(ipv4_spec));
		ipv4_spec.hdr.next_proto_id = proto_id;
		rte_memcpy(hdr->buffer, &ipv4_spec.hdr,
			   sizeof(ipv4_spec.hdr));
		return true;
	case VIRTCHNL_PROTO_HDR_IPV6:
		VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, PROT);
		memset(&ipv6_spec, 0, sizeof(ipv6_spec));
		ipv6_spec.hdr.proto = proto_id;
		rte_memcpy(hdr->buffer, &ipv6_spec.hdr,
			   sizeof(ipv6_spec.hdr));
		return true;
	default:
		return false;
	}
}

static int
iavf_fdir_parse_pattern(__rte_unused struct iavf_adapter *ad,
			const struct rte_flow_item pattern[],
			const uint64_t input_set_mask,
			struct rte_flow_error *error,
			struct iavf_fdir_conf *filter)
{
	const struct rte_flow_item *item = pattern;
	enum rte_flow_item_type item_type;
	enum rte_flow_item_type l3 = RTE_FLOW_ITEM_TYPE_END;
	const struct rte_flow_item_eth *eth_spec, *eth_mask;
	const struct rte_flow_item_ipv4 *ipv4_spec, *ipv4_mask;
	const struct rte_flow_item_ipv6 *ipv6_spec, *ipv6_mask;
	const struct rte_flow_item_udp *udp_spec, *udp_mask;
	const struct rte_flow_item_tcp *tcp_spec, *tcp_mask;
	const struct rte_flow_item_sctp *sctp_spec, *sctp_mask;
	const struct rte_flow_item_gtp *gtp_spec, *gtp_mask;
	const struct rte_flow_item_gtp_psc *gtp_psc_spec, *gtp_psc_mask;
	const struct rte_flow_item_l2tpv3oip *l2tpv3oip_spec, *l2tpv3oip_mask;
	const struct rte_flow_item_esp *esp_spec, *esp_mask;
	const struct rte_flow_item_ah *ah_spec, *ah_mask;
	const struct rte_flow_item_pfcp *pfcp_spec, *pfcp_mask;
	const struct rte_flow_item_ecpri *ecpri_spec, *ecpri_mask;
	struct rte_ecpri_common_hdr ecpri_common;
	uint64_t input_set = IAVF_INSET_NONE;

	enum rte_flow_item_type next_type;
	uint16_t ether_type;

	int layer = 0;
	struct virtchnl_proto_hdr *hdr;

	uint8_t  ipv6_addr_mask[16] = {
		0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
		0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF
	};

	for (item = pattern; item->type != RTE_FLOW_ITEM_TYPE_END; item++) {
		if (item->last) {
			rte_flow_error_set(error, EINVAL,
					RTE_FLOW_ERROR_TYPE_ITEM, item,
					"Not support range");
		}

		item_type = item->type;

		switch (item_type) {
		case RTE_FLOW_ITEM_TYPE_ETH:
			eth_spec = item->spec;
			eth_mask = item->mask;
			next_type = (item + 1)->type;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, ETH);

			if (next_type == RTE_FLOW_ITEM_TYPE_END &&
				(!eth_spec || !eth_mask)) {
				rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item, "NULL eth spec/mask.");
				return -rte_errno;
			}

			if (eth_spec && eth_mask) {
				if (!rte_is_zero_ether_addr(&eth_mask->src) ||
				    !rte_is_zero_ether_addr(&eth_mask->dst)) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM, item,
						"Invalid MAC_addr mask.");
					return -rte_errno;
				}
			}

			if (eth_spec && eth_mask && eth_mask->type) {
				if (eth_mask->type != RTE_BE16(0xffff)) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item, "Invalid type mask.");
					return -rte_errno;
				}

				ether_type = rte_be_to_cpu_16(eth_spec->type);
				if (ether_type == RTE_ETHER_TYPE_IPV4 ||
					ether_type == RTE_ETHER_TYPE_IPV6) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item,
						"Unsupported ether_type.");
					return -rte_errno;
				}

				input_set |= IAVF_INSET_ETHERTYPE;
				VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, ETH, ETHERTYPE);

				rte_memcpy(hdr->buffer,
					eth_spec, sizeof(struct rte_ether_hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_IPV4:
			l3 = RTE_FLOW_ITEM_TYPE_IPV4;
			ipv4_spec = item->spec;
			ipv4_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, IPV4);

