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Diffstat (limited to 'drivers/net/mvneta/mvneta_rxtx.c')
-rw-r--r--drivers/net/mvneta/mvneta_rxtx.c1030
1 files changed, 1030 insertions, 0 deletions
diff --git a/drivers/net/mvneta/mvneta_rxtx.c b/drivers/net/mvneta/mvneta_rxtx.c
new file mode 100644
index 00000000..62caa684
--- /dev/null
+++ b/drivers/net/mvneta/mvneta_rxtx.c
@@ -0,0 +1,1030 @@
+/* SPDX-License-Identifier: BSD-3-Clause
+ * Copyright(c) 2018 Marvell International Ltd.
+ * Copyright(c) 2018 Semihalf.
+ * All rights reserved.
+ */
+
+#include "mvneta_rxtx.h"
+
+#define MVNETA_PKT_EFFEC_OFFS (MRVL_NETA_PKT_OFFS + MV_MH_SIZE)
+
+#define MRVL_NETA_DEFAULT_TC 0
+
+/** Maximum number of descriptors in shadow queue. Must be power of 2 */
+#define MRVL_NETA_TX_SHADOWQ_SIZE MRVL_NETA_TXD_MAX
+
+/** Shadow queue size mask (since shadow queue size is power of 2) */
+#define MRVL_NETA_TX_SHADOWQ_MASK (MRVL_NETA_TX_SHADOWQ_SIZE - 1)
+
+/** Minimum number of sent buffers to release from shadow queue to BM */
+#define MRVL_NETA_BUF_RELEASE_BURST_SIZE_MIN 16
+
+/** Maximum number of sent buffers to release from shadow queue to BM */
+#define MRVL_NETA_BUF_RELEASE_BURST_SIZE_MAX 64
+
+#define MVNETA_COOKIE_ADDR_INVALID ~0ULL
+#define MVNETA_COOKIE_HIGH_ADDR_SHIFT (sizeof(neta_cookie_t) * 8)
+#define MVNETA_COOKIE_HIGH_ADDR_MASK (~0ULL << MVNETA_COOKIE_HIGH_ADDR_SHIFT)
+
+#define MVNETA_SET_COOKIE_HIGH_ADDR(addr) { \
+ if (unlikely(cookie_addr_high == MVNETA_COOKIE_ADDR_INVALID)) \
+ cookie_addr_high = \
+ (uint64_t)(addr) & MVNETA_COOKIE_HIGH_ADDR_MASK;\
+}
+
+#define MVNETA_CHECK_COOKIE_HIGH_ADDR(addr) \
+ ((likely(cookie_addr_high == \
+ ((uint64_t)(addr) & MVNETA_COOKIE_HIGH_ADDR_MASK))) ? 1 : 0)
+
+struct mvneta_rxq {
+ struct mvneta_priv *priv;
+ struct rte_mempool *mp;
+ int queue_id;
+ int port_id;
+ int size;
+ int cksum_enabled;
+ uint64_t bytes_recv;
+ uint64_t drop_mac;
+ uint64_t pkts_processed;
+};
+
+/*
+ * To use buffer harvesting based on loopback port shadow queue structure
+ * was introduced for buffers information bookkeeping.
+ */
+struct mvneta_shadow_txq {
+ int head; /* write index - used when sending buffers */
+ int tail; /* read index - used when releasing buffers */
+ u16 size; /* queue occupied size */
+ struct neta_buff_inf ent[MRVL_NETA_TX_SHADOWQ_SIZE]; /* q entries */
+};
+
+struct mvneta_txq {
+ struct mvneta_priv *priv;
+ int queue_id;
+ int port_id;
+ uint64_t bytes_sent;
+ struct mvneta_shadow_txq shadow_txq;
+ int tx_deferred_start;
+};
+
+static uint64_t cookie_addr_high = MVNETA_COOKIE_ADDR_INVALID;
+static uint16_t rx_desc_free_thresh = MRVL_NETA_BUF_RELEASE_BURST_SIZE_MIN;
+
+static inline int
+mvneta_buffs_refill(struct mvneta_priv *priv, struct mvneta_rxq *rxq, u16 *num)
+{
+ struct rte_mbuf *mbufs[MRVL_NETA_BUF_RELEASE_BURST_SIZE_MAX];
+ struct neta_buff_inf entries[MRVL_NETA_BUF_RELEASE_BURST_SIZE_MAX];
+ int i, ret;
+ uint16_t nb_desc = *num;
+
+ ret = rte_pktmbuf_alloc_bulk(rxq->mp, mbufs, nb_desc);
+ if (ret) {
+ MVNETA_LOG(ERR, "Failed to allocate %u mbufs.", nb_desc);
+ *num = 0;
+ return -1;
+ }
+
+ MVNETA_SET_COOKIE_HIGH_ADDR(mbufs[0]);
+
+ for (i = 0; i < nb_desc; i++) {
+ if (unlikely(!MVNETA_CHECK_COOKIE_HIGH_ADDR(mbufs[i]))) {
+ MVNETA_LOG(ERR,
+ "mbuf virt high addr 0x%lx out of range 0x%lx",
+ (uint64_t)mbufs[i] >> 32,
+ cookie_addr_high >> 32);
+ *num = 0;
+ goto out;
+ }
+ entries[i].addr = rte_mbuf_data_iova_default(mbufs[i]);
+ entries[i].cookie = (neta_cookie_t)(uint64_t)mbufs[i];
+ }
+ neta_ppio_inq_put_buffs(priv->ppio, rxq->queue_id, entries, num);
+
+out:
+ for (i = *num; i < nb_desc; i++)
+ rte_pktmbuf_free(mbufs[i]);
+
+ return 0;
+}
+
+/**
+ * Allocate buffers from mempool
+ * and store addresses in rx descriptors.
+ *
+ * @return
+ * 0 on success, negative error value otherwise.
+ */
+static inline int
+mvneta_buffs_alloc(struct mvneta_priv *priv, struct mvneta_rxq *rxq, int *num)
+{
+ uint16_t nb_desc, nb_desc_burst, sent = 0;
+ int ret = 0;
+
+ nb_desc = *num;
+
+ do {
+ nb_desc_burst =
+ (nb_desc < MRVL_NETA_BUF_RELEASE_BURST_SIZE_MAX) ?
+ nb_desc : MRVL_NETA_BUF_RELEASE_BURST_SIZE_MAX;
+
+ ret = mvneta_buffs_refill(priv, rxq, &nb_desc_burst);
+ if (unlikely(ret || !nb_desc_burst))
+ break;
+
+ sent += nb_desc_burst;
+ nb_desc -= nb_desc_burst;
+
+ } while (nb_desc);
+
+ *num = sent;
+
+ return ret;
+}
+
+static inline void
+mvneta_fill_shadowq(struct mvneta_shadow_txq *sq, struct rte_mbuf *buf)
+{
+ sq->ent[sq->head].cookie = (uint64_t)buf;
+ sq->ent[sq->head].addr = buf ?
+ rte_mbuf_data_iova_default(buf) : 0;
+
+ sq->head = (sq->head + 1) & MRVL_NETA_TX_SHADOWQ_MASK;
+ sq->size++;
+}
+
+static inline void
+mvneta_fill_desc(struct neta_ppio_desc *desc, struct rte_mbuf *buf)
+{
+ neta_ppio_outq_desc_reset(desc);
+ neta_ppio_outq_desc_set_phys_addr(desc, rte_pktmbuf_iova(buf));
+ neta_ppio_outq_desc_set_pkt_offset(desc, 0);
+ neta_ppio_outq_desc_set_pkt_len(desc, rte_pktmbuf_data_len(buf));
+}
+
+/**
+ * Release already sent buffers to mempool.
+ *
+ * @param ppio
+ * Pointer to the port structure.
+ * @param sq
+ * Pointer to the shadow queue.
+ * @param qid
+ * Queue id number.
+ * @param force
+ * Force releasing packets.
+ */
+static inline void
+mvneta_sent_buffers_free(struct neta_ppio *ppio,
+ struct mvneta_shadow_txq *sq, int qid)
+{
+ struct neta_buff_inf *entry;
+ uint16_t nb_done = 0;
+ int i;
+ int tail = sq->tail;
+
+ neta_ppio_get_num_outq_done(ppio, qid, &nb_done);
+
+ if (nb_done > sq->size) {
+ MVNETA_LOG(ERR, "nb_done: %d, sq->size %d",
+ nb_done, sq->size);
+ return;
+ }
+
+ for (i = 0; i < nb_done; i++) {
+ entry = &sq->ent[tail];
+
+ if (unlikely(!entry->addr)) {
+ MVNETA_LOG(DEBUG,
+ "Shadow memory @%d: cookie(%lx), pa(%lx)!",
+ tail, (u64)entry->cookie,
+ (u64)entry->addr);
+ tail = (tail + 1) & MRVL_NETA_TX_SHADOWQ_MASK;
+ continue;
+ }
+
+ struct rte_mbuf *mbuf;
+
+ mbuf = (struct rte_mbuf *)
+ (cookie_addr_high | entry->cookie);
+ rte_pktmbuf_free(mbuf);
+ tail = (tail + 1) & MRVL_NETA_TX_SHADOWQ_MASK;
+ }
+
+ sq->tail = tail;
+ sq->size -= nb_done;
+}
+
+/**
+ * Return packet type information and l3/l4 offsets.
+ *
+ * @param desc
+ * Pointer to the received packet descriptor.
+ * @param l3_offset
+ * l3 packet offset.
+ * @param l4_offset
+ * l4 packet offset.
+ *
+ * @return
+ * Packet type information.
+ */
+static inline uint64_t
+mvneta_desc_to_packet_type_and_offset(struct neta_ppio_desc *desc,
+ uint8_t *l3_offset, uint8_t *l4_offset)
+{
+ enum neta_inq_l3_type l3_type;
+ enum neta_inq_l4_type l4_type;
+ uint64_t packet_type;
+
+ neta_ppio_inq_desc_get_l3_info(desc, &l3_type, l3_offset);
+ neta_ppio_inq_desc_get_l4_info(desc, &l4_type, l4_offset);
+
+ packet_type = RTE_PTYPE_L2_ETHER;
+
+ if (NETA_RXD_GET_VLAN_INFO(desc))
+ packet_type |= RTE_PTYPE_L2_ETHER_VLAN;
+
+ switch (l3_type) {
+ case NETA_INQ_L3_TYPE_IPV4_BAD:
+ case NETA_INQ_L3_TYPE_IPV4_OK:
+ packet_type |= RTE_PTYPE_L3_IPV4;
+ break;
+ case NETA_INQ_L3_TYPE_IPV6:
+ packet_type |= RTE_PTYPE_L3_IPV6;
+ break;
+ default:
+ packet_type |= RTE_PTYPE_UNKNOWN;
+ MVNETA_LOG(DEBUG, "Failed to recognize l3 packet type");
+ break;
+ }
+
+ switch (l4_type) {
+ case NETA_INQ_L4_TYPE_TCP:
+ packet_type |= RTE_PTYPE_L4_TCP;
+ break;
+ case NETA_INQ_L4_TYPE_UDP:
+ packet_type |= RTE_PTYPE_L4_UDP;
+ break;
+ default:
+ packet_type |= RTE_PTYPE_UNKNOWN;
+ MVNETA_LOG(DEBUG, "Failed to recognize l4 packet type");
+ break;
+ }
+
+ return packet_type;
+}
+
+/**
+ * Prepare offload information.
+ *
+ * @param ol_flags
+ * Offload flags.
+ * @param packet_type
+ * Packet type bitfield.
+ * @param l3_type
+ * Pointer to the neta_ouq_l3_type structure.
+ * @param l4_type
+ * Pointer to the neta_outq_l4_type structure.
+ * @param gen_l3_cksum
+ * Will be set to 1 in case l3 checksum is computed.
+ * @param l4_cksum
+ * Will be set to 1 in case l4 checksum is computed.
+ *
+ * @return
+ * 0 on success, negative error value otherwise.
+ */
+static inline int
+mvneta_prepare_proto_info(uint64_t ol_flags, uint32_t packet_type,
+ enum neta_outq_l3_type *l3_type,
+ enum neta_outq_l4_type *l4_type,
+ int *gen_l3_cksum,
+ int *gen_l4_cksum)
+{
+ /*
+ * Based on ol_flags prepare information
+ * for neta_ppio_outq_desc_set_proto_info() which setups descriptor
+ * for offloading.
+ */
+ if (ol_flags & PKT_TX_IPV4) {
+ *l3_type = NETA_OUTQ_L3_TYPE_IPV4;
+ *gen_l3_cksum = ol_flags & PKT_TX_IP_CKSUM ? 1 : 0;
+ } else if (ol_flags & PKT_TX_IPV6) {
+ *l3_type = NETA_OUTQ_L3_TYPE_IPV6;
+ /* no checksum for ipv6 header */
+ *gen_l3_cksum = 0;
+ } else {
+ /* if something different then stop processing */
+ return -1;
+ }
+
+ ol_flags &= PKT_TX_L4_MASK;
+ if ((packet_type & RTE_PTYPE_L4_TCP) &&
+ ol_flags == PKT_TX_TCP_CKSUM) {
+ *l4_type = NETA_OUTQ_L4_TYPE_TCP;
+ *gen_l4_cksum = 1;
+ } else if ((packet_type & RTE_PTYPE_L4_UDP) &&
+ ol_flags == PKT_TX_UDP_CKSUM) {
+ *l4_type = NETA_OUTQ_L4_TYPE_UDP;
+ *gen_l4_cksum = 1;
+ } else {
+ *l4_type = NETA_OUTQ_L4_TYPE_OTHER;
+ /* no checksum for other type */
+ *gen_l4_cksum = 0;
+ }
+
+ return 0;
+}
+
+/**
+ * Get offload information from the received packet descriptor.
+ *
+ * @param desc
+ * Pointer to the received packet descriptor.
+ *
+ * @return
+ * Mbuf offload flags.
+ */
+static inline uint64_t
+mvneta_desc_to_ol_flags(struct neta_ppio_desc *desc)
+{
+ uint64_t flags;
+ enum neta_inq_desc_status status;
+
+ status = neta_ppio_inq_desc_get_l3_pkt_error(desc);
+ if (unlikely(status != NETA_DESC_ERR_OK))
+ flags = PKT_RX_IP_CKSUM_BAD;
+ else
+ flags = PKT_RX_IP_CKSUM_GOOD;
+
+ status = neta_ppio_inq_desc_get_l4_pkt_error(desc);
+ if (unlikely(status != NETA_DESC_ERR_OK))
+ flags |= PKT_RX_L4_CKSUM_BAD;
+ else
+ flags |= PKT_RX_L4_CKSUM_GOOD;
+
+ return flags;
+}
+
+/**
+ * DPDK callback for transmit.
+ *
+ * @param txq
+ * Generic pointer transmit queue.
+ * @param tx_pkts
+ * Packets to transmit.
+ * @param nb_pkts
+ * Number of packets in array.
+ *
+ * @return
+ * Number of packets successfully transmitted.
+ */
+static uint16_t
+mvneta_tx_pkt_burst(void *txq, struct rte_mbuf **tx_pkts, uint16_t nb_pkts)
+{
+ struct mvneta_txq *q = txq;
+ struct mvneta_shadow_txq *sq;
+ struct neta_ppio_desc descs[nb_pkts];
+
+ int i, ret, bytes_sent = 0;
+ uint16_t num, sq_free_size;
+ uint64_t addr;
+
+ sq = &q->shadow_txq;
+ if (unlikely(!nb_pkts || !q->priv->ppio))
+ return 0;
+
+ if (sq->size)
+ mvneta_sent_buffers_free(q->priv->ppio,
+ sq, q->queue_id);
+
+ sq_free_size = MRVL_NETA_TX_SHADOWQ_SIZE - sq->size - 1;
+ if (unlikely(nb_pkts > sq_free_size)) {
+ MVNETA_LOG(DEBUG,
+ "No room in shadow queue for %d packets! %d packets will be sent.",
+ nb_pkts, sq_free_size);
+ nb_pkts = sq_free_size;
+ }
+
+
+ for (i = 0; i < nb_pkts; i++) {
+ struct rte_mbuf *mbuf = tx_pkts[i];
+ int gen_l3_cksum, gen_l4_cksum;
+ enum neta_outq_l3_type l3_type;
+ enum neta_outq_l4_type l4_type;
+
+ /* Fill first mbuf info in shadow queue */
+ mvneta_fill_shadowq(sq, mbuf);
+ mvneta_fill_desc(&descs[i], mbuf);
+
+ bytes_sent += rte_pktmbuf_pkt_len(mbuf);
+
+ ret = mvneta_prepare_proto_info(mbuf->ol_flags,
+ mbuf->packet_type,
+ &l3_type, &l4_type,
+ &gen_l3_cksum,
+ &gen_l4_cksum);
+ if (unlikely(ret))
+ continue;
+
+ neta_ppio_outq_desc_set_proto_info(&descs[i], l3_type, l4_type,
+ mbuf->l2_len,
+ mbuf->l2_len + mbuf->l3_len,
+ gen_l3_cksum, gen_l4_cksum);
+ }
+ num = nb_pkts;
+ neta_ppio_send(q->priv->ppio, q->queue_id, descs, &nb_pkts);
+
+
+ /* number of packets that were not sent */
+ if (unlikely(num > nb_pkts)) {
+ for (i = nb_pkts; i < num; i++) {
+ sq->head = (MRVL_NETA_TX_SHADOWQ_SIZE + sq->head - 1) &
+ MRVL_NETA_TX_SHADOWQ_MASK;
+ addr = cookie_addr_high | sq->ent[sq->head].cookie;
+ bytes_sent -=
+ rte_pktmbuf_pkt_len((struct rte_mbuf *)addr);
+ }
+ sq->size -= num - nb_pkts;
+ }
+
+ q->bytes_sent += bytes_sent;
+
+ return nb_pkts;
+}
+
+/** DPDK callback for S/G transmit.
+ *
+ * @param txq
+ * Generic pointer transmit queue.
+ * @param tx_pkts
+ * Packets to transmit.
+ * @param nb_pkts
+ * Number of packets in array.
+ *
+ * @return
+ * Number of packets successfully transmitted.
+ */
+static uint16_t
+mvneta_tx_sg_pkt_burst(void *txq, struct rte_mbuf **tx_pkts, uint16_t nb_pkts)
+{
+ struct mvneta_txq *q = txq;
+ struct mvneta_shadow_txq *sq;
+ struct neta_ppio_desc descs[nb_pkts * NETA_PPIO_DESC_NUM_FRAGS];
+ struct neta_ppio_sg_pkts pkts;
+ uint8_t frags[nb_pkts];
+ int i, j, ret, bytes_sent = 0;
+ int tail, tail_first;
+ uint16_t num, sq_free_size;
+ uint16_t nb_segs, total_descs = 0;
+ uint64_t addr;
+
+ sq = &q->shadow_txq;
+ pkts.frags = frags;
+ pkts.num = 0;
+
+ if (unlikely(!q->priv->ppio))
+ return 0;
+
+ if (sq->size)
+ mvneta_sent_buffers_free(q->priv->ppio,
+ sq, q->queue_id);
+ /* Save shadow queue free size */
+ sq_free_size = MRVL_NETA_TX_SHADOWQ_SIZE - sq->size - 1;
+
+ tail = 0;
+ for (i = 0; i < nb_pkts; i++) {
+ struct rte_mbuf *mbuf = tx_pkts[i];
+ struct rte_mbuf *seg = NULL;
+ int gen_l3_cksum, gen_l4_cksum;
+ enum neta_outq_l3_type l3_type;
+ enum neta_outq_l4_type l4_type;
+
+ nb_segs = mbuf->nb_segs;
+ total_descs += nb_segs;
+
+ /*
+ * Check if total_descs does not exceed
+ * shadow queue free size
+ */
+ if (unlikely(total_descs > sq_free_size)) {
+ total_descs -= nb_segs;
+ MVNETA_LOG(DEBUG,
+ "No room in shadow queue for %d packets! "
+ "%d packets will be sent.",
+ nb_pkts, i);
+ break;
+ }
+
+
+ /* Check if nb_segs does not exceed the max nb of desc per
+ * fragmented packet
+ */
+ if (unlikely(nb_segs > NETA_PPIO_DESC_NUM_FRAGS)) {
+ total_descs -= nb_segs;
+ MVNETA_LOG(ERR,
+ "Too many segments. Packet won't be sent.");
+ break;
+ }
+
+ pkts.frags[pkts.num] = nb_segs;
+ pkts.num++;
+ tail_first = tail;
+
+ seg = mbuf;
+ for (j = 0; j < nb_segs - 1; j++) {
+ /* For the subsequent segments, set shadow queue
+ * buffer to NULL
+ */
+ mvneta_fill_shadowq(sq, NULL);
+ mvneta_fill_desc(&descs[tail], seg);
+
+ tail++;
+ seg = seg->next;
+ }
+ /* Put first mbuf info in last shadow queue entry */
+ mvneta_fill_shadowq(sq, mbuf);
+ /* Update descriptor with last segment */
+ mvneta_fill_desc(&descs[tail++], seg);
+
+ bytes_sent += rte_pktmbuf_pkt_len(mbuf);
+
+ ret = mvneta_prepare_proto_info(mbuf->ol_flags,
+ mbuf->packet_type,
+ &l3_type, &l4_type,
+ &gen_l3_cksum,
+ &gen_l4_cksum);
+ if (unlikely(ret))
+ continue;
+
+ neta_ppio_outq_desc_set_proto_info(&descs[tail_first],
+ l3_type, l4_type,
+ mbuf->l2_len,
+ mbuf->l2_len + mbuf->l3_len,
+ gen_l3_cksum, gen_l4_cksum);
+ }
+ num = total_descs;
+ neta_ppio_send_sg(q->priv->ppio, q->queue_id, descs, &total_descs,
+ &pkts);
+
+ /* number of packets that were not sent */
+ if (unlikely(num > total_descs)) {
+ for (i = total_descs; i < num; i++) {
+ sq->head = (MRVL_NETA_TX_SHADOWQ_SIZE +
+ sq->head - 1) &
+ MRVL_NETA_TX_SHADOWQ_MASK;
+ addr = sq->ent[sq->head].cookie;
+ if (addr) {
+ struct rte_mbuf *mbuf;
+
+ mbuf = (struct rte_mbuf *)
+ (cookie_addr_high | addr);
+ bytes_sent -= rte_pktmbuf_pkt_len(mbuf);
+ }
+ }
+ sq->size -= num - total_descs;
+ nb_pkts = pkts.num;
+ }
+
+ q->bytes_sent += bytes_sent;
+
+ return nb_pkts;
+}
+
+/**
+ * Set tx burst function according to offload flag
+ *
+ * @param dev
+ * Pointer to Ethernet device structure.
+ */
+void
+mvneta_set_tx_function(struct rte_eth_dev *dev)
+{
+ struct mvneta_priv *priv = dev->data->dev_private;
+
+ /* Use a simple Tx queue (no offloads, no multi segs) if possible */
+ if (priv->multiseg) {
+ MVNETA_LOG(INFO, "Using multi-segment tx callback");
+ dev->tx_pkt_burst = mvneta_tx_sg_pkt_burst;
+ } else {
+ MVNETA_LOG(INFO, "Using single-segment tx callback");
+ dev->tx_pkt_burst = mvneta_tx_pkt_burst;
+ }
+}
+
+/**
+ * DPDK callback for receive.
+ *
+ * @param rxq
+ * Generic pointer to the receive queue.
+ * @param rx_pkts
+ * Array to store received packets.
+ * @param nb_pkts
+ * Maximum number of packets in array.
+ *
+ * @return
+ * Number of packets successfully received.
+ */
+uint16_t
+mvneta_rx_pkt_burst(void *rxq, struct rte_mbuf **rx_pkts, uint16_t nb_pkts)
+{
+ struct mvneta_rxq *q = rxq;
+ struct neta_ppio_desc descs[nb_pkts];
+ int i, ret, rx_done = 0, rx_dropped = 0;
+
+ if (unlikely(!q || !q->priv->ppio))
+ return 0;
+
+ ret = neta_ppio_recv(q->priv->ppio, q->queue_id,
+ descs, &nb_pkts);
+
+ if (unlikely(ret < 0)) {
+ MVNETA_LOG(ERR, "Failed to receive packets");
+ return 0;
+ }
+
+ for (i = 0; i < nb_pkts; i++) {
+ struct rte_mbuf *mbuf;
+ uint8_t l3_offset, l4_offset;
+ enum neta_inq_desc_status status;
+ uint64_t addr;
+
+ addr = cookie_addr_high |
+ neta_ppio_inq_desc_get_cookie(&descs[i]);
+ mbuf = (struct rte_mbuf *)addr;
+
+ rte_pktmbuf_reset(mbuf);
+
+ /* drop packet in case of mac, overrun or resource error */
+ status = neta_ppio_inq_desc_get_l2_pkt_error(&descs[i]);
+ if (unlikely(status != NETA_DESC_ERR_OK)) {
+ /* Release the mbuf to the mempool since
+ * it won't be transferred to tx path
+ */
+ rte_pktmbuf_free(mbuf);
+ q->drop_mac++;
+ rx_dropped++;
+ continue;
+ }
+
+ mbuf->data_off += MVNETA_PKT_EFFEC_OFFS;
+ mbuf->pkt_len = neta_ppio_inq_desc_get_pkt_len(&descs[i]);
+ mbuf->data_len = mbuf->pkt_len;
+ mbuf->port = q->port_id;
+ mbuf->packet_type =
+ mvneta_desc_to_packet_type_and_offset(&descs[i],
+ &l3_offset,
+ &l4_offset);
+ mbuf->l2_len = l3_offset;
+ mbuf->l3_len = l4_offset - l3_offset;
+
+ if (likely(q->cksum_enabled))
+ mbuf->ol_flags = mvneta_desc_to_ol_flags(&descs[i]);
+
+ rx_pkts[rx_done++] = mbuf;
+ q->bytes_recv += mbuf->pkt_len;
+ }
+ q->pkts_processed += rx_done + rx_dropped;
+
+ if (q->pkts_processed > rx_desc_free_thresh) {
+ int buf_to_refill = rx_desc_free_thresh;
+
+ ret = mvneta_buffs_alloc(q->priv, q, &buf_to_refill);
+ if (ret)
+ MVNETA_LOG(ERR, "Refill failed");
+ q->pkts_processed -= buf_to_refill;
+ }
+
+ return rx_done;
+}
+
+/**
+ * DPDK callback to configure the receive 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 conf
+ * Thresholds parameters (unused_).
+ * @param mp
+ * Memory pool for buffer allocations.
+ *
+ * @return
+ * 0 on success, negative error value otherwise.
+ */
+int
+mvneta_rx_queue_setup(struct rte_eth_dev *dev, uint16_t idx, uint16_t desc,
+ unsigned int socket,
+ const struct rte_eth_rxconf *conf __rte_unused,
+ struct rte_mempool *mp)
+{
+ struct mvneta_priv *priv = dev->data->dev_private;
+ struct mvneta_rxq *rxq;
+ uint32_t frame_size, buf_size = rte_pktmbuf_data_room_size(mp);
+ uint32_t max_rx_pkt_len = dev->data->dev_conf.rxmode.max_rx_pkt_len;
+
+ frame_size = buf_size - RTE_PKTMBUF_HEADROOM - MVNETA_PKT_EFFEC_OFFS;
+
+ if (frame_size < max_rx_pkt_len) {
+ MVNETA_LOG(ERR,
+ "Mbuf size must be increased to %u bytes to hold up "
+ "to %u bytes of data.",
+ buf_size + max_rx_pkt_len - frame_size,
+ max_rx_pkt_len);
+ dev->data->dev_conf.rxmode.max_rx_pkt_len = frame_size;
+ MVNETA_LOG(INFO, "Setting max rx pkt len to %u",
+ dev->data->dev_conf.rxmode.max_rx_pkt_len);
+ }
+
+ if (dev->data->rx_queues[idx]) {
+ rte_free(dev->data->rx_queues[idx]);
+ dev->data->rx_queues[idx] = NULL;
+ }
+
+ rxq = rte_zmalloc_socket("rxq", sizeof(*rxq), 0, socket);
+ if (!rxq)
+ return -ENOMEM;
+
+ rxq->priv = priv;
+ rxq->mp = mp;
+ rxq->cksum_enabled = dev->data->dev_conf.rxmode.offloads &
+ DEV_RX_OFFLOAD_IPV4_CKSUM;
+ rxq->queue_id = idx;
+ rxq->port_id = dev->data->port_id;
+ rxq->size = desc;
+ rx_desc_free_thresh = RTE_MIN(rx_desc_free_thresh, (desc / 2));
+ priv->ppio_params.inqs_params.tcs_params[MRVL_NETA_DEFAULT_TC].size =
+ desc;
+
+ dev->data->rx_queues[idx] = rxq;
+
+ return 0;
+}
+
+/**
+ * DPDK callback to configure the transmit queue.
+ *
+ * @param dev
+ * Pointer to Ethernet device structure.
+ * @param idx
+ * Transmit queue index.
+ * @param desc
+ * Number of descriptors to configure in the queue.
+ * @param socket
+ * NUMA socket on which memory must be allocated.
+ * @param conf
+ * Tx queue configuration parameters.
+ *
+ * @return
+ * 0 on success, negative error value otherwise.
+ */
+int
+mvneta_tx_queue_setup(struct rte_eth_dev *dev, uint16_t idx, uint16_t desc,
+ unsigned int socket, const struct rte_eth_txconf *conf)
+{
+ struct mvneta_priv *priv = dev->data->dev_private;
+ struct mvneta_txq *txq;
+
+ if (dev->data->tx_queues[idx]) {
+ rte_free(dev->data->tx_queues[idx]);
+ dev->data->tx_queues[idx] = NULL;
+ }
+
+ txq = rte_zmalloc_socket("txq", sizeof(*txq), 0, socket);
+ if (!txq)
+ return -ENOMEM;
+
+ txq->priv = priv;
+ txq->queue_id = idx;
+ txq->port_id = dev->data->port_id;
+ txq->tx_deferred_start = conf->tx_deferred_start;
+ dev->data->tx_queues[idx] = txq;
+
+ priv->ppio_params.outqs_params.outqs_params[idx].size = desc;
+ priv->ppio_params.outqs_params.outqs_params[idx].weight = 1;
+
+ return 0;
+}
+
+/**
+ * DPDK callback to release the transmit queue.
+ *
+ * @param txq
+ * Generic transmit queue pointer.
+ */
+void
+mvneta_tx_queue_release(void *txq)
+{
+ struct mvneta_txq *q = txq;
+
+ if (!q)
+ return;
+
+ rte_free(q);
+}
+
+/**
+ * Return mbufs to mempool.
+ *
+ * @param rxq
+ * Pointer to rx queue structure
+ * @param desc
+ * Array of rx descriptors
+ */
+static void
+mvneta_recv_buffs_free(struct neta_ppio_desc *desc, uint16_t num)
+{
+ uint64_t addr;
+ uint8_t i;
+
+ for (i = 0; i < num; i++) {
+ if (desc) {
+ addr = cookie_addr_high |
+ neta_ppio_inq_desc_get_cookie(desc);
+ if (addr)
+ rte_pktmbuf_free((struct rte_mbuf *)addr);
+ desc++;
+ }
+ }
+}
+
+int
+mvneta_alloc_rx_bufs(struct rte_eth_dev *dev)
+{
+ struct mvneta_priv *priv = dev->data->dev_private;
+ int ret = 0, i;
+
+ for (i = 0; i < dev->data->nb_rx_queues; i++) {
+ struct mvneta_rxq *rxq = dev->data->rx_queues[i];
+ int num = rxq->size;
+
+ ret = mvneta_buffs_alloc(priv, rxq, &num);
+ if (ret || num != rxq->size) {
+ rte_free(rxq);
+ return ret;
+ }
+ }
+
+ return 0;
+}
+
+/**
+ * Flush single receive queue.
+ *
+ * @param rxq
+ * Pointer to rx queue structure.
+ * @param descs
+ * Array of rx descriptors
+ */
+static void
+mvneta_rx_queue_flush(struct mvneta_rxq *rxq)
+{
+ struct neta_ppio_desc *descs;
+ struct neta_buff_inf *bufs;
+ uint16_t num;
+ int ret, i;
+
+ descs = rte_malloc("rxdesc", MRVL_NETA_RXD_MAX * sizeof(*descs), 0);
+ bufs = rte_malloc("buffs", MRVL_NETA_RXD_MAX * sizeof(*bufs), 0);
+
+ do {
+ num = MRVL_NETA_RXD_MAX;
+ ret = neta_ppio_recv(rxq->priv->ppio,
+ rxq->queue_id,
+ descs, &num);
+ mvneta_recv_buffs_free(descs, num);
+ } while (ret == 0 && num);
+
+ rxq->pkts_processed = 0;
+
+ num = MRVL_NETA_RXD_MAX;
+
+ neta_ppio_inq_get_all_buffs(rxq->priv->ppio, rxq->queue_id, bufs, &num);
+ MVNETA_LOG(INFO, "freeing %u unused bufs.", num);
+
+ for (i = 0; i < num; i++) {
+ uint64_t addr;
+ if (bufs[i].cookie) {
+ addr = cookie_addr_high | bufs[i].cookie;
+ rte_pktmbuf_free((struct rte_mbuf *)addr);
+ }
+ }
+
+ rte_free(descs);
+ rte_free(bufs);
+}
+
+/**
+ * Flush single transmit queue.
+ *
+ * @param txq
+ * Pointer to tx queue structure
+ */
+static void
+mvneta_tx_queue_flush(struct mvneta_txq *txq)
+{
+ struct mvneta_shadow_txq *sq = &txq->shadow_txq;
+
+ if (sq->size)
+ mvneta_sent_buffers_free(txq->priv->ppio, sq,
+ txq->queue_id);
+
+ /* free the rest of them */
+ while (sq->tail != sq->head) {
+ uint64_t addr = cookie_addr_high |
+ sq->ent[sq->tail].cookie;
+ rte_pktmbuf_free((struct rte_mbuf *)addr);
+ sq->tail = (sq->tail + 1) & MRVL_NETA_TX_SHADOWQ_MASK;
+ }
+ memset(sq, 0, sizeof(*sq));
+}
+
+void
+mvneta_flush_queues(struct rte_eth_dev *dev)
+{
+ int i;
+
+ MVNETA_LOG(INFO, "Flushing rx queues");
+ for (i = 0; i < dev->data->nb_rx_queues; i++) {
+ struct mvneta_rxq *rxq = dev->data->rx_queues[i];
+
+ mvneta_rx_queue_flush(rxq);
+ }
+
+ MVNETA_LOG(INFO, "Flushing tx queues");
+ for (i = 0; i < dev->data->nb_tx_queues; i++) {
+ struct mvneta_txq *txq = dev->data->tx_queues[i];
+
+ mvneta_tx_queue_flush(txq);
+ }
+}
+
+/**
+ * DPDK callback to release the receive queue.
+ *
+ * @param rxq
+ * Generic receive queue pointer.
+ */
+void
+mvneta_rx_queue_release(void *rxq)
+{
+ struct mvneta_rxq *q = rxq;
+
+ if (!q)
+ return;
+
+ /* If dev_stop was called already, mbufs are already
+ * returned to mempool and ppio is deinitialized.
+ * Skip this step.
+ */
+
+ if (q->priv->ppio)
+ mvneta_rx_queue_flush(q);
+
+ rte_free(rxq);
+}
+
+/**
+ * DPDK callback to get information about specific receive queue.
+ *
+ * @param dev
+ * Pointer to Ethernet device structure.
+ * @param rx_queue_id
+ * Receive queue index.
+ * @param qinfo
+ * Receive queue information structure.
+ */
+void
+mvneta_rxq_info_get(struct rte_eth_dev *dev, uint16_t rx_queue_id,
+ struct rte_eth_rxq_info *qinfo)
+{
+ struct mvneta_rxq *q = dev->data->rx_queues[rx_queue_id];
+
+ qinfo->mp = q->mp;
+ qinfo->nb_desc = q->size;
+}
+
+/**
+ * DPDK callback to get information about specific transmit queue.
+ *
+ * @param dev
+ * Pointer to Ethernet device structure.
+ * @param tx_queue_id
+ * Transmit queue index.
+ * @param qinfo
+ * Transmit queue information structure.
+ */
+void
+mvneta_txq_info_get(struct rte_eth_dev *dev, uint16_t tx_queue_id,
+ struct rte_eth_txq_info *qinfo)
+{
+ struct mvneta_priv *priv = dev->data->dev_private;
+
+ qinfo->nb_desc =
+ priv->ppio_params.outqs_params.outqs_params[tx_queue_id].size;
+}
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/*
 * Copyright (c) 2017-2019 Cisco and/or its affiliates.
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this
 * You may obtain a copy of the License at:
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

