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path: root/drivers/net/mlx5/mlx5_rxq.c
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/*-
 *   BSD LICENSE
 *
 *   Copyright 2015 6WIND S.A.
 *   Copyright 2015 Mellanox.
 *
 *   Redistribution and use in source and binary forms, with or without
 *   modification, are permitted provided that the following conditions
 *   are met:
 *
 *     * Redistributions of source code must retain the above copyright
 *       notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above copyright
 *       notice, this list of conditions and the following disclaimer in
 *       the documentation and/or other materials provided with the
 *       distribution.
 *     * Neither the name of 6WIND S.A. nor the names of its
 *       contributors may be used to endorse or promote products derived
 *       from this software without specific prior written permission.
 *
 *   THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 *   "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 *   LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 *   A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 *   OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 *   SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 *   LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 *   DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 *   THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 *   (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 *   OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

#include <stddef.h>
#include <assert.h>
#include <errno.h>
#include <string.h>
#include <stdint.h>

/* Verbs header. */
/* ISO C doesn't support unnamed structs/unions, disabling -pedantic. */
#ifdef PEDANTIC
#pragma GCC diagnostic ignored "-pedantic"
#endif
#include <infiniband/verbs.h>
#ifdef PEDANTIC
#pragma GCC diagnostic error "-pedantic"
#endif

/* DPDK headers don't like -pedantic. */
#ifdef PEDANTIC
#pragma GCC diagnostic ignored "-pedantic"
#endif
#include <rte_mbuf.h>
#include <rte_malloc.h>
#include <rte_ethdev.h>
#include <rte_common.h>
#ifdef PEDANTIC
#pragma GCC diagnostic error "-pedantic"
#endif

#include "mlx5.h"
#include "mlx5_rxtx.h"
#include "mlx5_utils.h"
#include "mlx5_autoconf.h"
#include "mlx5_defs.h"

/* Initialization data for hash RX queues. */
const struct hash_rxq_init hash_rxq_init[] = {
	[HASH_RXQ_TCPV4] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV4 |
				IBV_EXP_RX_HASH_DST_IPV4 |
				IBV_EXP_RX_HASH_SRC_PORT_TCP |
				IBV_EXP_RX_HASH_DST_PORT_TCP),
		.dpdk_rss_hf = ETH_RSS_NONFRAG_IPV4_TCP,
		.flow_priority = 0,
		.flow_spec.tcp_udp = {
			.type = IBV_EXP_FLOW_SPEC_TCP,
			.size = sizeof(hash_rxq_init[0].flow_spec.tcp_udp),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_IPV4],
	},
	[HASH_RXQ_UDPV4] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV4 |
				IBV_EXP_RX_HASH_DST_IPV4 |
				IBV_EXP_RX_HASH_SRC_PORT_UDP |
				IBV_EXP_RX_HASH_DST_PORT_UDP),
		.dpdk_rss_hf = ETH_RSS_NONFRAG_IPV4_UDP,
		.flow_priority = 0,
		.flow_spec.tcp_udp = {
			.type = IBV_EXP_FLOW_SPEC_UDP,
			.size = sizeof(hash_rxq_init[0].flow_spec.tcp_udp),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_IPV4],
	},
	[HASH_RXQ_IPV4] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV4 |
				IBV_EXP_RX_HASH_DST_IPV4),
		.dpdk_rss_hf = (ETH_RSS_IPV4 |
				ETH_RSS_FRAG_IPV4),
		.flow_priority = 1,
		.flow_spec.ipv4 = {
			.type = IBV_EXP_FLOW_SPEC_IPV4,
			.size = sizeof(hash_rxq_init[0].flow_spec.ipv4),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_ETH],
	},
#ifdef HAVE_FLOW_SPEC_IPV6
	[HASH_RXQ_TCPV6] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV6 |
				IBV_EXP_RX_HASH_DST_IPV6 |
				IBV_EXP_RX_HASH_SRC_PORT_TCP |
				IBV_EXP_RX_HASH_DST_PORT_TCP),
		.dpdk_rss_hf = ETH_RSS_NONFRAG_IPV6_TCP,
		.flow_priority = 0,
		.flow_spec.tcp_udp = {
			.type = IBV_EXP_FLOW_SPEC_TCP,
			.size = sizeof(hash_rxq_init[0].flow_spec.tcp_udp),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_IPV6],
	},
	[HASH_RXQ_UDPV6] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV6 |
				IBV_EXP_RX_HASH_DST_IPV6 |
				IBV_EXP_RX_HASH_SRC_PORT_UDP |
				IBV_EXP_RX_HASH_DST_PORT_UDP),
		.dpdk_rss_hf = ETH_RSS_NONFRAG_IPV6_UDP,
		.flow_priority = 0,
		.flow_spec.tcp_udp = {
			.type = IBV_EXP_FLOW_SPEC_UDP,
			.size = sizeof(hash_rxq_init[0].flow_spec.tcp_udp),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_IPV6],
	},
	[HASH_RXQ_IPV6] = {
		.hash_fields = (IBV_EXP_RX_HASH_SRC_IPV6 |
				IBV_EXP_RX_HASH_DST_IPV6),
		.dpdk_rss_hf = (ETH_RSS_IPV6 |
				ETH_RSS_FRAG_IPV6),
		.flow_priority = 1,
		.flow_spec.ipv6 = {
			.type = IBV_EXP_FLOW_SPEC_IPV6,
			.size = sizeof(hash_rxq_init[0].flow_spec.ipv6),
		},
		.underlayer = &hash_rxq_init[HASH_RXQ_ETH],
	},
#endif /* HAVE_FLOW_SPEC_IPV6 */
	[HASH_RXQ_ETH] = {
		.hash_fields = 0,
		.dpdk_rss_hf = 0,
		.flow_priority = 2,
		.flow_spec.eth = {
			.type = IBV_EXP_FLOW_SPEC_ETH,
			.size = sizeof(hash_rxq_init[0].flow_spec.eth),
		},
		.underlayer = NULL,
	},
};

/* Number of entries in hash_rxq_init[]. */
const unsigned int hash_rxq_init_n = RTE_DIM(hash_rxq_init);

/* Initialization data for hash RX queue indirection tables. */
static const struct ind_table_init ind_table_init[] = {
	{
		.max_size = -1u, /* Superseded by HW limitations. */
		.hash_types =
			1 << HASH_RXQ_TCPV4 |
			1 << HASH_RXQ_UDPV4 |
			1 << HASH_RXQ_IPV4 |
#ifdef HAVE_FLOW_SPEC_IPV6
			1 << HASH_RXQ_TCPV6 |
			1 << HASH_RXQ_UDPV6 |
			1 << HASH_RXQ_IPV6 |
#endif /* HAVE_FLOW_SPEC_IPV6 */
			0,
#ifdef HAVE_FLOW_SPEC_IPV6
		.hash_types_n = 6,
#else /* HAVE_FLOW_SPEC_IPV6 */
		.hash_types_n = 3,
#endif /* HAVE_FLOW_SPEC_IPV6 */
	},
	{
		.max_size = 1,
		.hash_types = 1 << HASH_RXQ_ETH,
		.hash_types_n = 1,
	},
};

