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-rw-r--r--drivers/net/ethernet/intel/idpf/Kconfig26
-rw-r--r--drivers/net/ethernet/intel/idpf/Makefile3
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf.h11
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_ethtool.c152
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_lan_txrx.h2
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_lib.c88
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_main.c1
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_singleq_txrx.c306
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_txrx.c1412
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_txrx.h734
-rw-r--r--drivers/net/ethernet/intel/idpf/idpf_virtchnl.c178
11 files changed, 1544 insertions, 1369 deletions
diff --git a/drivers/net/ethernet/intel/idpf/Kconfig b/drivers/net/ethernet/intel/idpf/Kconfig
new file mode 100644
index 000000000000..1addd663acad
--- /dev/null
+++ b/drivers/net/ethernet/intel/idpf/Kconfig
@@ -0,0 +1,26 @@
+# SPDX-License-Identifier: GPL-2.0-only
+# Copyright (C) 2024 Intel Corporation
+
+config IDPF
+ tristate "Intel(R) Infrastructure Data Path Function Support"
+ depends on PCI_MSI
+ select DIMLIB
+ select LIBETH
+ help
+ This driver supports Intel(R) Infrastructure Data Path Function
+ devices.
+
+ To compile this driver as a module, choose M here. The module
+ will be called idpf.
+
+if IDPF
+
+config IDPF_SINGLEQ
+ bool "idpf singleq support"
+ help
+ This option enables support for legacy single Rx/Tx queues w/no
+ completion and fill queues. Only enable if you have hardware which
+ wants to work in this mode as it increases the driver size and adds
+ runtme checks on hotpath.
+
+endif # IDPF
diff --git a/drivers/net/ethernet/intel/idpf/Makefile b/drivers/net/ethernet/intel/idpf/Makefile
index 6844ead2f3ac..2ce01a0b5898 100644
--- a/drivers/net/ethernet/intel/idpf/Makefile
+++ b/drivers/net/ethernet/intel/idpf/Makefile
@@ -12,7 +12,8 @@ idpf-y := \
idpf_ethtool.o \
idpf_lib.o \
idpf_main.o \
- idpf_singleq_txrx.o \
idpf_txrx.o \
idpf_virtchnl.o \
idpf_vf_dev.o
+
+idpf-$(CONFIG_IDPF_SINGLEQ) += idpf_singleq_txrx.o
diff --git a/drivers/net/ethernet/intel/idpf/idpf.h b/drivers/net/ethernet/intel/idpf/idpf.h
index e7a036538246..2c31ad87587a 100644
--- a/drivers/net/ethernet/intel/idpf/idpf.h
+++ b/drivers/net/ethernet/intel/idpf/idpf.h
@@ -17,10 +17,8 @@ struct idpf_vport_max_q;
#include <linux/sctp.h>
#include <linux/ethtool_netlink.h>
#include <net/gro.h>
-#include <linux/dim.h>
#include "virtchnl2.h"
-#include "idpf_lan_txrx.h"
#include "idpf_txrx.h"
#include "idpf_controlq.h"
@@ -266,7 +264,6 @@ struct idpf_port_stats {
* the worst case.
* @num_bufqs_per_qgrp: Buffer queues per RX queue in a given grouping
* @bufq_desc_count: Buffer queue descriptor count
- * @bufq_size: Size of buffers in ring (e.g. 2K, 4K, etc)
* @num_rxq_grp: Number of RX queues in a group
* @rxq_grps: Total number of RX groups. Number of groups * number of RX per
* group will yield total number of RX queues.
@@ -302,7 +299,7 @@ struct idpf_vport {
u16 num_txq_grp;
struct idpf_txq_group *txq_grps;
u32 txq_model;
- struct idpf_queue **txqs;
+ struct idpf_tx_queue **txqs;
bool crc_enable;
u16 num_rxq;
@@ -310,11 +307,10 @@ struct idpf_vport {
u32 rxq_desc_count;
u8 num_bufqs_per_qgrp;
u32 bufq_desc_count[IDPF_MAX_BUFQS_PER_RXQ_GRP];
- u32 bufq_size[IDPF_MAX_BUFQS_PER_RXQ_GRP];
u16 num_rxq_grp;
struct idpf_rxq_group *rxq_grps;
u32 rxq_model;
- struct idpf_rx_ptype_decoded rx_ptype_lkup[IDPF_RX_MAX_PTYPE];
+ struct libeth_rx_pt *rx_ptype_lkup;
struct idpf_adapter *adapter;
struct net_device *netdev;
@@ -601,7 +597,8 @@ struct idpf_adapter {
*/
static inline int idpf_is_queue_model_split(u16 q_model)
{
- return q_model == VIRTCHNL2_QUEUE_MODEL_SPLIT;
+ return !IS_ENABLED(CONFIG_IDPF_SINGLEQ) ||
+ q_model == VIRTCHNL2_QUEUE_MODEL_SPLIT;
}
#define idpf_is_cap_ena(adapter, field, flag) \
diff --git a/drivers/net/ethernet/intel/idpf/idpf_ethtool.c b/drivers/net/ethernet/intel/idpf/idpf_ethtool.c
index 1885ba618981..3806ddd3ce4a 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_ethtool.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_ethtool.c
@@ -437,22 +437,24 @@ struct idpf_stats {
.stat_offset = offsetof(_type, _stat) \
}
-/* Helper macro for defining some statistics related to queues */
-#define IDPF_QUEUE_STAT(_name, _stat) \
- IDPF_STAT(struct idpf_queue, _name, _stat)
+/* Helper macros for defining some statistics related to queues */
+#define IDPF_RX_QUEUE_STAT(_name, _stat) \
+ IDPF_STAT(struct idpf_rx_queue, _name, _stat)
+#define IDPF_TX_QUEUE_STAT(_name, _stat) \
+ IDPF_STAT(struct idpf_tx_queue, _name, _stat)
/* Stats associated with a Tx queue */
static const struct idpf_stats idpf_gstrings_tx_queue_stats[] = {
- IDPF_QUEUE_STAT("pkts", q_stats.tx.packets),
- IDPF_QUEUE_STAT("bytes", q_stats.tx.bytes),
- IDPF_QUEUE_STAT("lso_pkts", q_stats.tx.lso_pkts),
+ IDPF_TX_QUEUE_STAT("pkts", q_stats.packets),
+ IDPF_TX_QUEUE_STAT("bytes", q_stats.bytes),
+ IDPF_TX_QUEUE_STAT("lso_pkts", q_stats.lso_pkts),
};
/* Stats associated with an Rx queue */
static const struct idpf_stats idpf_gstrings_rx_queue_stats[] = {
- IDPF_QUEUE_STAT("pkts", q_stats.rx.packets),
- IDPF_QUEUE_STAT("bytes", q_stats.rx.bytes),
- IDPF_QUEUE_STAT("rx_gro_hw_pkts", q_stats.rx.rsc_pkts),
+ IDPF_RX_QUEUE_STAT("pkts", q_stats.packets),
+ IDPF_RX_QUEUE_STAT("bytes", q_stats.bytes),
+ IDPF_RX_QUEUE_STAT("rx_gro_hw_pkts", q_stats.rsc_pkts),
};
#define IDPF_TX_QUEUE_STATS_LEN ARRAY_SIZE(idpf_gstrings_tx_queue_stats)
@@ -563,8 +565,6 @@ static void idpf_get_stat_strings(struct net_device *netdev, u8 *data)
for (i = 0; i < vport_config->max_q.max_rxq; i++)
idpf_add_qstat_strings(&data, idpf_gstrings_rx_queue_stats,
"rx", i);
-
- page_pool_ethtool_stats_get_strings(data);
}
/**
@@ -598,7 +598,6 @@ static int idpf_get_sset_count(struct net_device *netdev, int sset)
struct idpf_netdev_priv *np = netdev_priv(netdev);
struct idpf_vport_config *vport_config;
u16 max_txq, max_rxq;
- unsigned int size;
if (sset != ETH_SS_STATS)
return -EINVAL;
@@ -617,11 +616,8 @@ static int idpf_get_sset_count(struct net_device *netdev, int sset)
max_txq = vport_config->max_q.max_txq;
max_rxq = vport_config->max_q.max_rxq;
- size = IDPF_PORT_STATS_LEN + (IDPF_TX_QUEUE_STATS_LEN * max_txq) +
+ return IDPF_PORT_STATS_LEN + (IDPF_TX_QUEUE_STATS_LEN * max_txq) +
(IDPF_RX_QUEUE_STATS_LEN * max_rxq);
- size += page_pool_ethtool_stats_get_count();
-
- return size;
}
/**
@@ -633,7 +629,7 @@ static int idpf_get_sset_count(struct net_device *netdev, int sset)
* Copies the stat data defined by the pointer and stat structure pair into
* the memory supplied as data. If the pointer is null, data will be zero'd.
*/
-static void idpf_add_one_ethtool_stat(u64 *data, void *pstat,
+static void idpf_add_one_ethtool_stat(u64 *data, const void *pstat,
const struct idpf_stats *stat)
{
char *p;
@@ -671,6 +667,7 @@ static void idpf_add_one_ethtool_stat(u64 *data, void *pstat,
* idpf_add_queue_stats - copy queue statistics into supplied buffer
* @data: ethtool stats buffer
* @q: the queue to copy
+ * @type: type of the queue
*
* Queue statistics must be copied while protected by u64_stats_fetch_begin,
* so we can't directly use idpf_add_ethtool_stats. Assumes that queue stats
@@ -681,19 +678,23 @@ static void idpf_add_one_ethtool_stat(u64 *data, void *pstat,
*
* This function expects to be called while under rcu_read_lock().
*/
-static void idpf_add_queue_stats(u64 **data, struct idpf_queue *q)
+static void idpf_add_queue_stats(u64 **data, const void *q,
+ enum virtchnl2_queue_type type)
{
+ const struct u64_stats_sync *stats_sync;
const struct idpf_stats *stats;
unsigned int start;
unsigned int size;
unsigned int i;
- if (q->q_type == VIRTCHNL2_QUEUE_TYPE_RX) {
+ if (type == VIRTCHNL2_QUEUE_TYPE_RX) {
size = IDPF_RX_QUEUE_STATS_LEN;
stats = idpf_gstrings_rx_queue_stats;
+ stats_sync = &((const struct idpf_rx_queue *)q)->stats_sync;
} else {
size = IDPF_TX_QUEUE_STATS_LEN;
stats = idpf_gstrings_tx_queue_stats;
+ stats_sync = &((const struct idpf_tx_queue *)q)->stats_sync;
}
/* To avoid invalid statistics values, ensure that we keep retrying
@@ -701,10 +702,10 @@ static void idpf_add_queue_stats(u64 **data, struct idpf_queue *q)
* u64_stats_fetch_retry.
*/
do {
- start = u64_stats_fetch_begin(&q->stats_sync);
+ start = u64_stats_fetch_begin(stats_sync);
for (i = 0; i < size; i++)
idpf_add_one_ethtool_stat(&(*data)[i], q, &stats[i]);
- } while (u64_stats_fetch_retry(&q->stats_sync, start));
+ } while (u64_stats_fetch_retry(stats_sync, start));
/* Once we successfully copy the stats in, update the data pointer */
*data += size;
@@ -793,7 +794,7 @@ static void idpf_collect_queue_stats(struct idpf_vport *vport)
for (j = 0; j < num_rxq; j++) {
u64 hw_csum_err, hsplit, hsplit_hbo, bad_descs;
struct idpf_rx_queue_stats *stats;
- struct idpf_queue *rxq;
+ struct idpf_rx_queue *rxq;
unsigned int start;
if (idpf_is_queue_model_split(vport->rxq_model))
@@ -807,7 +808,7 @@ static void idpf_collect_queue_stats(struct idpf_vport *vport)
do {
start = u64_stats_fetch_begin(&rxq->stats_sync);
- stats = &rxq->q_stats.rx;
+ stats = &rxq->q_stats;
hw_csum_err = u64_stats_read(&stats->hw_csum_err);
hsplit = u64_stats_read(&stats->hsplit_pkts);
hsplit_hbo = u64_stats_read(&stats->hsplit_buf_ovf);
@@ -828,7 +829,7 @@ static void idpf_collect_queue_stats(struct idpf_vport *vport)
for (j = 0; j < txq_grp->num_txq; j++) {
u64 linearize, qbusy, skb_drops, dma_map_errs;
- struct idpf_queue *txq = txq_grp->txqs[j];
+ struct idpf_tx_queue *txq = txq_grp->txqs[j];
struct idpf_tx_queue_stats *stats;
unsigned int start;
@@ -838,7 +839,7 @@ static void idpf_collect_queue_stats(struct idpf_vport *vport)
do {
start = u64_stats_fetch_begin(&txq->stats_sync);
- stats = &txq->q_stats.tx;
+ stats = &txq->q_stats;
linearize = u64_stats_read(&stats->linearize);
qbusy = u64_stats_read(&stats->q_busy);
skb_drops = u64_stats_read(&stats->skb_drops);
@@ -869,7 +870,6 @@ static void idpf_get_ethtool_stats(struct net_device *netdev,
{
struct idpf_netdev_priv *np = netdev_priv(netdev);
struct idpf_vport_config *vport_config;
- struct page_pool_stats pp_stats = { };
struct idpf_vport *vport;
unsigned int total = 0;
unsigned int i, j;
@@ -896,12 +896,12 @@ static void idpf_get_ethtool_stats(struct net_device *netdev,
qtype = VIRTCHNL2_QUEUE_TYPE_TX;
for (j = 0; j < txq_grp->num_txq; j++, total++) {
- struct idpf_queue *txq = txq_grp->txqs[j];
+ struct idpf_tx_queue *txq = txq_grp->txqs[j];
if (!txq)
idpf_add_empty_queue_stats(&data, qtype);
else
- idpf_add_queue_stats(&data, txq);
+ idpf_add_queue_stats(&data, txq, qtype);
}
}
@@ -929,7 +929,7 @@ static void idpf_get_ethtool_stats(struct net_device *netdev,
num_rxq = rxq_grp->singleq.num_rxq;
for (j = 0; j < num_rxq; j++, total++) {
- struct idpf_queue *rxq;
+ struct idpf_rx_queue *rxq;
if (is_splitq)
rxq = &rxq_grp->splitq.rxq_sets[j]->rxq;
@@ -938,93 +938,77 @@ static void idpf_get_ethtool_stats(struct net_device *netdev,
if (!rxq)
idpf_add_empty_queue_stats(&data, qtype);
else
- idpf_add_queue_stats(&data, rxq);
-
- /* In splitq mode, don't get page pool stats here since
- * the pools are attached to the buffer queues
- */
- if (is_splitq)
- continue;
-
- if (rxq)
- page_pool_get_stats(rxq->pp, &pp_stats);
- }
- }
-
- for (i = 0; i < vport->num_rxq_grp; i++) {
- for (j = 0; j < vport->num_bufqs_per_qgrp; j++) {
- struct idpf_queue *rxbufq =
- &vport->rxq_grps[i].splitq.bufq_sets[j].bufq;
-
- page_pool_get_stats(rxbufq->pp, &pp_stats);
+ idpf_add_queue_stats(&data, rxq, qtype);
}
}
for (; total < vport_config->max_q.max_rxq; total++)
idpf_add_empty_queue_stats(&data, VIRTCHNL2_QUEUE_TYPE_RX);
- page_pool_ethtool_stats_get(data, &pp_stats);
-
rcu_read_unlock();
idpf_vport_ctrl_unlock(netdev);
}
/**
- * idpf_find_rxq - find rxq from q index
+ * idpf_find_rxq_vec - find rxq vector from q index
* @vport: virtual port associated to queue
* @q_num: q index used to find queue
*
- * returns pointer to rx queue
+ * returns pointer to rx vector
*/
-static struct idpf_queue *idpf_find_rxq(struct idpf_vport *vport, int q_num)
+static struct idpf_q_vector *idpf_find_rxq_vec(const struct idpf_vport *vport,
+ int q_num)
{
int q_grp, q_idx;
if (!idpf_is_queue_model_split(vport->rxq_model))
- return vport->rxq_grps->singleq.rxqs[q_num];
+ return vport->rxq_grps->singleq.rxqs[q_num]->q_vector;
q_grp = q_num / IDPF_DFLT_SPLITQ_RXQ_PER_GROUP;
q_idx = q_num % IDPF_DFLT_SPLITQ_RXQ_PER_GROUP;
- return &vport->rxq_grps[q_grp].splitq.rxq_sets[q_idx]->rxq;
+ return vport->rxq_grps[q_grp].splitq.rxq_sets[q_idx]->rxq.q_vector;
}
/**
- * idpf_find_txq - find txq from q index
+ * idpf_find_txq_vec - find txq vector from q index
* @vport: virtual port associated to queue
* @q_num: q index used to find queue
*
- * returns pointer to tx queue
+ * returns pointer to tx vector
*/
-static struct idpf_queue *idpf_find_txq(struct idpf_vport *vport, int q_num)
+static struct idpf_q_vector *idpf_find_txq_vec(const struct idpf_vport *vport,
+ int q_num)
{
int q_grp;
if (!idpf_is_queue_model_split(vport->txq_model))
- return vport->txqs[q_num];
+ return vport->txqs[q_num]->q_vector;
q_grp = q_num / IDPF_DFLT_SPLITQ_TXQ_PER_GROUP;
- return vport->txq_grps[q_grp].complq;
+ return vport->txq_grps[q_grp].complq->q_vector;
}
/**
* __idpf_get_q_coalesce - get ITR values for specific queue
* @ec: ethtool structure to fill with driver's coalesce settings
- * @q: quuee of Rx or Tx
+ * @q_vector: queue vector corresponding to this queue
+ * @type: queue type
*/
static void __idpf_get_q_coalesce(struct ethtool_coalesce *ec,
- struct idpf_queue *q)
+ const struct idpf_q_vector *q_vector,
+ enum virtchnl2_queue_type type)
{
- if (q->q_type == VIRTCHNL2_QUEUE_TYPE_RX) {
+ if (type == VIRTCHNL2_QUEUE_TYPE_RX) {
ec->use_adaptive_rx_coalesce =
- IDPF_ITR_IS_DYNAMIC(q->q_vector->rx_intr_mode);
- ec->rx_coalesce_usecs = q->q_vector->rx_itr_value;
+ IDPF_ITR_IS_DYNAMIC(q_vector->rx_intr_mode);
+ ec->rx_coalesce_usecs = q_vector->rx_itr_value;
} else {
ec->use_adaptive_tx_coalesce =
- IDPF_ITR_IS_DYNAMIC(q->q_vector->tx_intr_mode);
- ec->tx_coalesce_usecs = q->q_vector->tx_itr_value;
+ IDPF_ITR_IS_DYNAMIC(q_vector->tx_intr_mode);
+ ec->tx_coalesce_usecs = q_vector->tx_itr_value;
}
}
@@ -1040,8 +1024,8 @@ static int idpf_get_q_coalesce(struct net_device *netdev,
struct ethtool_coalesce *ec,
u32 q_num)
{
- struct idpf_netdev_priv *np = netdev_priv(netdev);
- struct idpf_vport *vport;
+ const struct idpf_netdev_priv *np = netdev_priv(netdev);
+ const struct idpf_vport *vport;
int err = 0;
idpf_vport_ctrl_lock(netdev);
@@ -1056,10 +1040,12 @@ static int idpf_get_q_coalesce(struct net_device *netdev,
}
if (q_num < vport->num_rxq)
- __idpf_get_q_coalesce(ec, idpf_find_rxq(vport, q_num));
+ __idpf_get_q_coalesce(ec, idpf_find_rxq_vec(vport, q_num),
+ VIRTCHNL2_QUEUE_TYPE_RX);
if (q_num < vport->num_txq)
- __idpf_get_q_coalesce(ec, idpf_find_txq(vport, q_num));
+ __idpf_get_q_coalesce(ec, idpf_find_txq_vec(vport, q_num),
+ VIRTCHNL2_QUEUE_TYPE_TX);
unlock_mutex:
idpf_vport_ctrl_unlock(netdev);
@@ -1103,16 +1089,15 @@ static int idpf_get_per_q_coalesce(struct net_device *netdev, u32 q_num,
/**
* __idpf_set_q_coalesce - set ITR values for specific queue
* @ec: ethtool structure from user to update ITR settings
- * @q: queue for which itr values has to be set
+ * @qv: queue vector for which itr values has to be set
* @is_rxq: is queue type rx
*
* Returns 0 on success, negative otherwise.
*/
-static int __idpf_set_q_coalesce(struct ethtool_coalesce *ec,
- struct idpf_queue *q, bool is_rxq)
+static int __idpf_set_q_coalesce(const struct ethtool_coalesce *ec,
+ struct idpf_q_vector *qv, bool is_rxq)
{
u32 use_adaptive_coalesce, coalesce_usecs;
- struct idpf_q_vector *qv = q->q_vector;
bool is_dim_ena = false;
u16 itr_val;
@@ -1128,7 +1113,7 @@ static int __idpf_set_q_coalesce(struct ethtool_coalesce *ec,
itr_val = qv->tx_itr_value;
}
if (coalesce_usecs != itr_val && use_adaptive_coalesce) {
- netdev_err(q->vport->netdev, "Cannot set coalesce usecs if adaptive enabled\n");
+ netdev_err(qv->vport->netdev, "Cannot set coalesce usecs if adaptive enabled\n");
return -EINVAL;
}
@@ -1137,7 +1122,7 @@ static int __idpf_set_q_coalesce(struct ethtool_coalesce *ec,
return 0;
if (coalesce_usecs > IDPF_ITR_MAX) {
- netdev_err(q->vport->netdev,
+ netdev_err(qv->vport->netdev,
"Invalid value, %d-usecs range is 0-%d\n",
coalesce_usecs, IDPF_ITR_MAX);
@@ -1146,7 +1131,7 @@ static int __idpf_set_q_coalesce(struct ethtool_coalesce *ec,
if (coalesce_usecs % 2) {
coalesce_usecs--;
- netdev_info(q->vport->netdev,
+ netdev_info(qv->vport->netdev,
"HW only supports even ITR values, ITR rounded to %d\n",
coalesce_usecs);
}
@@ -1185,15 +1170,16 @@ static int __idpf_set_q_coalesce(struct ethtool_coalesce *ec,
*
* Return 0 on success, and negative on failure
*/
-static int idpf_set_q_coalesce(struct idpf_vport *vport,
- struct ethtool_coalesce *ec,
+static int idpf_set_q_coalesce(const struct idpf_vport *vport,
+ const struct ethtool_coalesce *ec,
int q_num, bool is_rxq)
{
- struct idpf_queue *q;
+ struct idpf_q_vector *qv;
- q = is_rxq ? idpf_find_rxq(vport, q_num) : idpf_find_txq(vport, q_num);
+ qv = is_rxq ? idpf_find_rxq_vec(vport, q_num) :
+ idpf_find_txq_vec(vport, q_num);
- if (q && __idpf_set_q_coalesce(ec, q, is_rxq))
+ if (qv && __idpf_set_q_coalesce(ec, qv, is_rxq))
return -EINVAL;
return 0;
diff --git a/drivers/net/ethernet/intel/idpf/idpf_lan_txrx.h b/drivers/net/ethernet/intel/idpf/idpf_lan_txrx.h
index a5752dcab888..8c7f8ef8f1a1 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_lan_txrx.h
+++ b/drivers/net/ethernet/intel/idpf/idpf_lan_txrx.h
@@ -4,6 +4,8 @@
#ifndef _IDPF_LAN_TXRX_H_
#define _IDPF_LAN_TXRX_H_
+#include <linux/bits.h>
+
enum idpf_rss_hash {
IDPF_HASH_INVALID = 0,
/* Values 1 - 28 are reserved for future use */
diff --git a/drivers/net/ethernet/intel/idpf/idpf_lib.c b/drivers/net/ethernet/intel/idpf/idpf_lib.c
index f1ee5584e8fa..5dbf2b4ba1b0 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_lib.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_lib.c
@@ -4,8 +4,7 @@
#include "idpf.h"
#include "idpf_virtchnl.h"
-static const struct net_device_ops idpf_netdev_ops_splitq;
-static const struct net_device_ops idpf_netdev_ops_singleq;
+static const struct net_device_ops idpf_netdev_ops;
/**
* idpf_init_vector_stack - Fill the MSIX vector stack with vector index
@@ -69,7 +68,7 @@ static void idpf_deinit_vector_stack(struct idpf_adapter *adapter)
static void idpf_mb_intr_rel_irq(struct idpf_adapter *adapter)
{
clear_bit(IDPF_MB_INTR_MODE, adapter->flags);
- free_irq(adapter->msix_entries[0].vector, adapter);
+ kfree(free_irq(adapter->msix_entries[0].vector, adapter));
queue_delayed_work(adapter->mbx_wq, &adapter->mbx_task, 0);
}
@@ -124,15 +123,14 @@ static void idpf_mb_irq_enable(struct idpf_adapter *adapter)
*/
static int idpf_mb_intr_req_irq(struct idpf_adapter *adapter)
{
- struct idpf_q_vector *mb_vector = &adapter->mb_vector;
int irq_num, mb_vidx = 0, err;
+ char *name;
irq_num = adapter->msix_entries[mb_vidx].vector;
- mb_vector->name = kasprintf(GFP_KERNEL, "%s-%s-%d",
- dev_driver_string(&adapter->pdev->dev),
- "Mailbox", mb_vidx);
- err = request_irq(irq_num, adapter->irq_mb_handler, 0,
- mb_vector->name, adapter);
+ name = kasprintf(GFP_KERNEL, "%s-%s-%d",
+ dev_driver_string(&adapter->pdev->dev),
+ "Mailbox", mb_vidx);
+ err = request_irq(irq_num, adapter->irq_mb_handler, 0, name, adapter);
if (err) {
dev_err(&adapter->pdev->dev,
"IRQ request for mailbox failed, error: %d\n", err);
@@ -765,10 +763,7 @@ static int idpf_cfg_netdev(struct idpf_vport *vport)
}
/* assign netdev_ops */
- if (idpf_is_queue_model_split(vport->txq_model))
- netdev->netdev_ops = &idpf_netdev_ops_splitq;
- else
- netdev->netdev_ops = &idpf_netdev_ops_singleq;
+ netdev->netdev_ops = &idpf_netdev_ops;
/* setup watchdog timeout value to be 5 second */
netdev->watchdog_timeo = 5 * HZ;
@@ -946,6 +941,9 @@ static void idpf_decfg_netdev(struct idpf_vport *vport)
{
struct idpf_adapter *adapter = vport->adapter;
+ kfree(vport->rx_ptype_lkup);
+ vport->rx_ptype_lkup = NULL;
+
unregister_netdev(vport->netdev);
free_netdev(vport->netdev);
vport->netdev = NULL;
@@ -1318,14 +1316,14 @@ static void idpf_rx_init_buf_tail(struct idpf_vport *vport)
if (idpf_is_queue_model_split(vport->rxq_model)) {
for (j = 0; j < vport->num_bufqs_per_qgrp; j++) {
- struct idpf_queue *q =
+ const struct idpf_buf_queue *q =
&grp->splitq.bufq_sets[j].bufq;
writel(q->next_to_alloc, q->tail);
}
} else {
for (j = 0; j < grp->singleq.num_rxq; j++) {
- struct idpf_queue *q =
+ const struct idpf_rx_queue *q =
grp->singleq.rxqs[j];
writel(q->next_to_alloc, q->tail);
@@ -1855,7 +1853,7 @@ int idpf_initiate_soft_reset(struct idpf_vport *vport,
enum idpf_vport_state current_state = np->state;
struct idpf_adapter *adapter = vport->adapter;
struct idpf_vport *new_vport;
- int err, i;
+ int err;
/* If the system is low on memory, we can end up in bad state if we
* free all the memory for queue resources and try to allocate them
@@ -1929,46 +1927,6 @@ int idpf_initiate_soft_reset(struct idpf_vport *vport,
*/
memcpy(vport, new_vport, offsetof(struct idpf_vport, link_speed_mbps));
- /* Since idpf_vport_queues_alloc was called with new_port, the queue
- * back pointers are currently pointing to the local new_vport. Reset
- * the backpointers to the original vport here
- */
- for (i = 0; i < vport->num_txq_grp; i++) {
- struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
- int j;
-
- tx_qgrp->vport = vport;
- for (j = 0; j < tx_qgrp->num_txq; j++)
- tx_qgrp->txqs[j]->vport = vport;
-
- if (idpf_is_queue_model_split(vport->txq_model))
- tx_qgrp->complq->vport = vport;
- }
-
- for (i = 0; i < vport->num_rxq_grp; i++) {
- struct idpf_rxq_group *rx_qgrp = &vport->rxq_grps[i];
- struct idpf_queue *q;
- u16 num_rxq;
- int j;
-
- rx_qgrp->vport = vport;
- for (j = 0; j < vport->num_bufqs_per_qgrp; j++)
- rx_qgrp->splitq.bufq_sets[j].bufq.vport = vport;
-
- if (idpf_is_queue_model_split(vport->rxq_model))
- num_rxq = rx_qgrp->splitq.num_rxq_sets;
- else
- num_rxq = rx_qgrp->singleq.num_rxq;
-
- for (j = 0; j < num_rxq; j++) {
- if (idpf_is_queue_model_split(vport->rxq_model))
- q = &rx_qgrp->splitq.rxq_sets[j]->rxq;
- else
- q = rx_qgrp->singleq.rxqs[j];
- q->vport = vport;
- }
- }
-
if (reset_cause == IDPF_SR_Q_CHANGE)
idpf_vport_alloc_vec_indexes(vport);
@@ -2393,24 +2351,10 @@ void idpf_free_dma_mem(struct idpf_hw *hw, struct idpf_dma_mem *mem)
mem->pa = 0;
}
-static const struct net_device_ops idpf_netdev_ops_splitq = {
- .ndo_open = idpf_open,
- .ndo_stop = idpf_stop,
- .ndo_start_xmit = idpf_tx_splitq_start,
- .ndo_features_check = idpf_features_check,
- .ndo_set_rx_mode = idpf_set_rx_mode,
- .ndo_validate_addr = eth_validate_addr,
- .ndo_set_mac_address = idpf_set_mac,
- .ndo_change_mtu = idpf_change_mtu,
- .ndo_get_stats64 = idpf_get_stats64,
- .ndo_set_features = idpf_set_features,
- .ndo_tx_timeout = idpf_tx_timeout,
-};
-
-static const struct net_device_ops idpf_netdev_ops_singleq = {
+static const struct net_device_ops idpf_netdev_ops = {
.ndo_open = idpf_open,
.ndo_stop = idpf_stop,
- .ndo_start_xmit = idpf_tx_singleq_start,
+ .ndo_start_xmit = idpf_tx_start,
.ndo_features_check = idpf_features_check,
.ndo_set_rx_mode = idpf_set_rx_mode,
.ndo_validate_addr = eth_validate_addr,
diff --git a/drivers/net/ethernet/intel/idpf/idpf_main.c b/drivers/net/ethernet/intel/idpf/idpf_main.c
index f784eea044bd..db476b3314c8 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_main.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_main.c
@@ -8,6 +8,7 @@
#define DRV_SUMMARY "Intel(R) Infrastructure Data Path Function Linux Driver"
MODULE_DESCRIPTION(DRV_SUMMARY);
+MODULE_IMPORT_NS(LIBETH);
MODULE_LICENSE("GPL");
/**
diff --git a/drivers/net/ethernet/intel/idpf/idpf_singleq_txrx.c b/drivers/net/ethernet/intel/idpf/idpf_singleq_txrx.c
index 27b93592c4ba..fe64febf7436 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_singleq_txrx.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_singleq_txrx.c
@@ -1,6 +1,8 @@
// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (C) 2023 Intel Corporation */
+#include <net/libeth/rx.h>
+
#include "idpf.h"
/**
@@ -186,7 +188,7 @@ static int idpf_tx_singleq_csum(struct sk_buff *skb,
* and gets a physical address for each memory location and programs
* it and the length into the transmit base mode descriptor.