#include <stdio.h>
#include <stdlib.h>
#include <vcl/vppcom.h>
#include <vcl/vcl_debug.h>
#include <vcl/vcl_private.h>
#include <svm/fifo_segment.h>

__thread uword __vcl_worker_index = ~0;

static int
vcl_segment_is_not_mounted (vcl_worker_t * wrk, u64 segment_handle)
{
  u32 segment_index;

  if (segment_handle == VCL_INVALID_SEGMENT_HANDLE)
    return 0;

  segment_index = vcl_segment_table_lookup (segment_handle);
  if (segment_index != VCL_INVALID_SEGMENT_INDEX)
    return 0;

  return 1;
}

static inline int
vcl_mq_dequeue_batch (vcl_worker_t * wrk, svm_msg_q_t * mq, u32 n_max_msg)
{
  svm_msg_q_msg_t *msg;
  u32 n_msgs;
  int i;

  n_msgs = clib_min (svm_msg_q_size (mq), n_max_msg);
  for (i = 0; i < n_msgs; i++)
    {
      vec_add2 (wrk->mq_msg_vector, msg, 1);
      svm_msg_q_sub_w_lock (mq, msg);
    }
  return n_msgs;
}

const char *
vppcom_session_state_str (vcl_session_state_t state)
{
  char *st;

  switch (state)
    {
    case STATE_CLOSED:
      st = "STATE_CLOSED";
      break;

    case STATE_CONNECT:
      st = "STATE_CONNECT";
      break;

    case STATE_LISTEN:
      st = "STATE_LISTEN";
      break;

    case STATE_ACCEPT:
      st = "STATE_ACCEPT";
      break;

    case STATE_VPP_CLOSING:
      st = "STATE_VPP_CLOSING";
      break;

    case STATE_DISCONNECT:
      st = "STATE_DISCONNECT";
      break;

    case STATE_DETACHED:
      st = "STATE_DETACHED";
      break;

    case STATE_UPDATED:
      st = "STATE_UPDATED";
      break;

    case STATE_LISTEN_NO_MQ:
      st = "STATE_LISTEN_NO_MQ";
      break;

    default:
      st = "UNKNOWN_STATE";
      break;
    }

  return st;
}

u8 *
format_ip4_address (u8 * s, va_list * args)
{
  u8 *a = va_arg (*args, u8 *);
  return format (s, "%d.%d.%d.%d", a[0], a[1], a[2], a[3]);
}

u8 *
format_ip6_address (u8 * s, va_list * args)
{
  ip6_address_t *a = va_arg (*args, ip6_address_t *);
  u32 i, i_max_n_zero, max_n_zeros, i_first_zero, n_zeros, last_double_colon;

  i_max_n_zero = ARRAY_LEN (a->as_u16);
  max_n_zeros = 0;
  i_first_zero = i_max_n_zero;
  n_zeros = 0;
  for (i = 0; i < ARRAY_LEN (a->as_u16); i++)
    {
      u32 is_zero = a->as_u16[i] == 0;
      if (is_zero && i_first_zero >= ARRAY_LEN (a->as_u16))
	{
	  i_first_zero = i;
	  n_zeros = 0;
	}
      n_zeros += is_zero;
      if ((!is_zero && n_zeros > max_n_zeros)
	  || (i + 1 >= ARRAY_LEN (a->as_u16) && n_zeros > max_n_zeros))
	{
	  i_max_n_zero = i_first_zero;
	  max_n_zeros = n_zeros;
	  i_first_zero = ARRAY_LEN (a->as_u16);
	  n_zeros = 0;
	}
    }

  last_double_colon = 0;
  for (i = 0; i < ARRAY_LEN (a->as_u16); i++)
    {
      if (i == i_max_n_zero && max_n_zeros > 1)
	{
	  s = format (s, "::");
	  i += max_n_zeros - 1;
	  last_double_colon = 1;
	}
      else
	{
	  s = format (s, "%s%x",
		      (last_double_colon || i == 0) ? "" : ":",
		      clib_net_to_host_u16 (a->as_u16[i]));
	  last_double_colon = 0;
	}
    }

  return s;
}

/* Format an IP46 address. */
u8 *
format_ip46_address (u8 * s, va_list * args)
{
  ip46_address_t *ip46 = va_arg (*args, ip46_address_t *);
  ip46_type_t type = va_arg (*args, ip46_type_t);
  int is_ip4 = 1;

  switch (type)
    {
    case IP46_TYPE_ANY:
      is_ip4 = ip46_address_is_ip4 (ip46);
      break;
    case IP46_TYPE_IP4:
      is_ip4 = 1;
      break;
    case IP46_TYPE_IP6:
      is_ip4 = 0;
      break;
    }

  return is_ip4 ?
    format (s, "%U", format_ip4_address, &ip46->ip4) :
    format (s, "%U", format_ip6_address, &ip46->ip6);
}