#define IND_TABLE_INIT_N RTE_DIM(ind_table_init)

/* Default RSS hash key also used for ConnectX-3. */
uint8_t rss_hash_default_key[] = {
	0x2c, 0xc6, 0x81, 0xd1,
	0x5b, 0xdb, 0xf4, 0xf7,
	0xfc, 0xa2, 0x83, 0x19,
	0xdb, 0x1a, 0x3e, 0x94,
	0x6b, 0x9e, 0x38, 0xd9,
	0x2c, 0x9c, 0x03, 0xd1,
	0xad, 0x99, 0x44, 0xa7,
	0xd9, 0x56, 0x3d, 0x59,
	0x06, 0x3c, 0x25, 0xf3,
	0xfc, 0x1f, 0xdc, 0x2a,
};

/* Length of the default RSS hash key. */
const size_t rss_hash_default_key_len = sizeof(rss_hash_default_key);

/**
 * Populate flow steering rule for a given hash RX queue type using
 * information from hash_rxq_init[]. Nothing is written to flow_attr when
 * flow_attr_size is not large enough, but the required size is still returned.
 *
 * @param priv
 *   Pointer to private structure.
 * @param[out] flow_attr
 *   Pointer to flow attribute structure to fill. Note that the allocated
 *   area must be larger and large enough to hold all flow specifications.
 * @param flow_attr_size
 *   Entire size of flow_attr and trailing room for flow specifications.
 * @param type
 *   Hash RX queue type to use for flow steering rule.
 *
 * @return
 *   Total size of the flow attribute buffer. No errors are defined.
 */
size_t
priv_flow_attr(struct priv *priv, struct ibv_exp_flow_attr *flow_attr,
	       size_t flow_attr_size, enum hash_rxq_type type)
{
	size_t offset = sizeof(*flow_attr);
	const struct hash_rxq_init *init = &hash_rxq_init[type];

	assert(priv != NULL);
	assert((size_t)type < RTE_DIM(hash_rxq_init));
	do {
		offset += init->flow_spec.hdr.size;
		init = init->underlayer;
	} while (init != NULL);
	if (offset > flow_attr_size)
		return offset;
	flow_attr_size = offset;
	init = &hash_rxq_init[type];
	*flow_attr = (struct ibv_exp_flow_attr){
		.type = IBV_EXP_FLOW_ATTR_NORMAL,
#ifdef MLX5_FDIR_SUPPORT
		/* Priorities < 3 are reserved for flow director. */
		.priority = init->flow_priority + 3,
#else /* MLX5_FDIR_SUPPORT */
		.priority = init->flow_priority,
#endif /* MLX5_FDIR_SUPPORT */
		.num_of_specs = 0,
		.port = priv->port,
		.flags = 0,
	};
	do {
		offset -= init->flow_spec.hdr.size;
		memcpy((void *)((uintptr_t)flow_attr + offset),
		       &init->flow_spec,
		       init->flow_spec.hdr.size);
		++flow_attr->num_of_specs;
		init = init->underlayer;
	} while (init != NULL);
	return flow_attr_size;
}

/**
 * Convert hash type position in indirection table initializer to
 * hash RX queue type.
 *
 * @param table
 *   Indirection table initializer.
 * @param pos
 *   Hash type position.
 *
 * @return
 *   Hash RX queue type.
 */
static enum hash_rxq_type
hash_rxq_type_from_pos(const struct ind_table_init *table, unsigned int pos)
{
	enum hash_rxq_type type = 0;

	assert(pos < table->hash_types_n);
	do {
		if ((table->hash_types & (1 << type)) && (pos-- == 0))
			break;
		++type;
	} while (1);
	return type;
}

/**
 * Filter out disabled hash RX queue types from ind_table_init[].
 *
 * @param priv
 *   Pointer to private structure.
 * @param[out] table
 *   Output table.
 *
 * @return
 *   Number of table entries.
 */
static unsigned int
priv_make_ind_table_init(struct priv *priv,
			 struct ind_table_init (*table)[IND_TABLE_INIT_N])
{
	uint64_t rss_hf;
	unsigned int i;
	unsigned int j;
	unsigned int table_n = 0;
	/* Mandatory to receive frames not handled by normal hash RX queues. */
	unsigned int hash_types_sup = 1 << HASH_RXQ_ETH;

	rss_hf = priv->rss_hf;
	/* Process other protocols only if more than one queue. */
	if (priv->rxqs_n > 1)
		for (i = 0; (i != hash_rxq_init_n); ++i)
			if (rss_hf & hash_rxq_init[i].dpdk_rss_hf)
				hash_types_sup |= (1 << i);

	/* Filter out entries whose protocols are not in the set. */
	for (i = 0, j = 0; (i != IND_TABLE_INIT_N); ++i) {
		unsigned int nb;
		unsigned int h;

		/* j is increased only if the table has valid protocols. */
		assert(j <= i);
		(*table)[j] = ind_table_init[i];
		(*table)[j].hash_types &= hash_types_sup;
		for (h = 0, nb = 0; (h != hash_rxq_init_n); ++h)
			if (((*table)[j].hash_types >> h) & 0x1)
				++nb;
		(*table)[i].hash_types_n = nb;
		if (nb) {
			++table_n;
			++j;
		}
	}
	return table_n;
}

/**
 * Initialize hash RX queues and indirection table.
 *
 * @param priv
 *   Pointer to private structure.
 *
 * @return
 *   0 on success, errno value on failure.
 */
int
priv_create_hash_rxqs(struct priv *priv)
{
	struct ibv_exp_wq *wqs[priv->reta_idx_n];
	struct ind_table_init ind_table_init[IND_TABLE_INIT_N];
	unsigned int ind_tables_n =
		priv_make_ind_table_init(priv, &ind_table_init);
	unsigned int hash_rxqs_n = 0;
	struct hash_rxq (*hash_rxqs)[] = NULL;
	struct ibv_exp_rwq_ind_table *(*ind_tables)[] = NULL;
	unsigned int i;
	unsigned int j;
	unsigned int k;
	int err = 0;

	assert(priv->ind_tables == NULL);
	assert(priv->ind_tables_n == 0);
	assert(priv->hash_rxqs == NULL);
	assert(priv->hash_rxqs_n == 0);
	assert(priv->pd != NULL);
	assert(priv->ctx != NULL);
	if (priv->rxqs_n == 0)
		return EINVAL;
	assert(priv->rxqs != NULL);
	if (ind_tables_n == 0) {
		ERROR("all hash RX queue types have been filtered out,"
		      " indirection table cannot be created");
		return EINVAL;
	}
	if (priv->rxqs_n & (priv->rxqs_n - 1)) {
		INFO("%u RX queues are configured, consider rounding this"
		     " number to the next power of two for better balancing",
		     priv->rxqs_n);
		DEBUG("indirection table extended to assume %u WQs",
		      priv->reta_idx_n);
	}
	for (i = 0; (i != priv->reta_idx_n); ++i)
		wqs[i] = (*priv->rxqs)[(*priv->reta_idx)[i]]->wq;
	/* Get number of hash RX queues to configure. */
	for (i = 0, hash_rxqs_n = 0; (i != ind_tables_n); ++i)
		hash_rxqs_n += ind_table_init[i].hash_types_n;
	DEBUG("allocating %u hash RX queues for %u WQs, %u indirection tables",
	      hash_rxqs_n, priv->rxqs_n, ind_tables_n);
	/* Create indirection tables. */
	ind_tables = rte_calloc(__func__, ind_tables_n,
				sizeof((*ind_tables)[0]), 0);
	if (ind_tables == NULL) {
		err = ENOMEM;
		ERROR("cannot allocate indirection tables container: %s",
		      strerror(err));
		goto error;
	}
	for (i = 0; (i != ind_tables_n); ++i) {
		struct ibv_exp_rwq_ind_table_init_attr ind_init_attr = {
			.pd = priv->pd,
			.log_ind_tbl_size = 0, /* Set below. */
			.ind_tbl = wqs,
			.comp_mask = 0,
		};
		unsigned int ind_tbl_size = ind_table_init[i].max_size;
		struct ibv_exp_rwq_ind_table *ind_table;