			if (ipv4_spec && ipv4_mask) {
				if (ipv4_mask->hdr.version_ihl ||
					ipv4_mask->hdr.total_length ||
					ipv4_mask->hdr.packet_id ||
					ipv4_mask->hdr.fragment_offset ||
					ipv4_mask->hdr.hdr_checksum) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item, "Invalid IPv4 mask.");
					return -rte_errno;
				}

				if (ipv4_mask->hdr.type_of_service ==
								UINT8_MAX) {
					input_set |= IAVF_INSET_IPV4_TOS;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, DSCP);
				}
				if (ipv4_mask->hdr.next_proto_id == UINT8_MAX) {
					input_set |= IAVF_INSET_IPV4_PROTO;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, PROT);
				}
				if (ipv4_mask->hdr.time_to_live == UINT8_MAX) {
					input_set |= IAVF_INSET_IPV4_TTL;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, TTL);
				}
				if (ipv4_mask->hdr.src_addr == UINT32_MAX) {
					input_set |= IAVF_INSET_IPV4_SRC;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, SRC);
				}
				if (ipv4_mask->hdr.dst_addr == UINT32_MAX) {
					input_set |= IAVF_INSET_IPV4_DST;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV4, DST);
				}

				rte_memcpy(hdr->buffer,
					&ipv4_spec->hdr,
					sizeof(ipv4_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_IPV6:
			l3 = RTE_FLOW_ITEM_TYPE_IPV6;
			ipv6_spec = item->spec;
			ipv6_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, IPV6);

			if (ipv6_spec && ipv6_mask) {
				if (ipv6_mask->hdr.payload_len) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item, "Invalid IPv6 mask");
					return -rte_errno;
				}

				if ((ipv6_mask->hdr.vtc_flow &
					rte_cpu_to_be_32(IAVF_IPV6_TC_MASK))
					== rte_cpu_to_be_32(IAVF_IPV6_TC_MASK)) {
					input_set |= IAVF_INSET_IPV6_TC;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, TC);
				}
				if (ipv6_mask->hdr.proto == UINT8_MAX) {
					input_set |= IAVF_INSET_IPV6_NEXT_HDR;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, PROT);
				}
				if (ipv6_mask->hdr.hop_limits == UINT8_MAX) {
					input_set |= IAVF_INSET_IPV6_HOP_LIMIT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, HOP_LIMIT);
				}
				if (!memcmp(ipv6_mask->hdr.src_addr,
					ipv6_addr_mask,
					RTE_DIM(ipv6_mask->hdr.src_addr))) {
					input_set |= IAVF_INSET_IPV6_SRC;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, SRC);
				}
				if (!memcmp(ipv6_mask->hdr.dst_addr,
					ipv6_addr_mask,
					RTE_DIM(ipv6_mask->hdr.dst_addr))) {
					input_set |= IAVF_INSET_IPV6_DST;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, IPV6, DST);
				}

				rte_memcpy(hdr->buffer,
					&ipv6_spec->hdr,
					sizeof(ipv6_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_UDP:
			udp_spec = item->spec;
			udp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, UDP);

			if (udp_spec && udp_mask) {
				if (udp_mask->hdr.dgram_len ||
					udp_mask->hdr.dgram_cksum) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM, item,
						"Invalid UDP mask");
					return -rte_errno;
				}

				if (udp_mask->hdr.src_port == UINT16_MAX) {
					input_set |= IAVF_INSET_UDP_SRC_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, UDP, SRC_PORT);
				}
				if (udp_mask->hdr.dst_port == UINT16_MAX) {
					input_set |= IAVF_INSET_UDP_DST_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, UDP, DST_PORT);
				}

				if (l3 == RTE_FLOW_ITEM_TYPE_IPV4)
					rte_memcpy(hdr->buffer,
						&udp_spec->hdr,
						sizeof(udp_spec->hdr));
				else if (l3 == RTE_FLOW_ITEM_TYPE_IPV6)
					rte_memcpy(hdr->buffer,
						&udp_spec->hdr,
						sizeof(udp_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_TCP:
			tcp_spec = item->spec;
			tcp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, TCP);

			if (tcp_spec && tcp_mask) {
				if (tcp_mask->hdr.sent_seq ||
					tcp_mask->hdr.recv_ack ||
					tcp_mask->hdr.data_off ||
					tcp_mask->hdr.tcp_flags ||
					tcp_mask->hdr.rx_win ||
					tcp_mask->hdr.cksum ||
					tcp_mask->hdr.tcp_urp) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM, item,
						"Invalid TCP mask");
					return -rte_errno;
				}