/*
 * VPPCOM Utility Functions
 */

static void
vcl_send_session_listen (vcl_worker_t * wrk, vcl_session_t * s)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_listen_msg_t *mp;
  svm_msg_q_t *mq;

  mq = vcl_worker_ctrl_mq (wrk);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_LISTEN);
  mp = (session_listen_msg_t *) app_evt->evt->data;
  memset (mp, 0, sizeof (*mp));
  mp->client_index = wrk->api_client_handle;
  mp->context = s->session_index;
  mp->wrk_index = wrk->vpp_wrk_index;
  mp->is_ip4 = s->transport.is_ip4;
  clib_memcpy_fast (&mp->ip, &s->transport.lcl_ip, sizeof (mp->ip));
  mp->port = s->transport.lcl_port;
  mp->proto = s->session_type;
  if (s->flags & VCL_SESSION_F_CONNECTED)
    mp->flags = TRANSPORT_CFG_F_CONNECTED;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_session_connect (vcl_worker_t * wrk, vcl_session_t * s)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_connect_msg_t *mp;
  svm_msg_q_t *mq;

  mq = vcl_worker_ctrl_mq (wrk);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_CONNECT);
  mp = (session_connect_msg_t *) app_evt->evt->data;
  memset (mp, 0, sizeof (*mp));
  mp->client_index = wrk->api_client_handle;
  mp->context = s->session_index;
  mp->wrk_index = wrk->vpp_wrk_index;
  mp->is_ip4 = s->transport.is_ip4;
  mp->parent_handle = s->parent_handle;
  clib_memcpy_fast (&mp->ip, &s->transport.rmt_ip, sizeof (mp->ip));
  clib_memcpy_fast (&mp->lcl_ip, &s->transport.lcl_ip, sizeof (mp->lcl_ip));
  mp->port = s->transport.rmt_port;
  mp->lcl_port = s->transport.lcl_port;
  mp->proto = s->session_type;
  if (s->flags & VCL_SESSION_F_CONNECTED)
    mp->flags |= TRANSPORT_CFG_F_CONNECTED;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

void
vcl_send_session_unlisten (vcl_worker_t * wrk, vcl_session_t * s)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_unlisten_msg_t *mp;
  svm_msg_q_t *mq;

  mq = vcl_worker_ctrl_mq (wrk);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_UNLISTEN);
  mp = (session_unlisten_msg_t *) app_evt->evt->data;
  memset (mp, 0, sizeof (*mp));
  mp->client_index = wrk->api_client_handle;
  mp->wrk_index = wrk->vpp_wrk_index;
  mp->handle = s->vpp_handle;
  mp->context = wrk->wrk_index;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_session_disconnect (vcl_worker_t * wrk, vcl_session_t * s)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_disconnect_msg_t *mp;
  svm_msg_q_t *mq;

  /* Send to thread that owns the session */
  mq = s->vpp_evt_q;
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_DISCONNECT);
  mp = (session_disconnect_msg_t *) app_evt->evt->data;
  memset (mp, 0, sizeof (*mp));
  mp->client_index = wrk->api_client_handle;
  mp->handle = s->vpp_handle;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_app_detach (vcl_worker_t * wrk)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_app_detach_msg_t *mp;
  svm_msg_q_t *mq;

  mq = vcl_worker_ctrl_mq (wrk);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_APP_DETACH);
  mp = (session_app_detach_msg_t *) app_evt->evt->data;
  memset (mp, 0, sizeof (*mp));
  mp->client_index = wrk->api_client_handle;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_session_accepted_reply (svm_msg_q_t * mq, u32 context,
				 session_handle_t handle, int retval)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_accepted_reply_msg_t *rmp;
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_ACCEPTED_REPLY);
  rmp = (session_accepted_reply_msg_t *) app_evt->evt->data;
  rmp->handle = handle;
  rmp->context = context;
  rmp->retval = retval;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_session_disconnected_reply (svm_msg_q_t * mq, u32 context,
				     session_handle_t handle, int retval)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_disconnected_reply_msg_t *rmp;
  app_alloc_ctrl_evt_to_vpp (mq, app_evt,
			     SESSION_CTRL_EVT_DISCONNECTED_REPLY);
  rmp = (session_disconnected_reply_msg_t *) app_evt->evt->data;
  rmp->handle = handle;
  rmp->context = context;
  rmp->retval = retval;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

static void
vcl_send_session_reset_reply (svm_msg_q_t * mq, u32 context,
			      session_handle_t handle, int retval)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_reset_reply_msg_t *rmp;
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_RESET_REPLY);
  rmp = (session_reset_reply_msg_t *) app_evt->evt->data;
  rmp->handle = handle;
  rmp->context = context;
  rmp->retval = retval;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

void
vcl_send_session_worker_update (vcl_worker_t * wrk, vcl_session_t * s,
				u32 wrk_index)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_worker_update_msg_t *mp;
  svm_msg_q_t *mq;

  mq = vcl_session_vpp_evt_q (wrk, s);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_WORKER_UPDATE);
  mp = (session_worker_update_msg_t *) app_evt->evt->data;
  mp->client_index = wrk->api_client_handle;
  mp->handle = s->vpp_handle;
  mp->req_wrk_index = wrk->vpp_wrk_index;
  mp->wrk_index = wrk_index;
  app_send_ctrl_evt_to_vpp (mq, app_evt);
}

int
vcl_send_worker_rpc (u32 dst_wrk_index, void *data, u32 data_len)
{
  app_session_evt_t _app_evt, *app_evt = &_app_evt;
  session_app_wrk_rpc_msg_t *mp;
  vcl_worker_t *dst_wrk, *wrk;
  svm_msg_q_t *mq;
  int ret = -1;

  if (data_len > sizeof (mp->data))
    goto done;

  clib_spinlock_lock (&vcm->workers_lock);

  dst_wrk = vcl_worker_get_if_valid (dst_wrk_index);
  if (!dst_wrk)
    goto done;

  wrk = vcl_worker_get_current ();
  mq = vcl_worker_ctrl_mq (wrk);
  app_alloc_ctrl_evt_to_vpp (mq, app_evt, SESSION_CTRL_EVT_APP_WRK_RPC);
  mp = (session_app_wrk_rpc_msg_t *) app_evt->evt->data;
  mp->client_index = wrk->api_client_handle;
  mp->wrk_index = dst_wrk->vpp_wrk_index;
  clib_memcpy (mp->data, data, data_len);
  app_send_ctrl_evt_to_vpp (mq, app_evt);
  ret = 0;

done:
  clib_spinlock_unlock (&vcm->workers_lock);
  return ret;
}

static u32
vcl_session_accepted_handler (vcl_worker_t * wrk, session_accepted_msg_t * mp,
			      u32 ls_index)
{
  vcl_session_t *session, *listen_session;
  svm_fifo_t *rx_fifo, *tx_fifo;
  u32 vpp_wrk_index;
  svm_msg_q_t *evt_q;

  session = vcl_session_alloc (wrk);

  listen_session = vcl_session_get (wrk, ls_index);
  if (listen_session->vpp_handle != mp->listener_handle)
    {
      VDBG (0, "ERROR: listener handle %lu does not match session %u",
	    mp->listener_handle, ls_index);
      goto error;
    }

  if (vcl_segment_is_not_mounted (wrk, mp->segment_handle))
    {
      VDBG (0, "ERROR: segment for session %u is not mounted!",
	    session->session_index);
      goto error;
    }

  rx_fifo = uword_to_pointer (mp->server_rx_fifo, svm_fifo_t *);
  tx_fifo = uword_to_pointer (mp->server_tx_fifo, svm_fifo_t *);
  session->vpp_evt_q = uword_to_pointer (mp->vpp_event_queue_address,
					 svm_msg_q_t *);
  rx_fifo->client_session_index = session->session_index;
  tx_fifo->client_session_index = session->session_index;
  rx_fifo->client_thread_index = vcl_get_worker_index ();
  tx_fifo->client_thread_index = vcl_get_worker_index ();
  vpp_wrk_index = tx_fifo->master_thread_index;
  vec_validate (wrk->vpp_event_queues, vpp_wrk_index);
  wrk->vpp_event_queues[vpp_wrk_index] = session->vpp_evt_q;

  session->vpp_handle = mp->handle;
  session->vpp_thread_index = rx_fifo->master_thread_index;
  session->rx_fifo = rx_fifo;
  session->tx_fifo = tx_fifo;

  session->session_state = STATE_ACCEPT;
  session->transport.rmt_port = mp->rmt.port;
  session->transport.is_ip4 = mp->rmt.is_ip4;
  clib_memcpy_fast (&session->transport.rmt_ip, &mp->rmt.ip,
		    sizeof (ip46_address_t));

  vcl_session_table_add_vpp_handle (wrk, mp->handle, session->session_index);
  session->transport.lcl_port = listen_session->transport.lcl_port;
  session->transport.lcl_ip = listen_session->transport.lcl_ip;
  session->session_type = listen_session->session_type;
  session->is_dgram = vcl_proto_is_dgram (session->session_type);
  session->listener_index = listen_session->session_index;
  listen_session->n_accepted_sessions++;

  VDBG (1, "session %u [0x%llx]: client accept request from %s address %U"
	" port %d queue %p!", session->session_index, mp->handle,
	mp->rmt.is_ip4 ? "IPv4" : "IPv6", format_ip46_address, &mp->rmt.ip,
	mp->rmt.is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
	clib_net_to_host_u16 (mp->rmt.port), session->vpp_evt_q);
  vcl_evt (VCL_EVT_ACCEPT, session, listen_session, session_index);

  vcl_send_session_accepted_reply (session->vpp_evt_q, mp->context,
				   session->vpp_handle, 0);

  return session->session_index;

error:
  evt_q = uword_to_pointer (mp->vpp_event_queue_address, svm_msg_q_t *);
  vcl_send_session_accepted_reply (evt_q, mp->context, mp->handle,
				   VNET_API_ERROR_INVALID_ARGUMENT);
  vcl_session_free (wrk, session);
  return VCL_INVALID_SESSION_INDEX;
}

static u32
vcl_session_connected_handler (vcl_worker_t * wrk,
			       session_connected_msg_t * mp)
{
  u32 session_index, vpp_wrk_index;
  svm_fifo_t *rx_fifo, *tx_fifo;
  vcl_session_t *session = 0;

  session_index = mp->context;
  session = vcl_session_get (wrk, session_index);
  if (!session)
    {
      VDBG (0, "ERROR: vpp handle 0x%llx has no session index (%u)!",
	    mp->handle, session_index);
      return VCL_INVALID_SESSION_INDEX;
    }
  if (mp->retval)
    {
      VDBG (0, "ERROR: session index %u: connect failed! %U",
	    session_index, format_session_error, mp->retval);
      session->session_state = STATE_DETACHED | STATE_DISCONNECT;
      session->vpp_handle = mp->handle;
      return session_index;
    }

  session->vpp_handle = mp->handle;
  session->vpp_evt_q = uword_to_pointer (mp->vpp_event_queue_address,
					 svm_msg_q_t *);
  rx_fifo = uword_to_pointer (mp->server_rx_fifo, svm_fifo_t *);
  tx_fifo = uword_to_pointer (mp->server_tx_fifo, svm_fifo_t *);
  if (vcl_segment_is_not_mounted (wrk, mp->segment_handle))
    {
      VDBG (0, "segment for session %u is not mounted!",
	    session->session_index);
      session->session_state = STATE_DETACHED | STATE_DISCONNECT;
      vcl_send_session_disconnect (wrk, session);
      return session_index;
    }

  rx_fifo->client_session_index = session_index;
  tx_fifo->client_session_index = session_index;
  rx_fifo->client_thread_index = vcl_get_worker_index ();
  tx_fifo->client_thread_index = vcl_get_worker_index ();

  vpp_wrk_index = tx_fifo->master_thread_index;
  vec_validate (wrk->vpp_event_queues, vpp_wrk_index);
  wrk->vpp_event_queues[vpp_wrk_index] = session->vpp_evt_q;

  if (mp->ct_rx_fifo)
    {
      session->ct_rx_fifo = uword_to_pointer (mp->ct_rx_fifo, svm_fifo_t *);
      session->ct_tx_fifo = uword_to_pointer (mp->ct_tx_fifo, svm_fifo_t *);
      if (vcl_segment_is_not_mounted (wrk, mp->ct_segment_handle))
	{
	  VDBG (0, "ct segment for session %u is not mounted!",
		session->session_index);
	  session->session_state = STATE_DETACHED | STATE_DISCONNECT;
	  vcl_send_session_disconnect (wrk, session);
	  return session_index;
	}
    }

  session->rx_fifo = rx_fifo;
  session->tx_fifo = tx_fifo;
  session->vpp_thread_index = rx_fifo->master_thread_index;
  session->transport.is_ip4 = mp->lcl.is_ip4;
  clib_memcpy_fast (&session->transport.lcl_ip, &mp->lcl.ip,
		    sizeof (session->transport.lcl_ip));
  session->transport.lcl_port = mp->lcl.port;

  /* Application closed session before connect reply */
  if (VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_NONBLOCK)
      && session->session_state == STATE_CLOSED)
    vcl_send_session_disconnect (wrk, session);
  else
    session->session_state = STATE_CONNECT;

  /* Add it to lookup table */
  vcl_session_table_add_vpp_handle (wrk, mp->handle, session_index);

  VDBG (1, "session %u [0x%llx] connected! rx_fifo %p, refcnt %d, tx_fifo %p,"
	" refcnt %d", session_index, mp->handle, session->rx_fifo,
	session->rx_fifo->refcnt, session->tx_fifo, session->tx_fifo->refcnt);

  return session_index;
}

static int
vcl_flag_accepted_session (vcl_session_t * session, u64 handle, u32 flags)
{
  vcl_session_msg_t *accepted_msg;
  int i;

  for (i = 0; i < vec_len (session->accept_evts_fifo); i++)
    {
      accepted_msg = &session->accept_evts_fifo[i];
      if (accepted_msg->accepted_msg.handle == handle)
	{
	  accepted_msg->flags |= flags;
	  return 1;
	}
    }
  return 0;
}

static u32
vcl_session_reset_handler (vcl_worker_t * wrk,
			   session_reset_msg_t * reset_msg)
{
  vcl_session_t *session;
  u32 sid;

  sid = vcl_session_index_from_vpp_handle (wrk, reset_msg->handle);
  session = vcl_session_get (wrk, sid);
  if (!session)
    {
      VDBG (0, "request to reset unknown handle 0x%llx", reset_msg->handle);
      return VCL_INVALID_SESSION_INDEX;
    }

  /* Caught a reset before actually accepting the session */
  if (session->session_state == STATE_LISTEN)
    {

      if (!vcl_flag_accepted_session (session, reset_msg->handle,
				      VCL_ACCEPTED_F_RESET))
	VDBG (0, "session was not accepted!");
      return VCL_INVALID_SESSION_INDEX;
    }

  if (session->session_state != STATE_CLOSED)
    session->session_state = STATE_DISCONNECT;
  VDBG (0, "reset session %u [0x%llx]", sid, reset_msg->handle);
  return sid;
}

static u32
vcl_session_bound_handler (vcl_worker_t * wrk, session_bound_msg_t * mp)
{
  vcl_session_t *session;
  u32 sid = mp->context;

  session = vcl_session_get (wrk, sid);
  if (mp->retval)
    {
      VERR ("session %u [0x%llx]: bind failed: %U", sid, mp->handle,
	    format_session_error, mp->retval);
      if (session)
	{
	  session->session_state = STATE_DETACHED;
	  session->vpp_handle = mp->handle;
	  return sid;
	}
      else
	{
	  VDBG (0, "ERROR: session %u [0x%llx]: Invalid session index!",
		sid, mp->handle);
	  return VCL_INVALID_SESSION_INDEX;
	}
    }

  session->vpp_handle = mp->handle;
  session->transport.is_ip4 = mp->lcl_is_ip4;
  clib_memcpy_fast (&session->transport.lcl_ip, mp->lcl_ip,
		    sizeof (ip46_address_t));
  session->transport.lcl_port = mp->lcl_port;
  vcl_session_table_add_listener (wrk, mp->handle, sid);
  session->session_state = STATE_LISTEN;

  session->vpp_evt_q = uword_to_pointer (mp->vpp_evt_q, svm_msg_q_t *);
  vec_validate (wrk->vpp_event_queues, 0);
  wrk->vpp_event_queues[0] = session->vpp_evt_q;

  if (vcl_session_is_cl (session))
    {
      svm_fifo_t *rx_fifo, *tx_fifo;
      session->vpp_evt_q = uword_to_pointer (mp->vpp_evt_q, svm_msg_q_t *);
      rx_fifo = uword_to_pointer (mp->rx_fifo, svm_fifo_t *);
      rx_fifo->client_session_index = sid;
      tx_fifo = uword_to_pointer (mp->tx_fifo, svm_fifo_t *);
      tx_fifo->client_session_index = sid;
      session->rx_fifo = rx_fifo;
      session->tx_fifo = tx_fifo;
    }

  VDBG (0, "session %u [0x%llx]: listen succeeded!", sid, mp->handle);
  return sid;
}

static void
vcl_session_unlisten_reply_handler (vcl_worker_t * wrk, void *data)
{
  session_unlisten_reply_msg_t *mp = (session_unlisten_reply_msg_t *) data;
  vcl_session_t *s;

  s = vcl_session_get_w_vpp_handle (wrk, mp->handle);
  if (!s)
    {
      VDBG (0, "Unlisten reply with wrong handle %llx", mp->handle);
      return;
    }
  if (s->session_state != STATE_DISCONNECT)
    {
      /* Connected udp listener */
      if (s->session_type == VPPCOM_PROTO_UDP
	  && s->session_state == STATE_CLOSED)
	return;

      VDBG (0, "Unlisten session in wrong state %llx", mp->handle);
      return;
    }

  if (mp->retval)
    VDBG (0, "ERROR: session %u [0xllx]: unlisten failed: %U",
	  s->session_index, mp->handle, format_session_error, mp->retval);

  if (mp->context != wrk->wrk_index)
    VDBG (0, "wrong context");

  vcl_session_table_del_vpp_handle (wrk, mp->handle);
  vcl_session_free (wrk, s);
}

static void
vcl_session_migrated_handler (vcl_worker_t * wrk, void *data)
{
  session_migrated_msg_t *mp = (session_migrated_msg_t *) data;
  vcl_session_t *s;

  s = vcl_session_get_w_vpp_handle (wrk, mp->handle);
  if (!s)
    {
      VDBG (0, "Migrated notification with wrong handle %llx", mp->handle);
      return;
    }

  s->vpp_thread_index = mp->vpp_thread_index;
  s->vpp_handle = mp->new_handle;
  s->vpp_evt_q = uword_to_pointer (mp->vpp_evt_q, svm_msg_q_t *);

  vec_validate (wrk->vpp_event_queues, s->vpp_thread_index);
  wrk->vpp_event_queues[s->vpp_thread_index] = s->vpp_evt_q;

  vcl_session_table_del_vpp_handle (wrk, mp->handle);
  vcl_session_table_add_vpp_handle (wrk, mp->new_handle, s->session_index);