*/
-static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
+static void idpf_tx_singleq_map(struct idpf_tx_queue *tx_q,
struct idpf_tx_buf *first,
struct idpf_tx_offload_params *offloads)
{
@@ -205,12 +207,12 @@ static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
data_len = skb->data_len;
size = skb_headlen(skb);
- tx_desc = IDPF_BASE_TX_DESC(tx_q, i);
+ tx_desc = &tx_q->base_tx[i];
dma = dma_map_single(tx_q->dev, skb->data, size, DMA_TO_DEVICE);
/* write each descriptor with CRC bit */
- if (tx_q->vport->crc_enable)
+ if (idpf_queue_has(CRC_EN, tx_q))
td_cmd |= IDPF_TX_DESC_CMD_ICRC;
for (frag = &skb_shinfo(skb)->frags[0];; frag++) {
@@ -239,7 +241,7 @@ static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
i++;
if (i == tx_q->desc_count) {
- tx_desc = IDPF_BASE_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->base_tx[0];
i = 0;
}
@@ -259,7 +261,7 @@ static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
i++;
if (i == tx_q->desc_count) {
- tx_desc = IDPF_BASE_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->base_tx[0];
i = 0;
}
@@ -285,7 +287,7 @@ static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
/* set next_to_watch value indicating a packet is present */
first->next_to_watch = tx_desc;
- nq = netdev_get_tx_queue(tx_q->vport->netdev, tx_q->idx);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
netdev_tx_sent_queue(nq, first->bytecount);
idpf_tx_buf_hw_update(tx_q, i, netdev_xmit_more());
@@ -299,7 +301,7 @@ static void idpf_tx_singleq_map(struct idpf_queue *tx_q,
* ring entry to reflect that this index is a context descriptor
*/
static struct idpf_base_tx_ctx_desc *
-idpf_tx_singleq_get_ctx_desc(struct idpf_queue *txq)
+idpf_tx_singleq_get_ctx_desc(struct idpf_tx_queue *txq)
{
struct idpf_base_tx_ctx_desc *ctx_desc;
int ntu = txq->next_to_use;
@@ -307,7 +309,7 @@ idpf_tx_singleq_get_ctx_desc(struct idpf_queue *txq)
memset(&txq->tx_buf[ntu], 0, sizeof(struct idpf_tx_buf));
txq->tx_buf[ntu].ctx_entry = true;
- ctx_desc = IDPF_BASE_TX_CTX_DESC(txq, ntu);
+ ctx_desc = &txq->base_ctx[ntu];
IDPF_SINGLEQ_BUMP_RING_IDX(txq, ntu);
txq->next_to_use = ntu;
@@ -320,7 +322,7 @@ idpf_tx_singleq_get_ctx_desc(struct idpf_queue *txq)
* @txq: queue to send buffer on
* @offload: offload parameter structure
**/
-static void idpf_tx_singleq_build_ctx_desc(struct idpf_queue *txq,
+static void idpf_tx_singleq_build_ctx_desc(struct idpf_tx_queue *txq,
struct idpf_tx_offload_params *offload)
{
struct idpf_base_tx_ctx_desc *desc = idpf_tx_singleq_get_ctx_desc(txq);
@@ -333,7 +335,7 @@ static void idpf_tx_singleq_build_ctx_desc(struct idpf_queue *txq,
qw1 |= FIELD_PREP(IDPF_TXD_CTX_QW1_MSS_M, offload->mss);
u64_stats_update_begin(&txq->stats_sync);
- u64_stats_inc(&txq->q_stats.tx.lso_pkts);
+ u64_stats_inc(&txq->q_stats.lso_pkts);
u64_stats_update_end(&txq->stats_sync);
}
@@ -351,8 +353,8 @@ static void idpf_tx_singleq_build_ctx_desc(struct idpf_queue *txq,
*
* Returns NETDEV_TX_OK if sent, else an error code
*/
-static netdev_tx_t idpf_tx_singleq_frame(struct sk_buff *skb,
- struct idpf_queue *tx_q)
+netdev_tx_t idpf_tx_singleq_frame(struct sk_buff *skb,
+ struct idpf_tx_queue *tx_q)
{
struct idpf_tx_offload_params offload = { };
struct idpf_tx_buf *first;
@@ -409,53 +411,25 @@ out_drop:
}
/**
- * idpf_tx_singleq_start - Selects the right Tx queue to send buffer
- * @skb: send buffer
- * @netdev: network interface device structure
- *
- * Returns NETDEV_TX_OK if sent, else an error code
- */
-netdev_tx_t idpf_tx_singleq_start(struct sk_buff *skb,
- struct net_device *netdev)
-{
- struct idpf_vport *vport = idpf_netdev_to_vport(netdev);
- struct idpf_queue *tx_q;
-
- tx_q = vport->txqs[skb_get_queue_mapping(skb)];
-
- /* hardware can't handle really short frames, hardware padding works
- * beyond this point
- */
- if (skb_put_padto(skb, IDPF_TX_MIN_PKT_LEN)) {
- idpf_tx_buf_hw_update(tx_q, tx_q->next_to_use, false);
-
- return NETDEV_TX_OK;
- }
-
- return idpf_tx_singleq_frame(skb, tx_q);
-}
-
-/**
* idpf_tx_singleq_clean - Reclaim resources from queue
* @tx_q: Tx queue to clean
* @napi_budget: Used to determine if we are in netpoll
* @cleaned: returns number of packets cleaned
*
*/
-static bool idpf_tx_singleq_clean(struct idpf_queue *tx_q, int napi_budget,
+static bool idpf_tx_singleq_clean(struct idpf_tx_queue *tx_q, int napi_budget,
int *cleaned)
{
- unsigned int budget = tx_q->vport->compln_clean_budget;
unsigned int total_bytes = 0, total_pkts = 0;
struct idpf_base_tx_desc *tx_desc;
+ u32 budget = tx_q->clean_budget;
s16 ntc = tx_q->next_to_clean;
struct idpf_netdev_priv *np;
struct idpf_tx_buf *tx_buf;
- struct idpf_vport *vport;
struct netdev_queue *nq;
bool dont_wake;
- tx_desc = IDPF_BASE_TX_DESC(tx_q, ntc);
+ tx_desc = &tx_q->base_tx[ntc];
tx_buf = &tx_q->tx_buf[ntc];
ntc -= tx_q->desc_count;
@@ -517,7 +491,7 @@ static bool idpf_tx_singleq_clean(struct idpf_queue *tx_q, int napi_budget,
if (unlikely(!ntc)) {
ntc -= tx_q->desc_count;
tx_buf = tx_q->tx_buf;
- tx_desc = IDPF_BASE_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->base_tx[0];
}
/* unmap any remaining paged data */
@@ -540,7 +514,7 @@ fetch_next_txq_desc:
if (unlikely(!ntc)) {
ntc -= tx_q->desc_count;
tx_buf = tx_q->tx_buf;
- tx_desc = IDPF_BASE_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->base_tx[0];
}
} while (likely(budget));
@@ -550,16 +524,15 @@ fetch_next_txq_desc:
*cleaned += total_pkts;
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_add(&tx_q->q_stats.tx.packets, total_pkts);
- u64_stats_add(&tx_q->q_stats.tx.bytes, total_bytes);
+ u64_stats_add(&tx_q->q_stats.packets, total_pkts);
+ u64_stats_add(&tx_q->q_stats.bytes, total_bytes);
u64_stats_update_end(&tx_q->stats_sync);
- vport = tx_q->vport;
- np = netdev_priv(vport->netdev);
- nq = netdev_get_tx_queue(vport->netdev, tx_q->idx);
+ np = netdev_priv(tx_q->netdev);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
dont_wake = np->state != __IDPF_VPORT_UP ||
- !netif_carrier_ok(vport->netdev);
+ !netif_carrier_ok(tx_q->netdev);
__netif_txq_completed_wake(nq, total_pkts, total_bytes,
IDPF_DESC_UNUSED(tx_q), IDPF_TX_WAKE_THRESH,
dont_wake);
@@ -584,7 +557,7 @@ static bool idpf_tx_singleq_clean_all(struct idpf_q_vector *q_vec, int budget,
budget_per_q = num_txq ? max(budget / num_txq, 1) : 0;
for (i = 0; i < num_txq; i++) {
- struct idpf_queue *q;
+ struct idpf_tx_queue *q;
q = q_vec->tx[i];
clean_complete &= idpf_tx_singleq_clean(q, budget_per_q,
@@ -614,14 +587,9 @@ static bool idpf_rx_singleq_test_staterr(const union virtchnl2_rx_desc *rx_desc,
/**
* idpf_rx_singleq_is_non_eop - process handling of non-EOP buffers
- * @rxq: Rx ring being processed
* @rx_desc: Rx descriptor for current buffer
- * @skb: Current socket buffer containing buffer in progress
- * @ntc: next to clean
*/
-static bool idpf_rx_singleq_is_non_eop(struct idpf_queue *rxq,
- union virtchnl2_rx_desc *rx_desc,
- struct sk_buff *skb, u16 ntc)
+static bool idpf_rx_singleq_is_non_eop(const union virtchnl2_rx_desc *rx_desc)
{
/* if we are the last buffer then there is nothing else to do */
if (likely(idpf_rx_singleq_test_staterr(rx_desc, IDPF_RXD_EOF_SINGLEQ)))
@@ -635,98 +603,82 @@ static bool idpf_rx_singleq_is_non_eop(struct idpf_queue *rxq,
* @rxq: Rx ring being processed
* @skb: skb currently being received and modified
* @csum_bits: checksum bits from descriptor
- * @ptype: the packet type decoded by hardware
+ * @decoded: the packet type decoded by hardware
*
* skb->protocol must be set before this function is called
*/
-static void idpf_rx_singleq_csum(struct idpf_queue *rxq, struct sk_buff *skb,
- struct idpf_rx_csum_decoded *csum_bits,
- u16 ptype)
+static void idpf_rx_singleq_csum(struct idpf_rx_queue *rxq,
+ struct sk_buff *skb,
+ struct idpf_rx_csum_decoded csum_bits,
+ struct libeth_rx_pt decoded)
{
- struct idpf_rx_ptype_decoded decoded;
bool ipv4, ipv6;
/* check if Rx checksum is enabled */
- if (unlikely(!(rxq->vport->netdev->features & NETIF_F_RXCSUM)))
+ if (!libeth_rx_pt_has_checksum(rxq->netdev, decoded))
return;
/* check if HW has decoded the packet and checksum */
- if (unlikely(!(csum_bits->l3l4p)))
- return;
-
- decoded = rxq->vport->rx_ptype_lkup[ptype];
- if (unlikely(!(decoded.known && decoded.outer_ip)))
+ if (unlikely(!csum_bits.l3l4p))
return;
- ipv4 = IDPF_RX_PTYPE_TO_IPV(&decoded, IDPF_RX_PTYPE_OUTER_IPV4);
- ipv6 = IDPF_RX_PTYPE_TO_IPV(&decoded, IDPF_RX_PTYPE_OUTER_IPV6);
+ ipv4 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV4;
+ ipv6 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV6;
/* Check if there were any checksum errors */
- if (unlikely(ipv4 && (csum_bits->ipe || csum_bits->eipe)))
+ if (unlikely(ipv4 && (csum_bits.ipe || csum_bits.eipe)))
goto checksum_fail;
/* Device could not do any checksum offload for certain extension
* headers as indicated by setting IPV6EXADD bit
*/
- if (unlikely(ipv6 && csum_bits->ipv6exadd))
+ if (unlikely(ipv6 && csum_bits.ipv6exadd))
return;
/* check for L4 errors and handle packets that were not able to be
* checksummed due to arrival speed
*/
- if (unlikely(csum_bits->l4e))
+ if (unlikely(csum_bits.l4e))
goto checksum_fail;
- if (unlikely(csum_bits->nat && csum_bits->eudpe))
+ if (unlikely(csum_bits.nat && csum_bits.eudpe))
goto checksum_fail;
/* Handle packets that were not able to be checksummed due to arrival
* speed, in this case the stack can compute the csum.
*/
- if (unlikely(csum_bits->pprs))
+ if (unlikely(csum_bits.pprs))
return;
/* If there is an outer header present that might contain a checksum
* we need to bump the checksum level by 1 to reflect the fact that
* we are indicating we validated the inner checksum.
*/
- if (decoded.tunnel_type >= IDPF_RX_PTYPE_TUNNEL_IP_GRENAT)
+ if (decoded.tunnel_type >= LIBETH_RX_PT_TUNNEL_IP_GRENAT)
skb->csum_level = 1;
- /* Only report checksum unnecessary for ICMP, TCP, UDP, or SCTP */
- switch (decoded.inner_prot) {
- case IDPF_RX_PTYPE_INNER_PROT_ICMP:
- case IDPF_RX_PTYPE_INNER_PROT_TCP:
- case IDPF_RX_PTYPE_INNER_PROT_UDP:
- case IDPF_RX_PTYPE_INNER_PROT_SCTP:
- skb->ip_summed = CHECKSUM_UNNECESSARY;
- return;
- default:
- return;
- }
+ skb->ip_summed = CHECKSUM_UNNECESSARY;
+ return;
checksum_fail:
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.hw_csum_err);
+ u64_stats_inc(&rxq->q_stats.hw_csum_err);
u64_stats_update_end(&rxq->stats_sync);
}
/**
* idpf_rx_singleq_base_csum - Indicate in skb if hw indicated a good cksum
- * @rx_q: Rx completion queue
- * @skb: skb currently being received and modified
* @rx_desc: the receive descriptor
- * @ptype: Rx packet type
*
* This function only operates on the VIRTCHNL2_RXDID_1_32B_BASE_M base 32byte
* descriptor writeback format.
+ *
+ * Return: parsed checksum status.
**/
-static void idpf_rx_singleq_base_csum(struct idpf_queue *rx_q,
- struct sk_buff *skb,
- union virtchnl2_rx_desc *rx_desc,
- u16 ptype)
+static struct idpf_rx_csum_decoded
+idpf_rx_singleq_base_csum(const union virtchnl2_rx_desc *rx_desc)
{
- struct idpf_rx_csum_decoded csum_bits;
+ struct idpf_rx_csum_decoded csum_bits = { };
u32 rx_error, rx_status;
u64 qword;
@@ -745,28 +697,23 @@ static void idpf_rx_singleq_base_csum(struct idpf_queue *rx_q,
rx_status);
csum_bits.ipv6exadd = FIELD_GET(VIRTCHNL2_RX_BASE_DESC_STATUS_IPV6EXADD_M,
rx_status);
- csum_bits.nat = 0;
- csum_bits.eudpe = 0;
- idpf_rx_singleq_csum(rx_q, skb, &csum_bits, ptype);
+ return csum_bits;
}
/**
* idpf_rx_singleq_flex_csum - Indicate in skb if hw indicated a good cksum
- * @rx_q: Rx completion queue
- * @skb: skb currently being received and modified
* @rx_desc: the receive descriptor
- * @ptype: Rx packet type
*
* This function only operates on the VIRTCHNL2_RXDID_2_FLEX_SQ_NIC flexible
* descriptor writeback format.
+ *
+ * Return: parsed checksum status.
**/
-static void idpf_rx_singleq_flex_csum(struct idpf_queue *rx_q,
- struct sk_buff *skb,
- union virtchnl2_rx_desc *rx_desc,
- u16 ptype)
+static struct idpf_rx_csum_decoded
+idpf_rx_singleq_flex_csum(const union virtchnl2_rx_desc *rx_desc)
{
- struct idpf_rx_csum_decoded csum_bits;
+ struct idpf_rx_csum_decoded csum_bits = { };
u16 rx_status0, rx_status1;
rx_status0 = le16_to_cpu(rx_desc->flex_nic_wb.status_error0);
@@ -786,9 +733,8 @@ static void idpf_rx_singleq_flex_csum(struct idpf_queue *rx_q,
rx_status0);
csum_bits.nat = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_STATUS1_NAT_M,
rx_status1);
- csum_bits.pprs = 0;
- idpf_rx_singleq_csum(rx_q, skb, &csum_bits, ptype);
+ return csum_bits;
}
/**
@@ -801,14 +747,14 @@ static void idpf_rx_singleq_flex_csum(struct idpf_queue *rx_q,
* This function only operates on the VIRTCHNL2_RXDID_1_32B_BASE_M base 32byte
* descriptor writeback format.
**/
-static void idpf_rx_singleq_base_hash(struct idpf_queue *rx_q,
+static void idpf_rx_singleq_base_hash(struct idpf_rx_queue *rx_q,
struct sk_buff *skb,
- union virtchnl2_rx_desc *rx_desc,
- struct idpf_rx_ptype_decoded *decoded)
+ const union virtchnl2_rx_desc *rx_desc,
+ struct libeth_rx_pt decoded)
{
u64 mask, qw1;
- if (unlikely(!(rx_q->vport->netdev->features & NETIF_F_RXHASH)))
+ if (!libeth_rx_pt_has_hash(rx_q->netdev, decoded))
return;
mask = VIRTCHNL2_RX_BASE_DESC_FLTSTAT_RSS_HASH_M;
@@ -817,7 +763,7 @@ static void idpf_rx_singleq_base_hash(struct idpf_queue *rx_q,
if (FIELD_GET(mask, qw1) == mask) {
u32 hash = le32_to_cpu(rx_desc->base_wb.qword0.hi_dword.rss);
- skb_set_hash(skb, hash, idpf_ptype_to_htype(decoded));
+ libeth_rx_pt_set_hash(skb, hash, decoded);
}
}
@@ -831,18 +777,20 @@ static void idpf_rx_singleq_base_hash(struct idpf_queue *rx_q,
* This function only operates on the VIRTCHNL2_RXDID_2_FLEX_SQ_NIC flexible
* descriptor writeback format.
**/
-static void idpf_rx_singleq_flex_hash(struct idpf_queue *rx_q,
+static void idpf_rx_singleq_flex_hash(struct idpf_rx_queue *rx_q,
struct sk_buff *skb,
- union virtchnl2_rx_desc *rx_desc,
- struct idpf_rx_ptype_decoded *decoded)
+ const union virtchnl2_rx_desc *rx_desc,
+ struct libeth_rx_pt decoded)
{
- if (unlikely(!(rx_q->vport->netdev->features & NETIF_F_RXHASH)))
+ if (!libeth_rx_pt_has_hash(rx_q->netdev, decoded))
return;
if (FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_STATUS0_RSS_VALID_M,
- le16_to_cpu(rx_desc->flex_nic_wb.status_error0)))
- skb_set_hash(skb, le32_to_cpu(rx_desc->flex_nic_wb.rss_hash),
- idpf_ptype_to_htype(decoded));
+ le16_to_cpu(rx_desc->flex_nic_wb.status_error0))) {
+ u32 hash = le32_to_cpu(rx_desc->flex_nic_wb.rss_hash);
+
+ libeth_rx_pt_set_hash(skb, hash, decoded);
+ }
}
/**
@@ -857,25 +805,45 @@ static void idpf_rx_singleq_flex_hash(struct idpf_queue *rx_q,
* order to populate the hash, checksum, VLAN, protocol, and
* other fields within the skb.