		if (priv->reta_idx_n < ind_tbl_size)
			ind_tbl_size = priv->reta_idx_n;
		ind_init_attr.log_ind_tbl_size = log2above(ind_tbl_size);
		errno = 0;
		ind_table = ibv_exp_create_rwq_ind_table(priv->ctx,
							 &ind_init_attr);
		if (ind_table != NULL) {
			(*ind_tables)[i] = ind_table;
			continue;
		}
		/* Not clear whether errno is set. */
		err = (errno ? errno : EINVAL);
		ERROR("RX indirection table creation failed with error %d: %s",
		      err, strerror(err));
		goto error;
	}
	/* Allocate array that holds hash RX queues and related data. */
	hash_rxqs = rte_calloc(__func__, hash_rxqs_n,
			       sizeof((*hash_rxqs)[0]), 0);
	if (hash_rxqs == NULL) {
		err = ENOMEM;
		ERROR("cannot allocate hash RX queues container: %s",
		      strerror(err));
		goto error;
	}
	for (i = 0, j = 0, k = 0;
	     ((i != hash_rxqs_n) && (j != ind_tables_n));
	     ++i) {
		struct hash_rxq *hash_rxq = &(*hash_rxqs)[i];
		enum hash_rxq_type type =
			hash_rxq_type_from_pos(&ind_table_init[j], k);
		struct rte_eth_rss_conf *priv_rss_conf =
			(*priv->rss_conf)[type];
		struct ibv_exp_rx_hash_conf hash_conf = {
			.rx_hash_function = IBV_EXP_RX_HASH_FUNC_TOEPLITZ,
			.rx_hash_key_len = (priv_rss_conf ?
					    priv_rss_conf->rss_key_len :
					    rss_hash_default_key_len),
			.rx_hash_key = (priv_rss_conf ?
					priv_rss_conf->rss_key :
					rss_hash_default_key),
			.rx_hash_fields_mask = hash_rxq_init[type].hash_fields,
			.rwq_ind_tbl = (*ind_tables)[j],
		};
		struct ibv_exp_qp_init_attr qp_init_attr = {
			.max_inl_recv = 0, /* Currently not supported. */
			.qp_type = IBV_QPT_RAW_PACKET,
			.comp_mask = (IBV_EXP_QP_INIT_ATTR_PD |
				      IBV_EXP_QP_INIT_ATTR_RX_HASH),
			.pd = priv->pd,
			.rx_hash_conf = &hash_conf,
			.port_num = priv->port,
		};

		DEBUG("using indirection table %u for hash RX queue %u type %d",
		      j, i, type);
		*hash_rxq = (struct hash_rxq){
			.priv = priv,
			.qp = ibv_exp_create_qp(priv->ctx, &qp_init_attr),
			.type = type,
		};
		if (hash_rxq->qp == NULL) {
			err = (errno ? errno : EINVAL);
			ERROR("Hash RX QP creation failure: %s",
			      strerror(err));
			goto error;
		}
		if (++k < ind_table_init[j].hash_types_n)
			continue;
		/* Switch to the next indirection table and reset hash RX
		 * queue type array index. */
		++j;
		k = 0;
	}
	priv->ind_tables = ind_tables;
	priv->ind_tables_n = ind_tables_n;
	priv->hash_rxqs = hash_rxqs;
	priv->hash_rxqs_n = hash_rxqs_n;
	assert(err == 0);
	return 0;
error:
	if (hash_rxqs != NULL) {
		for (i = 0; (i != hash_rxqs_n); ++i) {
			struct ibv_qp *qp = (*hash_rxqs)[i].qp;

			if (qp == NULL)
				continue;
			claim_zero(ibv_destroy_qp(qp));
		}
		rte_free(hash_rxqs);
	}
	if (ind_tables != NULL) {
		for (j = 0; (j != ind_tables_n); ++j) {
			struct ibv_exp_rwq_ind_table *ind_table =
				(*ind_tables)[j];

			if (ind_table == NULL)
				continue;
			claim_zero(ibv_exp_destroy_rwq_ind_table(ind_table));
		}
		rte_free(ind_tables);
	}
	return err;
}

/**
 * Clean up hash RX queues and indirection table.
 *
 * @param priv
 *   Pointer to private structure.
 */
void
priv_destroy_hash_rxqs(struct priv *priv)
{
	unsigned int i;

	DEBUG("destroying %u hash RX queues", priv->hash_rxqs_n);
	if (priv->hash_rxqs_n == 0) {
		assert(priv->hash_rxqs == NULL);
		assert(priv->ind_tables == NULL);
		return;
	}
	for (i = 0; (i != priv->hash_rxqs_n); ++i) {
		struct hash_rxq *hash_rxq = &(*priv->hash_rxqs)[i];
		unsigned int j, k;

		assert(hash_rxq->priv == priv);
		assert(hash_rxq->qp != NULL);
		/* Also check that there are no remaining flows. */
		for (j = 0; (j != RTE_DIM(hash_rxq->special_flow)); ++j)
			for (k = 0;
			     (k != RTE_DIM(hash_rxq->special_flow[j]));
			     ++k)
				assert(hash_rxq->special_flow[j][k] == NULL);
		for (j = 0; (j != RTE_DIM(hash_rxq->mac_flow)); ++j)
			for (k = 0; (k != RTE_DIM(hash_rxq->mac_flow[j])); ++k)
				assert(hash_rxq->mac_flow[j][k] == NULL);
		claim_zero(ibv_destroy_qp(hash_rxq->qp));
	}
	priv->hash_rxqs_n = 0;
	rte_free(priv->hash_rxqs);
	priv->hash_rxqs = NULL;
	for (i = 0; (i != priv->ind_tables_n); ++i) {
		struct ibv_exp_rwq_ind_table *ind_table =
			(*priv->ind_tables)[i];

		assert(ind_table != NULL);
		claim_zero(ibv_exp_destroy_rwq_ind_table(ind_table));
	}
	priv->ind_tables_n = 0;
	rte_free(priv->ind_tables);
	priv->ind_tables = NULL;
}

