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/*-
* BSD LICENSE
*
* Copyright(c) 2010-2015 Intel Corporation. All rights reserved.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <stdint.h>
#include <rte_ethdev.h>
#include <rte_malloc.h>
#include "ixgbe_ethdev.h"
#include "ixgbe_rxtx.h"
#include "ixgbe_rxtx_vec_common.h"
#include <arm_neon.h>
#pragma GCC diagnostic ignored "-Wcast-qual"
static inline void
ixgbe_rxq_rearm(struct ixgbe_rx_queue *rxq)
{
int i;
uint16_t rx_id;
volatile union ixgbe_adv_rx_desc *rxdp;
struct ixgbe_rx_entry *rxep = &rxq->sw_ring[rxq->rxrearm_start];
struct rte_mbuf *mb0, *mb1;
uint64x2_t dma_addr0, dma_addr1;
uint64x2_t zero = vdupq_n_u64(0);
uint64_t paddr;
uint8x8_t p;
rxdp = rxq->rx_ring + rxq->rxrearm_start;
/* Pull 'n' more MBUFs into the software ring */
if (unlikely(rte_mempool_get_bulk(rxq->mb_pool,
(void *)rxep,
RTE_IXGBE_RXQ_REARM_THRESH) < 0)) {
if (rxq->rxrearm_nb + RTE_IXGBE_RXQ_REARM_THRESH >=
rxq->nb_rx_desc) {
for (i = 0; i < RTE_IXGBE_DESCS_PER_LOOP; i++) {
rxep[i].mbuf = &rxq->fake_mbuf;
vst1q_u64((uint64_t *)&rxdp[i].read,
zero);
}
}
rte_eth_devices[rxq->port_id].data->rx_mbuf_alloc_failed +=
RTE_IXGBE_RXQ_REARM_THRESH;
return;
}
p = vld1_u8((uint8_t *)&rxq->mbuf_initializer);
/* Initialize the mbufs in vector, process 2 mbufs in one loop */
for (i = 0; i < RTE_IXGBE_RXQ_REARM_THRESH; i += 2, rxep += 2) {
mb0 = rxep[0].mbuf;
mb1 = rxep[1].mbuf;
/*
* Flush mbuf with pkt template.
* Data to be rearmed is 6 bytes long.
* Though, RX will overwrite ol_flags that are coming next
* anyway. So overwrite whole 8 bytes with one load:
* 6 bytes of rearm_data plus first 2 bytes of ol_flags.
*/
vst1_u8((uint8_t *)&mb0->rearm_data, p);
paddr = mb0->buf_physaddr + RTE_PKTMBUF_HEADROOM;
dma_addr0 = vsetq_lane_u64(paddr, zero, 0);
/* flush desc with pa dma_addr */
vst1q_u64((uint64_t *)&rxdp++->read, dma_addr0);
vst1_u8((uint8_t *)&mb1->rearm_data, p);
paddr = mb1->buf_physaddr + RTE_PKTMBUF_HEADROOM;
dma_addr1 = vsetq_lane_u64(paddr, zero, 0);
vst1q_u64((uint64_t *)&rxdp++->read, dma_addr1);
}
rxq->rxrearm_start += RTE_IXGBE_RXQ_REARM_THRESH;
if (rxq->rxrearm_start >= rxq->nb_rx_desc)
rxq->rxrearm_start = 0;
rxq->rxrearm_nb -= RTE_IXGBE_RXQ_REARM_THRESH;
rx_id = (uint16_t)((rxq->rxrearm_start == 0) ?