*/
-static void idpf_rx_singleq_process_skb_fields(struct idpf_queue *rx_q,
- struct sk_buff *skb,
- union virtchnl2_rx_desc *rx_desc,
- u16 ptype)
+static void
+idpf_rx_singleq_process_skb_fields(struct idpf_rx_queue *rx_q,
+ struct sk_buff *skb,
+ const union virtchnl2_rx_desc *rx_desc,
+ u16 ptype)
{
- struct idpf_rx_ptype_decoded decoded =
- rx_q->vport->rx_ptype_lkup[ptype];
+ struct libeth_rx_pt decoded = rx_q->rx_ptype_lkup[ptype];
+ struct idpf_rx_csum_decoded csum_bits;
/* modifies the skb - consumes the enet header */
- skb->protocol = eth_type_trans(skb, rx_q->vport->netdev);
+ skb->protocol = eth_type_trans(skb, rx_q->netdev);
/* Check if we're using base mode descriptor IDs */
if (rx_q->rxdids == VIRTCHNL2_RXDID_1_32B_BASE_M) {
- idpf_rx_singleq_base_hash(rx_q, skb, rx_desc, &decoded);
- idpf_rx_singleq_base_csum(rx_q, skb, rx_desc, ptype);
+ idpf_rx_singleq_base_hash(rx_q, skb, rx_desc, decoded);
+ csum_bits = idpf_rx_singleq_base_csum(rx_desc);
} else {
- idpf_rx_singleq_flex_hash(rx_q, skb, rx_desc, &decoded);
- idpf_rx_singleq_flex_csum(rx_q, skb, rx_desc, ptype);
+ idpf_rx_singleq_flex_hash(rx_q, skb, rx_desc, decoded);
+ csum_bits = idpf_rx_singleq_flex_csum(rx_desc);
}
+
+ idpf_rx_singleq_csum(rx_q, skb, csum_bits, decoded);
+ skb_record_rx_queue(skb, rx_q->idx);
+}
+
+/**
+ * idpf_rx_buf_hw_update - Store the new tail and head values
+ * @rxq: queue to bump
+ * @val: new head index
+ */
+static void idpf_rx_buf_hw_update(struct idpf_rx_queue *rxq, u32 val)
+{
+ rxq->next_to_use = val;
+
+ if (unlikely(!rxq->tail))
+ return;
+
+ /* writel has an implicit memory barrier */
+ writel(val, rxq->tail);
}
/**
@@ -885,24 +853,28 @@ static void idpf_rx_singleq_process_skb_fields(struct idpf_queue *rx_q,
*
* Returns false if all allocations were successful, true if any fail
*/
-bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_queue *rx_q,
+bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_rx_queue *rx_q,
u16 cleaned_count)
{
struct virtchnl2_singleq_rx_buf_desc *desc;
+ const struct libeth_fq_fp fq = {
+ .pp = rx_q->pp,
+ .fqes = rx_q->rx_buf,
+ .truesize = rx_q->truesize,
+ .count = rx_q->desc_count,
+ };
u16 nta = rx_q->next_to_alloc;
- struct idpf_rx_buf *buf;
if (!cleaned_count)
return false;
- desc = IDPF_SINGLEQ_RX_BUF_DESC(rx_q, nta);
- buf = &rx_q->rx_buf.buf[nta];
+ desc = &rx_q->single_buf[nta];
do {
dma_addr_t addr;
- addr = idpf_alloc_page(rx_q->pp, buf, rx_q->rx_buf_size);
- if (unlikely(addr == DMA_MAPPING_ERROR))
+ addr = libeth_rx_alloc(&fq, nta);
+ if (addr == DMA_MAPPING_ERROR)
break;
/* Refresh the desc even if buffer_addrs didn't change
@@ -912,11 +884,9 @@ bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_queue *rx_q,
desc->hdr_addr = 0;
desc++;
- buf++;
nta++;
if (unlikely(nta == rx_q->desc_count)) {
- desc = IDPF_SINGLEQ_RX_BUF_DESC(rx_q, 0);
- buf = rx_q->rx_buf.buf;
+ desc = &rx_q->single_buf[0];
nta = 0;
}
@@ -933,7 +903,6 @@ bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_queue *rx_q,
/**
* idpf_rx_singleq_extract_base_fields - Extract fields from the Rx descriptor
- * @rx_q: Rx descriptor queue
* @rx_desc: the descriptor to process
* @fields: storage for extracted values
*
@@ -943,9 +912,9 @@ bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_queue *rx_q,
* This function only operates on the VIRTCHNL2_RXDID_1_32B_BASE_M base 32byte
* descriptor writeback format.
*/
-static void idpf_rx_singleq_extract_base_fields(struct idpf_queue *rx_q,
- union virtchnl2_rx_desc *rx_desc,
- struct idpf_rx_extracted *fields)
+static void
+idpf_rx_singleq_extract_base_fields(const union virtchnl2_rx_desc *rx_desc,
+ struct idpf_rx_extracted *fields)
{
u64 qword;
@@ -957,7 +926,6 @@ static void idpf_rx_singleq_extract_base_fields(struct idpf_queue *rx_q,
/**
* idpf_rx_singleq_extract_flex_fields - Extract fields from the Rx descriptor
- * @rx_q: Rx descriptor queue
* @rx_desc: the descriptor to process
* @fields: storage for extracted values
*
@@ -967,9 +935,9 @@ static void idpf_rx_singleq_extract_base_fields(struct idpf_queue *rx_q,
* This function only operates on the VIRTCHNL2_RXDID_2_FLEX_SQ_NIC flexible
* descriptor writeback format.
*/
-static void idpf_rx_singleq_extract_flex_fields(struct idpf_queue *rx_q,
- union virtchnl2_rx_desc *rx_desc,
- struct idpf_rx_extracted *fields)
+static void
+idpf_rx_singleq_extract_flex_fields(const union virtchnl2_rx_desc *rx_desc,
+ struct idpf_rx_extracted *fields)
{
fields->size = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_PKT_LEN_M,
le16_to_cpu(rx_desc->flex_nic_wb.pkt_len));
@@ -984,14 +952,15 @@ static void idpf_rx_singleq_extract_flex_fields(struct idpf_queue *rx_q,
* @fields: storage for extracted values
*
*/
-static void idpf_rx_singleq_extract_fields(struct idpf_queue *rx_q,
- union virtchnl2_rx_desc *rx_desc,
- struct idpf_rx_extracted *fields)
+static void
+idpf_rx_singleq_extract_fields(const struct idpf_rx_queue *rx_q,
+ const union virtchnl2_rx_desc *rx_desc,
+ struct idpf_rx_extracted *fields)
{
if (rx_q->rxdids == VIRTCHNL2_RXDID_1_32B_BASE_M)
- idpf_rx_singleq_extract_base_fields(rx_q, rx_desc, fields);
+ idpf_rx_singleq_extract_base_fields(rx_desc, fields);
else
- idpf_rx_singleq_extract_flex_fields(rx_q, rx_desc, fields);
+ idpf_rx_singleq_extract_flex_fields(rx_desc, fields);
}
/**
@@ -1001,7 +970,7 @@ static void idpf_rx_singleq_extract_fields(struct idpf_queue *rx_q,
*
* Returns true if there's any budget left (e.g. the clean is finished)
*/
-static int idpf_rx_singleq_clean(struct idpf_queue *rx_q, int budget)
+static int idpf_rx_singleq_clean(struct idpf_rx_queue *rx_q, int budget)
{
unsigned int total_rx_bytes = 0, total_rx_pkts = 0;
struct sk_buff *skb = rx_q->skb;
@@ -1016,7 +985,7 @@ static int idpf_rx_singleq_clean(struct idpf_queue *rx_q, int budget)
struct idpf_rx_buf *rx_buf;
/* get the Rx desc from Rx queue based on 'next_to_clean' */
- rx_desc = IDPF_RX_DESC(rx_q, ntc);
+ rx_desc = &rx_q->rx[ntc];
/* status_error_ptype_len will always be zero for unused
* descriptors because it's cleared in cleanup, and overlaps
@@ -1036,29 +1005,27 @@ static int idpf_rx_singleq_clean(struct idpf_queue *rx_q, int budget)
idpf_rx_singleq_extract_fields(rx_q, rx_desc, &fields);
- rx_buf = &rx_q->rx_buf.buf[ntc];
- if (!fields.size) {
- idpf_rx_put_page(rx_buf);
+ rx_buf = &rx_q->rx_buf[ntc];
+ if (!libeth_rx_sync_for_cpu(rx_buf, fields.size))
goto skip_data;
- }
- idpf_rx_sync_for_cpu(rx_buf, fields.size);
if (skb)
idpf_rx_add_frag(rx_buf, skb, fields.size);
else
- skb = idpf_rx_construct_skb(rx_q, rx_buf, fields.size);
+ skb = idpf_rx_build_skb(rx_buf, fields.size);
/* exit if we failed to retrieve a buffer */
if (!skb)
break;
skip_data:
- IDPF_SINGLEQ_BUMP_RING_IDX(rx_q, ntc);
+ rx_buf->page = NULL;
+ IDPF_SINGLEQ_BUMP_RING_IDX(rx_q, ntc);
cleaned_count++;
/* skip if it is non EOP desc */
- if (idpf_rx_singleq_is_non_eop(rx_q, rx_desc, skb, ntc))
+ if (idpf_rx_singleq_is_non_eop(rx_desc) || unlikely(!skb))
continue;
#define IDPF_RXD_ERR_S FIELD_PREP(VIRTCHNL2_RX_BASE_DESC_QW1_ERROR_M, \
@@ -1084,7 +1051,7 @@ skip_data:
rx_desc, fields.rx_ptype);
/* send completed skb up the stack */
- napi_gro_receive(&rx_q->q_vector->napi, skb);
+ napi_gro_receive(rx_q->pp->p.napi, skb);
skb = NULL;
/* update budget accounting */
@@ -1095,12 +1062,13 @@ skip_data:
rx_q->next_to_clean = ntc;
+ page_pool_nid_changed(rx_q->pp, numa_mem_id());
if (cleaned_count)
failure = idpf_rx_singleq_buf_hw_alloc_all(rx_q, cleaned_count);
u64_stats_update_begin(&rx_q->stats_sync);
- u64_stats_add(&rx_q->q_stats.rx.packets, total_rx_pkts);
- u64_stats_add(&rx_q->q_stats.rx.bytes, total_rx_bytes);
+ u64_stats_add(&rx_q->q_stats.packets, total_rx_pkts);
+ u64_stats_add(&rx_q->q_stats.bytes, total_rx_bytes);
u64_stats_update_end(&rx_q->stats_sync);
/* guarantee a trip back through this routine if there was a failure */
@@ -1127,7 +1095,7 @@ static bool idpf_rx_singleq_clean_all(struct idpf_q_vector *q_vec, int budget,
*/
budget_per_q = num_rxq ? max(budget / num_rxq, 1) : 0;
for (i = 0; i < num_rxq; i++) {
- struct idpf_queue *rxq = q_vec->rx[i];
+ struct idpf_rx_queue *rxq = q_vec->rx[i];
int pkts_cleaned_per_q;
pkts_cleaned_per_q = idpf_rx_singleq_clean(rxq, budget_per_q);
diff --git a/drivers/net/ethernet/intel/idpf/idpf_txrx.c b/drivers/net/ethernet/intel/idpf/idpf_txrx.c
index b023704bbbda..af2879f03b8d 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_txrx.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_txrx.c
@@ -1,9 +1,14 @@
// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (C) 2023 Intel Corporation */
+#include <net/libeth/rx.h>
+
#include "idpf.h"
#include "idpf_virtchnl.h"
+static bool idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs,
+ unsigned int count);
+
/**
* idpf_buf_lifo_push - push a buffer pointer onto stack
* @stack: pointer to stack struct
@@ -60,7 +65,8 @@ void idpf_tx_timeout(struct net_device *netdev, unsigned int txqueue)
* @tx_q: the queue that owns the buffer
* @tx_buf: the buffer to free
*/
-static void idpf_tx_buf_rel(struct idpf_queue *tx_q, struct idpf_tx_buf *tx_buf)
+static void idpf_tx_buf_rel(struct idpf_tx_queue *tx_q,
+ struct idpf_tx_buf *tx_buf)
{
if (tx_buf->skb) {
if (dma_unmap_len(tx_buf, len))
@@ -86,8 +92,9 @@ static void idpf_tx_buf_rel(struct idpf_queue *tx_q, struct idpf_tx_buf *tx_buf)
* idpf_tx_buf_rel_all - Free any empty Tx buffers
* @txq: queue to be cleaned
*/
-static void idpf_tx_buf_rel_all(struct idpf_queue *txq)
+static void idpf_tx_buf_rel_all(struct idpf_tx_queue *txq)
{
+ struct idpf_buf_lifo *buf_stack;
u16 i;
/* Buffers already cleared, nothing to do */
@@ -101,39 +108,58 @@ static void idpf_tx_buf_rel_all(struct idpf_queue *txq)
kfree(txq->tx_buf);
txq->tx_buf = NULL;
- if (!txq->buf_stack.bufs)
+ if (!idpf_queue_has(FLOW_SCH_EN, txq))
return;
- for (i = 0; i < txq->buf_stack.size; i++)
- kfree(txq->buf_stack.bufs[i]);
+ buf_stack = &txq->stash->buf_stack;
+ if (!buf_stack->bufs)
+ return;
- kfree(txq->buf_stack.bufs);
- txq->buf_stack.bufs = NULL;
+ for (i = 0; i < buf_stack->size; i++)
+ kfree(buf_stack->bufs[i]);
+
+ kfree(buf_stack->bufs);
+ buf_stack->bufs = NULL;
}
/**
* idpf_tx_desc_rel - Free Tx resources per queue
* @txq: Tx descriptor ring for a specific queue
- * @bufq: buffer q or completion q
*
* Free all transmit software resources
*/
-static void idpf_tx_desc_rel(struct idpf_queue *txq, bool bufq)
+static void idpf_tx_desc_rel(struct idpf_tx_queue *txq)
{
- if (bufq)
- idpf_tx_buf_rel_all(txq);
+ idpf_tx_buf_rel_all(txq);
if (!txq->desc_ring)
return;
dmam_free_coherent(txq->dev, txq->size, txq->desc_ring, txq->dma);
txq->desc_ring = NULL;
- txq->next_to_alloc = 0;
txq->next_to_use = 0;
txq->next_to_clean = 0;
}
/**
+ * idpf_compl_desc_rel - Free completion resources per queue
+ * @complq: completion queue
+ *
+ * Free all completion software resources.
+ */
+static void idpf_compl_desc_rel(struct idpf_compl_queue *complq)
+{
+ if (!complq->comp)
+ return;
+
+ dma_free_coherent(complq->netdev->dev.parent, complq->size,
+ complq->comp, complq->dma);
+ complq->comp = NULL;
+ complq->next_to_use = 0;
+ complq->next_to_clean = 0;
+}
+
+/**
* idpf_tx_desc_rel_all - Free Tx Resources for All Queues
* @vport: virtual port structure
*
@@ -150,10 +176,10 @@ static void idpf_tx_desc_rel_all(struct idpf_vport *vport)
struct idpf_txq_group *txq_grp = &vport->txq_grps[i];
for (j = 0; j < txq_grp->num_txq; j++)
- idpf_tx_desc_rel(txq_grp->txqs[j], true);
+ idpf_tx_desc_rel(txq_grp->txqs[j]);
if (idpf_is_queue_model_split(vport->txq_model))
- idpf_tx_desc_rel(txq_grp->complq, false);
+ idpf_compl_desc_rel(txq_grp->complq);
}
}
@@ -163,8 +189,9 @@ static void idpf_tx_desc_rel_all(struct idpf_vport *vport)
*
* Returns 0 on success, negative on failure
*/
-static int idpf_tx_buf_alloc_all(struct idpf_queue *tx_q)
+static int idpf_tx_buf_alloc_all(struct idpf_tx_queue *tx_q)
{
+ struct idpf_buf_lifo *buf_stack;
int buf_size;
int i;
@@ -180,22 +207,26 @@ static int idpf_tx_buf_alloc_all(struct idpf_queue *tx_q)
for (i = 0; i < tx_q->desc_count; i++)
tx_q->tx_buf[i].compl_tag = IDPF_SPLITQ_TX_INVAL_COMPL_TAG;
+ if (!idpf_queue_has(FLOW_SCH_EN, tx_q))
+ return 0;
+
+ buf_stack = &tx_q->stash->buf_stack;
+
/* Initialize tx buf stack for out-of-order completions if
* flow scheduling offload is enabled
*/
- tx_q->buf_stack.bufs =
- kcalloc(tx_q->desc_count, sizeof(struct idpf_tx_stash *),
- GFP_KERNEL);
- if (!tx_q->buf_stack.bufs)
+ buf_stack->bufs = kcalloc(tx_q->desc_count, sizeof(*buf_stack->bufs),
+ GFP_KERNEL);
+ if (!buf_stack->bufs)
return -ENOMEM;
- tx_q->buf_stack.size = tx_q->desc_count;
- tx_q->buf_stack.top = tx_q->desc_count;
+ buf_stack->size = tx_q->desc_count;
+ buf_stack->top = tx_q->desc_count;
for (i = 0; i < tx_q->desc_count; i++) {
- tx_q->buf_stack.bufs[i] = kzalloc(sizeof(*tx_q->buf_stack.bufs[i]),
- GFP_KERNEL);
- if (!tx_q->buf_stack.bufs[i])
+ buf_stack->bufs[i] = kzalloc(sizeof(*buf_stack->bufs[i]),
+ GFP_KERNEL);
+ if (!buf_stack->bufs[i])
return -ENOMEM;
}
@@ -204,28 +235,22 @@ static int idpf_tx_buf_alloc_all(struct idpf_queue *tx_q)
/**
* idpf_tx_desc_alloc - Allocate the Tx descriptors
+ * @vport: vport to allocate resources for
* @tx_q: the tx ring to set up
- * @bufq: buffer or completion queue
*
* Returns 0 on success, negative on failure
*/
-static int idpf_tx_desc_alloc(struct idpf_queue *tx_q, bool bufq)
+static int idpf_tx_desc_alloc(const struct idpf_vport *vport,
+ struct idpf_tx_queue *tx_q)
{
struct device *dev = tx_q->dev;
- u32 desc_sz;
int err;
- if (bufq) {
- err = idpf_tx_buf_alloc_all(tx_q);
- if (err)
- goto err_alloc;
-
- desc_sz = sizeof(struct idpf_base_tx_desc);
- } else {
- desc_sz = sizeof(struct idpf_splitq_tx_compl_desc);
- }
+ err = idpf_tx_buf_alloc_all(tx_q);
+ if (err)
+ goto err_alloc;
- tx_q->size = tx_q->desc_count * desc_sz;
+ tx_q->size = tx_q->desc_count * sizeof(*tx_q->base_tx);
/* Allocate descriptors also round up to nearest 4K */
tx_q->size = ALIGN(tx_q->size, 4096);
@@ -238,20 +263,44 @@ static int idpf_tx_desc_alloc(struct idpf_queue *tx_q, bool bufq)
goto err_alloc;
}
- tx_q->next_to_alloc = 0;
tx_q->next_to_use = 0;
tx_q->next_to_clean = 0;
- set_bit(__IDPF_Q_GEN_CHK, tx_q->flags);
+ idpf_queue_set(GEN_CHK, tx_q);
return 0;
err_alloc:
- idpf_tx_desc_rel(tx_q, bufq);
+ idpf_tx_desc_rel(tx_q);
return err;
}
/**
+ * idpf_compl_desc_alloc - allocate completion descriptors
+ * @vport: vport to allocate resources for
+ * @complq: completion queue to set up
+ *
+ * Return: 0 on success, -errno on failure.
+ */
+static int idpf_compl_desc_alloc(const struct idpf_vport *vport,
+ struct idpf_compl_queue *complq)
+{
+ complq->size = array_size(complq->desc_count, sizeof(*complq->comp));
+
+ complq->comp = dma_alloc_coherent(complq->netdev->dev.parent,
+ complq->size, &complq->dma,
+ GFP_KERNEL);
+ if (!complq->comp)
+ return -ENOMEM;
+
+ complq->next_to_use = 0;
+ complq->next_to_clean = 0;
+ idpf_queue_set(GEN_CHK, complq);
+
+ return 0;
+}
+
+/**
* idpf_tx_desc_alloc_all - allocate all queues Tx resources
* @vport: virtual port private structure
*
@@ -259,7 +308,6 @@ err_alloc:
*/
static int idpf_tx_desc_alloc_all(struct idpf_vport *vport)
{
- struct device *dev = &vport->adapter->pdev->dev;
int err = 0;
int i, j;
@@ -268,13 +316,14 @@ static int idpf_tx_desc_alloc_all(struct idpf_vport *vport)
*/
for (i = 0; i < vport->num_txq_grp; i++) {
for (j = 0; j < vport->txq_grps[i].num_txq; j++) {
- struct idpf_queue *txq = vport->txq_grps[i].txqs[j];
+ struct idpf_tx_queue *txq = vport->txq_grps[i].txqs[j];
u8 gen_bits = 0;
u16 bufidx_mask;
- err = idpf_tx_desc_alloc(txq, true);
+ err = idpf_tx_desc_alloc(vport, txq);
if (err) {
- dev_err(dev, "Allocation for Tx Queue %u failed\n",
+ pci_err(vport->adapter->pdev,
+ "Allocation for Tx Queue %u failed\n",
i);
goto err_out;
}
@@ -312,9 +361,10 @@ static int idpf_tx_desc_alloc_all(struct idpf_vport *vport)
continue;
/* Setup completion queues */
- err = idpf_tx_desc_alloc(vport->txq_grps[i].complq, false);
+ err = idpf_compl_desc_alloc(vport, vport->txq_grps[i].complq);
if (err) {
- dev_err(dev, "Allocation for Tx Completion Queue %u failed\n",
+ pci_err(vport->adapter->pdev,
+ "Allocation for Tx Completion Queue %u failed\n",
i);
goto err_out;
}
@@ -329,70 +379,97 @@ err_out:
/**
* idpf_rx_page_rel - Release an rx buffer page
- * @rxq: the queue that owns the buffer
* @rx_buf: the buffer to free
*/
-static void idpf_rx_page_rel(struct idpf_queue *rxq, struct idpf_rx_buf *rx_buf)
+static void idpf_rx_page_rel(struct libeth_fqe *rx_buf)
{
if (unlikely(!rx_buf->page))
return;
- page_pool_put_full_page(rxq->pp, rx_buf->page, false);
+ page_pool_put_full_page(rx_buf->page->pp, rx_buf->page, false);
rx_buf->page = NULL;
- rx_buf->page_offset = 0;
+ rx_buf->offset = 0;
}
/**
* idpf_rx_hdr_buf_rel_all - Release header buffer memory
- * @rxq: queue to use
+ * @bufq: queue to use
*/
-static void idpf_rx_hdr_buf_rel_all(struct idpf_queue *rxq)
+static void idpf_rx_hdr_buf_rel_all(struct idpf_buf_queue *bufq)
{
- struct idpf_adapter *adapter = rxq->vport->adapter;
+ struct libeth_fq fq = {
+ .fqes = bufq->hdr_buf,
+ .pp = bufq->hdr_pp,
+ };
- dma_free_coherent(&adapter->pdev->dev,
- rxq->desc_count * IDPF_HDR_BUF_SIZE,
- rxq->rx_buf.hdr_buf_va,
- rxq->rx_buf.hdr_buf_pa);
- rxq->rx_buf.hdr_buf_va = NULL;
+ for (u32 i = 0; i < bufq->desc_count; i++)
+ idpf_rx_page_rel(&bufq->hdr_buf[i]);
+
+ libeth_rx_fq_destroy(&fq);
+ bufq->hdr_buf = NULL;
+ bufq->hdr_pp = NULL;
}
/**
- * idpf_rx_buf_rel_all - Free all Rx buffer resources for a queue
- * @rxq: queue to be cleaned
+ * idpf_rx_buf_rel_bufq - Free all Rx buffer resources for a buffer queue
+ * @bufq: queue to be cleaned
*/
-static void idpf_rx_buf_rel_all(struct idpf_queue *rxq)
+static void idpf_rx_buf_rel_bufq(struct idpf_buf_queue *bufq)
{
- u16 i;
+ struct libeth_fq fq = {
+ .fqes = bufq->buf,
+ .pp = bufq->pp,
+ };
/* queue already cleared, nothing to do */
- if (!rxq->rx_buf.buf)
+ if (!bufq->buf)
return;
/* Free all the bufs allocated and given to hw on Rx queue */
- for (i = 0; i < rxq->desc_count; i++)
- idpf_rx_page_rel(rxq, &rxq->rx_buf.buf[i]);
+ for (u32 i = 0; i < bufq->desc_count; i++)
+ idpf_rx_page_rel(&bufq->buf[i]);
- if (rxq->rx_hsplit_en)
- idpf_rx_hdr_buf_rel_all(rxq);
+ if (idpf_queue_has(HSPLIT_EN, bufq))
+ idpf_rx_hdr_buf_rel_all(bufq);
- page_pool_destroy(rxq->pp);
- rxq->pp = NULL;
+ libeth_rx_fq_destroy(&fq);
+ bufq->buf = NULL;
+ bufq->pp = NULL;
+}
+
+/**
+ * idpf_rx_buf_rel_all - Free all Rx buffer resources for a receive queue
+ * @rxq: queue to be cleaned
+ */
+static void idpf_rx_buf_rel_all(struct idpf_rx_queue *rxq)
+{
+ struct libeth_fq fq = {
+ .fqes = rxq->rx_buf,
+ .pp = rxq->pp,
+ };
+
+ if (!rxq->rx_buf)
+ return;
- kfree(rxq->rx_buf.buf);
- rxq->rx_buf.buf = NULL;
+ for (u32 i = 0; i < rxq->desc_count; i++)
+ idpf_rx_page_rel(&rxq->rx_buf[i]);
+
+ libeth_rx_fq_destroy(&fq);
+ rxq->rx_buf = NULL;
+ rxq->pp = NULL;
}
/**
* idpf_rx_desc_rel - Free a specific Rx q resources
* @rxq: queue to clean the resources from
- * @bufq: buffer q or completion q
- * @q_model: single or split q model
+ * @dev: device to free DMA memory
+ * @model: single or split queue model
*
* Free a specific rx queue resources
*/
-static void idpf_rx_desc_rel(struct idpf_queue *rxq, bool bufq, s32 q_model)
+static void idpf_rx_desc_rel(struct idpf_rx_queue *rxq, struct device *dev,
+ u32 model)
{
if (!rxq)
return;
@@ -402,7 +479,7 @@ static void idpf_rx_desc_rel(struct idpf_queue *rxq, bool bufq, s32 q_model)
rxq->skb = NULL;
}
- if (bufq || !idpf_is_queue_model_split(q_model))
+ if (!idpf_is_queue_model_split(model))
idpf_rx_buf_rel_all(rxq);
rxq->next_to_alloc = 0;
@@ -411,11 +488,35 @@ static void idpf_rx_desc_rel(struct idpf_queue *rxq, bool bufq, s32 q_model)
if (!rxq->desc_ring)
return;
- dmam_free_coherent(rxq->dev, rxq->size, rxq->desc_ring, rxq->dma);
+ dmam_free_coherent(dev, rxq->size, rxq->desc_ring, rxq->dma);
rxq->desc_ring = NULL;
}
/**
+ * idpf_rx_desc_rel_bufq - free buffer queue resources
+ * @bufq: buffer queue to clean the resources from
+ * @dev: device to free DMA memory
+ */
+static void idpf_rx_desc_rel_bufq(struct idpf_buf_queue *bufq,
+ struct device *dev)
+{
+ if (!bufq)
+ return;
+
+ idpf_rx_buf_rel_bufq(bufq);
+
+ bufq->next_to_alloc = 0;
+ bufq->next_to_clean = 0;
+ bufq->next_to_use = 0;
+
+ if (!bufq->split_buf)
+ return;
+
+ dma_free_coherent(dev, bufq->size, bufq->split_buf, bufq->dma);
+ bufq->split_buf = NULL;
+}
+
+/**
* idpf_rx_desc_rel_all - Free Rx Resources for All Queues
* @vport: virtual port structure
*
@@ -423,6 +524,7 @@ static void idpf_rx_desc_rel(struct idpf_queue *rxq, bool bufq, s32 q_model)
*/
static void idpf_rx_desc_rel_all(struct idpf_vport *vport)
{
+ struct device *dev = &vport->adapter->pdev->dev;
struct idpf_rxq_group *rx_qgrp;
u16 num_rxq;
int i, j;
@@ -435,15 +537,15 @@ static void idpf_rx_desc_rel_all(struct idpf_vport *vport)
if (!idpf_is_queue_model_split(vport->rxq_model)) {
for (j = 0; j < rx_qgrp->singleq.num_rxq; j++)
- idpf_rx_desc_rel(rx_qgrp->singleq.rxqs[j],
- false, vport->rxq_model);
+ idpf_rx_desc_rel(rx_qgrp->singleq.rxqs[j], dev,
+ VIRTCHNL2_QUEUE_MODEL_SINGLE);
continue;
}
num_rxq = rx_qgrp->splitq.num_rxq_sets;
for (j = 0; j < num_rxq; j++)
idpf_rx_desc_rel(&rx_qgrp->splitq.rxq_sets[j]->rxq,
- false, vport->rxq_model);
+ dev, VIRTCHNL2_QUEUE_MODEL_SPLIT);
if (!rx_qgrp->splitq.bufq_sets)
continue;
@@ -452,45 +554,50 @@ static void idpf_rx_desc_rel_all(struct idpf_vport *vport)
struct idpf_bufq_set *bufq_set =
&rx_qgrp->splitq.bufq_sets[j];
- idpf_rx_desc_rel(&bufq_set->bufq, true,
- vport->rxq_model);
+ idpf_rx_desc_rel_bufq(&bufq_set->bufq, dev);
}
}
}
/**
* idpf_rx_buf_hw_update - Store the new tail and head values
- * @rxq: queue to bump
+ * @bufq: queue to bump
* @val: new head index
*/
-void idpf_rx_buf_hw_update(struct idpf_queue *rxq, u32 val)
+static void idpf_rx_buf_hw_update(struct idpf_buf_queue *bufq, u32 val)
{
- rxq->next_to_use = val;
+ bufq->next_to_use = val;
- if (unlikely(!rxq->tail))
+ if (unlikely(!bufq->tail))
return;
/* writel has an implicit memory barrier */
- writel(val, rxq->tail);
+ writel(val, bufq->tail);
}
/**
* idpf_rx_hdr_buf_alloc_all - Allocate memory for header buffers
- * @rxq: ring to use
+ * @bufq: ring to use
*
* Returns 0 on success, negative on failure.