/**
 * Check whether a given flow type is allowed.
 *
 * @param priv
 *   Pointer to private structure.
 * @param type
 *   Flow type to check.
 *
 * @return
 *   Nonzero if the given flow type is allowed.
 */
int
priv_allow_flow_type(struct priv *priv, enum hash_rxq_flow_type type)
{
	/* Only FLOW_TYPE_PROMISC is allowed when promiscuous mode
	 * has been requested. */
	if (priv->promisc_req)
		return type == HASH_RXQ_FLOW_TYPE_PROMISC;
	switch (type) {
	case HASH_RXQ_FLOW_TYPE_PROMISC:
		return !!priv->promisc_req;
	case HASH_RXQ_FLOW_TYPE_ALLMULTI:
		return !!priv->allmulti_req;
	case HASH_RXQ_FLOW_TYPE_BROADCAST:
#ifdef HAVE_FLOW_SPEC_IPV6
	case HASH_RXQ_FLOW_TYPE_IPV6MULTI:
#endif /* HAVE_FLOW_SPEC_IPV6 */
		/* If allmulti is enabled, broadcast and ipv6multi
		 * are unnecessary. */
		return !priv->allmulti_req;
	case HASH_RXQ_FLOW_TYPE_MAC:
		return 1;
	default:
		/* Unsupported flow type is not allowed. */
		return 0;
	}
	return 0;
}

/**
 * Automatically enable/disable flows according to configuration.
 *
 * @param priv
 *   Private structure.
 *
 * @return
 *   0 on success, errno value on failure.
 */
int
priv_rehash_flows(struct priv *priv)
{
	unsigned int i;

	for (i = 0; (i != RTE_DIM((*priv->hash_rxqs)[0].special_flow)); ++i)
		if (!priv_allow_flow_type(priv, i)) {
			priv_special_flow_disable(priv, i);
		} else {
			int ret = priv_special_flow_enable(priv, i);

			if (ret)
				return ret;
		}
	if (priv_allow_flow_type(priv, HASH_RXQ_FLOW_TYPE_MAC))
		return priv_mac_addrs_enable(priv);
	priv_mac_addrs_disable(priv);
	return 0;
}

/**
 * Allocate RX queue elements with scattered packets support.
 *
 * @param rxq
 *   Pointer to RX queue structure.
 * @param elts_n
 *   Number of elements to allocate.
 * @param[in] pool
 *   If not NULL, fetch buffers from this array instead of allocating them
 *   with rte_pktmbuf_alloc().
 *
 * @return
 *   0 on success, errno value on failure.
 */
static int
rxq_alloc_elts_sp(struct rxq *rxq, unsigned int elts_n,
		  struct rte_mbuf **pool)
{
	unsigned int i;
	struct rxq_elt_sp (*elts)[elts_n] =
		rte_calloc_socket("RXQ elements", 1, sizeof(*elts), 0,
				  rxq->socket);
	int ret = 0;

	if (elts == NULL) {
		ERROR("%p: can't allocate packets array", (void *)rxq);
		ret = ENOMEM;
		goto error;
	}
	/* For each WR (packet). */
	for (i = 0; (i != elts_n); ++i) {
		unsigned int j;
		struct rxq_elt_sp *elt = &(*elts)[i];
		struct ibv_sge (*sges)[RTE_DIM(elt->sges)] = &elt->sges;

		/* These two arrays must have the same size. */
		assert(RTE_DIM(elt->sges) == RTE_DIM(elt->bufs));
		/* For each SGE (segment). */
		for (j = 0; (j != RTE_DIM(elt->bufs)); ++j) {
			struct ibv_sge *sge = &(*sges)[j];
			struct rte_mbuf *buf;

			if (pool != NULL) {
				buf = *(pool++);
				assert(buf != NULL);
				rte_pktmbuf_reset(buf);
			} else
				buf = rte_pktmbuf_alloc(rxq->mp);
			if (buf == NULL) {
				assert(pool == NULL);
				ERROR("%p: empty mbuf pool", (void *)rxq);
				ret = ENOMEM;
				goto error;
			}
			elt->bufs[j] = buf;
			/* Headroom is reserved by rte_pktmbuf_alloc(). */
			assert(DATA_OFF(buf) == RTE_PKTMBUF_HEADROOM);
			/* Buffer is supposed to be empty. */
			assert(rte_pktmbuf_data_len(buf) == 0);
			assert(rte_pktmbuf_pkt_len(buf) == 0);
			/* sge->addr must be able to store a pointer. */
			assert(sizeof(sge->addr) >= sizeof(uintptr_t));
			if (j == 0) {
				/* The first SGE keeps its headroom. */
				sge->addr = rte_pktmbuf_mtod(buf, uintptr_t);
				sge->length = (buf->buf_len -
					       RTE_PKTMBUF_HEADROOM);
			} else {
				/* Subsequent SGEs lose theirs. */
				assert(DATA_OFF(buf) == RTE_PKTMBUF_HEADROOM);
				SET_DATA_OFF(buf, 0);
				sge->addr = (uintptr_t)buf->buf_addr;
				sge->length = buf->buf_len;
			}
			sge->lkey = rxq->mr->lkey;
			/* Redundant check for tailroom. */
			assert(sge->length == rte_pktmbuf_tailroom(buf));
		}
	}
	DEBUG("%p: allocated and configured %u WRs (%zu segments)",
	      (void *)rxq, elts_n, (elts_n * RTE_DIM((*elts)[0].sges)));
	rxq->elts_n = elts_n;
	rxq->elts_head = 0;
	rxq->elts.sp = elts;
	assert(ret == 0);
	return 0;
error:
	if (elts != NULL) {
		assert(pool == NULL);
		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			unsigned int j;
			struct rxq_elt_sp *elt = &(*elts)[i];

			for (j = 0; (j != RTE_DIM(elt->bufs)); ++j) {
				struct rte_mbuf *buf = elt->bufs[j];

				if (buf != NULL)
					rte_pktmbuf_free_seg(buf);
			}
		}
		rte_free(elts);
	}
	DEBUG("%p: failed, freed everything", (void *)rxq);
	assert(ret > 0);
	return ret;
}

/**
 * Free RX queue elements with scattered packets support.
 *
 * @param rxq
 *   Pointer to RX queue structure.
 */
static void
rxq_free_elts_sp(struct rxq *rxq)
{
	unsigned int i;
	unsigned int elts_n = rxq->elts_n;
	struct rxq_elt_sp (*elts)[elts_n] = rxq->elts.sp;