(rxq->nb_rx_desc - 1) : (rxq->rxrearm_start - 1));
/* Update the tail pointer on the NIC */
IXGBE_PCI_REG_WRITE(rxq->rdt_reg_addr, rx_id);
}
/* Handling the offload flags (olflags) field takes computation
* time when receiving packets. Therefore we provide a flag to disable
* the processing of the olflags field when they are not needed. This
* gives improved performance, at the cost of losing the offload info
* in the received packet
*/
#ifdef RTE_IXGBE_RX_OLFLAGS_ENABLE
#define VTAG_SHIFT (3)
static inline void
desc_to_olflags_v(uint8x16x2_t sterr_tmp1, uint8x16x2_t sterr_tmp2,
uint8x16_t staterr, struct rte_mbuf **rx_pkts)
{
uint8x16_t ptype;
uint8x16_t vtag;
union {
uint8_t e[4];
uint32_t word;
} vol;
const uint8x16_t pkttype_msk = {
PKT_RX_VLAN_PKT, PKT_RX_VLAN_PKT,
PKT_RX_VLAN_PKT, PKT_RX_VLAN_PKT,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00};
const uint8x16_t rsstype_msk = {
0x0F, 0x0F, 0x0F, 0x0F,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00};
const uint8x16_t rss_flags = {
0, PKT_RX_RSS_HASH, PKT_RX_RSS_HASH, PKT_RX_RSS_HASH,
0, PKT_RX_RSS_HASH, 0, PKT_RX_RSS_HASH,
PKT_RX_RSS_HASH, 0, 0, 0,
0, 0, 0, PKT_RX_FDIR};
ptype = vzipq_u8(sterr_tmp1.val[0], sterr_tmp2.val[0]).val[0];
ptype = vandq_u8(ptype, rsstype_msk);
ptype = vqtbl1q_u8(rss_flags, ptype);
vtag = vshrq_n_u8(staterr, VTAG_SHIFT);
vtag = vandq_u8(vtag, pkttype_msk);
vtag = vorrq_u8(ptype, vtag);
vol.word = vgetq_lane_u32(vreinterpretq_u32_u8(vtag), 0);
rx_pkts[0]->ol_flags = vol.e[0];
rx_pkts[1]->ol_flags = vol.e[1];
rx_pkts[2]->ol_flags = vol.e[2];
rx_pkts[3]->ol_flags = vol.e[3];
}
#else
#define desc_to_olflags_v(sterr_tmp1, sterr_tmp2, staterr, rx_pkts)
#endif
/*
* vPMD raw receive routine, only accept(nb_pkts >= RTE_IXGBE_DESCS_PER_LOOP)
*
* Notice:
* - nb_pkts < RTE_IXGBE_DESCS_PER_LOOP, just return no packet
* - nb_pkts > RTE_IXGBE_MAX_RX_BURST, only scan RTE_IXGBE_MAX_RX_BURST
* numbers of DD bit
* - floor align nb_pkts to a RTE_IXGBE_DESC_PER_LOOP power-of-two
* - don't support ol_flags for rss and csum err
*/
#define IXGBE_VPMD_DESC_DD_MASK 0x01010101
#define IXGBE_VPMD_DESC_EOP_MASK 0x02020202
static inline uint16_t
_recv_raw_pkts_vec(struct ixgbe_rx_queue *rxq, struct rte_mbuf **rx_pkts,
uint16_t nb_pkts, uint8_t *split_packet)
{
volatile union ixgbe_adv_rx_desc *rxdp;
struct ixgbe_rx_entry *sw_ring;
uint16_t nb_pkts_recd;
int pos;
uint64_t var;
uint8x16_t shuf_msk = {
0xFF, 0xFF,
0xFF, 0xFF, /* skip 32 bits pkt_type */
12, 13, /* octet 12~13, low 16 bits pkt_len */
0xFF, 0xFF, /* skip high 16 bits pkt_len, zero out */
12, 13, /* octet 12~13, 16 bits data_len */
14, 15, /* octet 14~15, low 16 bits vlan_macip */
4, 5, 6, 7 /* octet 4~7, 32bits rss */
};
uint16x8_t crc_adjust = {0, 0, rxq->crc_len, 0,
rxq->crc_len, 0, 0, 0};
/* nb_pkts shall be less equal than RTE_IXGBE_MAX_RX_BURST */
nb_pkts = RTE_MIN(nb_pkts, RTE_IXGBE_MAX_RX_BURST);
/* nb_pkts has to be floor-aligned to RTE_IXGBE_DESCS_PER_LOOP */
nb_pkts = RTE_ALIGN_FLOOR(nb_pkts, RTE_IXGBE_DESCS_PER_LOOP);
/* Just the act of getting into the function from the application is
* going to cost about 7 cycles
*/
rxdp = rxq->rx_ring + rxq->rx_tail;
rte_prefetch_non_temporal(rxdp);