*/
-static int idpf_rx_hdr_buf_alloc_all(struct idpf_queue *rxq)
+static int idpf_rx_hdr_buf_alloc_all(struct idpf_buf_queue *bufq)
{
- struct idpf_adapter *adapter = rxq->vport->adapter;
-
- rxq->rx_buf.hdr_buf_va =
- dma_alloc_coherent(&adapter->pdev->dev,
- IDPF_HDR_BUF_SIZE * rxq->desc_count,
- &rxq->rx_buf.hdr_buf_pa,
- GFP_KERNEL);
- if (!rxq->rx_buf.hdr_buf_va)
- return -ENOMEM;
+ struct libeth_fq fq = {
+ .count = bufq->desc_count,
+ .type = LIBETH_FQE_HDR,
+ .nid = idpf_q_vector_to_mem(bufq->q_vector),
+ };
+ int ret;
+
+ ret = libeth_rx_fq_create(&fq, &bufq->q_vector->napi);
+ if (ret)
+ return ret;
+
+ bufq->hdr_pp = fq.pp;
+ bufq->hdr_buf = fq.fqes;
+ bufq->hdr_truesize = fq.truesize;
+ bufq->rx_hbuf_size = fq.buf_len;
return 0;
}
@@ -502,19 +609,20 @@ static int idpf_rx_hdr_buf_alloc_all(struct idpf_queue *rxq)
*/
static void idpf_rx_post_buf_refill(struct idpf_sw_queue *refillq, u16 buf_id)
{
- u16 nta = refillq->next_to_alloc;
+ u32 nta = refillq->next_to_use;
/* store the buffer ID and the SW maintained GEN bit to the refillq */
refillq->ring[nta] =
FIELD_PREP(IDPF_RX_BI_BUFID_M, buf_id) |
FIELD_PREP(IDPF_RX_BI_GEN_M,
- test_bit(__IDPF_Q_GEN_CHK, refillq->flags));
+ idpf_queue_has(GEN_CHK, refillq));
if (unlikely(++nta == refillq->desc_count)) {
nta = 0;
- change_bit(__IDPF_Q_GEN_CHK, refillq->flags);
+ idpf_queue_change(GEN_CHK, refillq);
}
- refillq->next_to_alloc = nta;
+
+ refillq->next_to_use = nta;
}
/**
@@ -524,24 +632,35 @@ static void idpf_rx_post_buf_refill(struct idpf_sw_queue *refillq, u16 buf_id)
*
* Returns false if buffer could not be allocated, true otherwise.
*/
-static bool idpf_rx_post_buf_desc(struct idpf_queue *bufq, u16 buf_id)
+static bool idpf_rx_post_buf_desc(struct idpf_buf_queue *bufq, u16 buf_id)
{
struct virtchnl2_splitq_rx_buf_desc *splitq_rx_desc = NULL;
+ struct libeth_fq_fp fq = {
+ .count = bufq->desc_count,
+ };
u16 nta = bufq->next_to_alloc;
- struct idpf_rx_buf *buf;
dma_addr_t addr;
- splitq_rx_desc = IDPF_SPLITQ_RX_BUF_DESC(bufq, nta);
- buf = &bufq->rx_buf.buf[buf_id];
+ splitq_rx_desc = &bufq->split_buf[nta];
- if (bufq->rx_hsplit_en) {
- splitq_rx_desc->hdr_addr =
- cpu_to_le64(bufq->rx_buf.hdr_buf_pa +
- (u32)buf_id * IDPF_HDR_BUF_SIZE);
+ if (idpf_queue_has(HSPLIT_EN, bufq)) {
+ fq.pp = bufq->hdr_pp;
+ fq.fqes = bufq->hdr_buf;
+ fq.truesize = bufq->hdr_truesize;
+
+ addr = libeth_rx_alloc(&fq, buf_id);
+ if (addr == DMA_MAPPING_ERROR)
+ return false;
+
+ splitq_rx_desc->hdr_addr = cpu_to_le64(addr);
}
- addr = idpf_alloc_page(bufq->pp, buf, bufq->rx_buf_size);
- if (unlikely(addr == DMA_MAPPING_ERROR))
+ fq.pp = bufq->pp;
+ fq.fqes = bufq->buf;
+ fq.truesize = bufq->truesize;
+
+ addr = libeth_rx_alloc(&fq, buf_id);
+ if (addr == DMA_MAPPING_ERROR)
return false;
splitq_rx_desc->pkt_addr = cpu_to_le64(addr);
@@ -562,7 +681,8 @@ static bool idpf_rx_post_buf_desc(struct idpf_queue *bufq, u16 buf_id)
*
* Returns true if @working_set bufs were posted successfully, false otherwise.
*/
-static bool idpf_rx_post_init_bufs(struct idpf_queue *bufq, u16 working_set)
+static bool idpf_rx_post_init_bufs(struct idpf_buf_queue *bufq,
+ u16 working_set)
{
int i;
@@ -571,95 +691,114 @@ static bool idpf_rx_post_init_bufs(struct idpf_queue *bufq, u16 working_set)
return false;
}
- idpf_rx_buf_hw_update(bufq,
- bufq->next_to_alloc & ~(bufq->rx_buf_stride - 1));
+ idpf_rx_buf_hw_update(bufq, ALIGN_DOWN(bufq->next_to_alloc,
+ IDPF_RX_BUF_STRIDE));
return true;
}
/**
- * idpf_rx_create_page_pool - Create a page pool
- * @rxbufq: RX queue to create page pool for
+ * idpf_rx_buf_alloc_singleq - Allocate memory for all buffer resources
+ * @rxq: queue for which the buffers are allocated
+ *
+ * Return: 0 on success, -ENOMEM on failure.
+ */
+static int idpf_rx_buf_alloc_singleq(struct idpf_rx_queue *rxq)
+{
+ if (idpf_rx_singleq_buf_hw_alloc_all(rxq, rxq->desc_count - 1))
+ goto err;
+
+ return 0;
+
+err:
+ idpf_rx_buf_rel_all(rxq);
+
+ return -ENOMEM;
+}
+
+/**
+ * idpf_rx_bufs_init_singleq - Initialize page pool and allocate Rx bufs
+ * @rxq: buffer queue to create page pool for
*
- * Returns &page_pool on success, casted -errno on failure
+ * Return: 0 on success, -errno on failure.
*/
-static struct page_pool *idpf_rx_create_page_pool(struct idpf_queue *rxbufq)
+static int idpf_rx_bufs_init_singleq(struct idpf_rx_queue *rxq)
{
- struct page_pool_params pp = {
- .flags = PP_FLAG_DMA_MAP | PP_FLAG_DMA_SYNC_DEV,
- .order = 0,
- .pool_size = rxbufq->desc_count,
- .nid = NUMA_NO_NODE,
- .dev = rxbufq->vport->netdev->dev.parent,
- .max_len = PAGE_SIZE,
- .dma_dir = DMA_FROM_DEVICE,
- .offset = 0,
+ struct libeth_fq fq = {
+ .count = rxq->desc_count,
+ .type = LIBETH_FQE_MTU,
+ .nid = idpf_q_vector_to_mem(rxq->q_vector),
};
+ int ret;
+
+ ret = libeth_rx_fq_create(&fq, &rxq->q_vector->napi);
+ if (ret)
+ return ret;
+
+ rxq->pp = fq.pp;
+ rxq->rx_buf = fq.fqes;
+ rxq->truesize = fq.truesize;
+ rxq->rx_buf_size = fq.buf_len;
- return page_pool_create(&pp);
+ return idpf_rx_buf_alloc_singleq(rxq);
}
/**
* idpf_rx_buf_alloc_all - Allocate memory for all buffer resources
- * @rxbufq: queue for which the buffers are allocated; equivalent to
- * rxq when operating in singleq mode
+ * @rxbufq: queue for which the buffers are allocated
*
* Returns 0 on success, negative on failure
*/
-static int idpf_rx_buf_alloc_all(struct idpf_queue *rxbufq)
+static int idpf_rx_buf_alloc_all(struct idpf_buf_queue *rxbufq)
{
int err = 0;
- /* Allocate book keeping buffers */
- rxbufq->rx_buf.buf = kcalloc(rxbufq->desc_count,
- sizeof(struct idpf_rx_buf), GFP_KERNEL);
- if (!rxbufq->rx_buf.buf) {
- err = -ENOMEM;
- goto rx_buf_alloc_all_out;
- }
-
- if (rxbufq->rx_hsplit_en) {
+ if (idpf_queue_has(HSPLIT_EN, rxbufq)) {
err = idpf_rx_hdr_buf_alloc_all(rxbufq);
if (err)
goto rx_buf_alloc_all_out;
}
/* Allocate buffers to be given to HW. */
- if (idpf_is_queue_model_split(rxbufq->vport->rxq_model)) {
- int working_set = IDPF_RX_BUFQ_WORKING_SET(rxbufq);
-
- if (!idpf_rx_post_init_bufs(rxbufq, working_set))
- err = -ENOMEM;
- } else {
- if (idpf_rx_singleq_buf_hw_alloc_all(rxbufq,
- rxbufq->desc_count - 1))
- err = -ENOMEM;
- }
+ if (!idpf_rx_post_init_bufs(rxbufq, IDPF_RX_BUFQ_WORKING_SET(rxbufq)))
+ err = -ENOMEM;
rx_buf_alloc_all_out:
if (err)
- idpf_rx_buf_rel_all(rxbufq);
+ idpf_rx_buf_rel_bufq(rxbufq);
return err;
}
/**
* idpf_rx_bufs_init - Initialize page pool, allocate rx bufs, and post to HW
- * @rxbufq: RX queue to create page pool for
+ * @bufq: buffer queue to create page pool for
+ * @type: type of Rx buffers to allocate
*
* Returns 0 on success, negative on failure
*/
-static int idpf_rx_bufs_init(struct idpf_queue *rxbufq)
+static int idpf_rx_bufs_init(struct idpf_buf_queue *bufq,
+ enum libeth_fqe_type type)
{
- struct page_pool *pool;
+ struct libeth_fq fq = {
+ .truesize = bufq->truesize,
+ .count = bufq->desc_count,
+ .type = type,
+ .hsplit = idpf_queue_has(HSPLIT_EN, bufq),
+ .nid = idpf_q_vector_to_mem(bufq->q_vector),
+ };
+ int ret;
- pool = idpf_rx_create_page_pool(rxbufq);
- if (IS_ERR(pool))
- return PTR_ERR(pool);
+ ret = libeth_rx_fq_create(&fq, &bufq->q_vector->napi);
+ if (ret)
+ return ret;
- rxbufq->pp = pool;
+ bufq->pp = fq.pp;
+ bufq->buf = fq.fqes;
+ bufq->truesize = fq.truesize;
+ bufq->rx_buf_size = fq.buf_len;
- return idpf_rx_buf_alloc_all(rxbufq);
+ return idpf_rx_buf_alloc_all(bufq);
}
/**
@@ -670,20 +809,22 @@ static int idpf_rx_bufs_init(struct idpf_queue *rxbufq)
*/
int idpf_rx_bufs_init_all(struct idpf_vport *vport)
{
- struct idpf_rxq_group *rx_qgrp;
- struct idpf_queue *q;
+ bool split = idpf_is_queue_model_split(vport->rxq_model);
int i, j, err;
for (i = 0; i < vport->num_rxq_grp; i++) {
- rx_qgrp = &vport->rxq_grps[i];
+ struct idpf_rxq_group *rx_qgrp = &vport->rxq_grps[i];
+ u32 truesize = 0;
/* Allocate bufs for the rxq itself in singleq */
- if (!idpf_is_queue_model_split(vport->rxq_model)) {
+ if (!split) {
int num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq; j++) {
+ struct idpf_rx_queue *q;
+
q = rx_qgrp->singleq.rxqs[j];
- err = idpf_rx_bufs_init(q);
+ err = idpf_rx_bufs_init_singleq(q);
if (err)
return err;
}
@@ -693,10 +834,19 @@ int idpf_rx_bufs_init_all(struct idpf_vport *vport)
/* Otherwise, allocate bufs for the buffer queues */
for (j = 0; j < vport->num_bufqs_per_qgrp; j++) {
+ enum libeth_fqe_type type;
+ struct idpf_buf_queue *q;
+
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
- err = idpf_rx_bufs_init(q);
+ q->truesize = truesize;
+
+ type = truesize ? LIBETH_FQE_SHORT : LIBETH_FQE_MTU;
+
+ err = idpf_rx_bufs_init(q, type);
if (err)
return err;
+
+ truesize = q->truesize >> 1;
}
}
@@ -705,22 +855,17 @@ int idpf_rx_bufs_init_all(struct idpf_vport *vport)
/**
* idpf_rx_desc_alloc - Allocate queue Rx resources
+ * @vport: vport to allocate resources for
* @rxq: Rx queue for which the resources are setup
- * @bufq: buffer or completion queue
- * @q_model: single or split queue model
*
* Returns 0 on success, negative on failure
*/
-static int idpf_rx_desc_alloc(struct idpf_queue *rxq, bool bufq, s32 q_model)
+static int idpf_rx_desc_alloc(const struct idpf_vport *vport,
+ struct idpf_rx_queue *rxq)
{
- struct device *dev = rxq->dev;
+ struct device *dev = &vport->adapter->pdev->dev;
- if (bufq)
- rxq->size = rxq->desc_count *
- sizeof(struct virtchnl2_splitq_rx_buf_desc);
- else
- rxq->size = rxq->desc_count *
- sizeof(union virtchnl2_rx_desc);
+ rxq->size = rxq->desc_count * sizeof(union virtchnl2_rx_desc);
/* Allocate descriptors and also round up to nearest 4K */
rxq->size = ALIGN(rxq->size, 4096);
@@ -735,7 +880,35 @@ static int idpf_rx_desc_alloc(struct idpf_queue *rxq, bool bufq, s32 q_model)
rxq->next_to_alloc = 0;
rxq->next_to_clean = 0;
rxq->next_to_use = 0;
- set_bit(__IDPF_Q_GEN_CHK, rxq->flags);
+ idpf_queue_set(GEN_CHK, rxq);
+
+ return 0;
+}
+
+/**
+ * idpf_bufq_desc_alloc - Allocate buffer queue descriptor ring
+ * @vport: vport to allocate resources for
+ * @bufq: buffer queue for which the resources are set up
+ *
+ * Return: 0 on success, -ENOMEM on failure.
+ */
+static int idpf_bufq_desc_alloc(const struct idpf_vport *vport,
+ struct idpf_buf_queue *bufq)
+{
+ struct device *dev = &vport->adapter->pdev->dev;
+
+ bufq->size = array_size(bufq->desc_count, sizeof(*bufq->split_buf));
+
+ bufq->split_buf = dma_alloc_coherent(dev, bufq->size, &bufq->dma,
+ GFP_KERNEL);
+ if (!bufq->split_buf)
+ return -ENOMEM;
+
+ bufq->next_to_alloc = 0;
+ bufq->next_to_clean = 0;
+ bufq->next_to_use = 0;
+
+ idpf_queue_set(GEN_CHK, bufq);
return 0;
}
@@ -748,9 +921,7 @@ static int idpf_rx_desc_alloc(struct idpf_queue *rxq, bool bufq, s32 q_model)
*/
static int idpf_rx_desc_alloc_all(struct idpf_vport *vport)
{
- struct device *dev = &vport->adapter->pdev->dev;
struct idpf_rxq_group *rx_qgrp;
- struct idpf_queue *q;
int i, j, err;
u16 num_rxq;
@@ -762,13 +933,17 @@ static int idpf_rx_desc_alloc_all(struct idpf_vport *vport)
num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq; j++) {
+ struct idpf_rx_queue *q;
+
if (idpf_is_queue_model_split(vport->rxq_model))
q = &rx_qgrp->splitq.rxq_sets[j]->rxq;
else
q = rx_qgrp->singleq.rxqs[j];
- err = idpf_rx_desc_alloc(q, false, vport->rxq_model);
+
+ err = idpf_rx_desc_alloc(vport, q);
if (err) {
- dev_err(dev, "Memory allocation for Rx Queue %u failed\n",
+ pci_err(vport->adapter->pdev,
+ "Memory allocation for Rx Queue %u failed\n",
i);
goto err_out;
}
@@ -778,10 +953,14 @@ static int idpf_rx_desc_alloc_all(struct idpf_vport *vport)
continue;
for (j = 0; j < vport->num_bufqs_per_qgrp; j++) {
+ struct idpf_buf_queue *q;
+
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
- err = idpf_rx_desc_alloc(q, true, vport->rxq_model);
+
+ err = idpf_bufq_desc_alloc(vport, q);
if (err) {
- dev_err(dev, "Memory allocation for Rx Buffer Queue %u failed\n",
+ pci_err(vport->adapter->pdev,
+ "Memory allocation for Rx Buffer Queue %u failed\n",
i);
goto err_out;
}
@@ -802,11 +981,16 @@ err_out:
*/
static void idpf_txq_group_rel(struct idpf_vport *vport)
{
+ bool split, flow_sch_en;
int i, j;
if (!vport->txq_grps)
return;
+ split = idpf_is_queue_model_split(vport->txq_model);
+ flow_sch_en = !idpf_is_cap_ena(vport->adapter, IDPF_OTHER_CAPS,
+ VIRTCHNL2_CAP_SPLITQ_QSCHED);
+
for (i = 0; i < vport->num_txq_grp; i++) {
struct idpf_txq_group *txq_grp = &vport->txq_grps[i];
@@ -814,8 +998,15 @@ static void idpf_txq_group_rel(struct idpf_vport *vport)
kfree(txq_grp->txqs[j]);
txq_grp->txqs[j] = NULL;
}
+
+ if (!split)
+ continue;
+
kfree(txq_grp->complq);
txq_grp->complq = NULL;
+
+ if (flow_sch_en)
+ kfree(txq_grp->stashes);
}
kfree(vport->txq_grps);
vport->txq_grps = NULL;
@@ -919,7 +1110,7 @@ static int idpf_vport_init_fast_path_txqs(struct idpf_vport *vport)
{
int i, j, k = 0;
- vport->txqs = kcalloc(vport->num_txq, sizeof(struct idpf_queue *),
+ vport->txqs = kcalloc(vport->num_txq, sizeof(*vport->txqs),
GFP_KERNEL);
if (!vport->txqs)
@@ -967,17 +1158,11 @@ void idpf_vport_init_num_qs(struct idpf_vport *vport,
/* Adjust number of buffer queues per Rx queue group. */
if (!idpf_is_queue_model_split(vport->rxq_model)) {
vport->num_bufqs_per_qgrp = 0;
- vport->bufq_size[0] = IDPF_RX_BUF_2048;
return;
}
vport->num_bufqs_per_qgrp = IDPF_MAX_BUFQS_PER_RXQ_GRP;
- /* Bufq[0] default buffer size is 4K
- * Bufq[1] default buffer size is 2K
- */
- vport->bufq_size[0] = IDPF_RX_BUF_4096;
- vport->bufq_size[1] = IDPF_RX_BUF_2048;
}
/**
@@ -1137,9 +1322,10 @@ static void idpf_vport_calc_numq_per_grp(struct idpf_vport *vport,
* @q: rx queue for which descids are set
*
*/
-static void idpf_rxq_set_descids(struct idpf_vport *vport, struct idpf_queue *q)
+static void idpf_rxq_set_descids(const struct idpf_vport *vport,
+ struct idpf_rx_queue *q)
{
- if (vport->rxq_model == VIRTCHNL2_QUEUE_MODEL_SPLIT) {
+ if (idpf_is_queue_model_split(vport->rxq_model)) {
q->rxdids = VIRTCHNL2_RXDID_2_FLEX_SPLITQ_M;
} else {
if (vport->base_rxd)
@@ -1158,20 +1344,22 @@ static void idpf_rxq_set_descids(struct idpf_vport *vport, struct idpf_queue *q)
*/
static int idpf_txq_group_alloc(struct idpf_vport *vport, u16 num_txq)
{
- bool flow_sch_en;
- int err, i;
+ bool split, flow_sch_en;
+ int i;
vport->txq_grps = kcalloc(vport->num_txq_grp,
sizeof(*vport->txq_grps), GFP_KERNEL);
if (!vport->txq_grps)
return -ENOMEM;
+ split = idpf_is_queue_model_split(vport->txq_model);
flow_sch_en = !idpf_is_cap_ena(vport->adapter, IDPF_OTHER_CAPS,
VIRTCHNL2_CAP_SPLITQ_QSCHED);
for (i = 0; i < vport->num_txq_grp; i++) {
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
struct idpf_adapter *adapter = vport->adapter;
+ struct idpf_txq_stash *stashes;
int j;
tx_qgrp->vport = vport;
@@ -1180,45 +1368,62 @@ static int idpf_txq_group_alloc(struct idpf_vport *vport, u16 num_txq)
for (j = 0; j < tx_qgrp->num_txq; j++) {
tx_qgrp->txqs[j] = kzalloc(sizeof(*tx_qgrp->txqs[j]),
GFP_KERNEL);
- if (!tx_qgrp->txqs[j]) {
- err = -ENOMEM;
+ if (!tx_qgrp->txqs[j])
goto err_alloc;
- }
+ }
+
+ if (split && flow_sch_en) {
+ stashes = kcalloc(num_txq, sizeof(*stashes),
+ GFP_KERNEL);
+ if (!stashes)
+ goto err_alloc;
+
+ tx_qgrp->stashes = stashes;
}
for (j = 0; j < tx_qgrp->num_txq; j++) {
- struct idpf_queue *q = tx_qgrp->txqs[j];
+ struct idpf_tx_queue *q = tx_qgrp->txqs[j];
q->dev = &adapter->pdev->dev;
q->desc_count = vport->txq_desc_count;
q->tx_max_bufs = idpf_get_max_tx_bufs(adapter);
q->tx_min_pkt_len = idpf_get_min_tx_pkt_len(adapter);
- q->vport = vport;
+ q->netdev = vport->netdev;
q->txq_grp = tx_qgrp;
- hash_init(q->sched_buf_hash);
- if (flow_sch_en)
- set_bit(__IDPF_Q_FLOW_SCH_EN, q->flags);
+ if (!split) {
+ q->clean_budget = vport->compln_clean_budget;
+ idpf_queue_assign(CRC_EN, q,
+ vport->crc_enable);
+ }
+
+ if (!flow_sch_en)
+ continue;
+
+ if (split) {
+ q->stash = &stashes[j];
+ hash_init(q->stash->sched_buf_hash);
+ }
+
+ idpf_queue_set(FLOW_SCH_EN, q);
}
- if (!idpf_is_queue_model_split(vport->txq_model))
+ if (!split)
continue;
tx_qgrp->complq = kcalloc(IDPF_COMPLQ_PER_GROUP,
sizeof(*tx_qgrp->complq),
GFP_KERNEL);
- if (!tx_qgrp->complq) {
- err = -ENOMEM;
+ if (!tx_qgrp->complq)
goto err_alloc;
- }
- tx_qgrp->complq->dev = &adapter->pdev->dev;
tx_qgrp->complq->desc_count = vport->complq_desc_count;
- tx_qgrp->complq->vport = vport;
tx_qgrp->complq->txq_grp = tx_qgrp;
+ tx_qgrp->complq->netdev = vport->netdev;
+ tx_qgrp->complq->clean_budget = vport->compln_clean_budget;
if (flow_sch_en)
- __set_bit(__IDPF_Q_FLOW_SCH_EN, tx_qgrp->complq->flags);
+ idpf_queue_set(FLOW_SCH_EN, tx_qgrp->complq);
}
return 0;
@@ -1226,7 +1431,7 @@ static int idpf_txq_group_alloc(struct idpf_vport *vport, u16 num_txq)
err_alloc:
idpf_txq_group_rel(vport);
- return err;
+ return -ENOMEM;
}
/**
@@ -1238,8 +1443,6 @@ err_alloc:
*/
static int idpf_rxq_group_alloc(struct idpf_vport *vport, u16 num_rxq)
{
- struct idpf_adapter *adapter = vport->adapter;
- struct idpf_queue *q;
int i, k, err = 0;
bool hs;
@@ -1292,21 +1495,13 @@ static int idpf_rxq_group_alloc(struct idpf_vport *vport, u16 num_rxq)
struct idpf_bufq_set *bufq_set =
&rx_qgrp->splitq.bufq_sets[j];
int swq_size = sizeof(struct idpf_sw_queue);
+ struct idpf_buf_queue *q;
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
- q->dev = &adapter->pdev->dev;
q->desc_count = vport->bufq_desc_count[j];
- q->vport = vport;
- q->rxq_grp = rx_qgrp;
- q->idx = j;
- q->rx_buf_size = vport->bufq_size[j];
q->rx_buffer_low_watermark = IDPF_LOW_WATERMARK;
- q->rx_buf_stride = IDPF_RX_BUF_STRIDE;
- if (hs) {
- q->rx_hsplit_en = true;
- q->rx_hbuf_size = IDPF_HDR_BUF_SIZE;
- }
+ idpf_queue_assign(HSPLIT_EN, q, hs);
bufq_set->num_refillqs = num_rxq;
bufq_set->refillqs = kcalloc(num_rxq, swq_size,
@@ -1319,13 +1514,12 @@ static int idpf_rxq_group_alloc(struct idpf_vport *vport, u16 num_rxq)
struct idpf_sw_queue *refillq =
&bufq_set->refillqs[k];
- refillq->dev = &vport->adapter->pdev->dev;
refillq->desc_count =
vport->bufq_desc_count[j];
- set_bit(__IDPF_Q_GEN_CHK, refillq->flags);
- set_bit(__IDPF_RFLQ_GEN_CHK, refillq->flags);
+ idpf_queue_set(GEN_CHK, refillq);
+ idpf_queue_set(RFL_GEN_CHK, refillq);
refillq->ring = kcalloc(refillq->desc_count,
- sizeof(u16),
+ sizeof(*refillq->ring),
GFP_KERNEL);
if (!refillq->ring) {
err = -ENOMEM;
@@ -1336,36 +1530,30 @@ static int idpf_rxq_group_alloc(struct idpf_vport *vport, u16 num_rxq)
skip_splitq_rx_init:
for (j = 0; j < num_rxq; j++) {
+ struct idpf_rx_queue *q;
+
if (!idpf_is_queue_model_split(vport->rxq_model)) {
q = rx_qgrp->singleq.rxqs[j];
goto setup_rxq;
}
q = &rx_qgrp->splitq.rxq_sets[j]->rxq;
- rx_qgrp->splitq.rxq_sets[j]->refillq0 =
+ rx_qgrp->splitq.rxq_sets[j]->refillq[0] =
&rx_qgrp->splitq.bufq_sets[0].refillqs[j];
if (vport->num_bufqs_per_qgrp > IDPF_SINGLE_BUFQ_PER_RXQ_GRP)
- rx_qgrp->splitq.rxq_sets[j]->refillq1 =
+ rx_qgrp->splitq.rxq_sets[j]->refillq[1] =
&rx_qgrp->splitq.bufq_sets[1].refillqs[j];
- if (hs) {
- q->rx_hsplit_en = true;
- q->rx_hbuf_size = IDPF_HDR_BUF_SIZE;
- }
+ idpf_queue_assign(HSPLIT_EN, q, hs);
setup_rxq:
- q->dev = &adapter->pdev->dev;
q->desc_count = vport->rxq_desc_count;
- q->vport = vport;
- q->rxq_grp = rx_qgrp;
+ q->rx_ptype_lkup = vport->rx_ptype_lkup;
+ q->netdev = vport->netdev;
+ q->bufq_sets = rx_qgrp->splitq.bufq_sets;
q->idx = (i * num_rxq) + j;
- /* In splitq mode, RXQ buffer size should be
- * set to that of the first buffer queue
- * associated with this RXQ
- */
- q->rx_buf_size = vport->bufq_size[0];
q->rx_buffer_low_watermark = IDPF_LOW_WATERMARK;
q->rx_max_pkt_size = vport->netdev->mtu +
- IDPF_PACKET_HDR_PAD;
+ LIBETH_RX_LL_LEN;
idpf_rxq_set_descids(vport, q);
}
}
@@ -1445,12 +1633,13 @@ err_out:
* idpf_tx_handle_sw_marker - Handle queue marker packet
* @tx_q: tx queue to handle software marker
*/
-static void idpf_tx_handle_sw_marker(struct idpf_queue *tx_q)
+static void idpf_tx_handle_sw_marker(struct idpf_tx_queue *tx_q)
{
- struct idpf_vport *vport = tx_q->vport;
+ struct idpf_netdev_priv *priv = netdev_priv(tx_q->netdev);
+ struct idpf_vport *vport = priv->vport;
int i;
- clear_bit(__IDPF_Q_SW_MARKER, tx_q->flags);
+ idpf_queue_clear(SW_MARKER, tx_q);
/* Hardware must write marker packets to all queues associated with
* completion queues. So check if all queues received marker packets
*/
@@ -1458,7 +1647,7 @@ static void idpf_tx_handle_sw_marker(struct idpf_queue *tx_q)
/* If we're still waiting on any other TXQ marker completions,
* just return now since we cannot wake up the marker_wq yet.