	DEBUG("%p: freeing WRs", (void *)rxq);
	rxq->elts_n = 0;
	rxq->elts.sp = NULL;
	if (elts == NULL)
		return;
	for (i = 0; (i != RTE_DIM(*elts)); ++i) {
		unsigned int j;
		struct rxq_elt_sp *elt = &(*elts)[i];

		for (j = 0; (j != RTE_DIM(elt->bufs)); ++j) {
			struct rte_mbuf *buf = elt->bufs[j];

			if (buf != NULL)
				rte_pktmbuf_free_seg(buf);
		}
	}
	rte_free(elts);
}

/**
 * Allocate RX queue elements.
 *
 * @param rxq
 *   Pointer to RX queue structure.
 * @param elts_n
 *   Number of elements to allocate.
 * @param[in] pool
 *   If not NULL, fetch buffers from this array instead of allocating them
 *   with rte_pktmbuf_alloc().
 *
 * @return
 *   0 on success, errno value on failure.
 */
static int
rxq_alloc_elts(struct rxq *rxq, unsigned int elts_n, struct rte_mbuf **pool)
{
	unsigned int i;
	struct rxq_elt (*elts)[elts_n] =
		rte_calloc_socket("RXQ elements", 1, sizeof(*elts), 0,
				  rxq->socket);
	int ret = 0;

	if (elts == NULL) {
		ERROR("%p: can't allocate packets array", (void *)rxq);
		ret = ENOMEM;
		goto error;
	}
	/* For each WR (packet). */
	for (i = 0; (i != elts_n); ++i) {
		struct rxq_elt *elt = &(*elts)[i];
		struct ibv_sge *sge = &(*elts)[i].sge;
		struct rte_mbuf *buf;

		if (pool != NULL) {
			buf = *(pool++);
			assert(buf != NULL);
			rte_pktmbuf_reset(buf);
		} else
			buf = rte_pktmbuf_alloc(rxq->mp);
		if (buf == NULL) {
			assert(pool == NULL);
			ERROR("%p: empty mbuf pool", (void *)rxq);
			ret = ENOMEM;
			goto error;
		}
		elt->buf = buf;
		/* Headroom is reserved by rte_pktmbuf_alloc(). */
		assert(DATA_OFF(buf) == RTE_PKTMBUF_HEADROOM);
		/* Buffer is supposed to be empty. */
		assert(rte_pktmbuf_data_len(buf) == 0);
		assert(rte_pktmbuf_pkt_len(buf) == 0);
		/* sge->addr must be able to store a pointer. */
		assert(sizeof(sge->addr) >= sizeof(uintptr_t));
		/* SGE keeps its headroom. */
		sge->addr = (uintptr_t)
			((uint8_t *)buf->buf_addr + RTE_PKTMBUF_HEADROOM);
		sge->length = (buf->buf_len - RTE_PKTMBUF_HEADROOM);
		sge->lkey = rxq->mr->lkey;
		/* Redundant check for tailroom. */
		assert(sge->length == rte_pktmbuf_tailroom(buf));
	}
	DEBUG("%p: allocated and configured %u single-segment WRs",
	      (void *)rxq, elts_n);
	rxq->elts_n = elts_n;
	rxq->elts_head = 0;
	rxq->elts.no_sp = elts;
	assert(ret == 0);
	return 0;
error:
	if (elts != NULL) {
		assert(pool == NULL);
		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			struct rxq_elt *elt = &(*elts)[i];
			struct rte_mbuf *buf = elt->buf;

			if (buf != NULL)
				rte_pktmbuf_free_seg(buf);
		}
		rte_free(elts);
	}
	DEBUG("%p: failed, freed everything", (void *)rxq);
	assert(ret > 0);
	return ret;
}

/**
 * Free RX queue elements.
 *
 * @param rxq
 *   Pointer to RX queue structure.
 */
static void
rxq_free_elts(struct rxq *rxq)
{
	unsigned int i;
	unsigned int elts_n = rxq->elts_n;
	struct rxq_elt (*elts)[elts_n] = rxq->elts.no_sp;

	DEBUG("%p: freeing WRs", (void *)rxq);
	rxq->elts_n = 0;
	rxq->elts.no_sp = NULL;
	if (elts == NULL)
		return;
	for (i = 0; (i != RTE_DIM(*elts)); ++i) {
		struct rxq_elt *elt = &(*elts)[i];
		struct rte_mbuf *buf = elt->buf;

		if (buf != NULL)
			rte_pktmbuf_free_seg(buf);
	}
	rte_free(elts);
}

/**
 * Clean up a RX queue.
 *
 * Destroy objects, free allocated memory and reset the structure for reuse.
 *
 * @param rxq
 *   Pointer to RX queue structure.
 */
void
rxq_cleanup(struct rxq *rxq)
{
	struct ibv_exp_release_intf_params params;

	DEBUG("cleaning up %p", (void *)rxq);
	if (rxq->sp)
		rxq_free_elts_sp(rxq);
	else
		rxq_free_elts(rxq);
	rxq->poll = NULL;
	rxq->recv = NULL;
	if (rxq->if_wq != NULL) {
		assert(rxq->priv != NULL);
		assert(rxq->priv->ctx != NULL);
		assert(rxq->wq != NULL);
		params = (struct ibv_exp_release_intf_params){
			.comp_mask = 0,
		};
		claim_zero(ibv_exp_release_intf(rxq->priv->ctx,
						rxq->if_wq,
						&params));
	}
	if (rxq->if_cq != NULL) {
		assert(rxq->priv != NULL);
		assert(rxq->priv->ctx != NULL);
		assert(rxq->cq != NULL);
		params = (struct ibv_exp_release_intf_params){
			.comp_mask = 0,
		};
		claim_zero(ibv_exp_release_intf(rxq->priv->ctx,
						rxq->if_cq,
						&params));
	}
	if (rxq->wq != NULL)
		claim_zero(ibv_exp_destroy_wq(rxq->wq));
	if (rxq->cq != NULL)
		claim_zero(ibv_destroy_cq(rxq->cq));
	if (rxq->rd != NULL) {
		struct ibv_exp_destroy_res_domain_attr attr = {
			.comp_mask = 0,
		};

		assert(rxq->priv != NULL);
		assert(rxq->priv->ctx != NULL);
		claim_zero(ibv_exp_destroy_res_domain(rxq->priv->ctx,
						      rxq->rd,
						      &attr));
	}
	if (rxq->mr != NULL)
		claim_zero(ibv_dereg_mr(rxq->mr));
	memset(rxq, 0, sizeof(*rxq));
}

/**
 * Reconfigure a RX queue with new parameters.
 *
 * rxq_rehash() does not allocate mbufs, which, if not done from the right
 * thread (such as a control thread), may corrupt the pool.
 * In case of failure, the queue is left untouched.
 *
 * @param dev
 *   Pointer to Ethernet device structure.
 * @param rxq
 *   RX queue pointer.
 *
 * @return
 *   0 on success, errno value on failure.
 */
int
rxq_rehash(struct rte_eth_dev *dev, struct rxq *rxq)
{
	struct priv *priv = rxq->priv;
	struct rxq tmpl = *rxq;
	unsigned int mbuf_n;
	unsigned int desc_n;
	struct rte_mbuf **pool;
	unsigned int i, k;
	struct ibv_exp_wq_attr mod;
	int err;