/* See if we need to rearm the RX queue - gives the prefetch a bit
* of time to act
*/
if (rxq->rxrearm_nb > RTE_IXGBE_RXQ_REARM_THRESH)
ixgbe_rxq_rearm(rxq);
/* Before we start moving massive data around, check to see if
* there is actually a packet available
*/
if (!(rxdp->wb.upper.status_error &
rte_cpu_to_le_32(IXGBE_RXDADV_STAT_DD)))
return 0;
/* Cache is empty -> need to scan the buffer rings, but first move
* the next 'n' mbufs into the cache
*/
sw_ring = &rxq->sw_ring[rxq->rx_tail];
/* A. load 4 packet in one loop
* B. copy 4 mbuf point from swring to rx_pkts
* C. calc the number of DD bits among the 4 packets
* [C*. extract the end-of-packet bit, if requested]
* D. fill info. from desc to mbuf
*/
for (pos = 0, nb_pkts_recd = 0; pos < nb_pkts;
pos += RTE_IXGBE_DESCS_PER_LOOP,
rxdp += RTE_IXGBE_DESCS_PER_LOOP) {
uint64x2_t descs[RTE_IXGBE_DESCS_PER_LOOP];
uint8x16_t pkt_mb1, pkt_mb2, pkt_mb3, pkt_mb4;
uint8x16x2_t sterr_tmp1, sterr_tmp2;
uint64x2_t mbp1, mbp2;
uint8x16_t staterr;
uint16x8_t tmp;
uint32_t stat;
/* B.1 load 1 mbuf point */
mbp1 = vld1q_u64((uint64_t *)&sw_ring[pos]);
/* Read desc statuses backwards to avoid race condition */
/* A.1 load 4 pkts desc */
descs[3] = vld1q_u64((uint64_t *)(rxdp + 3));
rte_rmb();
/* B.2 copy 2 mbuf point into rx_pkts */
vst1q_u64((uint64_t *)&rx_pkts[pos], mbp1);
/* B.1 load 1 mbuf point */
mbp2 = vld1q_u64((uint64_t *)&sw_ring[pos + 2]);
descs[2] = vld1q_u64((uint64_t *)(rxdp + 2));
/* B.1 load 2 mbuf point */
descs[1] = vld1q_u64((uint64_t *)(rxdp + 1));
descs[0] = vld1q_u64((uint64_t *)(rxdp));
/* B.2 copy 2 mbuf point into rx_pkts */
vst1q_u64((uint64_t *)&rx_pkts[pos + 2], mbp2);
if (split_packet) {
rte_mbuf_prefetch_part2(rx_pkts[pos]);
rte_mbuf_prefetch_part2(rx_pkts[pos + 1]);
rte_mbuf_prefetch_part2(rx_pkts[pos + 2]);
rte_mbuf_prefetch_part2(rx_pkts[pos + 3]);
}
/* D.1 pkt 3,4 convert format from desc to pktmbuf */
pkt_mb4 = vqtbl1q_u8(vreinterpretq_u8_u64(descs[3]), shuf_msk);
pkt_mb3 = vqtbl1q_u8(vreinterpretq_u8_u64(descs[2]), shuf_msk);
/* D.1 pkt 1,2 convert format from desc to pktmbuf */
pkt_mb2 = vqtbl1q_u8(vreinterpretq_u8_u64(descs[1]), shuf_msk);
pkt_mb1 = vqtbl1q_u8(vreinterpretq_u8_u64(descs[0]), shuf_msk);
/* C.1 4=>2 filter staterr info only */
sterr_tmp2 = vzipq_u8(vreinterpretq_u8_u64(descs[1]),
vreinterpretq_u8_u64(descs[3]));
/* C.1 4=>2 filter staterr info only */
sterr_tmp1 = vzipq_u8(vreinterpretq_u8_u64(descs[0]),
vreinterpretq_u8_u64(descs[2]));
/* C.2 get 4 pkts staterr value */
staterr = vzipq_u8(sterr_tmp1.val[1], sterr_tmp2.val[1]).val[0];
stat = vgetq_lane_u32(vreinterpretq_u32_u8(staterr), 0);
/* set ol_flags with vlan packet type */
desc_to_olflags_v(sterr_tmp1, sterr_tmp2, staterr,
&rx_pkts[pos]);
/* D.2 pkt 3,4 set in_port/nb_seg and remove crc */
tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb4), crc_adjust);
pkt_mb4 = vreinterpretq_u8_u16(tmp);
tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb3), crc_adjust);
pkt_mb3 = vreinterpretq_u8_u16(tmp);
/* D.3 copy final 3,4 data to rx_pkts */
vst1q_u8((void *)&rx_pkts[pos + 3]->rx_descriptor_fields1,
pkt_mb4);
vst1q_u8((void *)&rx_pkts[pos + 2]->rx_descriptor_fields1,