  /* Generate new tx event if we have outstanding data */
  if (svm_fifo_has_event (s->tx_fifo))
    app_send_io_evt_to_vpp (s->vpp_evt_q, s->tx_fifo->master_session_index,
			    SESSION_IO_EVT_TX, SVM_Q_WAIT);

  VDBG (0, "Migrated 0x%lx to thread %u 0x%lx", mp->handle,
	s->vpp_thread_index, mp->new_handle);
}

static vcl_session_t *
vcl_session_accepted (vcl_worker_t * wrk, session_accepted_msg_t * msg)
{
  vcl_session_msg_t *vcl_msg;
  vcl_session_t *session;

  session = vcl_session_get_w_vpp_handle (wrk, msg->handle);
  if (PREDICT_FALSE (session != 0))
    VWRN ("session overlap handle %lu state %u!", msg->handle,
	  session->session_state);

  session = vcl_session_table_lookup_listener (wrk, msg->listener_handle);
  if (!session)
    {
      VERR ("couldn't find listen session: listener handle %llx",
	    msg->listener_handle);
      return 0;
    }

  clib_fifo_add2 (session->accept_evts_fifo, vcl_msg);
  vcl_msg->flags = 0;
  vcl_msg->accepted_msg = *msg;
  /* Session handle points to listener until fully accepted by app */
  vcl_session_table_add_vpp_handle (wrk, msg->handle, session->session_index);

  return session;
}

static vcl_session_t *
vcl_session_disconnected_handler (vcl_worker_t * wrk,
				  session_disconnected_msg_t * msg)
{
  vcl_session_t *session;

  session = vcl_session_get_w_vpp_handle (wrk, msg->handle);
  if (!session)
    {
      VDBG (0, "request to disconnect unknown handle 0x%llx", msg->handle);
      return 0;
    }

  /* Late disconnect notification on a session that has been closed */
  if (session->session_state == STATE_CLOSED)
    return 0;

  /* Caught a disconnect before actually accepting the session */
  if (session->session_state == STATE_LISTEN)
    {
      if (!vcl_flag_accepted_session (session, msg->handle,
				      VCL_ACCEPTED_F_CLOSED))
	VDBG (0, "session was not accepted!");
      return 0;
    }

  /* If not already reset change state */
  if (session->session_state != STATE_DISCONNECT)
    session->session_state = STATE_VPP_CLOSING;

  return session;
}

static void
vcl_session_cleanup_handler (vcl_worker_t * wrk, void *data)
{
  session_cleanup_msg_t *msg;
  vcl_session_t *session;

  msg = (session_cleanup_msg_t *) data;
  session = vcl_session_get_w_vpp_handle (wrk, msg->handle);
  if (!session)
    {
      VDBG (0, "disconnect confirmed for unknown handle 0x%llx", msg->handle);
      return;
    }

  if (msg->type == SESSION_CLEANUP_TRANSPORT)
    {
      /* Transport was cleaned up before we confirmed close. Probably the
       * app is still waiting for some data that cannot be delivered.
       * Confirm close to make sure everything is cleaned up */
      if (session->session_state == STATE_VPP_CLOSING)
	vcl_session_cleanup (wrk, session, vcl_session_handle (session),
			     1 /* do_disconnect */ );
      return;
    }

  vcl_session_table_del_vpp_handle (wrk, msg->handle);
  /* Should not happen. App did not close the connection so don't free it. */
  if (session->session_state != STATE_CLOSED)
    {
      VDBG (0, "app did not close session %d", session->session_index);
      session->session_state = STATE_DETACHED;
      session->vpp_handle = VCL_INVALID_SESSION_HANDLE;
      return;
    }
  vcl_session_free (wrk, session);
}

static void
vcl_session_req_worker_update_handler (vcl_worker_t * wrk, void *data)
{
  session_req_worker_update_msg_t *msg;
  vcl_session_t *s;

  msg = (session_req_worker_update_msg_t *) data;
  s = vcl_session_get_w_vpp_handle (wrk, msg->session_handle);
  if (!s)
    return;

  vec_add1 (wrk->pending_session_wrk_updates, s->session_index);
}

static void
vcl_session_worker_update_reply_handler (vcl_worker_t * wrk, void *data)
{
  session_worker_update_reply_msg_t *msg;
  vcl_session_t *s;

  msg = (session_worker_update_reply_msg_t *) data;
  s = vcl_session_get_w_vpp_handle (wrk, msg->handle);
  if (!s)
    {
      VDBG (0, "unknown handle 0x%llx", msg->handle);
      return;
    }
  if (vcl_segment_is_not_mounted (wrk, msg->segment_handle))
    {
      clib_warning ("segment for session %u is not mounted!",
		    s->session_index);
      return;
    }

  if (s->rx_fifo)
    {
      s->rx_fifo = uword_to_pointer (msg->rx_fifo, svm_fifo_t *);
      s->tx_fifo = uword_to_pointer (msg->tx_fifo, svm_fifo_t *);
      s->rx_fifo->client_session_index = s->session_index;
      s->tx_fifo->client_session_index = s->session_index;
      s->rx_fifo->client_thread_index = wrk->wrk_index;
      s->tx_fifo->client_thread_index = wrk->wrk_index;
    }
  s->session_state = STATE_UPDATED;

  VDBG (0, "session %u[0x%llx] moved to worker %u", s->session_index,
	s->vpp_handle, wrk->wrk_index);
}

static int
vcl_api_recv_fd (vcl_worker_t * wrk, int *fds, int n_fds)
{

  if (vcm->cfg.vpp_app_socket_api)
    return vcl_sapi_recv_fds (wrk, fds, n_fds);

  return vcl_bapi_recv_fds (wrk, fds, n_fds);
}

static void
vcl_session_app_add_segment_handler (vcl_worker_t * wrk, void *data)
{
  ssvm_segment_type_t seg_type = SSVM_SEGMENT_SHM;
  session_app_add_segment_msg_t *msg;
  u64 segment_handle;
  int fd = -1;

  msg = (session_app_add_segment_msg_t *) data;

  if (msg->fd_flags)
    {
      vcl_api_recv_fd (wrk, &fd, 1);
      seg_type = SSVM_SEGMENT_MEMFD;
    }

  segment_handle = msg->segment_handle;
  if (segment_handle == VCL_INVALID_SEGMENT_HANDLE)
    {
      clib_warning ("invalid segment handle");
      return;
    }

  if (vcl_segment_attach (segment_handle, (char *) msg->segment_name,
			  seg_type, fd))
    {
      VDBG (0, "vcl_segment_attach ('%s') failed", msg->segment_name);
      return;
    }

  VDBG (1, "mapped new segment '%s' size %d", msg->segment_name,
	msg->segment_size);
}

static void
vcl_session_app_del_segment_handler (vcl_worker_t * wrk, void *data)
{
  session_app_del_segment_msg_t *msg = (session_app_del_segment_msg_t *) data;
  vcl_segment_detach (msg->segment_handle);
  VDBG (1, "Unmapped segment: %d", msg->segment_handle);
}

static void
vcl_worker_rpc_handler (vcl_worker_t * wrk, void *data)
{
  if (!vcm->wrk_rpc_fn)
    return;

  (vcm->wrk_rpc_fn) (((session_app_wrk_rpc_msg_t *) data)->data);
}

static int
vcl_handle_mq_event (vcl_worker_t * wrk, session_event_t * e)
{
  session_disconnected_msg_t *disconnected_msg;
  vcl_session_t *session;

  switch (e->event_type)
    {
    case SESSION_IO_EVT_RX:
    case SESSION_IO_EVT_TX:
      session = vcl_session_get (wrk, e->session_index);
      if (!session || !(session->session_state & STATE_OPEN))
	break;
      vec_add1 (wrk->unhandled_evts_vector, *e);
      break;
    case SESSION_CTRL_EVT_ACCEPTED:
      vcl_session_accepted (wrk, (session_accepted_msg_t *) e->data);
      break;
    case SESSION_CTRL_EVT_CONNECTED:
      vcl_session_connected_handler (wrk,
				     (session_connected_msg_t *) e->data);
      break;
    case SESSION_CTRL_EVT_DISCONNECTED:
      disconnected_msg = (session_disconnected_msg_t *) e->data;
      session = vcl_session_disconnected_handler (wrk, disconnected_msg);
      if (!session)
	break;
      VDBG (0, "disconnected session %u [0x%llx]", session->session_index,
	    session->vpp_handle);
      break;
    case SESSION_CTRL_EVT_RESET:
      vcl_session_reset_handler (wrk, (session_reset_msg_t *) e->data);
      break;
    case SESSION_CTRL_EVT_BOUND:
      vcl_session_bound_handler (wrk, (session_bound_msg_t *) e->data);
      break;
    case SESSION_CTRL_EVT_UNLISTEN_REPLY:
      vcl_session_unlisten_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_MIGRATED:
      vcl_session_migrated_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_CLEANUP:
      vcl_session_cleanup_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_REQ_WORKER_UPDATE:
      vcl_session_req_worker_update_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_WORKER_UPDATE_REPLY:
      vcl_session_worker_update_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_ADD_SEGMENT:
      vcl_session_app_add_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_DEL_SEGMENT:
      vcl_session_app_del_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_WRK_RPC:
      vcl_worker_rpc_handler (wrk, e->data);
      break;
    default:
      clib_warning ("unhandled %u", e->event_type);
    }
  return VPPCOM_OK;
}

static int
vppcom_wait_for_session_state_change (u32 session_index,
				      vcl_session_state_t state,
				      f64 wait_for_time)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  f64 timeout = clib_time_now (&wrk->clib_time) + wait_for_time;
  vcl_session_t *volatile session;
  svm_msg_q_msg_t msg;
  session_event_t *e;

  do
    {
      session = vcl_session_get (wrk, session_index);
      if (PREDICT_FALSE (!session))
	{
	  return VPPCOM_EBADFD;
	}
      if (session->session_state & state)
	{
	  return VPPCOM_OK;
	}
      if (session->session_state & STATE_DETACHED)
	{
	  return VPPCOM_ECONNREFUSED;
	}

      if (svm_msg_q_sub (wrk->app_event_queue, &msg, SVM_Q_NOWAIT, 0))
	{
	  usleep (100);
	  continue;
	}
      e = svm_msg_q_msg_data (wrk->app_event_queue, &msg);
      vcl_handle_mq_event (wrk, e);
      svm_msg_q_free_msg (wrk->app_event_queue, &msg);
    }
  while (clib_time_now (&wrk->clib_time) < timeout);

  VDBG (0, "timeout waiting for state 0x%x (%s)", state,
	vppcom_session_state_str (state));
  vcl_evt (VCL_EVT_SESSION_TIMEOUT, session, session_state);

  return VPPCOM_ETIMEDOUT;
}

static void
vcl_handle_pending_wrk_updates (vcl_worker_t * wrk)
{
  vcl_session_state_t state;
  vcl_session_t *s;
  u32 *sip;

  if (PREDICT_TRUE (vec_len (wrk->pending_session_wrk_updates) == 0))
    return;

  vec_foreach (sip, wrk->pending_session_wrk_updates)
  {
    s = vcl_session_get (wrk, *sip);
    vcl_send_session_worker_update (wrk, s, wrk->wrk_index);
    state = s->session_state;
    vppcom_wait_for_session_state_change (s->session_index, STATE_UPDATED, 5);
    s->session_state = state;
  }
  vec_reset_length (wrk->pending_session_wrk_updates);
}

void
vcl_flush_mq_events (void)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  svm_msg_q_msg_t *msg;
  session_event_t *e;
  svm_msg_q_t *mq;
  int i;

  mq = wrk->app_event_queue;
  svm_msg_q_lock (mq);
  vcl_mq_dequeue_batch (wrk, mq, ~0);
  svm_msg_q_unlock (mq);

  for (i = 0; i < vec_len (wrk->mq_msg_vector); i++)
    {
      msg = vec_elt_at_index (wrk->mq_msg_vector, i);
      e = svm_msg_q_msg_data (mq, msg);
      vcl_handle_mq_event (wrk, e);
      svm_msg_q_free_msg (mq, msg);
    }
  vec_reset_length (wrk->mq_msg_vector);
  vcl_handle_pending_wrk_updates (wrk);
}

static int
vppcom_session_unbind (u32 session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  session_accepted_msg_t *accepted_msg;
  vcl_session_t *session = 0;
  vcl_session_msg_t *evt;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;

  /* Flush pending accept events, if any */
  while (clib_fifo_elts (session->accept_evts_fifo))
    {
      clib_fifo_sub2 (session->accept_evts_fifo, evt);
      accepted_msg = &evt->accepted_msg;
      vcl_session_table_del_vpp_handle (wrk, accepted_msg->handle);
      vcl_send_session_accepted_reply (session->vpp_evt_q,
				       accepted_msg->context,
				       session->vpp_handle, -1);
    }
  clib_fifo_free (session->accept_evts_fifo);

  vcl_send_session_unlisten (wrk, session);

  VDBG (1, "session %u [0x%llx]: sending unbind!", session->session_index,
	session->vpp_handle);
  vcl_evt (VCL_EVT_UNBIND, session);

  session->vpp_handle = ~0;
  session->session_state = STATE_DISCONNECT;

  return VPPCOM_OK;
}

static int
vppcom_session_disconnect (u32 session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  svm_msg_q_t *vpp_evt_q;
  vcl_session_t *session, *listen_session;
  vcl_session_state_t state;
  u64 vpp_handle;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;

  vpp_handle = session->vpp_handle;
  state = session->session_state;

  VDBG (1, "session %u [0x%llx] state 0x%x (%s)", session->session_index,
	vpp_handle, state, vppcom_session_state_str (state));

  if (PREDICT_FALSE (state & STATE_LISTEN))
    {
      VDBG (0, "ERROR: Cannot disconnect a listen socket!");
      return VPPCOM_EBADFD;
    }

  if (state & STATE_VPP_CLOSING)
    {
      vpp_evt_q = vcl_session_vpp_evt_q (wrk, session);
      vcl_send_session_disconnected_reply (vpp_evt_q, wrk->api_client_handle,
					   vpp_handle, 0);
      VDBG (1, "session %u [0x%llx]: sending disconnect REPLY...",
	    session->session_index, vpp_handle);
    }
  else
    {
      /* Session doesn't have an event queue yet. Probably a non-blocking
       * connect. Wait for the reply */
      if (PREDICT_FALSE (!session->vpp_evt_q))
	return VPPCOM_OK;

      VDBG (1, "session %u [0x%llx]: sending disconnect...",
	    session->session_index, vpp_handle);
      vcl_send_session_disconnect (wrk, session);
    }

  if (session->listener_index != VCL_INVALID_SESSION_INDEX)
    {
      listen_session = vcl_session_get (wrk, session->listener_index);
      listen_session->n_accepted_sessions--;
    }

  return VPPCOM_OK;
}

/**
 * Handle app exit
 *
 * Notify vpp of the disconnect and mark the worker as free. If we're the
 * last worker, do a full cleanup otherwise, since we're probably a forked
 * child, avoid syscalls as much as possible. We might've lost privileges.
 */
void
vppcom_app_exit (void)
{
  if (!pool_elts (vcm->workers))
    return;
  vcl_worker_cleanup (vcl_worker_get_current (), 1 /* notify vpp */ );
  vcl_set_worker_index (~0);
  vcl_elog_stop (vcm);
}

static int
vcl_api_attach (void)
{
  if (vcm->cfg.vpp_app_socket_api)
    return vcl_sapi_attach ();

  return vcl_bapi_attach ();
}

static void
vcl_api_detach (vcl_worker_t * wrk)
{
  vcl_send_app_detach (wrk);

  if (vcm->cfg.vpp_app_socket_api)
    return vcl_sapi_detach (wrk);

  return vcl_bapi_disconnect_from_vpp ();
}

/*
 * VPPCOM Public API functions
 */
int
vppcom_app_create (const char *app_name)
{
  vppcom_cfg_t *vcl_cfg = &vcm->cfg;
  int rv;

  if (vcm->is_init)
    {
      VDBG (1, "already initialized");
      return VPPCOM_EEXIST;
    }

  vcm->is_init = 1;
  vppcom_cfg (&vcm->cfg);
  vcl_cfg = &vcm->cfg;

  vcm->main_cpu = pthread_self ();
  vcm->main_pid = getpid ();
  vcm->app_name = format (0, "%s", app_name);
  fifo_segment_main_init (&vcm->segment_main, vcl_cfg->segment_baseva,
			  20 /* timeout in secs */ );
  pool_alloc (vcm->workers, vcl_cfg->max_workers);
  clib_spinlock_init (&vcm->workers_lock);
  clib_rwlock_init (&vcm->segment_table_lock);
  atexit (vppcom_app_exit);
  vcl_elog_init (vcm);

  /* Allocate default worker */
  vcl_worker_alloc_and_init ();

  if ((rv = vcl_api_attach ()))
    return rv;

  VDBG (0, "app_name '%s', my_client_index %d (0x%x)", app_name,
	vcm->workers[0].api_client_handle, vcm->workers[0].api_client_handle);

  return VPPCOM_OK;
}

void
vppcom_app_destroy (void)
{
  vcl_worker_t *wrk, *current_wrk;
  void *heap;

  if (!pool_elts (vcm->workers))
    return;

  vcl_evt (VCL_EVT_DETACH, vcm);

  current_wrk = vcl_worker_get_current ();

  /* *INDENT-OFF* */
  pool_foreach (wrk, vcm->workers, ({
    if (current_wrk != wrk)
      vcl_worker_cleanup (wrk, 0 /* notify vpp */ );
  }));
  /* *INDENT-ON* */

  vcl_api_detach (current_wrk);
  vcl_worker_cleanup (current_wrk, 0 /* notify vpp */ );

  vcl_elog_stop (vcm);

  /*
   * Free the heap and fix vcm
   */
  heap = clib_mem_get_heap ();
  munmap (clib_mem_get_heap_base (heap), clib_mem_get_heap_size (heap));

  vcm = &_vppcom_main;
  vcm->is_init = 0;
}

int
vppcom_session_create (u8 proto, u8 is_nonblocking)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session;

  session = vcl_session_alloc (wrk);

  session->session_type = proto;
  session->session_state = STATE_CLOSED;
  session->vpp_handle = ~0;
  session->is_dgram = vcl_proto_is_dgram (proto);

  if (is_nonblocking)
    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_NONBLOCK);

  vcl_evt (VCL_EVT_CREATE, session, session_type, session->session_state,
	   is_nonblocking, session_index);

  VDBG (0, "created session %u", session->session_index);

  return vcl_session_handle (session);
}

int
vcl_session_cleanup (vcl_worker_t * wrk, vcl_session_t * session,
		     vcl_session_handle_t sh, u8 do_disconnect)
{
  vcl_session_state_t state;
  u32 next_sh, vep_sh;
  int rv = VPPCOM_OK;
  u64 vpp_handle;
  u8 is_vep;

  is_vep = session->is_vep;
  next_sh = session->vep.next_sh;
  vep_sh = session->vep.vep_sh;
  state = session->session_state;
  vpp_handle = session->vpp_handle;