*/
- if (test_bit(__IDPF_Q_SW_MARKER, vport->txqs[i]->flags))
+ if (idpf_queue_has(SW_MARKER, vport->txqs[i]))
return;
/* Drain complete */
@@ -1474,7 +1663,7 @@ static void idpf_tx_handle_sw_marker(struct idpf_queue *tx_q)
* @cleaned: pointer to stats struct to track cleaned packets/bytes
* @napi_budget: Used to determine if we are in netpoll
*/
-static void idpf_tx_splitq_clean_hdr(struct idpf_queue *tx_q,
+static void idpf_tx_splitq_clean_hdr(struct idpf_tx_queue *tx_q,
struct idpf_tx_buf *tx_buf,
struct idpf_cleaned_stats *cleaned,
int napi_budget)
@@ -1505,7 +1694,8 @@ static void idpf_tx_splitq_clean_hdr(struct idpf_queue *tx_q,
* @cleaned: pointer to stats struct to track cleaned packets/bytes
* @budget: Used to determine if we are in netpoll
*/
-static void idpf_tx_clean_stashed_bufs(struct idpf_queue *txq, u16 compl_tag,
+static void idpf_tx_clean_stashed_bufs(struct idpf_tx_queue *txq,
+ u16 compl_tag,
struct idpf_cleaned_stats *cleaned,
int budget)
{
@@ -1513,7 +1703,7 @@ static void idpf_tx_clean_stashed_bufs(struct idpf_queue *txq, u16 compl_tag,
struct hlist_node *tmp_buf;
/* Buffer completion */
- hash_for_each_possible_safe(txq->sched_buf_hash, stash, tmp_buf,
+ hash_for_each_possible_safe(txq->stash->sched_buf_hash, stash, tmp_buf,
hlist, compl_tag) {
if (unlikely(stash->buf.compl_tag != (int)compl_tag))
continue;
@@ -1530,7 +1720,7 @@ static void idpf_tx_clean_stashed_bufs(struct idpf_queue *txq, u16 compl_tag,
}
/* Push shadow buf back onto stack */
- idpf_buf_lifo_push(&txq->buf_stack, stash);
+ idpf_buf_lifo_push(&txq->stash->buf_stack, stash);
hash_del(&stash->hlist);
}
@@ -1542,7 +1732,7 @@ static void idpf_tx_clean_stashed_bufs(struct idpf_queue *txq, u16 compl_tag,
* @txq: Tx queue to clean
* @tx_buf: buffer to store
*/
-static int idpf_stash_flow_sch_buffers(struct idpf_queue *txq,
+static int idpf_stash_flow_sch_buffers(struct idpf_tx_queue *txq,
struct idpf_tx_buf *tx_buf)
{
struct idpf_tx_stash *stash;
@@ -1551,10 +1741,10 @@ static int idpf_stash_flow_sch_buffers(struct idpf_queue *txq,
!dma_unmap_len(tx_buf, len)))
return 0;
- stash = idpf_buf_lifo_pop(&txq->buf_stack);
+ stash = idpf_buf_lifo_pop(&txq->stash->buf_stack);
if (unlikely(!stash)) {
net_err_ratelimited("%s: No out-of-order TX buffers left!\n",
- txq->vport->netdev->name);
+ netdev_name(txq->netdev));
return -ENOMEM;
}
@@ -1568,7 +1758,8 @@ static int idpf_stash_flow_sch_buffers(struct idpf_queue *txq,
stash->buf.compl_tag = tx_buf->compl_tag;
/* Add buffer to buf_hash table to be freed later */
- hash_add(txq->sched_buf_hash, &stash->hlist, stash->buf.compl_tag);
+ hash_add(txq->stash->sched_buf_hash, &stash->hlist,
+ stash->buf.compl_tag);
memset(tx_buf, 0, sizeof(struct idpf_tx_buf));
@@ -1584,7 +1775,7 @@ do { \
if (unlikely(!(ntc))) { \
ntc -= (txq)->desc_count; \
buf = (txq)->tx_buf; \
- desc = IDPF_FLEX_TX_DESC(txq, 0); \
+ desc = &(txq)->flex_tx[0]; \
} else { \
(buf)++; \
(desc)++; \
@@ -1607,7 +1798,7 @@ do { \
* and the buffers will be cleaned separately. The stats are not updated from
* this function when using flow-based scheduling.
*/
-static void idpf_tx_splitq_clean(struct idpf_queue *tx_q, u16 end,
+static void idpf_tx_splitq_clean(struct idpf_tx_queue *tx_q, u16 end,
int napi_budget,
struct idpf_cleaned_stats *cleaned,
bool descs_only)
@@ -1617,8 +1808,8 @@ static void idpf_tx_splitq_clean(struct idpf_queue *tx_q, u16 end,
s16 ntc = tx_q->next_to_clean;
struct idpf_tx_buf *tx_buf;
- tx_desc = IDPF_FLEX_TX_DESC(tx_q, ntc);
- next_pending_desc = IDPF_FLEX_TX_DESC(tx_q, end);
+ tx_desc = &tx_q->flex_tx[ntc];
+ next_pending_desc = &tx_q->flex_tx[end];
tx_buf = &tx_q->tx_buf[ntc];
ntc -= tx_q->desc_count;
@@ -1703,7 +1894,7 @@ do { \
* stashed. Returns the byte/segment count for the cleaned packet associated
* this completion tag.
*/
-static bool idpf_tx_clean_buf_ring(struct idpf_queue *txq, u16 compl_tag,
+static bool idpf_tx_clean_buf_ring(struct idpf_tx_queue *txq, u16 compl_tag,
struct idpf_cleaned_stats *cleaned,
int budget)
{
@@ -1772,14 +1963,14 @@ static bool idpf_tx_clean_buf_ring(struct idpf_queue *txq, u16 compl_tag,
*
* Returns bytes/packets cleaned
*/
-static void idpf_tx_handle_rs_completion(struct idpf_queue *txq,
+static void idpf_tx_handle_rs_completion(struct idpf_tx_queue *txq,
struct idpf_splitq_tx_compl_desc *desc,
struct idpf_cleaned_stats *cleaned,
int budget)
{
u16 compl_tag;
- if (!test_bit(__IDPF_Q_FLOW_SCH_EN, txq->flags)) {
+ if (!idpf_queue_has(FLOW_SCH_EN, txq)) {
u16 head = le16_to_cpu(desc->q_head_compl_tag.q_head);
return idpf_tx_splitq_clean(txq, head, budget, cleaned, false);
@@ -1802,24 +1993,23 @@ static void idpf_tx_handle_rs_completion(struct idpf_queue *txq,
*
* Returns true if there's any budget left (e.g. the clean is finished)
*/
-static bool idpf_tx_clean_complq(struct idpf_queue *complq, int budget,
+static bool idpf_tx_clean_complq(struct idpf_compl_queue *complq, int budget,
int *cleaned)
{
struct idpf_splitq_tx_compl_desc *tx_desc;
- struct idpf_vport *vport = complq->vport;
s16 ntc = complq->next_to_clean;
struct idpf_netdev_priv *np;
unsigned int complq_budget;
bool complq_ok = true;
int i;
- complq_budget = vport->compln_clean_budget;
- tx_desc = IDPF_SPLITQ_TX_COMPLQ_DESC(complq, ntc);
+ complq_budget = complq->clean_budget;
+ tx_desc = &complq->comp[ntc];
ntc -= complq->desc_count;
do {
struct idpf_cleaned_stats cleaned_stats = { };
- struct idpf_queue *tx_q;
+ struct idpf_tx_queue *tx_q;
int rel_tx_qid;
u16 hw_head;
u8 ctype; /* completion type */
@@ -1828,7 +2018,7 @@ static bool idpf_tx_clean_complq(struct idpf_queue *complq, int budget,
/* if the descriptor isn't done, no work yet to do */
gen = le16_get_bits(tx_desc->qid_comptype_gen,
IDPF_TXD_COMPLQ_GEN_M);
- if (test_bit(__IDPF_Q_GEN_CHK, complq->flags) != gen)
+ if (idpf_queue_has(GEN_CHK, complq) != gen)
break;
/* Find necessary info of TX queue to clean buffers */
@@ -1836,8 +2026,7 @@ static bool idpf_tx_clean_complq(struct idpf_queue *complq, int budget,
IDPF_TXD_COMPLQ_QID_M);
if (rel_tx_qid >= complq->txq_grp->num_txq ||
!complq->txq_grp->txqs[rel_tx_qid]) {
- dev_err(&complq->vport->adapter->pdev->dev,
- "TxQ not found\n");
+ netdev_err(complq->netdev, "TxQ not found\n");
goto fetch_next_desc;
}
tx_q = complq->txq_grp->txqs[rel_tx_qid];
@@ -1860,15 +2049,14 @@ static bool idpf_tx_clean_complq(struct idpf_queue *complq, int budget,
idpf_tx_handle_sw_marker(tx_q);
break;
default:
- dev_err(&tx_q->vport->adapter->pdev->dev,
- "Unknown TX completion type: %d\n",
- ctype);
+ netdev_err(tx_q->netdev,
+ "Unknown TX completion type: %d\n", ctype);
goto fetch_next_desc;
}
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_add(&tx_q->q_stats.tx.packets, cleaned_stats.packets);
- u64_stats_add(&tx_q->q_stats.tx.bytes, cleaned_stats.bytes);
+ u64_stats_add(&tx_q->q_stats.packets, cleaned_stats.packets);
+ u64_stats_add(&tx_q->q_stats.bytes, cleaned_stats.bytes);
tx_q->cleaned_pkts += cleaned_stats.packets;
tx_q->cleaned_bytes += cleaned_stats.bytes;
complq->num_completions++;
@@ -1879,8 +2067,8 @@ fetch_next_desc:
ntc++;
if (unlikely(!ntc)) {
ntc -= complq->desc_count;
- tx_desc = IDPF_SPLITQ_TX_COMPLQ_DESC(complq, 0);
- change_bit(__IDPF_Q_GEN_CHK, complq->flags);
+ tx_desc = &complq->comp[0];
+ idpf_queue_change(GEN_CHK, complq);
}
prefetch(tx_desc);
@@ -1896,9 +2084,9 @@ fetch_next_desc:
IDPF_TX_COMPLQ_OVERFLOW_THRESH(complq)))
complq_ok = false;
- np = netdev_priv(complq->vport->netdev);
+ np = netdev_priv(complq->netdev);
for (i = 0; i < complq->txq_grp->num_txq; ++i) {
- struct idpf_queue *tx_q = complq->txq_grp->txqs[i];
+ struct idpf_tx_queue *tx_q = complq->txq_grp->txqs[i];
struct netdev_queue *nq;
bool dont_wake;
@@ -1909,11 +2097,11 @@ fetch_next_desc:
*cleaned += tx_q->cleaned_pkts;
/* Update BQL */
- nq = netdev_get_tx_queue(tx_q->vport->netdev, tx_q->idx);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
dont_wake = !complq_ok || IDPF_TX_BUF_RSV_LOW(tx_q) ||
np->state != __IDPF_VPORT_UP ||
- !netif_carrier_ok(tx_q->vport->netdev);
+ !netif_carrier_ok(tx_q->netdev);
/* Check if the TXQ needs to and can be restarted */
__netif_txq_completed_wake(nq, tx_q->cleaned_pkts, tx_q->cleaned_bytes,
IDPF_DESC_UNUSED(tx_q), IDPF_TX_WAKE_THRESH,
@@ -1976,7 +2164,7 @@ void idpf_tx_splitq_build_flow_desc(union idpf_tx_flex_desc *desc,
*
* Returns 0 if stop is not needed
*/
-int idpf_tx_maybe_stop_common(struct idpf_queue *tx_q, unsigned int size)
+int idpf_tx_maybe_stop_common(struct idpf_tx_queue *tx_q, unsigned int size)
{
struct netdev_queue *nq;
@@ -1984,10 +2172,10 @@ int idpf_tx_maybe_stop_common(struct idpf_queue *tx_q, unsigned int size)
return 0;
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_inc(&tx_q->q_stats.tx.q_busy);
+ u64_stats_inc(&tx_q->q_stats.q_busy);
u64_stats_update_end(&tx_q->stats_sync);
- nq = netdev_get_tx_queue(tx_q->vport->netdev, tx_q->idx);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
return netif_txq_maybe_stop(nq, IDPF_DESC_UNUSED(tx_q), size, size);
}
@@ -1999,7 +2187,7 @@ int idpf_tx_maybe_stop_common(struct idpf_queue *tx_q, unsigned int size)
*
* Returns 0 if stop is not needed
*/
-static int idpf_tx_maybe_stop_splitq(struct idpf_queue *tx_q,
+static int idpf_tx_maybe_stop_splitq(struct idpf_tx_queue *tx_q,
unsigned int descs_needed)
{
if (idpf_tx_maybe_stop_common(tx_q, descs_needed))
@@ -2023,9 +2211,9 @@ static int idpf_tx_maybe_stop_splitq(struct idpf_queue *tx_q,
splitq_stop:
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_inc(&tx_q->q_stats.tx.q_busy);
+ u64_stats_inc(&tx_q->q_stats.q_busy);
u64_stats_update_end(&tx_q->stats_sync);
- netif_stop_subqueue(tx_q->vport->netdev, tx_q->idx);
+ netif_stop_subqueue(tx_q->netdev, tx_q->idx);
return -EBUSY;
}
@@ -2040,12 +2228,12 @@ splitq_stop:
* to do a register write to update our queue status. We know this can only
* mean tail here as HW should be owning head for TX.
*/
-void idpf_tx_buf_hw_update(struct idpf_queue *tx_q, u32 val,
+void idpf_tx_buf_hw_update(struct idpf_tx_queue *tx_q, u32 val,
bool xmit_more)
{
struct netdev_queue *nq;
- nq = netdev_get_tx_queue(tx_q->vport->netdev, tx_q->idx);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
tx_q->next_to_use = val;
idpf_tx_maybe_stop_common(tx_q, IDPF_TX_DESC_NEEDED);
@@ -2069,7 +2257,7 @@ void idpf_tx_buf_hw_update(struct idpf_queue *tx_q, u32 val,
*
* Returns number of data descriptors needed for this skb.
*/
-unsigned int idpf_tx_desc_count_required(struct idpf_queue *txq,
+unsigned int idpf_tx_desc_count_required(struct idpf_tx_queue *txq,
struct sk_buff *skb)
{
const struct skb_shared_info *shinfo;
@@ -2102,7 +2290,7 @@ unsigned int idpf_tx_desc_count_required(struct idpf_queue *txq,
count = idpf_size_to_txd_count(skb->len);
u64_stats_update_begin(&txq->stats_sync);
- u64_stats_inc(&txq->q_stats.tx.linearize);
+ u64_stats_inc(&txq->q_stats.linearize);
u64_stats_update_end(&txq->stats_sync);
}
@@ -2116,11 +2304,11 @@ unsigned int idpf_tx_desc_count_required(struct idpf_queue *txq,
* @first: original first buffer info buffer for packet
* @idx: starting point on ring to unwind
*/
-void idpf_tx_dma_map_error(struct idpf_queue *txq, struct sk_buff *skb,
+void idpf_tx_dma_map_error(struct idpf_tx_queue *txq, struct sk_buff *skb,
struct idpf_tx_buf *first, u16 idx)
{
u64_stats_update_begin(&txq->stats_sync);
- u64_stats_inc(&txq->q_stats.tx.dma_map_errs);
+ u64_stats_inc(&txq->q_stats.dma_map_errs);
u64_stats_update_end(&txq->stats_sync);
/* clear dma mappings for failed tx_buf map */
@@ -2143,7 +2331,7 @@ void idpf_tx_dma_map_error(struct idpf_queue *txq, struct sk_buff *skb,
* used one additional descriptor for a context
* descriptor. Reset that here.
*/
- tx_desc = IDPF_FLEX_TX_DESC(txq, idx);
+ tx_desc = &txq->flex_tx[idx];
memset(tx_desc, 0, sizeof(struct idpf_flex_tx_ctx_desc));
if (idx == 0)
idx = txq->desc_count;
@@ -2159,7 +2347,7 @@ void idpf_tx_dma_map_error(struct idpf_queue *txq, struct sk_buff *skb,
* @txq: the tx ring to wrap
* @ntu: ring index to bump
*/
-static unsigned int idpf_tx_splitq_bump_ntu(struct idpf_queue *txq, u16 ntu)
+static unsigned int idpf_tx_splitq_bump_ntu(struct idpf_tx_queue *txq, u16 ntu)
{
ntu++;
@@ -2181,7 +2369,7 @@ static unsigned int idpf_tx_splitq_bump_ntu(struct idpf_queue *txq, u16 ntu)
* and gets a physical address for each memory location and programs
* it and the length into the transmit flex descriptor.
*/
-static void idpf_tx_splitq_map(struct idpf_queue *tx_q,
+static void idpf_tx_splitq_map(struct idpf_tx_queue *tx_q,
struct idpf_tx_splitq_params *params,
struct idpf_tx_buf *first)
{
@@ -2202,7 +2390,7 @@ static void idpf_tx_splitq_map(struct idpf_queue *tx_q,
data_len = skb->data_len;
size = skb_headlen(skb);
- tx_desc = IDPF_FLEX_TX_DESC(tx_q, i);
+ tx_desc = &tx_q->flex_tx[i];
dma = dma_map_single(tx_q->dev, skb->data, size, DMA_TO_DEVICE);
@@ -2275,7 +2463,7 @@ static void idpf_tx_splitq_map(struct idpf_queue *tx_q,
i++;
if (i == tx_q->desc_count) {
- tx_desc = IDPF_FLEX_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->flex_tx[0];
i = 0;
tx_q->compl_tag_cur_gen =
IDPF_TX_ADJ_COMPL_TAG_GEN(tx_q);
@@ -2320,7 +2508,7 @@ static void idpf_tx_splitq_map(struct idpf_queue *tx_q,
i++;
if (i == tx_q->desc_count) {
- tx_desc = IDPF_FLEX_TX_DESC(tx_q, 0);
+ tx_desc = &tx_q->flex_tx[0];
i = 0;
tx_q->compl_tag_cur_gen = IDPF_TX_ADJ_COMPL_TAG_GEN(tx_q);
}
@@ -2348,7 +2536,7 @@ static void idpf_tx_splitq_map(struct idpf_queue *tx_q,
tx_q->txq_grp->num_completions_pending++;
/* record bytecount for BQL */
- nq = netdev_get_tx_queue(tx_q->vport->netdev, tx_q->idx);
+ nq = netdev_get_tx_queue(tx_q->netdev, tx_q->idx);
netdev_tx_sent_queue(nq, first->bytecount);
idpf_tx_buf_hw_update(tx_q, i, netdev_xmit_more());
@@ -2525,8 +2713,8 @@ static bool __idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs)
* E.g.: a packet with 7 fragments can require 9 DMA transactions; 1 for TSO
* header, 1 for segment payload, and then 7 for the fragments.