				if (tcp_mask->hdr.src_port == UINT16_MAX) {
					input_set |= IAVF_INSET_TCP_SRC_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, TCP, SRC_PORT);
				}
				if (tcp_mask->hdr.dst_port == UINT16_MAX) {
					input_set |= IAVF_INSET_TCP_DST_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, TCP, DST_PORT);
				}

				if (l3 == RTE_FLOW_ITEM_TYPE_IPV4)
					rte_memcpy(hdr->buffer,
						&tcp_spec->hdr,
						sizeof(tcp_spec->hdr));
				else if (l3 == RTE_FLOW_ITEM_TYPE_IPV6)
					rte_memcpy(hdr->buffer,
						&tcp_spec->hdr,
						sizeof(tcp_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_SCTP:
			sctp_spec = item->spec;
			sctp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, SCTP);

			if (sctp_spec && sctp_mask) {
				if (sctp_mask->hdr.cksum) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM, item,
						"Invalid UDP mask");
					return -rte_errno;
				}

				if (sctp_mask->hdr.src_port == UINT16_MAX) {
					input_set |= IAVF_INSET_SCTP_SRC_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, SCTP, SRC_PORT);
				}
				if (sctp_mask->hdr.dst_port == UINT16_MAX) {
					input_set |= IAVF_INSET_SCTP_DST_PORT;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, SCTP, DST_PORT);
				}

				if (l3 == RTE_FLOW_ITEM_TYPE_IPV4)
					rte_memcpy(hdr->buffer,
						&sctp_spec->hdr,
						sizeof(sctp_spec->hdr));
				else if (l3 == RTE_FLOW_ITEM_TYPE_IPV6)
					rte_memcpy(hdr->buffer,
						&sctp_spec->hdr,
						sizeof(sctp_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_GTPU:
			gtp_spec = item->spec;
			gtp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, GTPU_IP);

			if (gtp_spec && gtp_mask) {
				if (gtp_mask->v_pt_rsv_flags ||
					gtp_mask->msg_type ||
					gtp_mask->msg_len) {
					rte_flow_error_set(error, EINVAL,
						RTE_FLOW_ERROR_TYPE_ITEM,
						item, "Invalid GTP mask");
					return -rte_errno;
				}

				if (gtp_mask->teid == UINT32_MAX) {
					input_set |= IAVF_INSET_GTPU_TEID;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, GTPU_IP, TEID);
				}

				rte_memcpy(hdr->buffer,
					gtp_spec, sizeof(*gtp_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_GTP_PSC:
			gtp_psc_spec = item->spec;
			gtp_psc_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			if (!gtp_psc_spec)
				VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, GTPU_EH);
			else if ((gtp_psc_mask->qfi) && !(gtp_psc_mask->pdu_type))
				VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, GTPU_EH);
			else if (gtp_psc_spec->pdu_type == IAVF_GTPU_EH_UPLINK)
				VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, GTPU_EH_PDU_UP);
			else if (gtp_psc_spec->pdu_type == IAVF_GTPU_EH_DWLINK)
				VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, GTPU_EH_PDU_DWN);

			if (gtp_psc_spec && gtp_psc_mask) {
				if (gtp_psc_mask->qfi == UINT8_MAX) {
					input_set |= IAVF_INSET_GTPU_QFI;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, GTPU_EH, QFI);
				}

				rte_memcpy(hdr->buffer, gtp_psc_spec,
					sizeof(*gtp_psc_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_L2TPV3OIP:
			l2tpv3oip_spec = item->spec;
			l2tpv3oip_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, L2TPV3);

			if (l2tpv3oip_spec && l2tpv3oip_mask) {
				if (l2tpv3oip_mask->session_id == UINT32_MAX) {
					input_set |= IAVF_L2TPV3OIP_SESSION_ID;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, L2TPV3, SESS_ID);
				}

				rte_memcpy(hdr->buffer, l2tpv3oip_spec,
					sizeof(*l2tpv3oip_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_ESP:
			esp_spec = item->spec;
			esp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, ESP);

			if (esp_spec && esp_mask) {
				if (esp_mask->hdr.spi == UINT32_MAX) {
					input_set |= IAVF_INSET_ESP_SPI;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, ESP, SPI);
				}

				rte_memcpy(hdr->buffer, &esp_spec->hdr,
					sizeof(esp_spec->hdr));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_AH:
			ah_spec = item->spec;
			ah_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, AH);

			if (ah_spec && ah_mask) {
				if (ah_mask->spi == UINT32_MAX) {
					input_set |= IAVF_INSET_AH_SPI;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, AH, SPI);
				}

				rte_memcpy(hdr->buffer, ah_spec,
					sizeof(*ah_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_PFCP:
			pfcp_spec = item->spec;
			pfcp_mask = item->mask;