  VDBG (1, "session %u [0x%llx] closing", session->session_index, vpp_handle);

  if (is_vep)
    {
      while (next_sh != ~0)
	{
	  rv = vppcom_epoll_ctl (sh, EPOLL_CTL_DEL, next_sh, 0);
	  if (PREDICT_FALSE (rv < 0))
	    VDBG (0, "vpp handle 0x%llx, sh %u: EPOLL_CTL_DEL vep_idx %u"
		  " failed! rv %d (%s)", vpp_handle, next_sh, vep_sh, rv,
		  vppcom_retval_str (rv));

	  next_sh = session->vep.next_sh;
	}
      goto cleanup;
    }

  if (session->is_vep_session)
    {
      rv = vppcom_epoll_ctl (vep_sh, EPOLL_CTL_DEL, sh, 0);
      if (rv < 0)
	VDBG (0, "session %u [0x%llx]: EPOLL_CTL_DEL vep_idx %u "
	      "failed! rv %d (%s)", session->session_index, vpp_handle,
	      vep_sh, rv, vppcom_retval_str (rv));
    }

  if (!do_disconnect)
    {
      VDBG (1, "session %u [0x%llx] disconnect skipped",
	    session->session_index, vpp_handle);
      goto cleanup;
    }

  if (state & STATE_LISTEN)
    {
      rv = vppcom_session_unbind (sh);
      if (PREDICT_FALSE (rv < 0))
	VDBG (0, "session %u [0x%llx]: listener unbind failed! "
	      "rv %d (%s)", session->session_index, vpp_handle, rv,
	      vppcom_retval_str (rv));
      return rv;
    }
  else if ((state & STATE_OPEN)
	   || (vcl_session_is_connectable_listener (wrk, session)))
    {
      rv = vppcom_session_disconnect (sh);
      if (PREDICT_FALSE (rv < 0))
	VDBG (0, "ERROR: session %u [0x%llx]: disconnect failed!"
	      " rv %d (%s)", session->session_index, vpp_handle,
	      rv, vppcom_retval_str (rv));
    }
  else if (state == STATE_DISCONNECT)
    {
      svm_msg_q_t *mq = vcl_session_vpp_evt_q (wrk, session);
      vcl_send_session_reset_reply (mq, wrk->api_client_handle,
				    session->vpp_handle, 0);
    }
  else if (state == STATE_DETACHED)
    {
      /* Should not happen. VPP cleaned up before app confirmed close */
      VDBG (0, "vpp freed session %d before close", session->session_index);
      goto free_session;
    }

  session->session_state = STATE_CLOSED;

  /* Session is removed only after vpp confirms the disconnect */
  return rv;

cleanup:
  vcl_session_table_del_vpp_handle (wrk, vpp_handle);
free_session:
  vcl_session_free (wrk, session);
  vcl_evt (VCL_EVT_CLOSE, session, rv);

  return rv;
}

int
vppcom_session_close (uint32_t session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  return vcl_session_cleanup (wrk, session, session_handle,
			      1 /* do_disconnect */ );
}

int
vppcom_session_bind (uint32_t session_handle, vppcom_endpt_t * ep)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session = 0;

  if (!ep || !ep->ip)
    return VPPCOM_EINVAL;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;

  if (session->is_vep)
    {
      VDBG (0, "ERROR: cannot bind to epoll session %u!",
	    session->session_index);
      return VPPCOM_EBADFD;
    }

  session->transport.is_ip4 = ep->is_ip4;
  if (ep->is_ip4)
    clib_memcpy_fast (&session->transport.lcl_ip.ip4, ep->ip,
		      sizeof (ip4_address_t));
  else
    clib_memcpy_fast (&session->transport.lcl_ip.ip6, ep->ip,
		      sizeof (ip6_address_t));
  session->transport.lcl_port = ep->port;

  VDBG (0, "session %u handle %u: binding to local %s address %U port %u, "
	"proto %s", session->session_index, session_handle,
	session->transport.is_ip4 ? "IPv4" : "IPv6",
	format_ip46_address, &session->transport.lcl_ip,
	session->transport.is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
	clib_net_to_host_u16 (session->transport.lcl_port),
	vppcom_proto_str (session->session_type));
  vcl_evt (VCL_EVT_BIND, session);

  if (session->session_type == VPPCOM_PROTO_UDP)
    vppcom_session_listen (session_handle, 10);

  return VPPCOM_OK;
}

int
vppcom_session_listen (uint32_t listen_sh, uint32_t q_len)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *listen_session = 0;
  u64 listen_vpp_handle;
  int rv;

  listen_session = vcl_session_get_w_handle (wrk, listen_sh);
  if (!listen_session || listen_session->is_vep)
    return VPPCOM_EBADFD;

  if (q_len == 0 || q_len == ~0)
    q_len = vcm->cfg.listen_queue_size;

  listen_vpp_handle = listen_session->vpp_handle;
  if (listen_session->session_state & STATE_LISTEN)
    {
      VDBG (0, "session %u [0x%llx]: already in listen state!",
	    listen_sh, listen_vpp_handle);
      return VPPCOM_OK;
    }

  VDBG (0, "session %u: sending vpp listen request...", listen_sh);

  /*
   * Send listen request to vpp and wait for reply
   */
  vcl_send_session_listen (wrk, listen_session);
  rv = vppcom_wait_for_session_state_change (listen_session->session_index,
					     STATE_LISTEN,
					     vcm->cfg.session_timeout);

  if (PREDICT_FALSE (rv))
    {
      listen_session = vcl_session_get_w_handle (wrk, listen_sh);
      VDBG (0, "session %u [0x%llx]: listen failed! returning %d (%s)",
	    listen_sh, listen_session->vpp_handle, rv,
	    vppcom_retval_str (rv));
      return rv;
    }

  return VPPCOM_OK;
}

static int
validate_args_session_accept_ (vcl_worker_t * wrk, vcl_session_t * ls)
{
  if (ls->is_vep)
    {
      VDBG (0, "ERROR: cannot accept on epoll session %u!",
	    ls->session_index);
      return VPPCOM_EBADFD;
    }

  if ((ls->session_state != STATE_LISTEN)
      && (!vcl_session_is_connectable_listener (wrk, ls)))
    {
      VDBG (0,
	    "ERROR: session [0x%llx]: not in listen state! state 0x%x"
	    " (%s)", ls->vpp_handle, ls->session_state,
	    vppcom_session_state_str (ls->session_state));
      return VPPCOM_EBADFD;
    }
  return VPPCOM_OK;
}

int
vppcom_unformat_proto (uint8_t * proto, char *proto_str)
{
  if (!strcmp (proto_str, "TCP"))
    *proto = VPPCOM_PROTO_TCP;
  else if (!strcmp (proto_str, "tcp"))
    *proto = VPPCOM_PROTO_TCP;
  else if (!strcmp (proto_str, "UDP"))
    *proto = VPPCOM_PROTO_UDP;
  else if (!strcmp (proto_str, "udp"))
    *proto = VPPCOM_PROTO_UDP;
  else if (!strcmp (proto_str, "TLS"))
    *proto = VPPCOM_PROTO_TLS;
  else if (!strcmp (proto_str, "tls"))
    *proto = VPPCOM_PROTO_TLS;
  else if (!strcmp (proto_str, "QUIC"))
    *proto = VPPCOM_PROTO_QUIC;
  else if (!strcmp (proto_str, "quic"))
    *proto = VPPCOM_PROTO_QUIC;
  else
    return 1;
  return 0;
}

int
vppcom_session_accept (uint32_t listen_session_handle, vppcom_endpt_t * ep,
		       uint32_t flags)
{
  u32 client_session_index = ~0, listen_session_index, accept_flags = 0;
  vcl_worker_t *wrk = vcl_worker_get_current ();
  session_accepted_msg_t accepted_msg;
  vcl_session_t *listen_session = 0;
  vcl_session_t *client_session = 0;
  vcl_session_msg_t *evt;
  svm_msg_q_msg_t msg;
  session_event_t *e;
  u8 is_nonblocking;
  int rv;

  listen_session = vcl_session_get_w_handle (wrk, listen_session_handle);
  if (!listen_session)
    return VPPCOM_EBADFD;

  listen_session_index = listen_session->session_index;
  if ((rv = validate_args_session_accept_ (wrk, listen_session)))
    return rv;

  if (clib_fifo_elts (listen_session->accept_evts_fifo))
    {
      clib_fifo_sub2 (listen_session->accept_evts_fifo, evt);
      accept_flags = evt->flags;
      accepted_msg = evt->accepted_msg;
      goto handle;
    }

  is_nonblocking = VCL_SESS_ATTR_TEST (listen_session->attr,
				       VCL_SESS_ATTR_NONBLOCK);
  while (1)
    {
      if (svm_msg_q_is_empty (wrk->app_event_queue) && is_nonblocking)
	return VPPCOM_EAGAIN;

      if (svm_msg_q_sub (wrk->app_event_queue, &msg, SVM_Q_WAIT, 0))
	return VPPCOM_EAGAIN;

      e = svm_msg_q_msg_data (wrk->app_event_queue, &msg);
      if (e->event_type != SESSION_CTRL_EVT_ACCEPTED)
	{
	  vcl_handle_mq_event (wrk, e);
	  svm_msg_q_free_msg (wrk->app_event_queue, &msg);
	  continue;
	}
      clib_memcpy_fast (&accepted_msg, e->data, sizeof (accepted_msg));
      svm_msg_q_free_msg (wrk->app_event_queue, &msg);
      break;
    }

handle:

  client_session_index = vcl_session_accepted_handler (wrk, &accepted_msg,
						       listen_session_index);
  if (client_session_index == VCL_INVALID_SESSION_INDEX)
    return VPPCOM_ECONNABORTED;

  listen_session = vcl_session_get (wrk, listen_session_index);
  client_session = vcl_session_get (wrk, client_session_index);

  if (flags & O_NONBLOCK)
    VCL_SESS_ATTR_SET (client_session->attr, VCL_SESS_ATTR_NONBLOCK);

  VDBG (1, "listener %u [0x%llx]: Got a connect request! session %u [0x%llx],"
	" flags %d, is_nonblocking %u", listen_session->session_index,
	listen_session->vpp_handle, client_session_index,
	client_session->vpp_handle, flags,
	VCL_SESS_ATTR_TEST (client_session->attr, VCL_SESS_ATTR_NONBLOCK));

  if (ep)
    {
      ep->is_ip4 = client_session->transport.is_ip4;
      ep->port = client_session->transport.rmt_port;
      if (client_session->transport.is_ip4)
	clib_memcpy_fast (ep->ip, &client_session->transport.rmt_ip.ip4,
			  sizeof (ip4_address_t));
      else
	clib_memcpy_fast (ep->ip, &client_session->transport.rmt_ip.ip6,
			  sizeof (ip6_address_t));
    }

  VDBG (0, "listener %u [0x%llx] accepted %u [0x%llx] peer: %U:%u "
	"local: %U:%u", listen_session_handle, listen_session->vpp_handle,
	client_session_index, client_session->vpp_handle,
	format_ip46_address, &client_session->transport.rmt_ip,
	client_session->transport.is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
	clib_net_to_host_u16 (client_session->transport.rmt_port),
	format_ip46_address, &client_session->transport.lcl_ip,
	client_session->transport.is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
	clib_net_to_host_u16 (client_session->transport.lcl_port));
  vcl_evt (VCL_EVT_ACCEPT, client_session, listen_session,
	   client_session_index);

  /*
   * Session might have been closed already
   */
  if (accept_flags)
    {
      if (accept_flags & VCL_ACCEPTED_F_CLOSED)
	client_session->session_state = STATE_VPP_CLOSING;
      else if (accept_flags & VCL_ACCEPTED_F_RESET)
	client_session->session_state = STATE_DISCONNECT;
    }
  return vcl_session_handle (client_session);
}

int
vppcom_session_connect (uint32_t session_handle, vppcom_endpt_t * server_ep)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session = 0;
  u32 session_index;
  int rv;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  session_index = session->session_index;

  if (PREDICT_FALSE (session->is_vep))
    {
      VDBG (0, "ERROR: cannot connect epoll session %u!",
	    session->session_index);
      return VPPCOM_EBADFD;
    }

  if (PREDICT_FALSE (session->session_state & CLIENT_STATE_OPEN))
    {
      VDBG (0, "session handle %u [0x%llx]: session already "
	    "connected to %s %U port %d proto %s, state 0x%x (%s)",
	    session_handle, session->vpp_handle,
	    session->transport.is_ip4 ? "IPv4" : "IPv6", format_ip46_address,
	    &session->transport.rmt_ip, session->transport.is_ip4 ?
	    IP46_TYPE_IP4 : IP46_TYPE_IP6,
	    clib_net_to_host_u16 (session->transport.rmt_port),
	    vppcom_proto_str (session->session_type), session->session_state,
	    vppcom_session_state_str (session->session_state));
      return VPPCOM_OK;
    }

  /* Attempt to connect a connectionless listener */
  if (PREDICT_FALSE (session->session_state & STATE_LISTEN))
    {
      if (session->session_type != VPPCOM_PROTO_UDP)
	return VPPCOM_EINVAL;
      vcl_send_session_unlisten (wrk, session);
      session->session_state = STATE_CLOSED;
    }

  session->transport.is_ip4 = server_ep->is_ip4;
  vcl_ip_copy_from_ep (&session->transport.rmt_ip, server_ep);
  session->transport.rmt_port = server_ep->port;
  session->parent_handle = VCL_INVALID_SESSION_HANDLE;
  session->flags |= VCL_SESSION_F_CONNECTED;

  VDBG (0, "session handle %u (%s): connecting to peer %s %U "
	"port %d proto %s", session_handle,
	vppcom_session_state_str (session->session_state),
	session->transport.is_ip4 ? "IPv4" : "IPv6",
	format_ip46_address,
	&session->transport.rmt_ip, session->transport.is_ip4 ?
	IP46_TYPE_IP4 : IP46_TYPE_IP6,
	clib_net_to_host_u16 (session->transport.rmt_port),
	vppcom_proto_str (session->session_type));

  vcl_send_session_connect (wrk, session);

  if (VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_NONBLOCK))
    {
      /* State set to STATE_UPDATED to ensure the session is not assumed
       * to be open and to also allow the app to close it prior to vpp's
       * connected reply. */
      session->session_state = STATE_UPDATED;
      return VPPCOM_EINPROGRESS;
    }

  /*
   * Wait for reply from vpp if blocking
   */
  rv = vppcom_wait_for_session_state_change (session_index, STATE_CONNECT,
					     vcm->cfg.session_timeout);

  session = vcl_session_get (wrk, session_index);
  VDBG (0, "session %u [0x%llx]: connect %s!", session->session_index,
	session->vpp_handle, rv ? "failed" : "succeeded");

  return rv;
}

int
vppcom_session_stream_connect (uint32_t session_handle,
			       uint32_t parent_session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session, *parent_session;
  u32 session_index, parent_session_index;
  int rv;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  parent_session = vcl_session_get_w_handle (wrk, parent_session_handle);
  if (!parent_session)
    return VPPCOM_EBADFD;

  session_index = session->session_index;
  parent_session_index = parent_session->session_index;
  if (PREDICT_FALSE (session->is_vep))
    {
      VDBG (0, "ERROR: cannot connect epoll session %u!",
	    session->session_index);
      return VPPCOM_EBADFD;
    }

  if (PREDICT_FALSE (session->session_state & CLIENT_STATE_OPEN))
    {
      VDBG (0, "session handle %u [0x%llx]: session already "
	    "connected to session %u [0x%llx] proto %s, state 0x%x (%s)",
	    session_handle, session->vpp_handle,
	    parent_session_handle, parent_session->vpp_handle,
	    vppcom_proto_str (session->session_type), session->session_state,
	    vppcom_session_state_str (session->session_state));
      return VPPCOM_OK;
    }

  /* Connect to quic session specifics */
  session->transport.is_ip4 = parent_session->transport.is_ip4;
  session->transport.rmt_ip.ip4.as_u32 = (uint32_t) 1;
  session->transport.rmt_port = 0;
  session->parent_handle = parent_session->vpp_handle;

  VDBG (0, "session handle %u: connecting to session %u [0x%llx]",
	session_handle, parent_session_handle, parent_session->vpp_handle);

  /*
   * Send connect request and wait for reply from vpp
   */
  vcl_send_session_connect (wrk, session);
  rv = vppcom_wait_for_session_state_change (session_index, STATE_CONNECT,
					     vcm->cfg.session_timeout);

  session->listener_index = parent_session_index;
  parent_session = vcl_session_get_w_handle (wrk, parent_session_handle);
  if (parent_session)
    parent_session->n_accepted_sessions++;

  session = vcl_session_get (wrk, session_index);
  VDBG (0, "session %u [0x%llx]: connect %s!", session->session_index,
	session->vpp_handle, rv ? "failed" : "succeeded");

  return rv;
}

static u8
vcl_is_rx_evt_for_session (session_event_t * e, u32 sid, u8 is_ct)
{
  return (e->event_type == SESSION_IO_EVT_RX && e->session_index == sid);
}

static inline int
vppcom_session_read_internal (uint32_t session_handle, void *buf, int n,
			      u8 peek)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  int rv, n_read = 0, is_nonblocking;
  vcl_session_t *s = 0;
  svm_fifo_t *rx_fifo;
  svm_msg_q_msg_t msg;
  session_event_t *e;
  svm_msg_q_t *mq;
  u8 is_ct;

  if (PREDICT_FALSE (!buf))
    return VPPCOM_EINVAL;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s || s->is_vep))
    return VPPCOM_EBADFD;

  if (PREDICT_FALSE (!vcl_session_is_open (s)))
    {
      VDBG (0, "session %u[0x%llx] is not open! state 0x%x (%s)",
	    s->session_index, s->vpp_handle, s->session_state,
	    vppcom_session_state_str (s->session_state));
      return vcl_session_closed_error (s);
    }

  is_nonblocking = VCL_SESS_ATTR_TEST (s->attr, VCL_SESS_ATTR_NONBLOCK);
  is_ct = vcl_session_is_ct (s);
  mq = wrk->app_event_queue;
  rx_fifo = is_ct ? s->ct_rx_fifo : s->rx_fifo;
  s->has_rx_evt = 0;

  if (svm_fifo_is_empty_cons (rx_fifo))
    {
      if (is_nonblocking)
	{
	  if (vcl_session_is_closing (s))
	    return vcl_session_closing_error (s);
	  svm_fifo_unset_event (s->rx_fifo);
	  return VPPCOM_EWOULDBLOCK;
	}
      while (svm_fifo_is_empty_cons (rx_fifo))
	{
	  if (vcl_session_is_closing (s))
	    return vcl_session_closing_error (s);

	  svm_fifo_unset_event (s->rx_fifo);
	  svm_msg_q_lock (mq);
	  if (svm_msg_q_is_empty (mq))
	    svm_msg_q_wait (mq);

	  svm_msg_q_sub_w_lock (mq, &msg);
	  e = svm_msg_q_msg_data (mq, &msg);
	  svm_msg_q_unlock (mq);
	  if (!vcl_is_rx_evt_for_session (e, s->session_index, is_ct))
	    vcl_handle_mq_event (wrk, e);
	  svm_msg_q_free_msg (mq, &msg);
	}
    }

read_again:

  if (s->is_dgram)
    rv = app_recv_dgram_raw (rx_fifo, buf, n, &s->transport, 0, peek);
  else
    rv = app_recv_stream_raw (rx_fifo, buf, n, 0, peek);

  ASSERT (rv >= 0);
  n_read += rv;

  if (svm_fifo_is_empty_cons (rx_fifo))
    {
      svm_fifo_unset_event (s->rx_fifo);
      if (!svm_fifo_is_empty_cons (rx_fifo)
	  && svm_fifo_set_event (s->rx_fifo) && is_nonblocking)
	{
	  vec_add2 (wrk->unhandled_evts_vector, e, 1);
	  e->event_type = SESSION_IO_EVT_RX;
	  e->session_index = s->session_index;
	}
    }
  else if (PREDICT_FALSE (rv < n))
    {
      /* More data enqueued while reading. Try to drain it
       * or fill the buffer */
      buf += rv;
      n -= rv;
      goto read_again;
    }

  if (PREDICT_FALSE (svm_fifo_needs_deq_ntf (rx_fifo, n_read)))
    {
      svm_fifo_clear_deq_ntf (rx_fifo);
      app_send_io_evt_to_vpp (s->vpp_evt_q, s->rx_fifo->master_session_index,
			      SESSION_IO_EVT_RX, SVM_Q_WAIT);
    }