*/
-bool idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs,
- unsigned int count)
+static bool idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs,
+ unsigned int count)
{
if (likely(count < max_bufs))
return false;
@@ -2544,7 +2732,7 @@ bool idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs,
* ring entry to reflect that this index is a context descriptor
*/
static struct idpf_flex_tx_ctx_desc *
-idpf_tx_splitq_get_ctx_desc(struct idpf_queue *txq)
+idpf_tx_splitq_get_ctx_desc(struct idpf_tx_queue *txq)
{
struct idpf_flex_tx_ctx_desc *desc;
int i = txq->next_to_use;
@@ -2553,7 +2741,7 @@ idpf_tx_splitq_get_ctx_desc(struct idpf_queue *txq)
txq->tx_buf[i].compl_tag = IDPF_SPLITQ_TX_INVAL_COMPL_TAG;
/* grab the next descriptor */
- desc = IDPF_FLEX_TX_CTX_DESC(txq, i);
+ desc = &txq->flex_ctx[i];
txq->next_to_use = idpf_tx_splitq_bump_ntu(txq, i);
return desc;
@@ -2564,10 +2752,10 @@ idpf_tx_splitq_get_ctx_desc(struct idpf_queue *txq)
* @tx_q: queue to send buffer on
* @skb: pointer to skb
*/
-netdev_tx_t idpf_tx_drop_skb(struct idpf_queue *tx_q, struct sk_buff *skb)
+netdev_tx_t idpf_tx_drop_skb(struct idpf_tx_queue *tx_q, struct sk_buff *skb)
{
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_inc(&tx_q->q_stats.tx.skb_drops);
+ u64_stats_inc(&tx_q->q_stats.skb_drops);
u64_stats_update_end(&tx_q->stats_sync);
idpf_tx_buf_hw_update(tx_q, tx_q->next_to_use, false);
@@ -2585,7 +2773,7 @@ netdev_tx_t idpf_tx_drop_skb(struct idpf_queue *tx_q, struct sk_buff *skb)
* Returns NETDEV_TX_OK if sent, else an error code
*/
static netdev_tx_t idpf_tx_splitq_frame(struct sk_buff *skb,
- struct idpf_queue *tx_q)
+ struct idpf_tx_queue *tx_q)
{
struct idpf_tx_splitq_params tx_params = { };
struct idpf_tx_buf *first;
@@ -2625,7 +2813,7 @@ static netdev_tx_t idpf_tx_splitq_frame(struct sk_buff *skb,
ctx_desc->tso.qw0.hdr_len = tx_params.offload.tso_hdr_len;
u64_stats_update_begin(&tx_q->stats_sync);
- u64_stats_inc(&tx_q->q_stats.tx.lso_pkts);
+ u64_stats_inc(&tx_q->q_stats.lso_pkts);
u64_stats_update_end(&tx_q->stats_sync);
}
@@ -2642,7 +2830,7 @@ static netdev_tx_t idpf_tx_splitq_frame(struct sk_buff *skb,
first->bytecount = max_t(unsigned int, skb->len, ETH_ZLEN);
}
- if (test_bit(__IDPF_Q_FLOW_SCH_EN, tx_q->flags)) {
+ if (idpf_queue_has(FLOW_SCH_EN, tx_q)) {
tx_params.dtype = IDPF_TX_DESC_DTYPE_FLEX_FLOW_SCHE;
tx_params.eop_cmd = IDPF_TXD_FLEX_FLOW_CMD_EOP;
/* Set the RE bit to catch any packets that may have not been
@@ -2672,17 +2860,16 @@ static netdev_tx_t idpf_tx_splitq_frame(struct sk_buff *skb,
}
/**
- * idpf_tx_splitq_start - Selects the right Tx queue to send buffer
+ * idpf_tx_start - Selects the right Tx queue to send buffer
* @skb: send buffer
* @netdev: network interface device structure
*
* Returns NETDEV_TX_OK if sent, else an error code
*/
-netdev_tx_t idpf_tx_splitq_start(struct sk_buff *skb,
- struct net_device *netdev)
+netdev_tx_t idpf_tx_start(struct sk_buff *skb, struct net_device *netdev)
{
struct idpf_vport *vport = idpf_netdev_to_vport(netdev);
- struct idpf_queue *tx_q;
+ struct idpf_tx_queue *tx_q;
if (unlikely(skb_get_queue_mapping(skb) >= vport->num_txq)) {
dev_kfree_skb_any(skb);
@@ -2701,31 +2888,10 @@ netdev_tx_t idpf_tx_splitq_start(struct sk_buff *skb,
return NETDEV_TX_OK;
}
- return idpf_tx_splitq_frame(skb, tx_q);
-}
-
-/**
- * idpf_ptype_to_htype - get a hash type
- * @decoded: Decoded Rx packet type related fields
- *
- * Returns appropriate hash type (such as PKT_HASH_TYPE_L2/L3/L4) to be used by
- * skb_set_hash based on PTYPE as parsed by HW Rx pipeline and is part of
- * Rx desc.
- */
-enum pkt_hash_types idpf_ptype_to_htype(const struct idpf_rx_ptype_decoded *decoded)
-{
- if (!decoded->known)
- return PKT_HASH_TYPE_NONE;
- if (decoded->payload_layer == IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY2 &&
- decoded->inner_prot)
- return PKT_HASH_TYPE_L4;
- if (decoded->payload_layer == IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY2 &&
- decoded->outer_ip)
- return PKT_HASH_TYPE_L3;
- if (decoded->outer_ip == IDPF_RX_PTYPE_OUTER_L2)
- return PKT_HASH_TYPE_L2;
-
- return PKT_HASH_TYPE_NONE;
+ if (idpf_is_queue_model_split(vport->txq_model))
+ return idpf_tx_splitq_frame(skb, tx_q);
+ else
+ return idpf_tx_singleq_frame(skb, tx_q);
}
/**
@@ -2735,20 +2901,21 @@ enum pkt_hash_types idpf_ptype_to_htype(const struct idpf_rx_ptype_decoded *deco
* @rx_desc: Receive descriptor
* @decoded: Decoded Rx packet type related fields
*/
-static void idpf_rx_hash(struct idpf_queue *rxq, struct sk_buff *skb,
- struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc,
- struct idpf_rx_ptype_decoded *decoded)
+static void
+idpf_rx_hash(const struct idpf_rx_queue *rxq, struct sk_buff *skb,
+ const struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc,
+ struct libeth_rx_pt decoded)
{
u32 hash;
- if (unlikely(!idpf_is_feature_ena(rxq->vport, NETIF_F_RXHASH)))
+ if (!libeth_rx_pt_has_hash(rxq->netdev, decoded))
return;
hash = le16_to_cpu(rx_desc->hash1) |
(rx_desc->ff2_mirrid_hash2.hash2 << 16) |
(rx_desc->hash3 << 24);
- skb_set_hash(skb, hash, idpf_ptype_to_htype(decoded));
+ libeth_rx_pt_set_hash(skb, hash, decoded);
}
/**
@@ -2760,92 +2927,83 @@ static void idpf_rx_hash(struct idpf_queue *rxq, struct sk_buff *skb,
*
* skb->protocol must be set before this function is called
*/
-static void idpf_rx_csum(struct idpf_queue *rxq, struct sk_buff *skb,
- struct idpf_rx_csum_decoded *csum_bits,
- struct idpf_rx_ptype_decoded *decoded)
+static void idpf_rx_csum(struct idpf_rx_queue *rxq, struct sk_buff *skb,
+ struct idpf_rx_csum_decoded csum_bits,
+ struct libeth_rx_pt decoded)
{
bool ipv4, ipv6;
/* check if Rx checksum is enabled */
- if (unlikely(!idpf_is_feature_ena(rxq->vport, NETIF_F_RXCSUM)))
+ if (!libeth_rx_pt_has_checksum(rxq->netdev, decoded))
return;
/* check if HW has decoded the packet and checksum */
- if (!(csum_bits->l3l4p))
+ if (unlikely(!csum_bits.l3l4p))
return;
- ipv4 = IDPF_RX_PTYPE_TO_IPV(decoded, IDPF_RX_PTYPE_OUTER_IPV4);
- ipv6 = IDPF_RX_PTYPE_TO_IPV(decoded, IDPF_RX_PTYPE_OUTER_IPV6);
+ ipv4 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV4;
+ ipv6 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV6;
- if (ipv4 && (csum_bits->ipe || csum_bits->eipe))
+ if (unlikely(ipv4 && (csum_bits.ipe || csum_bits.eipe)))
goto checksum_fail;
- if (ipv6 && csum_bits->ipv6exadd)
+ if (unlikely(ipv6 && csum_bits.ipv6exadd))
return;
/* check for L4 errors and handle packets that were not able to be
* checksummed
*/
- if (csum_bits->l4e)
+ if (unlikely(csum_bits.l4e))
goto checksum_fail;
- /* Only report checksum unnecessary for ICMP, TCP, UDP, or SCTP */
- switch (decoded->inner_prot) {
- case IDPF_RX_PTYPE_INNER_PROT_ICMP:
- case IDPF_RX_PTYPE_INNER_PROT_TCP:
- case IDPF_RX_PTYPE_INNER_PROT_UDP:
- if (!csum_bits->raw_csum_inv) {
- u16 csum = csum_bits->raw_csum;
-
- skb->csum = csum_unfold((__force __sum16)~swab16(csum));
- skb->ip_summed = CHECKSUM_COMPLETE;
- } else {
- skb->ip_summed = CHECKSUM_UNNECESSARY;
- }
- break;
- case IDPF_RX_PTYPE_INNER_PROT_SCTP:
+ if (csum_bits.raw_csum_inv ||
+ decoded.inner_prot == LIBETH_RX_PT_INNER_SCTP) {
skb->ip_summed = CHECKSUM_UNNECESSARY;
- break;
- default:
- break;
+ return;
}
+ skb->csum = csum_unfold((__force __sum16)~swab16(csum_bits.raw_csum));
+ skb->ip_summed = CHECKSUM_COMPLETE;
+
return;
checksum_fail:
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.hw_csum_err);
+ u64_stats_inc(&rxq->q_stats.hw_csum_err);
u64_stats_update_end(&rxq->stats_sync);
}
/**
* idpf_rx_splitq_extract_csum_bits - Extract checksum bits from descriptor
* @rx_desc: receive descriptor
- * @csum: structure to extract checksum fields
*
+ * Return: parsed checksum status.
**/
-static void idpf_rx_splitq_extract_csum_bits(struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc,
- struct idpf_rx_csum_decoded *csum)
+static struct idpf_rx_csum_decoded
+idpf_rx_splitq_extract_csum_bits(const struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc)
{
+ struct idpf_rx_csum_decoded csum = { };
u8 qword0, qword1;
qword0 = rx_desc->status_err0_qw0;
qword1 = rx_desc->status_err0_qw1;
- csum->ipe = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_IPE_M,
+ csum.ipe = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_IPE_M,
+ qword1);
+ csum.eipe = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_EIPE_M,
qword1);
- csum->eipe = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_EIPE_M,
+ csum.l4e = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_L4E_M,
+ qword1);
+ csum.l3l4p = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_L3L4P_M,
qword1);
- csum->l4e = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_XSUM_L4E_M,
- qword1);
- csum->l3l4p = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_L3L4P_M,
- qword1);
- csum->ipv6exadd = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_IPV6EXADD_M,
- qword0);
- csum->raw_csum_inv =
+ csum.ipv6exadd = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_IPV6EXADD_M,
+ qword0);
+ csum.raw_csum_inv =
le16_get_bits(rx_desc->ptype_err_fflags0,
VIRTCHNL2_RX_FLEX_DESC_ADV_RAW_CSUM_INV_M);
- csum->raw_csum = le16_to_cpu(rx_desc->misc.raw_cs);
+ csum.raw_csum = le16_to_cpu(rx_desc->misc.raw_cs);
+
+ return csum;
}
/**
@@ -2860,23 +3018,24 @@ static void idpf_rx_splitq_extract_csum_bits(struct virtchnl2_rx_flex_desc_adv_n
* Populate the skb fields with the total number of RSC segments, RSC payload
* length and packet type.
*/
-static int idpf_rx_rsc(struct idpf_queue *rxq, struct sk_buff *skb,
- struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc,
- struct idpf_rx_ptype_decoded *decoded)
+static int idpf_rx_rsc(struct idpf_rx_queue *rxq, struct sk_buff *skb,
+ const struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc,
+ struct libeth_rx_pt decoded)
{
u16 rsc_segments, rsc_seg_len;
bool ipv4, ipv6;
int len;
- if (unlikely(!decoded->outer_ip))
+ if (unlikely(libeth_rx_pt_get_ip_ver(decoded) ==
+ LIBETH_RX_PT_OUTER_L2))
return -EINVAL;
rsc_seg_len = le16_to_cpu(rx_desc->misc.rscseglen);
if (unlikely(!rsc_seg_len))
return -EINVAL;
- ipv4 = IDPF_RX_PTYPE_TO_IPV(decoded, IDPF_RX_PTYPE_OUTER_IPV4);
- ipv6 = IDPF_RX_PTYPE_TO_IPV(decoded, IDPF_RX_PTYPE_OUTER_IPV6);
+ ipv4 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV4;
+ ipv6 = libeth_rx_pt_get_ip_ver(decoded) == LIBETH_RX_PT_OUTER_IPV6;
if (unlikely(!(ipv4 ^ ipv6)))
return -EINVAL;
@@ -2914,7 +3073,7 @@ static int idpf_rx_rsc(struct idpf_queue *rxq, struct sk_buff *skb,
tcp_gro_complete(skb);
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.rsc_pkts);
+ u64_stats_inc(&rxq->q_stats.rsc_pkts);
u64_stats_update_end(&rxq->stats_sync);
return 0;
@@ -2930,35 +3089,31 @@ static int idpf_rx_rsc(struct idpf_queue *rxq, struct sk_buff *skb,
* order to populate the hash, checksum, protocol, and
* other fields within the skb.
*/
-static int idpf_rx_process_skb_fields(struct idpf_queue *rxq,
- struct sk_buff *skb,
- struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc)
+static int
+idpf_rx_process_skb_fields(struct idpf_rx_queue *rxq, struct sk_buff *skb,
+ const struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc)
{
- struct idpf_rx_csum_decoded csum_bits = { };
- struct idpf_rx_ptype_decoded decoded;
+ struct idpf_rx_csum_decoded csum_bits;
+ struct libeth_rx_pt decoded;
u16 rx_ptype;
rx_ptype = le16_get_bits(rx_desc->ptype_err_fflags0,
VIRTCHNL2_RX_FLEX_DESC_ADV_PTYPE_M);
-
- skb->protocol = eth_type_trans(skb, rxq->vport->netdev);
-
- decoded = rxq->vport->rx_ptype_lkup[rx_ptype];
- /* If we don't know the ptype we can't do anything else with it. Just
- * pass it up the stack as-is.
- */
- if (!decoded.known)
- return 0;
+ decoded = rxq->rx_ptype_lkup[rx_ptype];
/* process RSS/hash */
- idpf_rx_hash(rxq, skb, rx_desc, &decoded);
+ idpf_rx_hash(rxq, skb, rx_desc, decoded);
+
+ skb->protocol = eth_type_trans(skb, rxq->netdev);
if (le16_get_bits(rx_desc->hdrlen_flags,
VIRTCHNL2_RX_FLEX_DESC_ADV_RSC_M))
- return idpf_rx_rsc(rxq, skb, rx_desc, &decoded);
+ return idpf_rx_rsc(rxq, skb, rx_desc, decoded);
+
+ csum_bits = idpf_rx_splitq_extract_csum_bits(rx_desc);
+ idpf_rx_csum(rxq, skb, csum_bits, decoded);
- idpf_rx_splitq_extract_csum_bits(rx_desc, &csum_bits);
- idpf_rx_csum(rxq, skb, &csum_bits, &decoded);
+ skb_record_rx_queue(skb, rxq->idx);
return 0;
}
@@ -2976,103 +3131,73 @@ static int idpf_rx_process_skb_fields(struct idpf_queue *rxq,
void idpf_rx_add_frag(struct idpf_rx_buf *rx_buf, struct sk_buff *skb,
unsigned int size)
{
- skb_add_rx_frag(skb, skb_shinfo(skb)->nr_frags, rx_buf->page,
- rx_buf->page_offset, size, rx_buf->truesize);
+ u32 hr = rx_buf->page->pp->p.offset;
- rx_buf->page = NULL;
+ skb_add_rx_frag(skb, skb_shinfo(skb)->nr_frags, rx_buf->page,
+ rx_buf->offset + hr, size, rx_buf->truesize);
}
/**
- * idpf_rx_construct_skb - Allocate skb and populate it
- * @rxq: Rx descriptor queue
- * @rx_buf: Rx buffer to pull data from
- * @size: the length of the packet
+ * idpf_rx_hsplit_wa - handle header buffer overflows and split errors
+ * @hdr: Rx buffer for the headers
+ * @buf: Rx buffer for the payload
+ * @data_len: number of bytes received to the payload buffer
*
- * This function allocates an skb. It then populates it with the page
- * data from the current receive descriptor, taking care to set up the
- * skb correctly.
+ * When a header buffer overflow occurs or the HW was unable do parse the
+ * packet type to perform header split, the whole frame gets placed to the
+ * payload buffer. We can't build a valid skb around a payload buffer when
+ * the header split is active since it doesn't reserve any head- or tailroom.
+ * In that case, copy either the whole frame when it's short or just the
+ * Ethernet header to the header buffer to be able to build an skb and adjust
+ * the data offset in the payload buffer, IOW emulate the header split.
+ *
+ * Return: number of bytes copied to the header buffer.
*/
-struct sk_buff *idpf_rx_construct_skb(struct idpf_queue *rxq,
- struct idpf_rx_buf *rx_buf,
- unsigned int size)
+static u32 idpf_rx_hsplit_wa(const struct libeth_fqe *hdr,
+ struct libeth_fqe *buf, u32 data_len)
{
- unsigned int headlen;
- struct sk_buff *skb;
- void *va;
-
- va = page_address(rx_buf->page) + rx_buf->page_offset;
-
- /* prefetch first cache line of first page */
- net_prefetch(va);
- /* allocate a skb to store the frags */
- skb = napi_alloc_skb(&rxq->q_vector->napi, IDPF_RX_HDR_SIZE);
- if (unlikely(!skb)) {
- idpf_rx_put_page(rx_buf);
-
- return NULL;
- }
-
- skb_record_rx_queue(skb, rxq->idx);
- skb_mark_for_recycle(skb);
+ u32 copy = data_len <= L1_CACHE_BYTES ? data_len : ETH_HLEN;
+ const void *src;
+ void *dst;
- /* Determine available headroom for copy */
- headlen = size;
- if (headlen > IDPF_RX_HDR_SIZE)
- headlen = eth_get_headlen(skb->dev, va, IDPF_RX_HDR_SIZE);
-
- /* align pull length to size of long to optimize memcpy performance */
- memcpy(__skb_put(skb, headlen), va, ALIGN(headlen, sizeof(long)));
-
- /* if we exhaust the linear part then add what is left as a frag */
- size -= headlen;
- if (!size) {
- idpf_rx_put_page(rx_buf);
-
- return skb;
- }
+ if (!libeth_rx_sync_for_cpu(buf, copy))
+ return 0;
- skb_add_rx_frag(skb, 0, rx_buf->page, rx_buf->page_offset + headlen,
- size, rx_buf->truesize);
+ dst = page_address(hdr->page) + hdr->offset + hdr->page->pp->p.offset;
+ src = page_address(buf->page) + buf->offset + buf->page->pp->p.offset;
+ memcpy(dst, src, LARGEST_ALIGN(copy));
- /* Since we're giving the page to the stack, clear our reference to it.
- * We'll get a new one during buffer posting.
- */
- rx_buf->page = NULL;
+ buf->offset += copy;
- return skb;
+ return copy;
}
/**
- * idpf_rx_hdr_construct_skb - Allocate skb and populate it from header buffer
- * @rxq: Rx descriptor queue
- * @va: Rx buffer to pull data from
+ * idpf_rx_build_skb - Allocate skb and populate it from header buffer
+ * @buf: Rx buffer to pull data from
* @size: the length of the packet
*
* This function allocates an skb. It then populates it with the page data from
* the current receive descriptor, taking care to set up the skb correctly.
- * This specifically uses a header buffer to start building the skb.
*/
-static struct sk_buff *idpf_rx_hdr_construct_skb(struct idpf_queue *rxq,
- const void *va,
- unsigned int size)
+struct sk_buff *idpf_rx_build_skb(const struct libeth_fqe *buf, u32 size)
{
+ u32 hr = buf->page->pp->p.offset;
struct sk_buff *skb;
+ void *va;
- /* allocate a skb to store the frags */
- skb = napi_alloc_skb(&rxq->q_vector->napi, size);
+ va = page_address(buf->page) + buf->offset;
+ prefetch(va + hr);
+
+ skb = napi_build_skb(va, buf->truesize);
if (unlikely(!skb))
return NULL;
- skb_record_rx_queue(skb, rxq->idx);
-
- memcpy(__skb_put(skb, size), va, ALIGN(size, sizeof(long)));
-
- /* More than likely, a payload fragment, which will use a page from
- * page_pool will be added to the SKB so mark it for recycle
- * preemptively. And if not, it's inconsequential.
- */
skb_mark_for_recycle(skb);
+ skb_reserve(skb, hr);
+ __skb_put(skb, size);
+
return skb;
}
@@ -3115,31 +3240,27 @@ static bool idpf_rx_splitq_is_eop(struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_de
*
* Returns amount of work completed
*/
-static int idpf_rx_splitq_clean(struct idpf_queue *rxq, int budget)
+static int idpf_rx_splitq_clean(struct idpf_rx_queue *rxq, int budget)
{
int total_rx_bytes = 0, total_rx_pkts = 0;
- struct idpf_queue *rx_bufq = NULL;
+ struct idpf_buf_queue *rx_bufq = NULL;
struct sk_buff *skb = rxq->skb;
u16 ntc = rxq->next_to_clean;
/* Process Rx packets bounded by budget */
while (likely(total_rx_pkts < budget)) {
struct virtchnl2_rx_flex_desc_adv_nic_3 *rx_desc;
+ struct libeth_fqe *hdr, *rx_buf = NULL;
struct idpf_sw_queue *refillq = NULL;
struct idpf_rxq_set *rxq_set = NULL;
- struct idpf_rx_buf *rx_buf = NULL;
- union virtchnl2_rx_desc *desc;
unsigned int pkt_len = 0;
unsigned int hdr_len = 0;
u16 gen_id, buf_id = 0;
- /* Header buffer overflow only valid for header split */
- bool hbo = false;
int bufq_id;
u8 rxdid;
/* get the Rx desc from Rx queue based on 'next_to_clean' */
- desc = IDPF_RX_DESC(rxq, ntc);
- rx_desc = (struct virtchnl2_rx_flex_desc_adv_nic_3 *)desc;
+ rx_desc = &rxq->rx[ntc].flex_adv_nic_3_wb;
/* This memory barrier is needed to keep us from reading
* any other fields out of the rx_desc
@@ -3150,7 +3271,7 @@ static int idpf_rx_splitq_clean(struct idpf_queue *rxq, int budget)
gen_id = le16_get_bits(rx_desc->pktlen_gen_bufq_id,
VIRTCHNL2_RX_FLEX_DESC_ADV_GEN_M);
- if (test_bit(__IDPF_Q_GEN_CHK, rxq->flags) != gen_id)
+ if (idpf_queue_has(GEN_CHK, rxq) != gen_id)
break;
rxdid = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_RXDID_M,
@@ -3158,7 +3279,7 @@ static int idpf_rx_splitq_clean(struct idpf_queue *rxq, int budget)
if (rxdid != VIRTCHNL2_RXDID_2_FLEX_SPLITQ) {
IDPF_RX_BUMP_NTC(rxq, ntc);
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.bad_descs);
+ u64_stats_inc(&rxq->q_stats.bad_descs);
u64_stats_update_end(&rxq->stats_sync);
continue;
}
@@ -3166,71 +3287,79 @@ static int idpf_rx_splitq_clean(struct idpf_queue *rxq, int budget)
pkt_len = le16_get_bits(rx_desc->pktlen_gen_bufq_id,
VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_PBUF_M);
- hbo = FIELD_GET(VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_HBO_M,
- rx_desc->status_err0_qw1);
-
- if (unlikely(hbo)) {
- /* If a header buffer overflow, occurs, i.e. header is
- * too large to fit in the header split buffer, HW will
- * put the entire packet, including headers, in the
- * data/payload buffer.
- */
- u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.hsplit_buf_ovf);
- u64_stats_update_end(&rxq->stats_sync);
- goto bypass_hsplit;
- }
-
- hdr_len = le16_get_bits(rx_desc->hdrlen_flags,
- VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_HDR_M);
-
-bypass_hsplit:
bufq_id = le16_get_bits(rx_desc->pktlen_gen_bufq_id,
VIRTCHNL2_RX_FLEX_DESC_ADV_BUFQ_ID_M);
rxq_set = container_of(rxq, struct idpf_rxq_set, rxq);
- if (!bufq_id)
- refillq = rxq_set->refillq0;
- else
- refillq = rxq_set->refillq1;
+ refillq = rxq_set->refillq[bufq_id];
/* retrieve buffer from the rxq */
- rx_bufq = &rxq->rxq_grp->splitq.bufq_sets[bufq_id].bufq;
+ rx_bufq = &rxq->bufq_sets[bufq_id].bufq;
buf_id = le16_to_cpu(rx_desc->buf_id);
- rx_buf = &rx_bufq->rx_buf.buf[buf_id];
+ rx_buf = &rx_bufq->buf[buf_id];
+
+ if (!rx_bufq->hdr_pp)
+ goto payload;
+
+#define __HBO_BIT VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_HBO_M
+#define __HDR_LEN_MASK VIRTCHNL2_RX_FLEX_DESC_ADV_LEN_HDR_M
+ if (likely(!(rx_desc->status_err0_qw1 & __HBO_BIT)))
+ /* If a header buffer overflow, occurs, i.e. header is
+ * too large to fit in the header split buffer, HW will
+ * put the entire packet, including headers, in the
+ * data/payload buffer.