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, PFCP);

			if (pfcp_spec && pfcp_mask) {
				if (pfcp_mask->s_field == UINT8_MAX) {
					input_set |= IAVF_INSET_PFCP_S_FIELD;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, PFCP, S_FIELD);
				}

				rte_memcpy(hdr->buffer, pfcp_spec,
					sizeof(*pfcp_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_ECPRI:
			ecpri_spec = item->spec;
			ecpri_mask = item->mask;

			ecpri_common.u32 = rte_be_to_cpu_32(ecpri_spec->hdr.common.u32);

			hdr = &filter->add_fltr.rule_cfg.proto_hdrs.proto_hdr[layer];

			VIRTCHNL_SET_PROTO_HDR_TYPE(hdr, ECPRI);

			if (ecpri_spec && ecpri_mask) {
				if (ecpri_common.type == RTE_ECPRI_MSG_TYPE_IQ_DATA &&
						ecpri_mask->hdr.type0.pc_id == UINT16_MAX) {
					input_set |= IAVF_ECPRI_PC_RTC_ID;
					VIRTCHNL_ADD_PROTO_HDR_FIELD_BIT(hdr, ECPRI,
									 PC_RTC_ID);
				}

				rte_memcpy(hdr->buffer, ecpri_spec,
					sizeof(*ecpri_spec));
			}

			filter->add_fltr.rule_cfg.proto_hdrs.count = ++layer;
			break;

		case RTE_FLOW_ITEM_TYPE_VOID:
			break;

		default:
			rte_flow_error_set(error, EINVAL,
					RTE_FLOW_ERROR_TYPE_ITEM, item,
					"Invalid pattern item.");
			return -rte_errno;
		}
	}

	if (layer > VIRTCHNL_MAX_NUM_PROTO_HDRS) {
		rte_flow_error_set(error, EINVAL,
			RTE_FLOW_ERROR_TYPE_ITEM, item,
			"Protocol header layers exceed the maximum value");
		return -rte_errno;
	}

	if (!iavf_fdir_refine_input_set(input_set, input_set_mask, filter)) {
		rte_flow_error_set(error, EINVAL,
				   RTE_FLOW_ERROR_TYPE_ITEM_SPEC, pattern,
				   "Invalid input set");
		return -rte_errno;
	}

	filter->input_set = input_set;

	return 0;
}

static int
iavf_fdir_parse(struct iavf_adapter *ad,
		struct iavf_pattern_match_item *array,
		uint32_t array_len,
		const struct rte_flow_item pattern[],
		const struct rte_flow_action actions[],
		void **meta,
		struct rte_flow_error *error)
{
	struct iavf_info *vf = IAVF_DEV_PRIVATE_TO_VF(ad);
	struct iavf_fdir_conf *filter = &vf->fdir.conf;
	struct iavf_pattern_match_item *item = NULL;
	int ret;

	memset(filter, 0, sizeof(*filter));

	item = iavf_search_pattern_match_item(pattern, array, array_len, error);
	if (!item)
		return -rte_errno;

	ret = iavf_fdir_parse_pattern(ad, pattern, item->input_set_mask,
				      error, filter);
	if (ret)
		goto error;

	ret = iavf_fdir_parse_action(ad, actions, error, filter);
	if (ret)
		goto error;

	if (meta)
		*meta = filter;

error:
	rte_free(item);
	return ret;
}

static struct iavf_flow_parser iavf_fdir_parser = {
	.engine = &iavf_fdir_engine,
	.array = iavf_fdir_pattern,
	.array_len = RTE_DIM(iavf_fdir_pattern),
	.parse_pattern_action = iavf_fdir_parse,
	.stage = IAVF_FLOW_STAGE_DISTRIBUTOR,
};

RTE_INIT(iavf_fdir_engine_register)
{
	iavf_register_flow_engine(&iavf_fdir_engine);
}