  VDBG (2, "session %u[0x%llx]: read %d bytes from (%p)", s->session_index,
	s->vpp_handle, n_read, rx_fifo);

  return n_read;
}

int
vppcom_session_read (uint32_t session_handle, void *buf, size_t n)
{
  return (vppcom_session_read_internal (session_handle, buf, n, 0));
}

static int
vppcom_session_peek (uint32_t session_handle, void *buf, int n)
{
  return (vppcom_session_read_internal (session_handle, buf, n, 1));
}

int
vppcom_session_read_segments (uint32_t session_handle,
			      vppcom_data_segment_t * ds, uint32_t n_segments,
			      uint32_t max_bytes)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  int n_read = 0, is_nonblocking;
  vcl_session_t *s = 0;
  svm_fifo_t *rx_fifo;
  svm_msg_q_msg_t msg;
  session_event_t *e;
  svm_msg_q_t *mq;
  u8 is_ct;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s || s->is_vep))
    return VPPCOM_EBADFD;

  if (PREDICT_FALSE (!vcl_session_is_open (s)))
    return vcl_session_closed_error (s);

  is_nonblocking = VCL_SESS_ATTR_TEST (s->attr, VCL_SESS_ATTR_NONBLOCK);
  is_ct = vcl_session_is_ct (s);
  mq = is_ct ? s->our_evt_q : wrk->app_event_queue;
  rx_fifo = s->rx_fifo;
  s->has_rx_evt = 0;

  if (is_ct)
    svm_fifo_unset_event (s->rx_fifo);

  if (svm_fifo_is_empty_cons (rx_fifo))
    {
      if (is_nonblocking)
	{
	  svm_fifo_unset_event (rx_fifo);
	  return VPPCOM_EWOULDBLOCK;
	}
      while (svm_fifo_is_empty_cons (rx_fifo))
	{
	  if (vcl_session_is_closing (s))
	    return vcl_session_closing_error (s);

	  svm_fifo_unset_event (rx_fifo);
	  svm_msg_q_lock (mq);
	  if (svm_msg_q_is_empty (mq))
	    svm_msg_q_wait (mq);

	  svm_msg_q_sub_w_lock (mq, &msg);
	  e = svm_msg_q_msg_data (mq, &msg);
	  svm_msg_q_unlock (mq);
	  if (!vcl_is_rx_evt_for_session (e, s->session_index, is_ct))
	    vcl_handle_mq_event (wrk, e);
	  svm_msg_q_free_msg (mq, &msg);
	}
    }

  n_read = svm_fifo_segments (rx_fifo, s->rx_bytes_pending,
			      (svm_fifo_seg_t *) ds, n_segments, max_bytes);
  if (n_read < 0)
    return VPPCOM_EAGAIN;

  if (svm_fifo_max_dequeue_cons (rx_fifo) == n_read)
    {
      svm_fifo_unset_event (s->rx_fifo);
      if (svm_fifo_max_dequeue_cons (rx_fifo) != n_read
	  && svm_fifo_set_event (s->rx_fifo)
	  && VCL_SESS_ATTR_TEST (s->attr, VCL_SESS_ATTR_NONBLOCK))
	{
	  session_event_t *e;
	  vec_add2 (wrk->unhandled_evts_vector, e, 1);
	  e->event_type = SESSION_IO_EVT_RX;
	  e->session_index = s->session_index;
	}
    }

  s->rx_bytes_pending += n_read;
  return n_read;
}

void
vppcom_session_free_segments (uint32_t session_handle, uint32_t n_bytes)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *s;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s || s->is_vep))
    return;

  svm_fifo_dequeue_drop (s->rx_fifo, n_bytes);

  ASSERT (s->rx_bytes_pending < n_bytes);
  s->rx_bytes_pending -= n_bytes;
}

static u8
vcl_is_tx_evt_for_session (session_event_t * e, u32 sid, u8 is_ct)
{
  return (e->event_type == SESSION_IO_EVT_TX && e->session_index == sid);
}

always_inline u8
vcl_fifo_is_writeable (svm_fifo_t * f, u32 len, u8 is_dgram)
{
  u32 max_enq = svm_fifo_max_enqueue_prod (f);
  if (is_dgram)
    return max_enq >= (sizeof (session_dgram_hdr_t) + len);
  else
    return max_enq > 0;
}

always_inline int
vppcom_session_write_inline (vcl_worker_t * wrk, vcl_session_t * s, void *buf,
			     size_t n, u8 is_flush, u8 is_dgram)
{
  int n_write, is_nonblocking;
  session_evt_type_t et;
  svm_msg_q_msg_t msg;
  svm_fifo_t *tx_fifo;
  session_event_t *e;
  svm_msg_q_t *mq;
  u8 is_ct;

  if (PREDICT_FALSE (!buf || n == 0))
    return VPPCOM_EINVAL;

  if (PREDICT_FALSE (s->is_vep))
    {
      VDBG (0, "ERROR: session %u [0x%llx]: cannot write to an epoll"
	    " session!", s->session_index, s->vpp_handle);
      return VPPCOM_EBADFD;
    }

  if (PREDICT_FALSE (!vcl_session_is_open (s)))
    {
      VDBG (1, "session %u [0x%llx]: is not open! state 0x%x (%s)",
	    s->session_index, s->vpp_handle, s->session_state,
	    vppcom_session_state_str (s->session_state));
      return vcl_session_closed_error (s);;
    }

  is_ct = vcl_session_is_ct (s);
  tx_fifo = is_ct ? s->ct_tx_fifo : s->tx_fifo;
  is_nonblocking = VCL_SESS_ATTR_TEST (s->attr, VCL_SESS_ATTR_NONBLOCK);

  mq = wrk->app_event_queue;
  if (!vcl_fifo_is_writeable (tx_fifo, n, is_dgram))
    {
      if (is_nonblocking)
	{
	  return VPPCOM_EWOULDBLOCK;
	}
      while (!vcl_fifo_is_writeable (tx_fifo, n, is_dgram))
	{
	  svm_fifo_add_want_deq_ntf (tx_fifo, SVM_FIFO_WANT_DEQ_NOTIF);
	  if (vcl_session_is_closing (s))
	    return vcl_session_closing_error (s);
	  svm_msg_q_lock (mq);
	  if (svm_msg_q_is_empty (mq))
	    svm_msg_q_wait (mq);

	  svm_msg_q_sub_w_lock (mq, &msg);
	  e = svm_msg_q_msg_data (mq, &msg);
	  svm_msg_q_unlock (mq);

	  if (!vcl_is_tx_evt_for_session (e, s->session_index, is_ct))
	    vcl_handle_mq_event (wrk, e);
	  svm_msg_q_free_msg (mq, &msg);
	}
    }

  et = SESSION_IO_EVT_TX;
  if (is_flush && !is_ct)
    et = SESSION_IO_EVT_TX_FLUSH;

  if (is_dgram)
    n_write = app_send_dgram_raw (tx_fifo, &s->transport,
				  s->vpp_evt_q, buf, n, et,
				  0 /* do_evt */ , SVM_Q_WAIT);
  else
    n_write = app_send_stream_raw (tx_fifo, s->vpp_evt_q, buf, n, et,
				   0 /* do_evt */ , SVM_Q_WAIT);

  if (svm_fifo_set_event (s->tx_fifo))
    app_send_io_evt_to_vpp (s->vpp_evt_q, s->tx_fifo->master_session_index,
			    et, SVM_Q_WAIT);

  /* The underlying fifo segment can run out of memory */
  if (PREDICT_FALSE (n_write < 0))
    return VPPCOM_EAGAIN;

  VDBG (2, "session %u [0x%llx]: wrote %d bytes", s->session_index,
	s->vpp_handle, n_write);

  return n_write;
}

int
vppcom_session_write (uint32_t session_handle, void *buf, size_t n)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *s;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s))
    return VPPCOM_EBADFD;

  return vppcom_session_write_inline (wrk, s, buf, n,
				      0 /* is_flush */ , s->is_dgram ? 1 : 0);
}

int
vppcom_session_write_msg (uint32_t session_handle, void *buf, size_t n)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *s;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s))
    return VPPCOM_EBADFD;

  return vppcom_session_write_inline (wrk, s, buf, n,
				      1 /* is_flush */ , s->is_dgram ? 1 : 0);
}

#define vcl_fifo_rx_evt_valid_or_break(_s)				\
if (PREDICT_FALSE (!_s->rx_fifo))					\
  break;								\
if (PREDICT_FALSE (svm_fifo_is_empty (_s->rx_fifo)))			\
  {									\
    if (!vcl_session_is_ct (_s))					\
      {									\
	svm_fifo_unset_event (_s->rx_fifo);				\
	if (svm_fifo_is_empty (_s->rx_fifo))				\
	  break;							\
      }									\
    else if (svm_fifo_is_empty (_s->ct_rx_fifo))			\
      {									\
	svm_fifo_unset_event (_s->rx_fifo); /* rx evts on actual fifo*/	\
	if (svm_fifo_is_empty (_s->ct_rx_fifo))				\
	  break;							\
      }									\
  }									\

static void
vcl_select_handle_mq_event (vcl_worker_t * wrk, session_event_t * e,
			    unsigned long n_bits, unsigned long *read_map,
			    unsigned long *write_map,
			    unsigned long *except_map, u32 * bits_set)
{
  session_disconnected_msg_t *disconnected_msg;
  session_connected_msg_t *connected_msg;
  vcl_session_t *session;
  u32 sid;

  switch (e->event_type)
    {
    case SESSION_IO_EVT_RX:
      sid = e->session_index;
      session = vcl_session_get (wrk, sid);
      if (!session || !vcl_session_is_open (session))
	break;
      vcl_fifo_rx_evt_valid_or_break (session);
      if (sid < n_bits && read_map)
	{
	  clib_bitmap_set_no_check ((uword *) read_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_IO_EVT_TX:
      sid = e->session_index;
      session = vcl_session_get (wrk, sid);
      if (!session || !vcl_session_is_open (session))
	break;
      if (sid < n_bits && write_map)
	{
	  clib_bitmap_set_no_check ((uword *) write_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_CTRL_EVT_ACCEPTED:
      session = vcl_session_accepted (wrk,
				      (session_accepted_msg_t *) e->data);
      if (!session)
	break;
      sid = session->session_index;
      if (sid < n_bits && read_map)
	{
	  clib_bitmap_set_no_check ((uword *) read_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_CTRL_EVT_CONNECTED:
      connected_msg = (session_connected_msg_t *) e->data;
      sid = vcl_session_connected_handler (wrk, connected_msg);
      if (sid == VCL_INVALID_SESSION_INDEX)
	break;
      if (sid < n_bits && write_map)
	{
	  clib_bitmap_set_no_check ((uword *) write_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_CTRL_EVT_DISCONNECTED:
      disconnected_msg = (session_disconnected_msg_t *) e->data;
      session = vcl_session_disconnected_handler (wrk, disconnected_msg);
      if (!session)
	break;
      sid = session->session_index;
      if (sid < n_bits && except_map)
	{
	  clib_bitmap_set_no_check ((uword *) except_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_CTRL_EVT_RESET:
      sid = vcl_session_reset_handler (wrk, (session_reset_msg_t *) e->data);
      if (sid < n_bits && except_map)
	{
	  clib_bitmap_set_no_check ((uword *) except_map, sid, 1);
	  *bits_set += 1;
	}
      break;
    case SESSION_CTRL_EVT_UNLISTEN_REPLY:
      vcl_session_unlisten_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_MIGRATED:
      vcl_session_migrated_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_CLEANUP:
      vcl_session_cleanup_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_WORKER_UPDATE_REPLY:
      vcl_session_worker_update_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_REQ_WORKER_UPDATE:
      vcl_session_req_worker_update_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_ADD_SEGMENT:
      vcl_session_app_add_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_DEL_SEGMENT:
      vcl_session_app_del_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_WRK_RPC:
      vcl_worker_rpc_handler (wrk, e->data);
      break;
    default:
      clib_warning ("unhandled: %u", e->event_type);
      break;
    }
}

static int
vcl_select_handle_mq (vcl_worker_t * wrk, svm_msg_q_t * mq,
		      unsigned long n_bits, unsigned long *read_map,
		      unsigned long *write_map, unsigned long *except_map,
		      double time_to_wait, u32 * bits_set)
{
  svm_msg_q_msg_t *msg;
  session_event_t *e;
  u32 i;

  svm_msg_q_lock (mq);
  if (svm_msg_q_is_empty (mq))
    {
      if (*bits_set)
	{
	  svm_msg_q_unlock (mq);
	  return 0;
	}

      if (!time_to_wait)
	{
	  svm_msg_q_unlock (mq);
	  return 0;
	}
      else if (time_to_wait < 0)
	{
	  svm_msg_q_wait (mq);
	}
      else
	{
	  if (svm_msg_q_timedwait (mq, time_to_wait))
	    {
	      svm_msg_q_unlock (mq);
	      return 0;
	    }
	}
    }
  vcl_mq_dequeue_batch (wrk, mq, ~0);
  svm_msg_q_unlock (mq);

  for (i = 0; i < vec_len (wrk->mq_msg_vector); i++)
    {
      msg = vec_elt_at_index (wrk->mq_msg_vector, i);
      e = svm_msg_q_msg_data (mq, msg);
      vcl_select_handle_mq_event (wrk, e, n_bits, read_map, write_map,
				  except_map, bits_set);
      svm_msg_q_free_msg (mq, msg);
    }
  vec_reset_length (wrk->mq_msg_vector);
  vcl_handle_pending_wrk_updates (wrk);
  return *bits_set;
}

static int
vppcom_select_condvar (vcl_worker_t * wrk, int n_bits,
		       vcl_si_set * read_map, vcl_si_set * write_map,
		       vcl_si_set * except_map, double time_to_wait,
		       u32 * bits_set)
{
  double wait = 0, start = 0;

  if (!*bits_set)
    {
      wait = time_to_wait;
      start = clib_time_now (&wrk->clib_time);
    }

  do
    {
      vcl_select_handle_mq (wrk, wrk->app_event_queue, n_bits, read_map,
			    write_map, except_map, wait, bits_set);
      if (*bits_set)
	return *bits_set;
      if (wait == -1)
	continue;

      wait = wait - (clib_time_now (&wrk->clib_time) - start);
    }
  while (wait > 0);

  return 0;
}

static int
vppcom_select_eventfd (vcl_worker_t * wrk, int n_bits,
		       vcl_si_set * read_map, vcl_si_set * write_map,
		       vcl_si_set * except_map, double time_to_wait,
		       u32 * bits_set)
{
  vcl_mq_evt_conn_t *mqc;
  int __clib_unused n_read;
  int n_mq_evts, i;
  u64 buf;

  vec_validate (wrk->mq_events, pool_elts (wrk->mq_evt_conns));
  n_mq_evts = epoll_wait (wrk->mqs_epfd, wrk->mq_events,
			  vec_len (wrk->mq_events), time_to_wait);
  for (i = 0; i < n_mq_evts; i++)
    {
      mqc = vcl_mq_evt_conn_get (wrk, wrk->mq_events[i].data.u32);
      n_read = read (mqc->mq_fd, &buf, sizeof (buf));
      vcl_select_handle_mq (wrk, mqc->mq, n_bits, read_map, write_map,
			    except_map, 0, bits_set);
    }

  return (n_mq_evts > 0 ? (int) *bits_set : 0);
}

int
vppcom_select (int n_bits, vcl_si_set * read_map, vcl_si_set * write_map,
	       vcl_si_set * except_map, double time_to_wait)
{
  u32 sid, minbits = clib_max (n_bits, BITS (uword)), bits_set = 0;
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session = 0;
  int i;

  if (n_bits && read_map)
    {
      clib_bitmap_validate (wrk->rd_bitmap, minbits);
      clib_memcpy_fast (wrk->rd_bitmap, read_map,
			vec_len (wrk->rd_bitmap) * sizeof (vcl_si_set));
      memset (read_map, 0, vec_len (wrk->rd_bitmap) * sizeof (vcl_si_set));
    }
  if (n_bits && write_map)
    {
      clib_bitmap_validate (wrk->wr_bitmap, minbits);
      clib_memcpy_fast (wrk->wr_bitmap, write_map,
			vec_len (wrk->wr_bitmap) * sizeof (vcl_si_set));
      memset (write_map, 0, vec_len (wrk->wr_bitmap) * sizeof (vcl_si_set));
    }
  if (n_bits && except_map)
    {
      clib_bitmap_validate (wrk->ex_bitmap, minbits);
      clib_memcpy_fast (wrk->ex_bitmap, except_map,
			vec_len (wrk->ex_bitmap) * sizeof (vcl_si_set));
      memset (except_map, 0, vec_len (wrk->ex_bitmap) * sizeof (vcl_si_set));
    }

  if (!n_bits)
    return 0;

  if (!write_map)
    goto check_rd;

  /* *INDENT-OFF* */
  clib_bitmap_foreach (sid, wrk->wr_bitmap, ({
    if (!(session = vcl_session_get (wrk, sid)))
      {
	clib_bitmap_set_no_check ((uword*)write_map, sid, 1);
	bits_set++;
	continue;
      }

    if (vcl_session_write_ready (session))
      {
        clib_bitmap_set_no_check ((uword*)write_map, sid, 1);
        bits_set++;
      }
    else
      svm_fifo_add_want_deq_ntf (session->tx_fifo, SVM_FIFO_WANT_DEQ_NOTIF);
  }));

check_rd:
  if (!read_map)
    goto check_mq;

  clib_bitmap_foreach (sid, wrk->rd_bitmap, ({
    if (!(session = vcl_session_get (wrk, sid)))
      {
	clib_bitmap_set_no_check ((uword*)read_map, sid, 1);
	bits_set++;
	continue;
      }

    if (vcl_session_read_ready (session))
      {
        clib_bitmap_set_no_check ((uword*)read_map, sid, 1);
        bits_set++;
      }
  }));
  /* *INDENT-ON* */

check_mq:

  for (i = 0; i < vec_len (wrk->unhandled_evts_vector); i++)
    {
      vcl_select_handle_mq_event (wrk, &wrk->unhandled_evts_vector[i], n_bits,
				  read_map, write_map, except_map, &bits_set);
    }
  vec_reset_length (wrk->unhandled_evts_vector);

  if (vcm->cfg.use_mq_eventfd)
    vppcom_select_eventfd (wrk, n_bits, read_map, write_map, except_map,
			   time_to_wait, &bits_set);
  else
    vppcom_select_condvar (wrk, n_bits, read_map, write_map, except_map,
			   time_to_wait, &bits_set);

  return (bits_set);
}

static inline void
vep_verify_epoll_chain (vcl_worker_t * wrk, u32 vep_handle)
{
  vcl_session_t *session;
  vppcom_epoll_t *vep;
  u32 sh = vep_handle;

  if (VPPCOM_DEBUG <= 2)
    return;

  session = vcl_session_get_w_handle (wrk, vep_handle);
  if (PREDICT_FALSE (!session))
    {
      VDBG (0, "ERROR: Invalid vep_sh (%u)!", vep_handle);
      goto done;
    }
  if (PREDICT_FALSE (!session->is_vep))
    {
      VDBG (0, "ERROR: vep_sh (%u) is not a vep!", vep_handle);
      goto done;
    }
  vep = &session->vep;
  VDBG (0, "vep_sh (%u): Dumping epoll chain\n"
	"{\n"
	"   is_vep         = %u\n"
	"   is_vep_session = %u\n"
	"   next_sh        = 0x%x (%u)\n"
	"}\n", vep_handle, session->is_vep, session->is_vep_session,
	vep->next_sh, vep->next_sh);

  for (sh = vep->next_sh; sh != ~0; sh = vep->next_sh)
    {
      session = vcl_session_get_w_handle (wrk, sh);
      if (PREDICT_FALSE (!session))
	{
	  VDBG (0, "ERROR: Invalid sh (%u)!", sh);
	  goto done;
	}
      if (PREDICT_FALSE (session->is_vep))
	{
	  VDBG (0, "ERROR: sh (%u) is a vep!", vep_handle);
	}
      else if (PREDICT_FALSE (!session->is_vep_session))
	{
	  VDBG (0, "ERROR: sh (%u) is not a vep session handle!", sh);
	  goto done;
	}
      vep = &session->vep;
      if (PREDICT_FALSE (vep->vep_sh != vep_handle))
	VDBG (0, "ERROR: session (%u) vep_sh (%u) != vep_sh (%u)!",
	      sh, session->vep.vep_sh, vep_handle);
      if (session->is_vep_session)
	{
	  VDBG (0, "vep_sh[%u]: sh 0x%x (%u)\n"
		"{\n"
		"   next_sh        = 0x%x (%u)\n"
		"   prev_sh        = 0x%x (%u)\n"
		"   vep_sh         = 0x%x (%u)\n"
		"   ev.events      = 0x%x\n"
		"   ev.data.u64    = 0x%llx\n"
		"   et_mask        = 0x%x\n"
		"}\n",
		vep_handle, sh, sh, vep->next_sh, vep->next_sh, vep->prev_sh,
		vep->prev_sh, vep->vep_sh, vep->vep_sh, vep->ev.events,
		vep->ev.data.u64, vep->et_mask);
	}
    }

done:
  VDBG (0, "vep_sh (%u): Dump complete!\n", vep_handle);
}

int
vppcom_epoll_create (void)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *vep_session;

  vep_session = vcl_session_alloc (wrk);

  vep_session->is_vep = 1;
  vep_session->vep.vep_sh = ~0;
  vep_session->vep.next_sh = ~0;
  vep_session->vep.prev_sh = ~0;
  vep_session->vpp_handle = ~0;

  vcl_evt (VCL_EVT_EPOLL_CREATE, vep_session, vep_session->session_index);
  VDBG (0, "Created vep_idx %u", vep_session->session_index);

  return vcl_session_handle (vep_session);
}

int
vppcom_epoll_ctl (uint32_t vep_handle, int op, uint32_t session_handle,
		  struct epoll_event *event)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *vep_session;
  int rv = VPPCOM_OK;
  vcl_session_t *s;
  svm_fifo_t *txf;

  if (vep_handle == session_handle)
    {
      VDBG (0, "vep_sh == session handle (%u)!", vep_handle);
      return VPPCOM_EINVAL;
    }

  vep_session = vcl_session_get_w_handle (wrk, vep_handle);
  if (PREDICT_FALSE (!vep_session))
    {
      VDBG (0, "Invalid vep_sh (%u)!", vep_handle);
      return VPPCOM_EBADFD;
    }
  if (PREDICT_FALSE (!vep_session->is_vep))
    {
      VDBG (0, "vep_sh (%u) is not a vep!", vep_handle);
      return VPPCOM_EINVAL;
    }