pkt_mb3);
/* D.2 pkt 1,2 set in_port/nb_seg and remove crc */
tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb2), crc_adjust);
pkt_mb2 = vreinterpretq_u8_u16(tmp);
tmp = vsubq_u16(vreinterpretq_u16_u8(pkt_mb1), crc_adjust);
pkt_mb1 = vreinterpretq_u8_u16(tmp);
/* C* extract and record EOP bit */
if (split_packet) {
/* and with mask to extract bits, flipping 1-0 */
*(int *)split_packet = ~stat & IXGBE_VPMD_DESC_EOP_MASK;
split_packet += RTE_IXGBE_DESCS_PER_LOOP;
/* zero-out next pointers */
rx_pkts[pos]->next = NULL;
rx_pkts[pos + 1]->next = NULL;
rx_pkts[pos + 2]->next = NULL;
rx_pkts[pos + 3]->next = NULL;
}
rte_prefetch_non_temporal(rxdp + RTE_IXGBE_DESCS_PER_LOOP);
/* D.3 copy final 1,2 data to rx_pkts */
vst1q_u8((uint8_t *)&rx_pkts[pos + 1]->rx_descriptor_fields1,
pkt_mb2);
vst1q_u8((uint8_t *)&rx_pkts[pos]->rx_descriptor_fields1,
pkt_mb1);
/* C.4 calc avaialbe number of desc */
var = __builtin_popcount(stat & IXGBE_VPMD_DESC_DD_MASK);
nb_pkts_recd += var;
if (likely(var != RTE_IXGBE_DESCS_PER_LOOP))
break;
}
/* Update our internal tail pointer */
rxq->rx_tail = (uint16_t)(rxq->rx_tail + nb_pkts_recd);
rxq->rx_tail = (uint16_t)(rxq->rx_tail & (rxq->nb_rx_desc - 1));
rxq->rxrearm_nb = (uint16_t)(rxq->rxrearm_nb + nb_pkts_recd);
return nb_pkts_recd;
}
/*
* vPMD receive routine, only accept(nb_pkts >= RTE_IXGBE_DESCS_PER_LOOP)
*
* Notice:
* - nb_pkts < RTE_IXGBE_DESCS_PER_LOOP, just return no packet
* - nb_pkts > RTE_IXGBE_MAX_RX_BURST, only scan RTE_IXGBE_MAX_RX_BURST
* numbers of DD bit
* - floor align nb_pkts to a RTE_IXGBE_DESC_PER_LOOP power-of-two
* - don't support ol_flags for rss and csum err
*/
uint16_t
ixgbe_recv_pkts_vec(void *rx_queue, struct rte_mbuf **rx_pkts,
uint16_t nb_pkts)
{
return _recv_raw_pkts_vec(rx_queue, rx_pkts, nb_pkts, NULL);
}
/*
* vPMD receive routine that reassembles scattered packets
*
* Notice:
* - don't support ol_flags for rss and csum err
* - nb_pkts < RTE_IXGBE_DESCS_PER_LOOP, just return no packet
* - nb_pkts > RTE_IXGBE_MAX_RX_BURST, only scan RTE_IXGBE_MAX_RX_BURST
* numbers of DD bit
* - floor align nb_pkts to a RTE_IXGBE_DESC_PER_LOOP power-of-two
*/
uint16_t
ixgbe_recv_scattered_pkts_vec(void *rx_queue, struct rte_mbuf **rx_pkts,
uint16_t nb_pkts)
{
struct ixgbe_rx_queue *rxq = rx_queue;
uint8_t split_flags[RTE_IXGBE_MAX_RX_BURST] = {0};
/* get some new buffers */
uint16_t nb_bufs = _recv_raw_pkts_vec(rxq, rx_pkts, nb_pkts,
split_flags);
if (nb_bufs == 0)
return 0;
/* happy day case, full burst + no packets to be joined */
const uint64_t *split_fl64 = (uint64_t *)split_flags;
if (rxq->pkt_first_seg == NULL &&
split_fl64[0] == 0 && split_fl64[1] == 0 &&
split_fl64[2] == 0 && split_fl64[3] == 0)
return nb_bufs;
/* reassemble any packets that need reassembly*/
unsigned int i = 0;
if (rxq->pkt_first_seg == NULL) {
/* find the first split flag, and only reassemble then*/
while (i < nb_bufs && !split_flags[i])
i++;
if (i == nb_bufs)
return nb_bufs;
}
return i + reassemble_packets(rxq, &rx_pkts[i], nb_bufs - i,
&split_flags[i]);
}
static inline void
vtx1(volatile union ixgbe_adv_tx_desc *txdp,
struct rte_mbuf *pkt, uint64_t flags)
{
uint64x2_t descriptor = {