	DEBUG("%p: rehashing queue %p", (void *)dev, (void *)rxq);
	/* Number of descriptors and mbufs currently allocated. */
	desc_n = (tmpl.elts_n * (tmpl.sp ? MLX5_PMD_SGE_WR_N : 1));
	mbuf_n = desc_n;
	/* Toggle RX checksum offload if hardware supports it. */
	if (priv->hw_csum) {
		tmpl.csum = !!dev->data->dev_conf.rxmode.hw_ip_checksum;
		rxq->csum = tmpl.csum;
	}
	if (priv->hw_csum_l2tun) {
		tmpl.csum_l2tun = !!dev->data->dev_conf.rxmode.hw_ip_checksum;
		rxq->csum_l2tun = tmpl.csum_l2tun;
	}
	/* Enable scattered packets support for this queue if necessary. */
	if ((dev->data->dev_conf.rxmode.jumbo_frame) &&
	    (dev->data->dev_conf.rxmode.max_rx_pkt_len >
	     (tmpl.mb_len - RTE_PKTMBUF_HEADROOM))) {
		tmpl.sp = 1;
		desc_n /= MLX5_PMD_SGE_WR_N;
	} else
		tmpl.sp = 0;
	DEBUG("%p: %s scattered packets support (%u WRs)",
	      (void *)dev, (tmpl.sp ? "enabling" : "disabling"), desc_n);
	/* If scatter mode is the same as before, nothing to do. */
	if (tmpl.sp == rxq->sp) {
		DEBUG("%p: nothing to do", (void *)dev);
		return 0;
	}
	/* From now on, any failure will render the queue unusable.
	 * Reinitialize WQ. */
	mod = (struct ibv_exp_wq_attr){
		.attr_mask = IBV_EXP_WQ_ATTR_STATE,
		.wq_state = IBV_EXP_WQS_RESET,
	};
	err = ibv_exp_modify_wq(tmpl.wq, &mod);
	if (err) {
		ERROR("%p: cannot reset WQ: %s", (void *)dev, strerror(err));
		assert(err > 0);
		return err;
	}
	/* Allocate pool. */
	pool = rte_malloc(__func__, (mbuf_n * sizeof(*pool)), 0);
	if (pool == NULL) {
		ERROR("%p: cannot allocate memory", (void *)dev);
		return ENOBUFS;
	}
	/* Snatch mbufs from original queue. */
	k = 0;
	if (rxq->sp) {
		struct rxq_elt_sp (*elts)[rxq->elts_n] = rxq->elts.sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			struct rxq_elt_sp *elt = &(*elts)[i];
			unsigned int j;

			for (j = 0; (j != RTE_DIM(elt->bufs)); ++j) {
				assert(elt->bufs[j] != NULL);
				pool[k++] = elt->bufs[j];
			}
		}
	} else {
		struct rxq_elt (*elts)[rxq->elts_n] = rxq->elts.no_sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			struct rxq_elt *elt = &(*elts)[i];
			struct rte_mbuf *buf = elt->buf;

			pool[k++] = buf;
		}
	}
	assert(k == mbuf_n);
	tmpl.elts_n = 0;
	tmpl.elts.sp = NULL;
	assert((void *)&tmpl.elts.sp == (void *)&tmpl.elts.no_sp);
	err = ((tmpl.sp) ?
	       rxq_alloc_elts_sp(&tmpl, desc_n, pool) :
	       rxq_alloc_elts(&tmpl, desc_n, pool));
	if (err) {
		ERROR("%p: cannot reallocate WRs, aborting", (void *)dev);
		rte_free(pool);
		assert(err > 0);
		return err;
	}
	assert(tmpl.elts_n == desc_n);
	assert(tmpl.elts.sp != NULL);
	rte_free(pool);
	/* Clean up original data. */
	rxq->elts_n = 0;
	rte_free(rxq->elts.sp);
	rxq->elts.sp = NULL;
	/* Change queue state to ready. */
	mod = (struct ibv_exp_wq_attr){
		.attr_mask = IBV_EXP_WQ_ATTR_STATE,
		.wq_state = IBV_EXP_WQS_RDY,
	};
	err = ibv_exp_modify_wq(tmpl.wq, &mod);
	if (err) {
		ERROR("%p: WQ state to IBV_EXP_WQS_RDY failed: %s",
		      (void *)dev, strerror(err));
		goto error;
	}
	/* Post SGEs. */
	assert(tmpl.if_wq != NULL);
	if (tmpl.sp) {
		struct rxq_elt_sp (*elts)[tmpl.elts_n] = tmpl.elts.sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			err = tmpl.if_wq->recv_sg_list
				(tmpl.wq,
				 (*elts)[i].sges,
				 RTE_DIM((*elts)[i].sges));
			if (err)
				break;
		}
	} else {
		struct rxq_elt (*elts)[tmpl.elts_n] = tmpl.elts.no_sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			err = tmpl.if_wq->recv_burst(
				tmpl.wq,
				&(*elts)[i].sge,
				1);
			if (err)
				break;
		}
	}
	if (err) {
		ERROR("%p: failed to post SGEs with error %d",
		      (void *)dev, err);
		/* Set err because it does not contain a valid errno value. */
		err = EIO;
		goto error;
	}
	if (tmpl.sp)
		tmpl.recv = tmpl.if_wq->recv_sg_list;
	else
		tmpl.recv = tmpl.if_wq->recv_burst;
error:
	*rxq = tmpl;
	assert(err >= 0);
	return err;
}

/**
 * Configure a RX queue.
 *
 * @param dev
 *   Pointer to Ethernet device structure.
 * @param rxq
 *   Pointer to RX queue structure.
 * @param desc
 *   Number of descriptors to configure in queue.
 * @param socket
 *   NUMA socket on which memory must be allocated.
 * @param[in] conf
 *   Thresholds parameters.
 * @param mp
 *   Memory pool for buffer allocations.
 *
 * @return
 *   0 on success, errno value on failure.
 */
int
rxq_setup(struct rte_eth_dev *dev, struct rxq *rxq, uint16_t desc,
	  unsigned int socket, const struct rte_eth_rxconf *conf,
	  struct rte_mempool *mp)
{
	struct priv *priv = dev->data->dev_private;
	struct rxq tmpl = {
		.priv = priv,
		.mp = mp,
		.socket = socket
	};
	struct ibv_exp_wq_attr mod;
	union {
		struct ibv_exp_query_intf_params params;
		struct ibv_exp_cq_init_attr cq;
		struct ibv_exp_res_domain_init_attr rd;
		struct ibv_exp_wq_init_attr wq;
	} attr;
	enum ibv_exp_query_intf_status status;
	struct rte_mbuf *buf;
	int ret = 0;
	unsigned int i;
	unsigned int cq_size = desc;