  ASSERT (vep_session->vep.vep_sh == ~0);
  ASSERT (vep_session->vep.prev_sh == ~0);

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (PREDICT_FALSE (!s))
    {
      VDBG (0, "Invalid session_handle (%u)!", session_handle);
      return VPPCOM_EBADFD;
    }
  if (PREDICT_FALSE (s->is_vep))
    {
      VDBG (0, "session_handle (%u) is a vep!", vep_handle);
      return VPPCOM_EINVAL;
    }

  switch (op)
    {
    case EPOLL_CTL_ADD:
      if (PREDICT_FALSE (!event))
	{
	  VDBG (0, "EPOLL_CTL_ADD: NULL pointer to epoll_event structure!");
	  return VPPCOM_EINVAL;
	}
      if (vep_session->vep.next_sh != ~0)
	{
	  vcl_session_t *next_session;
	  next_session = vcl_session_get_w_handle (wrk,
						   vep_session->vep.next_sh);
	  if (PREDICT_FALSE (!next_session))
	    {
	      VDBG (0, "EPOLL_CTL_ADD: Invalid vep.next_sh (%u) on "
		    "vep_idx (%u)!", vep_session->vep.next_sh, vep_handle);
	      return VPPCOM_EBADFD;
	    }
	  ASSERT (next_session->vep.prev_sh == vep_handle);
	  next_session->vep.prev_sh = session_handle;
	}
      s->vep.next_sh = vep_session->vep.next_sh;
      s->vep.prev_sh = vep_handle;
      s->vep.vep_sh = vep_handle;
      s->vep.et_mask = VEP_DEFAULT_ET_MASK;
      s->vep.ev = *event;
      s->is_vep = 0;
      s->is_vep_session = 1;
      vep_session->vep.next_sh = session_handle;

      txf = vcl_session_is_ct (s) ? s->ct_tx_fifo : s->tx_fifo;
      if (txf && (event->events & EPOLLOUT))
	svm_fifo_add_want_deq_ntf (txf, SVM_FIFO_WANT_DEQ_NOTIF_IF_FULL);

      /* Generate EPOLLOUT if tx fifo not full */
      if ((event->events & EPOLLOUT) && (vcl_session_write_ready (s) > 0))
	{
	  session_event_t e = { 0 };
	  e.event_type = SESSION_IO_EVT_TX;
	  e.session_index = s->session_index;
	  vec_add1 (wrk->unhandled_evts_vector, e);
	}
      /* Generate EPOLLIN if rx fifo has data */
      if ((event->events & EPOLLIN) && (vcl_session_read_ready (s) > 0))
	{
	  session_event_t e = { 0 };
	  e.event_type = SESSION_IO_EVT_RX;
	  e.session_index = s->session_index;
	  vec_add1 (wrk->unhandled_evts_vector, e);
	}
      VDBG (1, "EPOLL_CTL_ADD: vep_sh %u, sh %u, events 0x%x, data 0x%llx!",
	    vep_handle, session_handle, event->events, event->data.u64);
      vcl_evt (VCL_EVT_EPOLL_CTLADD, s, event->events, event->data.u64);
      break;

    case EPOLL_CTL_MOD:
      if (PREDICT_FALSE (!event))
	{
	  VDBG (0, "EPOLL_CTL_MOD: NULL pointer to epoll_event structure!");
	  rv = VPPCOM_EINVAL;
	  goto done;
	}
      else if (PREDICT_FALSE (!s->is_vep_session))
	{
	  VDBG (0, "sh %u EPOLL_CTL_MOD: not a vep session!", session_handle);
	  rv = VPPCOM_EINVAL;
	  goto done;
	}
      else if (PREDICT_FALSE (s->vep.vep_sh != vep_handle))
	{
	  VDBG (0, "EPOLL_CTL_MOD: sh %u vep_sh (%u) != vep_sh (%u)!",
		session_handle, s->vep.vep_sh, vep_handle);
	  rv = VPPCOM_EINVAL;
	  goto done;
	}

      /* Generate EPOLLOUT when tx_fifo/ct_tx_fifo not full */
      if ((event->events & EPOLLOUT) &&
	  !(s->vep.ev.events & EPOLLOUT) && (vcl_session_write_ready (s) > 0))
	{
	  session_event_t e = { 0 };
	  e.event_type = SESSION_IO_EVT_TX;
	  e.session_index = s->session_index;
	  vec_add1 (wrk->unhandled_evts_vector, e);
	}
      s->vep.et_mask = VEP_DEFAULT_ET_MASK;
      s->vep.ev = *event;
      txf = vcl_session_is_ct (s) ? s->ct_tx_fifo : s->tx_fifo;
      if (event->events & EPOLLOUT)
	svm_fifo_add_want_deq_ntf (txf, SVM_FIFO_WANT_DEQ_NOTIF_IF_FULL);
      else
	svm_fifo_del_want_deq_ntf (txf, SVM_FIFO_WANT_DEQ_NOTIF_IF_FULL);
      VDBG (1, "EPOLL_CTL_MOD: vep_sh %u, sh %u, events 0x%x, data 0x%llx!",
	    vep_handle, session_handle, event->events, event->data.u64);
      break;

    case EPOLL_CTL_DEL:
      if (PREDICT_FALSE (!s->is_vep_session))
	{
	  VDBG (0, "EPOLL_CTL_DEL: %u not a vep session!", session_handle);
	  rv = VPPCOM_EINVAL;
	  goto done;
	}
      else if (PREDICT_FALSE (s->vep.vep_sh != vep_handle))
	{
	  VDBG (0, "EPOLL_CTL_DEL: sh %u vep_sh (%u) != vep_sh (%u)!",
		session_handle, s->vep.vep_sh, vep_handle);
	  rv = VPPCOM_EINVAL;
	  goto done;
	}

      if (s->vep.prev_sh == vep_handle)
	vep_session->vep.next_sh = s->vep.next_sh;
      else
	{
	  vcl_session_t *prev_session;
	  prev_session = vcl_session_get_w_handle (wrk, s->vep.prev_sh);
	  if (PREDICT_FALSE (!prev_session))
	    {
	      VDBG (0, "EPOLL_CTL_DEL: Invalid prev_sh (%u) on sh (%u)!",
		    s->vep.prev_sh, session_handle);
	      return VPPCOM_EBADFD;
	    }
	  ASSERT (prev_session->vep.next_sh == session_handle);
	  prev_session->vep.next_sh = s->vep.next_sh;
	}
      if (s->vep.next_sh != ~0)
	{
	  vcl_session_t *next_session;
	  next_session = vcl_session_get_w_handle (wrk, s->vep.next_sh);
	  if (PREDICT_FALSE (!next_session))
	    {
	      VDBG (0, "EPOLL_CTL_DEL: Invalid next_sh (%u) on sh (%u)!",
		    s->vep.next_sh, session_handle);
	      return VPPCOM_EBADFD;
	    }
	  ASSERT (next_session->vep.prev_sh == session_handle);
	  next_session->vep.prev_sh = s->vep.prev_sh;
	}

      memset (&s->vep, 0, sizeof (s->vep));
      s->vep.next_sh = ~0;
      s->vep.prev_sh = ~0;
      s->vep.vep_sh = ~0;
      s->is_vep_session = 0;

      txf = vcl_session_is_ct (s) ? s->ct_tx_fifo : s->tx_fifo;
      if (txf)
	svm_fifo_del_want_deq_ntf (txf, SVM_FIFO_WANT_DEQ_NOTIF_IF_FULL);

      VDBG (1, "EPOLL_CTL_DEL: vep_idx %u, sh %u!", vep_handle,
	    session_handle);
      vcl_evt (VCL_EVT_EPOLL_CTLDEL, s, vep_sh);
      break;

    default:
      VDBG (0, "Invalid operation (%d)!", op);
      rv = VPPCOM_EINVAL;
    }

  vep_verify_epoll_chain (wrk, vep_handle);

done:
  return rv;
}

static inline void
vcl_epoll_wait_handle_mq_event (vcl_worker_t * wrk, session_event_t * e,
				struct epoll_event *events, u32 * num_ev)
{
  session_disconnected_msg_t *disconnected_msg;
  session_connected_msg_t *connected_msg;
  u32 sid = ~0, session_events;
  u64 session_evt_data = ~0;
  vcl_session_t *session;
  u8 add_event = 0;

  switch (e->event_type)
    {
    case SESSION_IO_EVT_RX:
      sid = e->session_index;
      session = vcl_session_get (wrk, sid);
      if (vcl_session_is_closed (session))
	break;
      vcl_fifo_rx_evt_valid_or_break (session);
      session_events = session->vep.ev.events;
      if (!(EPOLLIN & session->vep.ev.events) || session->has_rx_evt)
	break;
      add_event = 1;
      events[*num_ev].events |= EPOLLIN;
      session_evt_data = session->vep.ev.data.u64;
      session->has_rx_evt = 1;
      break;
    case SESSION_IO_EVT_TX:
      sid = e->session_index;
      session = vcl_session_get (wrk, sid);
      if (vcl_session_is_closed (session))
	break;
      session_events = session->vep.ev.events;
      if (!(EPOLLOUT & session_events))
	break;
      add_event = 1;
      events[*num_ev].events |= EPOLLOUT;
      session_evt_data = session->vep.ev.data.u64;
      svm_fifo_reset_has_deq_ntf (vcl_session_is_ct (session) ?
				  session->ct_tx_fifo : session->tx_fifo);
      break;
    case SESSION_CTRL_EVT_ACCEPTED:
      session = vcl_session_accepted (wrk,
				      (session_accepted_msg_t *) e->data);
      if (!session)
	break;

      session_events = session->vep.ev.events;
      if (!(EPOLLIN & session_events))
	break;

      add_event = 1;
      events[*num_ev].events |= EPOLLIN;
      session_evt_data = session->vep.ev.data.u64;
      break;
    case SESSION_CTRL_EVT_CONNECTED:
      connected_msg = (session_connected_msg_t *) e->data;
      sid = vcl_session_connected_handler (wrk, connected_msg);
      /* Generate EPOLLOUT because there's no connected event */
      session = vcl_session_get (wrk, sid);
      if (vcl_session_is_closed (session))
	break;
      session_events = session->vep.ev.events;
      if (!(EPOLLOUT & session_events))
	break;
      add_event = 1;
      events[*num_ev].events |= EPOLLOUT;
      session_evt_data = session->vep.ev.data.u64;
      if (session->session_state & STATE_DETACHED)
	events[*num_ev].events |= EPOLLHUP;
      break;
    case SESSION_CTRL_EVT_DISCONNECTED:
      disconnected_msg = (session_disconnected_msg_t *) e->data;
      session = vcl_session_disconnected_handler (wrk, disconnected_msg);
      if (vcl_session_is_closed (session))
	break;
      session_events = session->vep.ev.events;
      add_event = 1;
      events[*num_ev].events |= EPOLLHUP | EPOLLRDHUP;
      session_evt_data = session->vep.ev.data.u64;
      break;
    case SESSION_CTRL_EVT_RESET:
      sid = vcl_session_reset_handler (wrk, (session_reset_msg_t *) e->data);
      session = vcl_session_get (wrk, sid);
      if (vcl_session_is_closed (session))
	break;
      session_events = session->vep.ev.events;
      add_event = 1;
      events[*num_ev].events |= EPOLLHUP | EPOLLRDHUP;
      session_evt_data = session->vep.ev.data.u64;
      break;
    case SESSION_CTRL_EVT_UNLISTEN_REPLY:
      vcl_session_unlisten_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_MIGRATED:
      vcl_session_migrated_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_CLEANUP:
      vcl_session_cleanup_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_REQ_WORKER_UPDATE:
      vcl_session_req_worker_update_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_WORKER_UPDATE_REPLY:
      vcl_session_worker_update_reply_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_ADD_SEGMENT:
      vcl_session_app_add_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_DEL_SEGMENT:
      vcl_session_app_del_segment_handler (wrk, e->data);
      break;
    case SESSION_CTRL_EVT_APP_WRK_RPC:
      vcl_worker_rpc_handler (wrk, e->data);
      break;
    default:
      VDBG (0, "unhandled: %u", e->event_type);
      break;
    }

  if (add_event)
    {
      events[*num_ev].data.u64 = session_evt_data;
      if (EPOLLONESHOT & session_events)
	{
	  session = vcl_session_get (wrk, sid);
	  session->vep.ev.events = 0;
	}
      *num_ev += 1;
    }
}

static int
vcl_epoll_wait_handle_mq (vcl_worker_t * wrk, svm_msg_q_t * mq,
			  struct epoll_event *events, u32 maxevents,
			  double wait_for_time, u32 * num_ev)
{
  svm_msg_q_msg_t *msg;
  session_event_t *e;
  int i;

  if (vec_len (wrk->mq_msg_vector) && svm_msg_q_is_empty (mq))
    goto handle_dequeued;

  svm_msg_q_lock (mq);
  if (svm_msg_q_is_empty (mq))
    {
      if (!wait_for_time)
	{
	  svm_msg_q_unlock (mq);
	  return 0;
	}
      else if (wait_for_time < 0)
	{
	  svm_msg_q_wait (mq);
	}
      else
	{
	  if (svm_msg_q_timedwait (mq, wait_for_time / 1e3))
	    {
	      svm_msg_q_unlock (mq);
	      return 0;
	    }
	}
    }
  ASSERT (maxevents > *num_ev);
  vcl_mq_dequeue_batch (wrk, mq, ~0);
  svm_msg_q_unlock (mq);

handle_dequeued:
  for (i = 0; i < vec_len (wrk->mq_msg_vector); i++)
    {
      msg = vec_elt_at_index (wrk->mq_msg_vector, i);
      e = svm_msg_q_msg_data (mq, msg);
      if (*num_ev < maxevents)
	vcl_epoll_wait_handle_mq_event (wrk, e, events, num_ev);
      else
	vcl_handle_mq_event (wrk, e);
      svm_msg_q_free_msg (mq, msg);
    }
  vec_reset_length (wrk->mq_msg_vector);
  vcl_handle_pending_wrk_updates (wrk);
  return *num_ev;
}

static int
vppcom_epoll_wait_condvar (vcl_worker_t * wrk, struct epoll_event *events,
			   int maxevents, u32 n_evts, double wait_for_time)
{
  double wait = 0, start = 0, now;

  if (!n_evts)
    {
      wait = wait_for_time;
      start = clib_time_now (&wrk->clib_time);
    }

  do
    {
      vcl_epoll_wait_handle_mq (wrk, wrk->app_event_queue, events, maxevents,
				wait, &n_evts);
      if (n_evts)
	return n_evts;
      if (wait == -1)
	continue;

      now = clib_time_now (&wrk->clib_time);
      wait -= (now - start) * 1e3;
      start = now;
    }
  while (wait > 0);

  return 0;
}

static int
vppcom_epoll_wait_eventfd (vcl_worker_t * wrk, struct epoll_event *events,
			   int maxevents, u32 n_evts, double wait_for_time)
{
  vcl_mq_evt_conn_t *mqc;
  int __clib_unused n_read;
  int n_mq_evts, i;
  u64 buf;

  vec_validate (wrk->mq_events, pool_elts (wrk->mq_evt_conns));
again:
  n_mq_evts = epoll_wait (wrk->mqs_epfd, wrk->mq_events,
			  vec_len (wrk->mq_events), wait_for_time);
  for (i = 0; i < n_mq_evts; i++)
    {
      mqc = vcl_mq_evt_conn_get (wrk, wrk->mq_events[i].data.u32);
      n_read = read (mqc->mq_fd, &buf, sizeof (buf));
      vcl_epoll_wait_handle_mq (wrk, mqc->mq, events, maxevents, 0, &n_evts);
    }
  if (!n_evts && n_mq_evts > 0)
    goto again;

  return (int) n_evts;
}

int
vppcom_epoll_wait (uint32_t vep_handle, struct epoll_event *events,
		   int maxevents, double wait_for_time)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *vep_session;
  u32 n_evts = 0;
  int i;

  if (PREDICT_FALSE (maxevents <= 0))
    {
      VDBG (0, "ERROR: Invalid maxevents (%d)!", maxevents);
      return VPPCOM_EINVAL;
    }

  vep_session = vcl_session_get_w_handle (wrk, vep_handle);
  if (!vep_session)
    return VPPCOM_EBADFD;

  if (PREDICT_FALSE (!vep_session->is_vep))
    {
      VDBG (0, "ERROR: vep_idx (%u) is not a vep!", vep_handle);
      return VPPCOM_EINVAL;
    }

  memset (events, 0, sizeof (*events) * maxevents);

  if (vec_len (wrk->unhandled_evts_vector))
    {
      for (i = 0; i < vec_len (wrk->unhandled_evts_vector); i++)
	{
	  vcl_epoll_wait_handle_mq_event (wrk, &wrk->unhandled_evts_vector[i],
					  events, &n_evts);
	  if (n_evts == maxevents)
	    {
	      vec_delete (wrk->unhandled_evts_vector, i + 1, 0);
	      return n_evts;
	    }
	}
      vec_reset_length (wrk->unhandled_evts_vector);
    }

  if (vcm->cfg.use_mq_eventfd)
    return vppcom_epoll_wait_eventfd (wrk, events, maxevents, n_evts,
				      wait_for_time);

  return vppcom_epoll_wait_condvar (wrk, events, maxevents, n_evts,
				    wait_for_time);
}

int
vppcom_session_attr (uint32_t session_handle, uint32_t op,
		     void *buffer, uint32_t * buflen)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session;
  int rv = VPPCOM_OK;
  u32 *flags = buffer, tmp_flags = 0;
  vppcom_endpt_t *ep = buffer;

  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;

  switch (op)
    {
    case VPPCOM_ATTR_GET_NREAD:
      rv = vcl_session_read_ready (session);
      VDBG (2, "VPPCOM_ATTR_GET_NREAD: sh %u, nread = %d", session_handle,
	    rv);
      break;

    case VPPCOM_ATTR_GET_NWRITE:
      rv = vcl_session_write_ready (session);
      VDBG (2, "VPPCOM_ATTR_GET_NWRITE: sh %u, nwrite = %d", session_handle,
	    rv);
      break;

    case VPPCOM_ATTR_GET_FLAGS:
      if (PREDICT_TRUE (buffer && buflen && (*buflen >= sizeof (*flags))))
	{
	  *flags =
	    O_RDWR |
	    (VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_NONBLOCK) ?
	     O_NONBLOCK : 0);
	  *buflen = sizeof (*flags);
	  VDBG (2, "VPPCOM_ATTR_GET_FLAGS: sh %u, flags = 0x%08x, "
		"is_nonblocking = %u", session_handle, *flags,
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_NONBLOCK));
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_FLAGS:
      if (PREDICT_TRUE (buffer && buflen && (*buflen == sizeof (*flags))))
	{
	  if (*flags & O_NONBLOCK)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_NONBLOCK);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_NONBLOCK);