+ */
+ hdr_len = le16_get_bits(rx_desc->hdrlen_flags,
+ __HDR_LEN_MASK);
+#undef __HDR_LEN_MASK
+#undef __HBO_BIT
+
+ hdr = &rx_bufq->hdr_buf[buf_id];
- if (hdr_len) {
- const void *va = (u8 *)rx_bufq->rx_buf.hdr_buf_va +
- (u32)buf_id * IDPF_HDR_BUF_SIZE;
+ if (unlikely(!hdr_len && !skb)) {
+ hdr_len = idpf_rx_hsplit_wa(hdr, rx_buf, pkt_len);
+ pkt_len -= hdr_len;
- skb = idpf_rx_hdr_construct_skb(rxq, va, hdr_len);
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_inc(&rxq->q_stats.rx.hsplit_pkts);
+ u64_stats_inc(&rxq->q_stats.hsplit_buf_ovf);
u64_stats_update_end(&rxq->stats_sync);
}
- if (pkt_len) {
- idpf_rx_sync_for_cpu(rx_buf, pkt_len);
- if (skb)
- idpf_rx_add_frag(rx_buf, skb, pkt_len);
- else
- skb = idpf_rx_construct_skb(rxq, rx_buf,
- pkt_len);
- } else {
- idpf_rx_put_page(rx_buf);
+ if (libeth_rx_sync_for_cpu(hdr, hdr_len)) {
+ skb = idpf_rx_build_skb(hdr, hdr_len);
+ if (!skb)
+ break;
+
+ u64_stats_update_begin(&rxq->stats_sync);
+ u64_stats_inc(&rxq->q_stats.hsplit_pkts);
+ u64_stats_update_end(&rxq->stats_sync);
}
+ hdr->page = NULL;
+
+payload:
+ if (!libeth_rx_sync_for_cpu(rx_buf, pkt_len))
+ goto skip_data;
+
+ if (skb)
+ idpf_rx_add_frag(rx_buf, skb, pkt_len);
+ else
+ skb = idpf_rx_build_skb(rx_buf, pkt_len);
+
/* exit if we failed to retrieve a buffer */
if (!skb)
break;
- idpf_rx_post_buf_refill(refillq, buf_id);
+skip_data:
+ rx_buf->page = NULL;
+ idpf_rx_post_buf_refill(refillq, buf_id);
IDPF_RX_BUMP_NTC(rxq, ntc);
+
/* skip if it is non EOP desc */
- if (!idpf_rx_splitq_is_eop(rx_desc))
+ if (!idpf_rx_splitq_is_eop(rx_desc) || unlikely(!skb))
continue;
/* pad skb if needed (to make valid ethernet frame) */
@@ -3250,7 +3379,7 @@ bypass_hsplit:
}
/* send completed skb up the stack */
- napi_gro_receive(&rxq->q_vector->napi, skb);
+ napi_gro_receive(rxq->napi, skb);
skb = NULL;
/* update budget accounting */
@@ -3261,8 +3390,8 @@ bypass_hsplit:
rxq->skb = skb;
u64_stats_update_begin(&rxq->stats_sync);
- u64_stats_add(&rxq->q_stats.rx.packets, total_rx_pkts);
- u64_stats_add(&rxq->q_stats.rx.bytes, total_rx_bytes);
+ u64_stats_add(&rxq->q_stats.packets, total_rx_pkts);
+ u64_stats_add(&rxq->q_stats.bytes, total_rx_bytes);
u64_stats_update_end(&rxq->stats_sync);
/* guarantee a trip back through this routine if there was a failure */
@@ -3272,34 +3401,41 @@ bypass_hsplit:
/**
* idpf_rx_update_bufq_desc - Update buffer queue descriptor
* @bufq: Pointer to the buffer queue
- * @refill_desc: SW Refill queue descriptor containing buffer ID
+ * @buf_id: buffer ID
* @buf_desc: Buffer queue descriptor
*
* Return 0 on success and negative on failure.
*/
-static int idpf_rx_update_bufq_desc(struct idpf_queue *bufq, u16 refill_desc,
+static int idpf_rx_update_bufq_desc(struct idpf_buf_queue *bufq, u32 buf_id,
struct virtchnl2_splitq_rx_buf_desc *buf_desc)
{
- struct idpf_rx_buf *buf;
+ struct libeth_fq_fp fq = {
+ .pp = bufq->pp,
+ .fqes = bufq->buf,
+ .truesize = bufq->truesize,
+ .count = bufq->desc_count,
+ };
dma_addr_t addr;
- u16 buf_id;
-
- buf_id = FIELD_GET(IDPF_RX_BI_BUFID_M, refill_desc);
- buf = &bufq->rx_buf.buf[buf_id];
-
- addr = idpf_alloc_page(bufq->pp, buf, bufq->rx_buf_size);
- if (unlikely(addr == DMA_MAPPING_ERROR))
+ addr = libeth_rx_alloc(&fq, buf_id);
+ if (addr == DMA_MAPPING_ERROR)
return -ENOMEM;
buf_desc->pkt_addr = cpu_to_le64(addr);
buf_desc->qword0.buf_id = cpu_to_le16(buf_id);
- if (!bufq->rx_hsplit_en)
+ if (!idpf_queue_has(HSPLIT_EN, bufq))
return 0;
- buf_desc->hdr_addr = cpu_to_le64(bufq->rx_buf.hdr_buf_pa +
- (u32)buf_id * IDPF_HDR_BUF_SIZE);
+ fq.pp = bufq->hdr_pp;
+ fq.fqes = bufq->hdr_buf;
+ fq.truesize = bufq->hdr_truesize;
+
+ addr = libeth_rx_alloc(&fq, buf_id);
+ if (addr == DMA_MAPPING_ERROR)
+ return -ENOMEM;
+
+ buf_desc->hdr_addr = cpu_to_le64(addr);
return 0;
}
@@ -3311,38 +3447,37 @@ static int idpf_rx_update_bufq_desc(struct idpf_queue *bufq, u16 refill_desc,
*
* This function takes care of the buffer refill management
*/
-static void idpf_rx_clean_refillq(struct idpf_queue *bufq,
+static void idpf_rx_clean_refillq(struct idpf_buf_queue *bufq,
struct idpf_sw_queue *refillq)
{
struct virtchnl2_splitq_rx_buf_desc *buf_desc;
u16 bufq_nta = bufq->next_to_alloc;
u16 ntc = refillq->next_to_clean;
int cleaned = 0;
- u16 gen;
- buf_desc = IDPF_SPLITQ_RX_BUF_DESC(bufq, bufq_nta);
+ buf_desc = &bufq->split_buf[bufq_nta];
/* make sure we stop at ring wrap in the unlikely case ring is full */
while (likely(cleaned < refillq->desc_count)) {
- u16 refill_desc = IDPF_SPLITQ_RX_BI_DESC(refillq, ntc);
+ u32 buf_id, refill_desc = refillq->ring[ntc];
bool failure;
- gen = FIELD_GET(IDPF_RX_BI_GEN_M, refill_desc);
- if (test_bit(__IDPF_RFLQ_GEN_CHK, refillq->flags) != gen)
+ if (idpf_queue_has(RFL_GEN_CHK, refillq) !=
+ !!(refill_desc & IDPF_RX_BI_GEN_M))
break;
- failure = idpf_rx_update_bufq_desc(bufq, refill_desc,
- buf_desc);
+ buf_id = FIELD_GET(IDPF_RX_BI_BUFID_M, refill_desc);
+ failure = idpf_rx_update_bufq_desc(bufq, buf_id, buf_desc);
if (failure)
break;
if (unlikely(++ntc == refillq->desc_count)) {
- change_bit(__IDPF_RFLQ_GEN_CHK, refillq->flags);
+ idpf_queue_change(RFL_GEN_CHK, refillq);
ntc = 0;
}
if (unlikely(++bufq_nta == bufq->desc_count)) {
- buf_desc = IDPF_SPLITQ_RX_BUF_DESC(bufq, 0);
+ buf_desc = &bufq->split_buf[0];
bufq_nta = 0;
} else {
buf_desc++;
@@ -3371,16 +3506,21 @@ static void idpf_rx_clean_refillq(struct idpf_queue *bufq,
/**
* idpf_rx_clean_refillq_all - Clean all refill queues
* @bufq: buffer queue with refill queues
+ * @nid: ID of the closest NUMA node with memory
*
* Iterates through all refill queues assigned to the buffer queue assigned to
* this vector. Returns true if clean is complete within budget, false
* otherwise.
*/
-static void idpf_rx_clean_refillq_all(struct idpf_queue *bufq)
+static void idpf_rx_clean_refillq_all(struct idpf_buf_queue *bufq, int nid)
{
struct idpf_bufq_set *bufq_set;
int i;
+ page_pool_nid_changed(bufq->pp, nid);
+ if (bufq->hdr_pp)
+ page_pool_nid_changed(bufq->hdr_pp, nid);
+
bufq_set = container_of(bufq, struct idpf_bufq_set, bufq);
for (i = 0; i < bufq_set->num_refillqs; i++)
idpf_rx_clean_refillq(bufq, &bufq_set->refillqs[i]);
@@ -3441,12 +3581,16 @@ void idpf_vport_intr_rel(struct idpf_vport *vport)
for (v_idx = 0; v_idx < vport->num_q_vectors; v_idx++) {
struct idpf_q_vector *q_vector = &vport->q_vectors[v_idx];
+ kfree(q_vector->complq);
+ q_vector->complq = NULL;
kfree(q_vector->bufq);
q_vector->bufq = NULL;
kfree(q_vector->tx);
q_vector->tx = NULL;
kfree(q_vector->rx);
q_vector->rx = NULL;
+
+ free_cpumask_var(q_vector->affinity_mask);
}
/* Clean up the mapping of queues to vectors */
@@ -3495,7 +3639,7 @@ static void idpf_vport_intr_rel_irq(struct idpf_vport *vport)
/* clear the affinity_mask in the IRQ descriptor */
irq_set_affinity_hint(irq_num, NULL);
- free_irq(irq_num, q_vector);
+ kfree(free_irq(irq_num, q_vector));
}
}
@@ -3579,13 +3723,13 @@ static void idpf_net_dim(struct idpf_q_vector *q_vector)
goto check_rx_itr;
for (i = 0, packets = 0, bytes = 0; i < q_vector->num_txq; i++) {
- struct idpf_queue *txq = q_vector->tx[i];
+ struct idpf_tx_queue *txq = q_vector->tx[i];
unsigned int start;
do {
start = u64_stats_fetch_begin(&txq->stats_sync);
- packets += u64_stats_read(&txq->q_stats.tx.packets);
- bytes += u64_stats_read(&txq->q_stats.tx.bytes);
+ packets += u64_stats_read(&txq->q_stats.packets);
+ bytes += u64_stats_read(&txq->q_stats.bytes);
} while (u64_stats_fetch_retry(&txq->stats_sync, start));
}
@@ -3598,13 +3742,13 @@ check_rx_itr:
return;
for (i = 0, packets = 0, bytes = 0; i < q_vector->num_rxq; i++) {
- struct idpf_queue *rxq = q_vector->rx[i];
+ struct idpf_rx_queue *rxq = q_vector->rx[i];
unsigned int start;
do {
start = u64_stats_fetch_begin(&rxq->stats_sync);
- packets += u64_stats_read(&rxq->q_stats.rx.packets);
- bytes += u64_stats_read(&rxq->q_stats.rx.bytes);
+ packets += u64_stats_read(&rxq->q_stats.packets);
+ bytes += u64_stats_read(&rxq->q_stats.bytes);
} while (u64_stats_fetch_retry(&rxq->stats_sync, start));
}
@@ -3646,6 +3790,7 @@ static int idpf_vport_intr_req_irq(struct idpf_vport *vport, char *basename)
for (vector = 0; vector < vport->num_q_vectors; vector++) {
struct idpf_q_vector *q_vector = &vport->q_vectors[vector];
+ char *name;
vidx = vport->q_vector_idxs[vector];
irq_num = adapter->msix_entries[vidx].vector;
@@ -3659,18 +3804,18 @@ static int idpf_vport_intr_req_irq(struct idpf_vport *vport, char *basename)
else
continue;
- q_vector->name = kasprintf(GFP_KERNEL, "%s-%s-%d",
- basename, vec_name, vidx);
+ name = kasprintf(GFP_KERNEL, "%s-%s-%d", basename, vec_name,
+ vidx);
err = request_irq(irq_num, idpf_vport_intr_clean_queues, 0,
- q_vector->name, q_vector);
+ name, q_vector);
if (err) {
netdev_err(vport->netdev,
"Request_irq failed, error: %d\n", err);
goto free_q_irqs;
}
/* assign the mask for this irq */
- irq_set_affinity_hint(irq_num, &q_vector->affinity_mask);
+ irq_set_affinity_hint(irq_num, q_vector->affinity_mask);
}
return 0;
@@ -3679,7 +3824,7 @@ free_q_irqs:
while (--vector >= 0) {
vidx = vport->q_vector_idxs[vector];
irq_num = adapter->msix_entries[vidx].vector;
- free_irq(irq_num, &vport->q_vectors[vector]);
+ kfree(free_irq(irq_num, &vport->q_vectors[vector]));
}
return err;
@@ -3846,16 +3991,17 @@ static void idpf_vport_intr_napi_ena_all(struct idpf_vport *vport)
static bool idpf_tx_splitq_clean_all(struct idpf_q_vector *q_vec,
int budget, int *cleaned)
{
- u16 num_txq = q_vec->num_txq;
+ u16 num_complq = q_vec->num_complq;
bool clean_complete = true;
int i, budget_per_q;
- if (unlikely(!num_txq))
+ if (unlikely(!num_complq))
return true;
- budget_per_q = DIV_ROUND_UP(budget, num_txq);
- for (i = 0; i < num_txq; i++)
- clean_complete &= idpf_tx_clean_complq(q_vec->tx[i],
+ budget_per_q = DIV_ROUND_UP(budget, num_complq);
+
+ for (i = 0; i < num_complq; i++)
+ clean_complete &= idpf_tx_clean_complq(q_vec->complq[i],
budget_per_q, cleaned);
return clean_complete;
@@ -3876,13 +4022,14 @@ static bool idpf_rx_splitq_clean_all(struct idpf_q_vector *q_vec, int budget,
bool clean_complete = true;
int pkts_cleaned = 0;
int i, budget_per_q;
+ int nid;
/* We attempt to distribute budget to each Rx queue fairly, but don't
* allow the budget to go below 1 because that would exit polling early.
*/
budget_per_q = num_rxq ? max(budget / num_rxq, 1) : 0;
for (i = 0; i < num_rxq; i++) {
- struct idpf_queue *rxq = q_vec->rx[i];
+ struct idpf_rx_queue *rxq = q_vec->rx[i];
int pkts_cleaned_per_q;
pkts_cleaned_per_q = idpf_rx_splitq_clean(rxq, budget_per_q);
@@ -3893,8 +4040,10 @@ static bool idpf_rx_splitq_clean_all(struct idpf_q_vector *q_vec, int budget,
}
*cleaned = pkts_cleaned;
+ nid = numa_mem_id();
+
for (i = 0; i < q_vec->num_bufq; i++)
- idpf_rx_clean_refillq_all(q_vec->bufq[i]);
+ idpf_rx_clean_refillq_all(q_vec->bufq[i], nid);
return clean_complete;
}
@@ -3937,8 +4086,8 @@ static int idpf_vport_splitq_napi_poll(struct napi_struct *napi, int budget)
* queues virtchnl message, as the interrupts will be disabled after
* that
*/
- if (unlikely(q_vector->num_txq && test_bit(__IDPF_Q_POLL_MODE,
- q_vector->tx[0]->flags)))
+ if (unlikely(q_vector->num_txq && idpf_queue_has(POLL_MODE,
+ q_vector->tx[0])))
return budget;
else
return work_done;
@@ -3952,27 +4101,28 @@ static int idpf_vport_splitq_napi_poll(struct napi_struct *napi, int budget)
*/
static void idpf_vport_intr_map_vector_to_qs(struct idpf_vport *vport)
{
+ bool split = idpf_is_queue_model_split(vport->rxq_model);
u16 num_txq_grp = vport->num_txq_grp;
- int i, j, qv_idx, bufq_vidx = 0;
struct idpf_rxq_group *rx_qgrp;
struct idpf_txq_group *tx_qgrp;
- struct idpf_queue *q, *bufq;
- u16 q_index;
+ u32 i, qv_idx, q_index;
for (i = 0, qv_idx = 0; i < vport->num_rxq_grp; i++) {
u16 num_rxq;
+ if (qv_idx >= vport->num_q_vectors)
+ qv_idx = 0;
+
rx_qgrp = &vport->rxq_grps[i];
- if (idpf_is_queue_model_split(vport->rxq_model))
+ if (split)
num_rxq = rx_qgrp->splitq.num_rxq_sets;
else
num_rxq = rx_qgrp->singleq.num_rxq;
- for (j = 0; j < num_rxq; j++) {
- if (qv_idx >= vport->num_q_vectors)
- qv_idx = 0;
+ for (u32 j = 0; j < num_rxq; j++) {
+ struct idpf_rx_queue *q;
- if (idpf_is_queue_model_split(vport->rxq_model))
+ if (split)
q = &rx_qgrp->splitq.rxq_sets[j]->rxq;
else
q = rx_qgrp->singleq.rxqs[j];
@@ -3980,52 +4130,53 @@ static void idpf_vport_intr_map_vector_to_qs(struct idpf_vport *vport)
q_index = q->q_vector->num_rxq;
q->q_vector->rx[q_index] = q;
q->q_vector->num_rxq++;
- qv_idx++;
+
+ if (split)
+ q->napi = &q->q_vector->napi;
}
- if (idpf_is_queue_model_split(vport->rxq_model)) {
- for (j = 0; j < vport->num_bufqs_per_qgrp; j++) {
+ if (split) {
+ for (u32 j = 0; j < vport->num_bufqs_per_qgrp; j++) {
+ struct idpf_buf_queue *bufq;
+
bufq = &rx_qgrp->splitq.bufq_sets[j].bufq;
- bufq->q_vector = &vport->q_vectors[bufq_vidx];
+ bufq->q_vector = &vport->q_vectors[qv_idx];
q_index = bufq->q_vector->num_bufq;
bufq->q_vector->bufq[q_index] = bufq;
bufq->q_vector->num_bufq++;
}
- if (++bufq_vidx >= vport->num_q_vectors)
- bufq_vidx = 0;
}
+
+ qv_idx++;
}
+ split = idpf_is_queue_model_split(vport->txq_model);
+
for (i = 0, qv_idx = 0; i < num_txq_grp; i++) {
u16 num_txq;
+ if (qv_idx >= vport->num_q_vectors)
+ qv_idx = 0;
+
tx_qgrp = &vport->txq_grps[i];
num_txq = tx_qgrp->num_txq;
- if (idpf_is_queue_model_split(vport->txq_model)) {
- if (qv_idx >= vport->num_q_vectors)
- qv_idx = 0;
+ for (u32 j = 0; j < num_txq; j++) {
+ struct idpf_tx_queue *q;
- q = tx_qgrp->complq;
+ q = tx_qgrp->txqs[j];
q->q_vector = &vport->q_vectors[qv_idx];
- q_index = q->q_vector->num_txq;
- q->q_vector->tx[q_index] = q;
- q->q_vector->num_txq++;
- qv_idx++;
- } else {
- for (j = 0; j < num_txq; j++) {
- if (qv_idx >= vport->num_q_vectors)
- qv_idx = 0;
+ q->q_vector->tx[q->q_vector->num_txq++] = q;
+ }
- q = tx_qgrp->txqs[j];
- q->q_vector = &vport->q_vectors[qv_idx];
- q_index = q->q_vector->num_txq;
- q->q_vector->tx[q_index] = q;
- q->q_vector->num_txq++;
+ if (split) {
+ struct idpf_compl_queue *q = tx_qgrp->complq;
- qv_idx++;
- }
+ q->q_vector = &vport->q_vectors[qv_idx];
+ q->q_vector->complq[q->q_vector->num_complq++] = q;
}
+
+ qv_idx++;
}
}
@@ -4086,7 +4237,7 @@ static void idpf_vport_intr_napi_add_all(struct idpf_vport *vport)
/* only set affinity_mask if the CPU is online */
if (cpu_online(v_idx))
- cpumask_set_cpu(v_idx, &q_vector->affinity_mask);
+ cpumask_set_cpu(v_idx, q_vector->affinity_mask);
}
}
@@ -4101,18 +4252,22 @@ int idpf_vport_intr_alloc(struct idpf_vport *vport)
{
u16 txqs_per_vector, rxqs_per_vector, bufqs_per_vector;
struct idpf_q_vector *q_vector;
- int v_idx, err;
+ u32 complqs_per_vector, v_idx;
vport->q_vectors = kcalloc(vport->num_q_vectors,
sizeof(struct idpf_q_vector), GFP_KERNEL);
if (!vport->q_vectors)
return -ENOMEM;
- txqs_per_vector = DIV_ROUND_UP(vport->num_txq, vport->num_q_vectors);
- rxqs_per_vector = DIV_ROUND_UP(vport->num_rxq, vport->num_q_vectors);
+ txqs_per_vector = DIV_ROUND_UP(vport->num_txq_grp,
+ vport->num_q_vectors);
+ rxqs_per_vector = DIV_ROUND_UP(vport->num_rxq_grp,
+ vport->num_q_vectors);
bufqs_per_vector = vport->num_bufqs_per_qgrp *
DIV_ROUND_UP(vport->num_rxq_grp,
vport->num_q_vectors);
+ complqs_per_vector = DIV_ROUND_UP(vport->num_txq_grp,
+ vport->num_q_vectors);
for (v_idx = 0; v_idx < vport->num_q_vectors; v_idx++) {
q_vector = &vport->q_vectors[v_idx];
@@ -4126,32 +4281,33 @@ int idpf_vport_intr_alloc(struct idpf_vport *vport)
q_vector->rx_intr_mode = IDPF_ITR_DYNAMIC;
q_vector->rx_itr_idx = VIRTCHNL2_ITR_IDX_0;
- q_vector->tx = kcalloc(txqs_per_vector,
- sizeof(struct idpf_queue *),
+ if (!zalloc_cpumask_var(&q_vector->affinity_mask, GFP_KERNEL))
+ goto error;
+
+ q_vector->tx = kcalloc(txqs_per_vector, sizeof(*q_vector->tx),
GFP_KERNEL);
- if (!q_vector->tx) {
- err = -ENOMEM;
+ if (!q_vector->tx)
goto error;
- }
- q_vector->rx = kcalloc(rxqs_per_vector,
- sizeof(struct idpf_queue *),
+ q_vector->rx = kcalloc(rxqs_per_vector, sizeof(*q_vector->rx),
GFP_KERNEL);
- if (!q_vector->rx) {
- err = -ENOMEM;
+ if (!q_vector->rx)
goto error;
- }
if (!idpf_is_queue_model_split(vport->rxq_model))
continue;
q_vector->bufq = kcalloc(bufqs_per_vector,
- sizeof(struct idpf_queue *),
+ sizeof(*q_vector->bufq),
GFP_KERNEL);
- if (!q_vector->bufq) {
- err = -ENOMEM;
+ if (!q_vector->bufq)
+ goto error;
+
+ q_vector->complq = kcalloc(complqs_per_vector,
+ sizeof(*q_vector->complq),
+ GFP_KERNEL);
+ if (!q_vector->complq)
goto error;
- }
}
return 0;
@@ -4159,7 +4315,7 @@ int idpf_vport_intr_alloc(struct idpf_vport *vport)
error:
idpf_vport_intr_rel(vport);
- return err;
+ return -ENOMEM;
}
/**
diff --git a/drivers/net/ethernet/intel/idpf/idpf_txrx.h b/drivers/net/ethernet/intel/idpf/idpf_txrx.h
index 551391e20464..6215dbee5546 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_txrx.h
+++ b/drivers/net/ethernet/intel/idpf/idpf_txrx.h
@@ -4,10 +4,13 @@
#ifndef _IDPF_TXRX_H_
#define _IDPF_TXRX_H_
-#include <net/page_pool/helpers.h>
+#include <linux/dim.h>
+
+#include <net/libeth/cache.h>
#include <net/tcp.h>
#include <net/netdev_queues.h>
+#include "idpf_lan_txrx.h"
#include "virtchnl2_lan_desc.h"
#define IDPF_LARGE_MAX_Q 256
@@ -83,7 +86,7 @@
do { \
if (unlikely(++(ntc) == (rxq)->desc_count)) { \
ntc = 0; \
- change_bit(__IDPF_Q_GEN_CHK, (rxq)->flags); \
+ idpf_queue_change(GEN_CHK, rxq); \
} \
} while (0)
@@ -93,16 +96,10 @@ do { \
idx = 0; \
} while (0)
-#define IDPF_RX_HDR_SIZE 256
-#define IDPF_RX_BUF_2048 2048
-#define IDPF_RX_BUF_4096 4096
#define IDPF_RX_BUF_STRIDE 32
#define IDPF_RX_BUF_POST_STRIDE 16
#define IDPF_LOW_WATERMARK 64
-/* Size of header buffer specifically for header split */
-#define IDPF_HDR_BUF_SIZE 256
-#define IDPF_PACKET_HDR_PAD \
- (ETH_HLEN + ETH_FCS_LEN + VLAN_HLEN * 2)
+
#define IDPF_TX_TSO_MIN_MSS 88
/* Minimum number of descriptors between 2 descriptors with the RE bit set;
@@ -110,36 +107,17 @@ do { \
*/
#define IDPF_TX_SPLITQ_RE_MIN_GAP 64
-#define IDPF_RX_BI_BUFID_S 0
-#define IDPF_RX_BI_BUFID_M GENMASK(14, 0)
-#define IDPF_RX_BI_GEN_S 15
-#define IDPF_RX_BI_GEN_M BIT(IDPF_RX_BI_GEN_S)
+#define IDPF_RX_BI_GEN_M BIT(16)
+#define IDPF_RX_BI_BUFID_M GENMASK(15, 0)
+
#define IDPF_RXD_EOF_SPLITQ VIRTCHNL2_RX_FLEX_DESC_ADV_STATUS0_EOF_M
#define IDPF_RXD_EOF_SINGLEQ VIRTCHNL2_RX_BASE_DESC_STATUS_EOF_M
-#define IDPF_SINGLEQ_RX_BUF_DESC(rxq, i) \
- (&(((struct virtchnl2_singleq_rx_buf_desc *)((rxq)->desc_ring))[i]))
-#define IDPF_SPLITQ_RX_BUF_DESC(rxq, i) \
- (&(((struct virtchnl2_splitq_rx_buf_desc *)((rxq)->desc_ring))[i]))
-#define IDPF_SPLITQ_RX_BI_DESC(rxq, i) ((((rxq)->ring))[i])
-
-#define IDPF_BASE_TX_DESC(txq, i) \
- (&(((struct idpf_base_tx_desc *)((txq)->desc_ring))[i]))
-#define IDPF_BASE_TX_CTX_DESC(txq, i) \
- (&(((struct idpf_base_tx_ctx_desc *)((txq)->desc_ring))[i]))
-#define IDPF_SPLITQ_TX_COMPLQ_DESC(txcq, i) \
- (&(((struct idpf_splitq_tx_compl_desc *)((txcq)->desc_ring))[i]))
-
-#define IDPF_FLEX_TX_DESC(txq, i) \
- (&(((union idpf_tx_flex_desc *)((txq)->desc_ring))[i]))
-#define IDPF_FLEX_TX_CTX_DESC(txq, i) \
- (&(((struct idpf_flex_tx_ctx_desc *)((txq)->desc_ring))[i]))
-
#define IDPF_DESC_UNUSED(txq) \
((((txq)->next_to_clean > (txq)->next_to_use) ? 0 : (txq)->desc_count) + \
(txq)->next_to_clean - (txq)->next_to_use - 1)
-#define IDPF_TX_BUF_RSV_UNUSED(txq) ((txq)->buf_stack.top)
+#define IDPF_TX_BUF_RSV_UNUSED(txq) ((txq)->stash->buf_stack.top)
#define IDPF_TX_BUF_RSV_LOW(txq) (IDPF_TX_BUF_RSV_UNUSED(txq) < \
(txq)->desc_count >> 2)
@@ -315,16 +293,7 @@ struct idpf_rx_extracted {
#define IDPF_TX_MAX_DESC_DATA_ALIGNED \
ALIGN_DOWN(IDPF_TX_MAX_DESC_DATA, IDPF_TX_MAX_READ_REQ_SIZE)
-#define IDPF_RX_DMA_ATTR \
- (DMA_ATTR_SKIP_CPU_SYNC | DMA_ATTR_WEAK_ORDERING)
-#define IDPF_RX_DESC(rxq, i) \
- (&(((union virtchnl2_rx_desc *)((rxq)->desc_ring))[i]))
-
-struct idpf_rx_buf {
- struct page *page;
- unsigned int page_offset;
- u16 truesize;
-};
+#define idpf_rx_buf libeth_fqe
#define IDPF_RX_MAX_PTYPE_PROTO_IDS 32
#define IDPF_RX_MAX_PTYPE_SZ (sizeof(struct virtchnl2_ptype) + \
@@ -348,72 +317,6 @@ struct idpf_rx_buf {
#define IDPF_RX_MAX_BASE_PTYPE 256
#define IDPF_INVALID_PTYPE_ID 0xFFFF
-/* Packet type non-ip values */
-enum idpf_rx_ptype_l2 {
- IDPF_RX_PTYPE_L2_RESERVED = 0,
- IDPF_RX_PTYPE_L2_MAC_PAY2 = 1,
- IDPF_RX_PTYPE_L2_TIMESYNC_PAY2 = 2,
- IDPF_RX_PTYPE_L2_FIP_PAY2 = 3,
- IDPF_RX_PTYPE_L2_OUI_PAY2 = 4,
- IDPF_RX_PTYPE_L2_MACCNTRL_PAY2 = 5,
- IDPF_RX_PTYPE_L2_LLDP_PAY2 = 6,
- IDPF_RX_PTYPE_L2_ECP_PAY2 = 7,
- IDPF_RX_PTYPE_L2_EVB_PAY2 = 8,
- IDPF_RX_PTYPE_L2_QCN_PAY2 = 9,
- IDPF_RX_PTYPE_L2_EAPOL_PAY2 = 10,
- IDPF_RX_PTYPE_L2_ARP = 11,
-};
-
-enum idpf_rx_ptype_outer_ip {
- IDPF_RX_PTYPE_OUTER_L2 = 0,
- IDPF_RX_PTYPE_OUTER_IP = 1,
-};
-
-#define IDPF_RX_PTYPE_TO_IPV(ptype, ipv) \
- (((ptype)->outer_ip == IDPF_RX_PTYPE_OUTER_IP) && \
- ((ptype)->outer_ip_ver == (ipv)))
-
-enum idpf_rx_ptype_outer_ip_ver {
- IDPF_RX_PTYPE_OUTER_NONE = 0,
- IDPF_RX_PTYPE_OUTER_IPV4 = 1,
- IDPF_RX_PTYPE_OUTER_IPV6 = 2,
-};
-
-enum idpf_rx_ptype_outer_fragmented {
- IDPF_RX_PTYPE_NOT_FRAG = 0,
- IDPF_RX_PTYPE_FRAG = 1,
-};
-
-enum idpf_rx_ptype_tunnel_type {
- IDPF_RX_PTYPE_TUNNEL_NONE = 0,
- IDPF_RX_PTYPE_TUNNEL_IP_IP = 1,
- IDPF_RX_PTYPE_TUNNEL_IP_GRENAT = 2,
- IDPF_RX_PTYPE_TUNNEL_IP_GRENAT_MAC = 3,
- IDPF_RX_PTYPE_TUNNEL_IP_GRENAT_MAC_VLAN = 4,
-};
-
-enum idpf_rx_ptype_tunnel_end_prot {
- IDPF_RX_PTYPE_TUNNEL_END_NONE = 0,
- IDPF_RX_PTYPE_TUNNEL_END_IPV4 = 1,
- IDPF_RX_PTYPE_TUNNEL_END_IPV6 = 2,
-};
-
-enum idpf_rx_ptype_inner_prot {
- IDPF_RX_PTYPE_INNER_PROT_NONE = 0,
- IDPF_RX_PTYPE_INNER_PROT_UDP = 1,
- IDPF_RX_PTYPE_INNER_PROT_TCP = 2,
- IDPF_RX_PTYPE_INNER_PROT_SCTP = 3,
- IDPF_RX_PTYPE_INNER_PROT_ICMP = 4,
- IDPF_RX_PTYPE_INNER_PROT_TIMESYNC = 5,
-};
-
-enum idpf_rx_ptype_payload_layer {
- IDPF_RX_PTYPE_PAYLOAD_LAYER_NONE = 0,
- IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY2 = 1,
- IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY3 = 2,
- IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY4 = 3,
-};
-
enum idpf_tunnel_state {
IDPF_PTYPE_TUNNEL_IP = BIT(0),
IDPF_PTYPE_TUNNEL_IP_GRENAT = BIT(1),
@@ -421,22 +324,9 @@ enum idpf_tunnel_state {
};
struct idpf_ptype_state {
- bool outer_ip;
- bool outer_frag;
- u8 tunnel_state;
-};
-
-struct idpf_rx_ptype_decoded {
- u32 ptype:10;
- u32 known:1;
- u32 outer_ip:1;
- u32 outer_ip_ver:2;
- u32 outer_frag:1;
- u32 tunnel_type:3;
- u32 tunnel_end_prot:2;
- u32 tunnel_end_frag:1;
- u32 inner_prot:4;
- u32 payload_layer:3;
+ bool outer_ip:1;
+ bool outer_frag:1;
+ u8 tunnel_state:6;
};
/**
@@ -452,23 +342,37 @@ struct idpf_rx_ptype_decoded {
* to 1 and knows that reading a gen bit of 1 in any
* descriptor on the initial pass of the ring indicates a
* writeback. It also flips on every ring wrap.