	(void)conf; /* Thresholds configuration (ignored). */
	if ((desc == 0) || (desc % MLX5_PMD_SGE_WR_N)) {
		ERROR("%p: invalid number of RX descriptors (must be a"
		      " multiple of %d)", (void *)dev, MLX5_PMD_SGE_WR_N);
		return EINVAL;
	}
	/* Get mbuf length. */
	buf = rte_pktmbuf_alloc(mp);
	if (buf == NULL) {
		ERROR("%p: unable to allocate mbuf", (void *)dev);
		return ENOMEM;
	}
	tmpl.mb_len = buf->buf_len;
	assert((rte_pktmbuf_headroom(buf) +
		rte_pktmbuf_tailroom(buf)) == tmpl.mb_len);
	assert(rte_pktmbuf_headroom(buf) == RTE_PKTMBUF_HEADROOM);
	rte_pktmbuf_free(buf);
	/* Toggle RX checksum offload if hardware supports it. */
	if (priv->hw_csum)
		tmpl.csum = !!dev->data->dev_conf.rxmode.hw_ip_checksum;
	if (priv->hw_csum_l2tun)
		tmpl.csum_l2tun = !!dev->data->dev_conf.rxmode.hw_ip_checksum;
	/* Enable scattered packets support for this queue if necessary. */
	if ((dev->data->dev_conf.rxmode.jumbo_frame) &&
	    (dev->data->dev_conf.rxmode.max_rx_pkt_len >
	     (tmpl.mb_len - RTE_PKTMBUF_HEADROOM))) {
		tmpl.sp = 1;
		desc /= MLX5_PMD_SGE_WR_N;
	}
	DEBUG("%p: %s scattered packets support (%u WRs)",
	      (void *)dev, (tmpl.sp ? "enabling" : "disabling"), desc);
	/* Use the entire RX mempool as the memory region. */
	tmpl.mr = mlx5_mp2mr(priv->pd, mp);
	if (tmpl.mr == NULL) {
		ret = EINVAL;
		ERROR("%p: MR creation failure: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	attr.rd = (struct ibv_exp_res_domain_init_attr){
		.comp_mask = (IBV_EXP_RES_DOMAIN_THREAD_MODEL |
			      IBV_EXP_RES_DOMAIN_MSG_MODEL),
		.thread_model = IBV_EXP_THREAD_SINGLE,
		.msg_model = IBV_EXP_MSG_HIGH_BW,
	};
	tmpl.rd = ibv_exp_create_res_domain(priv->ctx, &attr.rd);
	if (tmpl.rd == NULL) {
		ret = ENOMEM;
		ERROR("%p: RD creation failure: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	attr.cq = (struct ibv_exp_cq_init_attr){
		.comp_mask = IBV_EXP_CQ_INIT_ATTR_RES_DOMAIN,
		.res_domain = tmpl.rd,
	};
	tmpl.cq = ibv_exp_create_cq(priv->ctx, cq_size, NULL, NULL, 0,
				    &attr.cq);
	if (tmpl.cq == NULL) {
		ret = ENOMEM;
		ERROR("%p: CQ creation failure: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	DEBUG("priv->device_attr.max_qp_wr is %d",
	      priv->device_attr.max_qp_wr);
	DEBUG("priv->device_attr.max_sge is %d",
	      priv->device_attr.max_sge);
	/* Configure VLAN stripping. */
	tmpl.vlan_strip = dev->data->dev_conf.rxmode.hw_vlan_strip;
	attr.wq = (struct ibv_exp_wq_init_attr){
		.wq_context = NULL, /* Could be useful in the future. */
		.wq_type = IBV_EXP_WQT_RQ,
		/* Max number of outstanding WRs. */
		.max_recv_wr = ((priv->device_attr.max_qp_wr < (int)cq_size) ?
				priv->device_attr.max_qp_wr :
				(int)cq_size),
		/* Max number of scatter/gather elements in a WR. */
		.max_recv_sge = ((priv->device_attr.max_sge <
				  MLX5_PMD_SGE_WR_N) ?
				 priv->device_attr.max_sge :
				 MLX5_PMD_SGE_WR_N),
		.pd = priv->pd,
		.cq = tmpl.cq,
		.comp_mask =
			IBV_EXP_CREATE_WQ_RES_DOMAIN |
#ifdef HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS
			IBV_EXP_CREATE_WQ_VLAN_OFFLOADS |
#endif /* HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS */
			0,
		.res_domain = tmpl.rd,
#ifdef HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS
		.vlan_offloads = (tmpl.vlan_strip ?
				  IBV_EXP_RECEIVE_WQ_CVLAN_STRIP :
				  0),
#endif /* HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS */
	};

#ifdef HAVE_VERBS_FCS
	/* By default, FCS (CRC) is stripped by hardware. */
	if (dev->data->dev_conf.rxmode.hw_strip_crc) {
		tmpl.crc_present = 0;
	} else if (priv->hw_fcs_strip) {
		/* Ask HW/Verbs to leave CRC in place when supported. */
		attr.wq.flags |= IBV_EXP_CREATE_WQ_FLAG_SCATTER_FCS;
		attr.wq.comp_mask |= IBV_EXP_CREATE_WQ_FLAGS;
		tmpl.crc_present = 1;
	} else {
		WARN("%p: CRC stripping has been disabled but will still"
		     " be performed by hardware, make sure MLNX_OFED and"
		     " firmware are up to date",
		     (void *)dev);
		tmpl.crc_present = 0;
	}
	DEBUG("%p: CRC stripping is %s, %u bytes will be subtracted from"
	      " incoming frames to hide it",
	      (void *)dev,
	      tmpl.crc_present ? "disabled" : "enabled",
	      tmpl.crc_present << 2);
#endif /* HAVE_VERBS_FCS */

#ifdef HAVE_VERBS_RX_END_PADDING
	if (!mlx5_getenv_int("MLX5_PMD_ENABLE_PADDING"))
		; /* Nothing else to do. */
	else if (priv->hw_padding) {
		INFO("%p: enabling packet padding on queue %p",
		     (void *)dev, (void *)rxq);
		attr.wq.flags |= IBV_EXP_CREATE_WQ_FLAG_RX_END_PADDING;
		attr.wq.comp_mask |= IBV_EXP_CREATE_WQ_FLAGS;
	} else
		WARN("%p: packet padding has been requested but is not"
		     " supported, make sure MLNX_OFED and firmware are"
		     " up to date",
		     (void *)dev);
#endif /* HAVE_VERBS_RX_END_PADDING */

	tmpl.wq = ibv_exp_create_wq(priv->ctx, &attr.wq);
	if (tmpl.wq == NULL) {
		ret = (errno ? errno : EINVAL);
		ERROR("%p: WQ creation failure: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	if (tmpl.sp)
		ret = rxq_alloc_elts_sp(&tmpl, desc, NULL);
	else
		ret = rxq_alloc_elts(&tmpl, desc, NULL);
	if (ret) {
		ERROR("%p: RXQ allocation failed: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	/* Save port ID. */
	tmpl.port_id = dev->data->port_id;
	DEBUG("%p: RTE port ID: %u", (void *)rxq, tmpl.port_id);
	attr.params = (struct ibv_exp_query_intf_params){
		.intf_scope = IBV_EXP_INTF_GLOBAL,
#ifdef HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS
		.intf_version = 1,
#endif /* HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS */
		.intf = IBV_EXP_INTF_CQ,
		.obj = tmpl.cq,
	};
	tmpl.if_cq = ibv_exp_query_intf(priv->ctx, &attr.params, &status);
	if (tmpl.if_cq == NULL) {
		ERROR("%p: CQ interface family query failed with status %d",
		      (void *)dev, status);
		goto error;
	}
	attr.params = (struct ibv_exp_query_intf_params){
		.intf_scope = IBV_EXP_INTF_GLOBAL,
		.intf = IBV_EXP_INTF_WQ,
		.obj = tmpl.wq,
	};
	tmpl.if_wq = ibv_exp_query_intf(priv->ctx, &attr.params, &status);
	if (tmpl.if_wq == NULL) {
		ERROR("%p: WQ interface family query failed with status %d",
		      (void *)dev, status);
		goto error;
	}
	/* Change queue state to ready. */
	mod = (struct ibv_exp_wq_attr){
		.attr_mask = IBV_EXP_WQ_ATTR_STATE,
		.wq_state = IBV_EXP_WQS_RDY,
	};
	ret = ibv_exp_modify_wq(tmpl.wq, &mod);
	if (ret) {
		ERROR("%p: WQ state to IBV_EXP_WQS_RDY failed: %s",
		      (void *)dev, strerror(ret));
		goto error;
	}
	/* Post SGEs. */
	if (tmpl.sp) {
		struct rxq_elt_sp (*elts)[tmpl.elts_n] = tmpl.elts.sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			ret = tmpl.if_wq->recv_sg_list
				(tmpl.wq,
				 (*elts)[i].sges,
				 RTE_DIM((*elts)[i].sges));
			if (ret)
				break;
		}
	} else {
		struct rxq_elt (*elts)[tmpl.elts_n] = tmpl.elts.no_sp;