pkt->buf_physaddr + pkt->data_off,
(uint64_t)pkt->pkt_len << 46 | flags | pkt->data_len};
vst1q_u64((uint64_t *)&txdp->read, descriptor);
}
static inline void
vtx(volatile union ixgbe_adv_tx_desc *txdp,
struct rte_mbuf **pkt, uint16_t nb_pkts, uint64_t flags)
{
int i;
for (i = 0; i < nb_pkts; ++i, ++txdp, ++pkt)
vtx1(txdp, *pkt, flags);
}
uint16_t
ixgbe_xmit_pkts_vec(void *tx_queue, struct rte_mbuf **tx_pkts,
uint16_t nb_pkts)
{
struct ixgbe_tx_queue *txq = (struct ixgbe_tx_queue *)tx_queue;
volatile union ixgbe_adv_tx_desc *txdp;
struct ixgbe_tx_entry_v *txep;
uint16_t n, nb_commit, tx_id;
uint64_t flags = DCMD_DTYP_FLAGS;
uint64_t rs = IXGBE_ADVTXD_DCMD_RS | DCMD_DTYP_FLAGS;
int i;
/* cross rx_thresh boundary is not allowed */
nb_pkts = RTE_MIN(nb_pkts, txq->tx_rs_thresh);
if (txq->nb_tx_free < txq->tx_free_thresh)
ixgbe_tx_free_bufs(txq);
nb_commit = nb_pkts = (uint16_t)RTE_MIN(txq->nb_tx_free, nb_pkts);
if (unlikely(nb_pkts == 0))
return 0;
tx_id = txq->tx_tail;
txdp = &txq->tx_ring[tx_id];
txep = &txq->sw_ring_v[tx_id];
txq->nb_tx_free = (uint16_t)(txq->nb_tx_free - nb_pkts);
n = (uint16_t)(txq->nb_tx_desc - tx_id);
if (nb_commit >= n) {
tx_backlog_entry(txep, tx_pkts, n);
for (i = 0; i < n - 1; ++i, ++tx_pkts, ++txdp)
vtx1(txdp, *tx_pkts, flags);
vtx1(txdp, *tx_pkts++, rs);
nb_commit = (uint16_t)(nb_commit - n);
tx_id = 0;
txq->tx_next_rs = (uint16_t)(txq->tx_rs_thresh - 1);
/* avoid reach the end of ring */
txdp = &txq->tx_ring[tx_id];
txep = &txq->sw_ring_v[tx_id];
}
tx_backlog_entry(txep, tx_pkts, nb_commit);
vtx(txdp, tx_pkts, nb_commit, flags);
tx_id = (uint16_t)(tx_id + nb_commit);
if (tx_id > txq->tx_next_rs) {
txq->tx_ring[txq->tx_next_rs].read.cmd_type_len |=
rte_cpu_to_le_32(IXGBE_ADVTXD_DCMD_RS);
txq->tx_next_rs = (uint16_t)(txq->tx_next_rs +
txq->tx_rs_thresh);
}
txq->tx_tail = tx_id;
IXGBE_PCI_REG_WRITE(txq->tdt_reg_addr, txq->tx_tail);
return nb_pkts;
}
static void __attribute__((cold))
ixgbe_tx_queue_release_mbufs_vec(struct ixgbe_tx_queue *txq)
{
_ixgbe_tx_queue_release_mbufs_vec(txq);
}
void __attribute__((cold))
ixgbe_rx_queue_release_mbufs_vec(struct ixgbe_rx_queue *rxq)
{
_ixgbe_rx_queue_release_mbufs_vec(rxq);
}
static void __attribute__((cold))
ixgbe_tx_free_swring(struct ixgbe_tx_queue *txq)
{
_ixgbe_tx_free_swring_vec(txq);
}
static void __attribute__((cold))
ixgbe_reset_tx_queue(struct ixgbe_tx_queue *txq)
{
_ixgbe_reset_tx_queue_vec(txq);
}
static const struct ixgbe_txq_ops vec_txq_ops = {
.release_mbufs = ixgbe_tx_queue_release_mbufs_vec,
.free_swring = ixgbe_tx_free_swring,
.reset = ixgbe_reset_tx_queue,
};
int __attribute__((cold))
ixgbe_rxq_vec_setup(struct ixgbe_rx_queue *rxq)
{
return ixgbe_rxq_vec_setup_default(rxq);
}
int __attribute__((cold))
ixgbe_txq_vec_setup(struct ixgbe_tx_queue *txq)
{
return ixgbe_txq_vec_setup_default(txq, &vec_txq_ops);
}
int __attribute__((cold))
ixgbe_rx_vec_dev_conf_condition_check(struct rte_eth_dev *dev)
{
struct rte_eth_rxmode *rxmode = &dev->data->dev_conf.rxmode;
/* no csum error report support */
if (rxmode->hw_ip_checksum == 1)
return -1;
return ixgbe_rx_vec_dev_conf_condition_check_default(dev);
}
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