	  VDBG (2, "VPPCOM_ATTR_SET_FLAGS: sh %u, flags = 0x%08x,"
		" is_nonblocking = %u", session_handle, *flags,
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_NONBLOCK));
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_PEER_ADDR:
      if (PREDICT_TRUE (buffer && buflen &&
			(*buflen >= sizeof (*ep)) && ep->ip))
	{
	  ep->is_ip4 = session->transport.is_ip4;
	  ep->port = session->transport.rmt_port;
	  if (session->transport.is_ip4)
	    clib_memcpy_fast (ep->ip, &session->transport.rmt_ip.ip4,
			      sizeof (ip4_address_t));
	  else
	    clib_memcpy_fast (ep->ip, &session->transport.rmt_ip.ip6,
			      sizeof (ip6_address_t));
	  *buflen = sizeof (*ep);
	  VDBG (1, "VPPCOM_ATTR_GET_PEER_ADDR: sh %u, is_ip4 = %u, "
		"addr = %U, port %u", session_handle, ep->is_ip4,
		format_ip46_address, &session->transport.rmt_ip,
		ep->is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
		clib_net_to_host_u16 (ep->port));
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_LCL_ADDR:
      if (PREDICT_TRUE (buffer && buflen &&
			(*buflen >= sizeof (*ep)) && ep->ip))
	{
	  ep->is_ip4 = session->transport.is_ip4;
	  ep->port = session->transport.lcl_port;
	  if (session->transport.is_ip4)
	    clib_memcpy_fast (ep->ip, &session->transport.lcl_ip.ip4,
			      sizeof (ip4_address_t));
	  else
	    clib_memcpy_fast (ep->ip, &session->transport.lcl_ip.ip6,
			      sizeof (ip6_address_t));
	  *buflen = sizeof (*ep);
	  VDBG (1, "VPPCOM_ATTR_GET_LCL_ADDR: sh %u, is_ip4 = %u, addr = %U"
		" port %d", session_handle, ep->is_ip4, format_ip46_address,
		&session->transport.lcl_ip,
		ep->is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
		clib_net_to_host_u16 (ep->port));
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_LCL_ADDR:
      if (PREDICT_TRUE (buffer && buflen &&
			(*buflen >= sizeof (*ep)) && ep->ip))
	{
	  session->transport.is_ip4 = ep->is_ip4;
	  session->transport.lcl_port = ep->port;
	  vcl_ip_copy_from_ep (&session->transport.lcl_ip, ep);
	  *buflen = sizeof (*ep);
	  VDBG (1, "VPPCOM_ATTR_SET_LCL_ADDR: sh %u, is_ip4 = %u, addr = %U"
		" port %d", session_handle, ep->is_ip4, format_ip46_address,
		&session->transport.lcl_ip,
		ep->is_ip4 ? IP46_TYPE_IP4 : IP46_TYPE_IP6,
		clib_net_to_host_u16 (ep->port));
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_LIBC_EPFD:
      rv = session->libc_epfd;
      VDBG (2, "VPPCOM_ATTR_GET_LIBC_EPFD: libc_epfd %d", rv);
      break;

    case VPPCOM_ATTR_SET_LIBC_EPFD:
      if (PREDICT_TRUE (buffer && buflen &&
			(*buflen == sizeof (session->libc_epfd))))
	{
	  session->libc_epfd = *(int *) buffer;
	  *buflen = sizeof (session->libc_epfd);

	  VDBG (2, "VPPCOM_ATTR_SET_LIBC_EPFD: libc_epfd %d, buflen %d",
		session->libc_epfd, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_PROTOCOL:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  *(int *) buffer = session->session_type;
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_PROTOCOL: %d (%s), buflen %d",
		*(int *) buffer, *(int *) buffer ? "UDP" : "TCP", *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_LISTEN:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_LISTEN);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_LISTEN: %d, buflen %d", *(int *) buffer,
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_ERROR:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  *(int *) buffer = 0;
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_ERROR: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_TX_FIFO_LEN:
      if (buffer && buflen && (*buflen >= sizeof (u32)))
	{

	  /* VPP-TBD */
	  *(size_t *) buffer = (session->sndbuf_size ? session->sndbuf_size :
				session->tx_fifo ?
				svm_fifo_size (session->tx_fifo) :
				vcm->cfg.tx_fifo_size);
	  *buflen = sizeof (u32);

	  VDBG (2, "VPPCOM_ATTR_GET_TX_FIFO_LEN: %u (0x%x), buflen %d,"
		" #VPP-TBD#", *(size_t *) buffer, *(size_t *) buffer,
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_TX_FIFO_LEN:
      if (buffer && buflen && (*buflen == sizeof (u32)))
	{
	  /* VPP-TBD */
	  session->sndbuf_size = *(u32 *) buffer;
	  VDBG (2, "VPPCOM_ATTR_SET_TX_FIFO_LEN: %u (0x%x), buflen %d,"
		" #VPP-TBD#", session->sndbuf_size, session->sndbuf_size,
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_RX_FIFO_LEN:
      if (buffer && buflen && (*buflen >= sizeof (u32)))
	{

	  /* VPP-TBD */
	  *(size_t *) buffer = (session->rcvbuf_size ? session->rcvbuf_size :
				session->rx_fifo ?
				svm_fifo_size (session->rx_fifo) :
				vcm->cfg.rx_fifo_size);
	  *buflen = sizeof (u32);

	  VDBG (2, "VPPCOM_ATTR_GET_RX_FIFO_LEN: %u (0x%x), buflen %d, "
		"#VPP-TBD#", *(size_t *) buffer, *(size_t *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_RX_FIFO_LEN:
      if (buffer && buflen && (*buflen == sizeof (u32)))
	{
	  /* VPP-TBD */
	  session->rcvbuf_size = *(u32 *) buffer;
	  VDBG (2, "VPPCOM_ATTR_SET_RX_FIFO_LEN: %u (0x%x), buflen %d,"
		" #VPP-TBD#", session->sndbuf_size, session->sndbuf_size,
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_REUSEADDR:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_REUSEADDR);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_REUSEADDR: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_REUSEADDR:
      if (buffer && buflen && (*buflen == sizeof (int)) &&
	  !VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_LISTEN))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_REUSEADDR);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_REUSEADDR);

	  VDBG (2, "VPPCOM_ATTR_SET_REUSEADDR: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_REUSEADDR),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_REUSEPORT:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_REUSEPORT);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_REUSEPORT: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_REUSEPORT:
      if (buffer && buflen && (*buflen == sizeof (int)) &&
	  !VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_LISTEN))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_REUSEPORT);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_REUSEPORT);

	  VDBG (2, "VPPCOM_ATTR_SET_REUSEPORT: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_REUSEPORT),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_BROADCAST:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_BROADCAST);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_BROADCAST: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_BROADCAST:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_BROADCAST);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_BROADCAST);

	  VDBG (2, "VPPCOM_ATTR_SET_BROADCAST: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_BROADCAST),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_V6ONLY:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_V6ONLY);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_V6ONLY: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_V6ONLY:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_V6ONLY);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_V6ONLY);

	  VDBG (2, "VPPCOM_ATTR_SET_V6ONLY: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_V6ONLY),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_KEEPALIVE:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_KEEPALIVE);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_KEEPALIVE: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_KEEPALIVE:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_KEEPALIVE);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_KEEPALIVE);

	  VDBG (2, "VPPCOM_ATTR_SET_KEEPALIVE: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_KEEPALIVE),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_TCP_NODELAY:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_TCP_NODELAY);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_TCP_NODELAY: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_TCP_NODELAY:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_TCP_NODELAY);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_TCP_NODELAY);

	  VDBG (2, "VPPCOM_ATTR_SET_TCP_NODELAY: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_TCP_NODELAY),
		*buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_TCP_KEEPIDLE:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_TCP_KEEPIDLE);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_TCP_KEEPIDLE: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_TCP_KEEPIDLE:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_TCP_KEEPIDLE);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_TCP_KEEPIDLE);

	  VDBG (2, "VPPCOM_ATTR_SET_TCP_KEEPIDLE: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr,
				    VCL_SESS_ATTR_TCP_KEEPIDLE), *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_TCP_KEEPINTVL:
      if (buffer && buflen && (*buflen >= sizeof (int)))
	{
	  /* VPP-TBD */
	  *(int *) buffer = VCL_SESS_ATTR_TEST (session->attr,
						VCL_SESS_ATTR_TCP_KEEPINTVL);
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_TCP_KEEPINTVL: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_TCP_KEEPINTVL:
      if (buffer && buflen && (*buflen == sizeof (int)))
	{
	  /* VPP-TBD */
	  if (*(int *) buffer)
	    VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_TCP_KEEPINTVL);
	  else
	    VCL_SESS_ATTR_CLR (session->attr, VCL_SESS_ATTR_TCP_KEEPINTVL);

	  VDBG (2, "VPPCOM_ATTR_SET_TCP_KEEPINTVL: %d, buflen %d, #VPP-TBD#",
		VCL_SESS_ATTR_TEST (session->attr,
				    VCL_SESS_ATTR_TCP_KEEPINTVL), *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_GET_TCP_USER_MSS:
      if (buffer && buflen && (*buflen >= sizeof (u32)))
	{
	  /* VPP-TBD */
	  *(u32 *) buffer = session->user_mss;
	  *buflen = sizeof (int);

	  VDBG (2, "VPPCOM_ATTR_GET_TCP_USER_MSS: %d, buflen %d, #VPP-TBD#",
		*(int *) buffer, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_TCP_USER_MSS:
      if (buffer && buflen && (*buflen == sizeof (u32)))
	{
	  /* VPP-TBD */
	  session->user_mss = *(u32 *) buffer;

	  VDBG (2, "VPPCOM_ATTR_SET_TCP_USER_MSS: %u, buflen %d, #VPP-TBD#",
		session->user_mss, *buflen);
	}
      else
	rv = VPPCOM_EINVAL;
      break;

    case VPPCOM_ATTR_SET_SHUT:
      if (*flags == SHUT_RD || *flags == SHUT_RDWR)
	VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_SHUT_RD);
      if (*flags == SHUT_WR || *flags == SHUT_RDWR)
	VCL_SESS_ATTR_SET (session->attr, VCL_SESS_ATTR_SHUT_WR);
      break;

    case VPPCOM_ATTR_GET_SHUT:
      if (VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_SHUT_RD))
	tmp_flags = 1;
      if (VCL_SESS_ATTR_TEST (session->attr, VCL_SESS_ATTR_SHUT_WR))
	tmp_flags |= 2;
      if (tmp_flags == 1)
	*(int *) buffer = SHUT_RD;
      else if (tmp_flags == 2)
	*(int *) buffer = SHUT_WR;
      else if (tmp_flags == 3)
	*(int *) buffer = SHUT_RDWR;
      *buflen = sizeof (int);
      break;

    case VPPCOM_ATTR_SET_CONNECTED:
      session->flags |= VCL_SESSION_F_CONNECTED;
      break;

    default:
      rv = VPPCOM_EINVAL;
      break;
    }

  return rv;
}

int
vppcom_session_recvfrom (uint32_t session_handle, void *buffer,
			 uint32_t buflen, int flags, vppcom_endpt_t * ep)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session;
  int rv = VPPCOM_OK;

  if (flags == 0)
    rv = vppcom_session_read (session_handle, buffer, buflen);
  else if (flags & MSG_PEEK)
    rv = vppcom_session_peek (session_handle, buffer, buflen);
  else
    {
      VDBG (0, "Unsupport flags for recvfrom %d", flags);
      return VPPCOM_EAFNOSUPPORT;
    }

  if (ep && rv > 0)
    {
      session = vcl_session_get_w_handle (wrk, session_handle);
      if (session->transport.is_ip4)
	clib_memcpy_fast (ep->ip, &session->transport.rmt_ip.ip4,
			  sizeof (ip4_address_t));
      else
	clib_memcpy_fast (ep->ip, &session->transport.rmt_ip.ip6,
			  sizeof (ip6_address_t));
      ep->is_ip4 = session->transport.is_ip4;
      ep->port = session->transport.rmt_port;
    }

  return rv;
}

int
vppcom_session_sendto (uint32_t session_handle, void *buffer,
		       uint32_t buflen, int flags, vppcom_endpt_t * ep)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *s;

  s = vcl_session_get_w_handle (wrk, session_handle);
  if (!s)
    return VPPCOM_EBADFD;

  if (!buffer)
    return VPPCOM_EINVAL;

  if (ep)
    {
      if (s->session_type != VPPCOM_PROTO_UDP
	  || (s->flags & VCL_SESSION_F_CONNECTED))
	return VPPCOM_EINVAL;

      /* Session not connected/bound in vpp. Create it by 'connecting' it */
      if (PREDICT_FALSE (s->session_state == STATE_CLOSED))
	{
	  vcl_send_session_connect (wrk, s);
	}
      else
	{
	  s->transport.is_ip4 = ep->is_ip4;
	  s->transport.rmt_port = ep->port;
	  vcl_ip_copy_from_ep (&s->transport.rmt_ip, ep);
	}
    }

  if (flags)
    {
      // TBD check the flags and do the right thing
      VDBG (2, "handling flags 0x%u (%d) not implemented yet.", flags, flags);
    }

  return (vppcom_session_write_inline (wrk, s, buffer, buflen, 1,
				       s->is_dgram ? 1 : 0));
}

int
vppcom_poll (vcl_poll_t * vp, uint32_t n_sids, double wait_for_time)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  f64 timeout = clib_time_now (&wrk->clib_time) + wait_for_time;
  u32 i, keep_trying = 1;
  svm_msg_q_msg_t msg;
  session_event_t *e;
  int rv, num_ev = 0;

  VDBG (3, "vp %p, nsids %u, wait_for_time %f", vp, n_sids, wait_for_time);

  if (!vp)
    return VPPCOM_EFAULT;

  do
    {
      vcl_session_t *session;

      /* Dequeue all events and drop all unhandled io events */
      while (svm_msg_q_sub (wrk->app_event_queue, &msg, SVM_Q_NOWAIT, 0) == 0)
	{
	  e = svm_msg_q_msg_data (wrk->app_event_queue, &msg);
	  vcl_handle_mq_event (wrk, e);
	  svm_msg_q_free_msg (wrk->app_event_queue, &msg);
	}
      vec_reset_length (wrk->unhandled_evts_vector);

      for (i = 0; i < n_sids; i++)
	{
	  session = vcl_session_get (wrk, vp[i].sh);
	  if (!session)
	    {
	      vp[i].revents = POLLHUP;
	      num_ev++;
	      continue;
	    }

	  vp[i].revents = 0;

	  if (POLLIN & vp[i].events)
	    {
	      rv = vcl_session_read_ready (session);
	      if (rv > 0)
		{
		  vp[i].revents |= POLLIN;
		  num_ev++;
		}
	      else if (rv < 0)
		{
		  switch (rv)
		    {
		    case VPPCOM_ECONNRESET:
		      vp[i].revents = POLLHUP;
		      break;

		    default:
		      vp[i].revents = POLLERR;
		      break;
		    }
		  num_ev++;
		}
	    }

	  if (POLLOUT & vp[i].events)
	    {
	      rv = vcl_session_write_ready (session);
	      if (rv > 0)
		{
		  vp[i].revents |= POLLOUT;
		  num_ev++;
		}
	      else if (rv < 0)
		{
		  switch (rv)
		    {
		    case VPPCOM_ECONNRESET:
		      vp[i].revents = POLLHUP;
		      break;

		    default:
		      vp[i].revents = POLLERR;
		      break;
		    }
		  num_ev++;
		}
	    }

	  if (0)		// Note "done:" label used by VCL_SESSION_LOCK_AND_GET()
	    {
	      vp[i].revents = POLLNVAL;
	      num_ev++;
	    }
	}
      if (wait_for_time != -1)
	keep_trying = (clib_time_now (&wrk->clib_time) <= timeout) ? 1 : 0;
    }
  while ((num_ev == 0) && keep_trying);

  return num_ev;
}

int
vppcom_mq_epoll_fd (void)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  return wrk->mqs_epfd;
}

int
vppcom_session_index (vcl_session_handle_t session_handle)
{
  return session_handle & 0xFFFFFF;
}

int
vppcom_session_worker (vcl_session_handle_t session_handle)
{
  return session_handle >> 24;
}

int
vppcom_worker_register (void)
{
  if (!vcl_worker_alloc_and_init ())
    return VPPCOM_EEXIST;

  if (vcl_worker_register_with_vpp ())
    return VPPCOM_EEXIST;

  return VPPCOM_OK;
}

void
vppcom_worker_unregister (void)
{
  vcl_worker_cleanup (vcl_worker_get_current (), 1 /* notify vpp */ );
  vcl_set_worker_index (~0);
}

void
vppcom_worker_index_set (int index)
{
  vcl_set_worker_index (index);
}

int
vppcom_worker_index (void)
{
  return vcl_get_worker_index ();
}

int
vppcom_worker_mqs_epfd (void)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  if (!vcm->cfg.use_mq_eventfd)
    return -1;
  return wrk->mqs_epfd;
}

int
vppcom_session_is_connectable_listener (uint32_t session_handle)
{
  vcl_session_t *session;
  vcl_worker_t *wrk = vcl_worker_get_current ();
  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  return vcl_session_is_connectable_listener (wrk, session);
}

int
vppcom_session_listener (uint32_t session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *listen_session, *session;
  session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  if (session->listener_index == VCL_INVALID_SESSION_INDEX)
    return VPPCOM_EBADFD;
  listen_session = vcl_session_get_w_handle (wrk, session->listener_index);
  if (!listen_session)
    return VPPCOM_EBADFD;
  return vcl_session_handle (listen_session);
}

int
vppcom_session_n_accepted (uint32_t session_handle)
{
  vcl_worker_t *wrk = vcl_worker_get_current ();
  vcl_session_t *session = vcl_session_get_w_handle (wrk, session_handle);
  if (!session)
    return VPPCOM_EBADFD;
  return session->n_accepted_sessions;
}

const char *
vppcom_proto_str (vppcom_proto_t proto)
{
  char const *proto_str;

  switch (proto)
    {
    case VPPCOM_PROTO_TCP:
      proto_str = "TCP";
      break;
    case VPPCOM_PROTO_UDP:
      proto_str = "UDP";
      break;
    case VPPCOM_PROTO_TLS:
      proto_str = "TLS";
      break;
    case VPPCOM_PROTO_QUIC:
      proto_str = "QUIC";
      break;
    default:
      proto_str = "UNKNOWN";
      break;
    }
  return proto_str;
}

const char *
vppcom_retval_str (int retval)
{
  char const *st;

  switch (retval)
    {
    case VPPCOM_OK:
      st = "VPPCOM_OK";
      break;

    case VPPCOM_EAGAIN:
      st = "VPPCOM_EAGAIN";
      break;

    case VPPCOM_EFAULT:
      st = "VPPCOM_EFAULT";
      break;

    case VPPCOM_ENOMEM:
      st = "VPPCOM_ENOMEM";
      break;

    case VPPCOM_EINVAL:
      st = "VPPCOM_EINVAL";
      break;

    case VPPCOM_EBADFD:
      st = "VPPCOM_EBADFD";
      break;

    case VPPCOM_EAFNOSUPPORT:
      st = "VPPCOM_EAFNOSUPPORT";
      break;

    case VPPCOM_ECONNABORTED:
      st = "VPPCOM_ECONNABORTED";
      break;

    case VPPCOM_ECONNRESET:
      st = "VPPCOM_ECONNRESET";
      break;

    case VPPCOM_ENOTCONN:
      st = "VPPCOM_ENOTCONN";
      break;

    case VPPCOM_ECONNREFUSED:
      st = "VPPCOM_ECONNREFUSED";
      break;

    case VPPCOM_ETIMEDOUT:
      st = "VPPCOM_ETIMEDOUT";
      break;

    default:
      st = "UNKNOWN_STATE";
      break;
    }

  return st;
}

/*
 * fd.io coding-style-patch-verification: ON
 *
 * Local Variables:
 * eval: (c-set-style "gnu")
 * End:
 */