		for (i = 0; (i != RTE_DIM(*elts)); ++i) {
			ret = tmpl.if_wq->recv_burst(
				tmpl.wq,
				&(*elts)[i].sge,
				1);
			if (ret)
				break;
		}
	}
	if (ret) {
		ERROR("%p: failed to post SGEs with error %d",
		      (void *)dev, ret);
		/* Set ret because it does not contain a valid errno value. */
		ret = EIO;
		goto error;
	}
	/* Clean up rxq in case we're reinitializing it. */
	DEBUG("%p: cleaning-up old rxq just in case", (void *)rxq);
	rxq_cleanup(rxq);
	*rxq = tmpl;
	DEBUG("%p: rxq updated with %p", (void *)rxq, (void *)&tmpl);
	assert(ret == 0);
	/* Assign function in queue. */
#ifdef HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS
	rxq->poll = rxq->if_cq->poll_length_flags_cvlan;
#else /* HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS */
	rxq->poll = rxq->if_cq->poll_length_flags;
#endif /* HAVE_EXP_DEVICE_ATTR_VLAN_OFFLOADS */
	if (rxq->sp)
		rxq->recv = rxq->if_wq->recv_sg_list;
	else
		rxq->recv = rxq->if_wq->recv_burst;
	return 0;
error:
	rxq_cleanup(&tmpl);
	assert(ret > 0);
	return ret;
}

/**
 * DPDK callback to configure a RX queue.
 *
 * @param dev
 *   Pointer to Ethernet device structure.
 * @param idx
 *   RX queue index.
 * @param desc
 *   Number of descriptors to configure in queue.
 * @param socket
 *   NUMA socket on which memory must be allocated.
 * @param[in] conf
 *   Thresholds parameters.
 * @param mp
 *   Memory pool for buffer allocations.
 *
 * @return
 *   0 on success, negative errno value on failure.
 */
int
mlx5_rx_queue_setup(struct rte_eth_dev *dev, uint16_t idx, uint16_t desc,
		    unsigned int socket, const struct rte_eth_rxconf *conf,
		    struct rte_mempool *mp)
{
	struct priv *priv = dev->data->dev_private;
	struct rxq *rxq = (*priv->rxqs)[idx];
	int ret;

	if (mlx5_is_secondary())
		return -E_RTE_SECONDARY;

	priv_lock(priv);
	DEBUG("%p: configuring queue %u for %u descriptors",
	      (void *)dev, idx, desc);
	if (idx >= priv->rxqs_n) {
		ERROR("%p: queue index out of range (%u >= %u)",
		      (void *)dev, idx, priv->rxqs_n);
		priv_unlock(priv);
		return -EOVERFLOW;
	}
	if (rxq != NULL) {
		DEBUG("%p: reusing already allocated queue index %u (%p)",
		      (void *)dev, idx, (void *)rxq);
		if (priv->started) {
			priv_unlock(priv);
			return -EEXIST;
		}
		(*priv->rxqs)[idx] = NULL;
		rxq_cleanup(rxq);
	} else {
		rxq = rte_calloc_socket("RXQ", 1, sizeof(*rxq), 0, socket);
		if (rxq == NULL) {
			ERROR("%p: unable to allocate queue index %u",
			      (void *)dev, idx);
			priv_unlock(priv);
			return -ENOMEM;
		}
	}
	ret = rxq_setup(dev, rxq, desc, socket, conf, mp);
	if (ret)
		rte_free(rxq);
	else {
		rxq->stats.idx = idx;
		DEBUG("%p: adding RX queue %p to list",
		      (void *)dev, (void *)rxq);
		(*priv->rxqs)[idx] = rxq;
		/* Update receive callback. */
		if (rxq->sp)
			dev->rx_pkt_burst = mlx5_rx_burst_sp;
		else
			dev->rx_pkt_burst = mlx5_rx_burst;
	}
	priv_unlock(priv);
	return -ret;
}

/**
 * DPDK callback to release a RX queue.
 *
 * @param dpdk_rxq
 *   Generic RX queue pointer.
 */
void
mlx5_rx_queue_release(void *dpdk_rxq)
{
	struct rxq *rxq = (struct rxq *)dpdk_rxq;
	struct priv *priv;
	unsigned int i;

	if (mlx5_is_secondary())
		return;

	if (rxq == NULL)
		return;
	priv = rxq->priv;
	priv_lock(priv);
	for (i = 0; (i != priv->rxqs_n); ++i)
		if ((*priv->rxqs)[i] == rxq) {
			DEBUG("%p: removing RX queue %p from list",
			      (void *)priv->dev, (void *)rxq);
			(*priv->rxqs)[i] = NULL;
			break;
		}
	rxq_cleanup(rxq);
	rte_free(rxq);
	priv_unlock(priv);
}

/**
 * DPDK callback for RX in secondary processes.
 *
 * This function configures all queues from primary process information
 * if necessary before reverting to the normal RX burst callback.
 *
 * @param dpdk_rxq
 *   Generic pointer to RX queue structure.
 * @param[out] pkts
 *   Array to store received packets.
 * @param pkts_n
 *   Maximum number of packets in array.
 *
 * @return
 *   Number of packets successfully received (<= pkts_n).
 */
uint16_t
mlx5_rx_burst_secondary_setup(void *dpdk_rxq, struct rte_mbuf **pkts,
			      uint16_t pkts_n)
{
	struct rxq *rxq = dpdk_rxq;
	struct priv *priv = mlx5_secondary_data_setup(rxq->priv);
	struct priv *primary_priv;
	unsigned int index;

	if (priv == NULL)
		return 0;
	primary_priv =
		mlx5_secondary_data[priv->dev->data->port_id].primary_priv;
	/* Look for queue index in both private structures. */
	for (index = 0; index != priv->rxqs_n; ++index)
		if (((*primary_priv->rxqs)[index] == rxq) ||
		    ((*priv->rxqs)[index] == rxq))
			break;
	if (index == priv->rxqs_n)
		return 0;
	rxq = (*priv->rxqs)[index];
	return priv->dev->rx_pkt_burst(rxq, pkts, pkts_n);
}