- * @__IDPF_RFLQ_GEN_CHK: Refill queues are SW only, so Q_GEN acts as the HW bit
- * and RFLGQ_GEN is the SW bit.
+ * @__IDPF_Q_RFL_GEN_CHK: Refill queues are SW only, so Q_GEN acts as the HW
+ * bit and Q_RFL_GEN is the SW bit.
* @__IDPF_Q_FLOW_SCH_EN: Enable flow scheduling
* @__IDPF_Q_SW_MARKER: Used to indicate TX queue marker completions
* @__IDPF_Q_POLL_MODE: Enable poll mode
+ * @__IDPF_Q_CRC_EN: enable CRC offload in singleq mode
+ * @__IDPF_Q_HSPLIT_EN: enable header split on Rx (splitq)
* @__IDPF_Q_FLAGS_NBITS: Must be last
*/
enum idpf_queue_flags_t {
__IDPF_Q_GEN_CHK,
- __IDPF_RFLQ_GEN_CHK,
+ __IDPF_Q_RFL_GEN_CHK,
__IDPF_Q_FLOW_SCH_EN,
__IDPF_Q_SW_MARKER,
__IDPF_Q_POLL_MODE,
+ __IDPF_Q_CRC_EN,
+ __IDPF_Q_HSPLIT_EN,
__IDPF_Q_FLAGS_NBITS,
};
+#define idpf_queue_set(f, q) __set_bit(__IDPF_Q_##f, (q)->flags)
+#define idpf_queue_clear(f, q) __clear_bit(__IDPF_Q_##f, (q)->flags)
+#define idpf_queue_change(f, q) __change_bit(__IDPF_Q_##f, (q)->flags)
+#define idpf_queue_has(f, q) test_bit(__IDPF_Q_##f, (q)->flags)
+
+#define idpf_queue_has_clear(f, q) \
+ __test_and_clear_bit(__IDPF_Q_##f, (q)->flags)
+#define idpf_queue_assign(f, q, v) \
+ __assign_bit(__IDPF_Q_##f, (q)->flags, v)
+
/**
* struct idpf_vec_regs
* @dyn_ctl_reg: Dynamic control interrupt register offset
@@ -509,54 +413,68 @@ struct idpf_intr_reg {
/**
* struct idpf_q_vector
* @vport: Vport back pointer
- * @affinity_mask: CPU affinity mask
- * @napi: napi handler
- * @v_idx: Vector index
- * @intr_reg: See struct idpf_intr_reg
+ * @num_rxq: Number of RX queues
* @num_txq: Number of TX queues
+ * @num_bufq: Number of buffer queues
+ * @num_complq: number of completion queues
+ * @rx: Array of RX queues to service
* @tx: Array of TX queues to service
+ * @bufq: Array of buffer queues to service
+ * @complq: array of completion queues
+ * @intr_reg: See struct idpf_intr_reg
+ * @napi: napi handler
+ * @total_events: Number of interrupts processed
* @tx_dim: Data for TX net_dim algorithm
* @tx_itr_value: TX interrupt throttling rate
* @tx_intr_mode: Dynamic ITR or not
* @tx_itr_idx: TX ITR index
- * @num_rxq: Number of RX queues
- * @rx: Array of RX queues to service
* @rx_dim: Data for RX net_dim algorithm
* @rx_itr_value: RX interrupt throttling rate
* @rx_intr_mode: Dynamic ITR or not
* @rx_itr_idx: RX ITR index
- * @num_bufq: Number of buffer queues
- * @bufq: Array of buffer queues to service
- * @total_events: Number of interrupts processed
- * @name: Queue vector name
+ * @v_idx: Vector index
+ * @affinity_mask: CPU affinity mask
*/
struct idpf_q_vector {
+ __cacheline_group_begin_aligned(read_mostly);
struct idpf_vport *vport;
- cpumask_t affinity_mask;
- struct napi_struct napi;
- u16 v_idx;
- struct idpf_intr_reg intr_reg;
+ u16 num_rxq;
u16 num_txq;
- struct idpf_queue **tx;
+ u16 num_bufq;
+ u16 num_complq;
+ struct idpf_rx_queue **rx;
+ struct idpf_tx_queue **tx;
+ struct idpf_buf_queue **bufq;
+ struct idpf_compl_queue **complq;
+
+ struct idpf_intr_reg intr_reg;
+ __cacheline_group_end_aligned(read_mostly);
+
+ __cacheline_group_begin_aligned(read_write);
+ struct napi_struct napi;
+ u16 total_events;
+
struct dim tx_dim;
u16 tx_itr_value;
bool tx_intr_mode;
u32 tx_itr_idx;
- u16 num_rxq;
- struct idpf_queue **rx;
struct dim rx_dim;
u16 rx_itr_value;
bool rx_intr_mode;
u32 rx_itr_idx;
+ __cacheline_group_end_aligned(read_write);
- u16 num_bufq;
- struct idpf_queue **bufq;
+ __cacheline_group_begin_aligned(cold);
+ u16 v_idx;
- u16 total_events;
- char *name;
+ cpumask_var_t affinity_mask;
+ __cacheline_group_end_aligned(cold);
};
+libeth_cacheline_set_assert(struct idpf_q_vector, 104,
+ 424 + 2 * sizeof(struct dim),
+ 8 + sizeof(cpumask_var_t));
struct idpf_rx_queue_stats {
u64_stats_t packets;
@@ -583,11 +501,6 @@ struct idpf_cleaned_stats {
u32 bytes;
};
-union idpf_queue_stats {
- struct idpf_rx_queue_stats rx;
- struct idpf_tx_queue_stats tx;
-};
-
#define IDPF_ITR_DYNAMIC 1
#define IDPF_ITR_MAX 0x1FE0
#define IDPF_ITR_20K 0x0032
@@ -603,68 +516,123 @@ union idpf_queue_stats {
#define IDPF_DIM_DEFAULT_PROFILE_IX 1
/**
- * struct idpf_queue
- * @dev: Device back pointer for DMA mapping
- * @vport: Back pointer to associated vport
- * @txq_grp: See struct idpf_txq_group
- * @rxq_grp: See struct idpf_rxq_group
- * @idx: For buffer queue, it is used as group id, either 0 or 1. On clean,
- * buffer queue uses this index to determine which group of refill queues
- * to clean.
- * For TX queue, it is used as index to map between TX queue group and
- * hot path TX pointers stored in vport. Used in both singleq/splitq.
- * For RX queue, it is used to index to total RX queue across groups and
+ * struct idpf_txq_stash - Tx buffer stash for Flow-based scheduling mode
+ * @buf_stack: Stack of empty buffers to store buffer info for out of order
+ * buffer completions. See struct idpf_buf_lifo
+ * @sched_buf_hash: Hash table to store buffers
+ */
+struct idpf_txq_stash {
+ struct idpf_buf_lifo buf_stack;
+ DECLARE_HASHTABLE(sched_buf_hash, 12);
+} ____cacheline_aligned;
+
+/**
+ * struct idpf_rx_queue - software structure representing a receive queue
+ * @rx: universal receive descriptor array
+ * @single_buf: buffer descriptor array in singleq
+ * @desc_ring: virtual descriptor ring address
+ * @bufq_sets: Pointer to the array of buffer queues in splitq mode
+ * @napi: NAPI instance corresponding to this queue (splitq)
+ * @rx_buf: See struct &libeth_fqe
+ * @pp: Page pool pointer in singleq mode
+ * @netdev: &net_device corresponding to this queue
+ * @tail: Tail offset. Used for both queue models single and split.
+ * @flags: See enum idpf_queue_flags_t
+ * @idx: For RX queue, it is used to index to total RX queue across groups and
* used for skb reporting.
- * @tail: Tail offset. Used for both queue models single and split. In splitq
- * model relevant only for TX queue and RX queue.
- * @tx_buf: See struct idpf_tx_buf
- * @rx_buf: Struct with RX buffer related members
- * @rx_buf.buf: See struct idpf_rx_buf
- * @rx_buf.hdr_buf_pa: DMA handle
- * @rx_buf.hdr_buf_va: Virtual address
- * @pp: Page pool pointer
- * @skb: Pointer to the skb
- * @q_type: Queue type (TX, RX, TX completion, RX buffer)
- * @q_id: Queue id
* @desc_count: Number of descriptors
- * @next_to_use: Next descriptor to use. Relevant in both split & single txq
- * and bufq.
- * @next_to_clean: Next descriptor to clean. In split queue model, only
- * relevant to TX completion queue and RX queue.
- * @next_to_alloc: RX buffer to allocate at. Used only for RX. In splitq model
- * only relevant to RX queue.
- * @flags: See enum idpf_queue_flags_t
- * @q_stats: See union idpf_queue_stats
+ * @rxdids: Supported RX descriptor ids
+ * @rx_ptype_lkup: LUT of Rx ptypes
+ * @next_to_use: Next descriptor to use
+ * @next_to_clean: Next descriptor to clean
+ * @next_to_alloc: RX buffer to allocate at
+ * @skb: Pointer to the skb
+ * @truesize: data buffer truesize in singleq
* @stats_sync: See struct u64_stats_sync
- * @cleaned_bytes: Splitq only, TXQ only: When a TX completion is received on
- * the TX completion queue, it can be for any TXQ associated
- * with that completion queue. This means we can clean up to
- * N TXQs during a single call to clean the completion queue.
- * cleaned_bytes|pkts tracks the clean stats per TXQ during
- * that single call to clean the completion queue. By doing so,
- * we can update BQL with aggregate cleaned stats for each TXQ
- * only once at the end of the cleaning routine.
- * @cleaned_pkts: Number of packets cleaned for the above said case
- * @rx_hsplit_en: RX headsplit enable
+ * @q_stats: See union idpf_rx_queue_stats
+ * @q_id: Queue id
+ * @size: Length of descriptor ring in bytes
+ * @dma: Physical address of ring
+ * @q_vector: Backreference to associated vector
+ * @rx_buffer_low_watermark: RX buffer low watermark
* @rx_hbuf_size: Header buffer size
* @rx_buf_size: Buffer size
* @rx_max_pkt_size: RX max packet size
- * @rx_buf_stride: RX buffer stride
- * @rx_buffer_low_watermark: RX buffer low watermark
- * @rxdids: Supported RX descriptor ids
- * @q_vector: Backreference to associated vector
- * @size: Length of descriptor ring in bytes
- * @dma: Physical address of ring
- * @desc_ring: Descriptor ring memory
- * @tx_max_bufs: Max buffers that can be transmitted with scatter-gather
+ */
+struct idpf_rx_queue {
+ __cacheline_group_begin_aligned(read_mostly);
+ union {
+ union virtchnl2_rx_desc *rx;
+ struct virtchnl2_singleq_rx_buf_desc *single_buf;
+
+ void *desc_ring;
+ };
+ union {
+ struct {
+ struct idpf_bufq_set *bufq_sets;
+ struct napi_struct *napi;
+ };
+ struct {
+ struct libeth_fqe *rx_buf;
+ struct page_pool *pp;
+ };
+ };
+ struct net_device *netdev;
+ void __iomem *tail;
+
+ DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
+ u16 idx;
+ u16 desc_count;
+
+ u32 rxdids;
+ const struct libeth_rx_pt *rx_ptype_lkup;
+ __cacheline_group_end_aligned(read_mostly);
+
+ __cacheline_group_begin_aligned(read_write);
+ u16 next_to_use;
+ u16 next_to_clean;
+ u16 next_to_alloc;
+
+ struct sk_buff *skb;
+ u32 truesize;
+
+ struct u64_stats_sync stats_sync;
+ struct idpf_rx_queue_stats q_stats;
+ __cacheline_group_end_aligned(read_write);
+
+ __cacheline_group_begin_aligned(cold);
+ u32 q_id;
+ u32 size;
+ dma_addr_t dma;
+
+ struct idpf_q_vector *q_vector;
+
+ u16 rx_buffer_low_watermark;
+ u16 rx_hbuf_size;
+ u16 rx_buf_size;
+ u16 rx_max_pkt_size;
+ __cacheline_group_end_aligned(cold);
+};
+libeth_cacheline_set_assert(struct idpf_rx_queue, 64,
+ 80 + sizeof(struct u64_stats_sync),
+ 32);
+
+/**
+ * struct idpf_tx_queue - software structure representing a transmit queue
+ * @base_tx: base Tx descriptor array
+ * @base_ctx: base Tx context descriptor array
+ * @flex_tx: flex Tx descriptor array
+ * @flex_ctx: flex Tx context descriptor array
+ * @desc_ring: virtual descriptor ring address
+ * @tx_buf: See struct idpf_tx_buf
+ * @txq_grp: See struct idpf_txq_group
+ * @dev: Device back pointer for DMA mapping
+ * @tail: Tail offset. Used for both queue models single and split
+ * @flags: See enum idpf_queue_flags_t
+ * @idx: For TX queue, it is used as index to map between TX queue group and
+ * hot path TX pointers stored in vport. Used in both singleq/splitq.
+ * @desc_count: Number of descriptors
* @tx_min_pkt_len: Min supported packet length
- * @num_completions: Only relevant for TX completion queue. It tracks the
- * number of completions received to compare against the
- * number of completions pending, as accumulated by the
- * TX queues.
- * @buf_stack: Stack of empty buffers to store buffer info for out of order
- * buffer completions. See struct idpf_buf_lifo.
- * @compl_tag_bufid_m: Completion tag buffer id mask
* @compl_tag_gen_s: Completion tag generation bit
* The format of the completion tag will change based on the TXQ
* descriptor ring size so that we can maintain roughly the same level
@@ -685,108 +653,238 @@ union idpf_queue_stats {
* --------------------------------
*
* This gives us 8*8160 = 65280 possible unique values.
+ * @netdev: &net_device corresponding to this queue
+ * @next_to_use: Next descriptor to use
+ * @next_to_clean: Next descriptor to clean
+ * @cleaned_bytes: Splitq only, TXQ only: When a TX completion is received on
+ * the TX completion queue, it can be for any TXQ associated
+ * with that completion queue. This means we can clean up to
+ * N TXQs during a single call to clean the completion queue.
+ * cleaned_bytes|pkts tracks the clean stats per TXQ during
+ * that single call to clean the completion queue. By doing so,
+ * we can update BQL with aggregate cleaned stats for each TXQ
+ * only once at the end of the cleaning routine.
+ * @clean_budget: singleq only, queue cleaning budget
+ * @cleaned_pkts: Number of packets cleaned for the above said case
+ * @tx_max_bufs: Max buffers that can be transmitted with scatter-gather
+ * @stash: Tx buffer stash for Flow-based scheduling mode
+ * @compl_tag_bufid_m: Completion tag buffer id mask
* @compl_tag_cur_gen: Used to keep track of current completion tag generation
* @compl_tag_gen_max: To determine when compl_tag_cur_gen should be reset
- * @sched_buf_hash: Hash table to stores buffers
+ * @stats_sync: See struct u64_stats_sync
+ * @q_stats: See union idpf_tx_queue_stats
+ * @q_id: Queue id
+ * @size: Length of descriptor ring in bytes
+ * @dma: Physical address of ring
+ * @q_vector: Backreference to associated vector
*/
-struct idpf_queue {
- struct device *dev;
- struct idpf_vport *vport;
+struct idpf_tx_queue {
+ __cacheline_group_begin_aligned(read_mostly);
union {
- struct idpf_txq_group *txq_grp;
- struct idpf_rxq_group *rxq_grp;
+ struct idpf_base_tx_desc *base_tx;
+ struct idpf_base_tx_ctx_desc *base_ctx;
+ union idpf_tx_flex_desc *flex_tx;
+ struct idpf_flex_tx_ctx_desc *flex_ctx;
+
+ void *desc_ring;
};
- u16 idx;
+ struct idpf_tx_buf *tx_buf;
+ struct idpf_txq_group *txq_grp;
+ struct device *dev;
void __iomem *tail;
- union {
- struct idpf_tx_buf *tx_buf;
- struct {
- struct idpf_rx_buf *buf;
- dma_addr_t hdr_buf_pa;
- void *hdr_buf_va;
- } rx_buf;
- };
- struct page_pool *pp;
- struct sk_buff *skb;
- u16 q_type;
- u32 q_id;
+
+ DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
+ u16 idx;
u16 desc_count;
+ u16 tx_min_pkt_len;
+ u16 compl_tag_gen_s;
+
+ struct net_device *netdev;
+ __cacheline_group_end_aligned(read_mostly);
+
+ __cacheline_group_begin_aligned(read_write);
u16 next_to_use;
u16 next_to_clean;
- u16 next_to_alloc;
- DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
- union idpf_queue_stats q_stats;
+ union {
+ u32 cleaned_bytes;
+ u32 clean_budget;
+ };
+ u16 cleaned_pkts;
+
+ u16 tx_max_bufs;
+ struct idpf_txq_stash *stash;
+
+ u16 compl_tag_bufid_m;
+ u16 compl_tag_cur_gen;
+ u16 compl_tag_gen_max;
+
struct u64_stats_sync stats_sync;
+ struct idpf_tx_queue_stats q_stats;
+ __cacheline_group_end_aligned(read_write);
- u32 cleaned_bytes;
- u16 cleaned_pkts;
+ __cacheline_group_begin_aligned(cold);
+ u32 q_id;
+ u32 size;
+ dma_addr_t dma;
- bool rx_hsplit_en;
- u16 rx_hbuf_size;
- u16 rx_buf_size;
- u16 rx_max_pkt_size;
- u16 rx_buf_stride;
- u8 rx_buffer_low_watermark;
- u64 rxdids;
struct idpf_q_vector *q_vector;
- unsigned int size;
+ __cacheline_group_end_aligned(cold);
+};
+libeth_cacheline_set_assert(struct idpf_tx_queue, 64,
+ 88 + sizeof(struct u64_stats_sync),
+ 24);
+
+/**
+ * struct idpf_buf_queue - software structure representing a buffer queue
+ * @split_buf: buffer descriptor array
+ * @hdr_buf: &libeth_fqe for header buffers
+ * @hdr_pp: &page_pool for header buffers
+ * @buf: &libeth_fqe for data buffers
+ * @pp: &page_pool for data buffers
+ * @tail: Tail offset
+ * @flags: See enum idpf_queue_flags_t
+ * @desc_count: Number of descriptors
+ * @next_to_use: Next descriptor to use
+ * @next_to_clean: Next descriptor to clean
+ * @next_to_alloc: RX buffer to allocate at
+ * @hdr_truesize: truesize for buffer headers
+ * @truesize: truesize for data buffers
+ * @q_id: Queue id
+ * @size: Length of descriptor ring in bytes
+ * @dma: Physical address of ring
+ * @q_vector: Backreference to associated vector
+ * @rx_buffer_low_watermark: RX buffer low watermark
+ * @rx_hbuf_size: Header buffer size
+ * @rx_buf_size: Buffer size
+ */
+struct idpf_buf_queue {
+ __cacheline_group_begin_aligned(read_mostly);
+ struct virtchnl2_splitq_rx_buf_desc *split_buf;
+ struct libeth_fqe *hdr_buf;
+ struct page_pool *hdr_pp;
+ struct libeth_fqe *buf;
+ struct page_pool *pp;
+ void __iomem *tail;
+
+ DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
+ u32 desc_count;
+ __cacheline_group_end_aligned(read_mostly);
+
+ __cacheline_group_begin_aligned(read_write);
+ u32 next_to_use;
+ u32 next_to_clean;
+ u32 next_to_alloc;
+
+ u32 hdr_truesize;
+ u32 truesize;
+ __cacheline_group_end_aligned(read_write);
+
+ __cacheline_group_begin_aligned(cold);
+ u32 q_id;
+ u32 size;
dma_addr_t dma;
- void *desc_ring;
- u16 tx_max_bufs;
- u8 tx_min_pkt_len;
+ struct idpf_q_vector *q_vector;
- u32 num_completions;
+ u16 rx_buffer_low_watermark;
+ u16 rx_hbuf_size;
+ u16 rx_buf_size;
+ __cacheline_group_end_aligned(cold);
+};
+libeth_cacheline_set_assert(struct idpf_buf_queue, 64, 24, 32);
- struct idpf_buf_lifo buf_stack;
+/**
+ * struct idpf_compl_queue - software structure representing a completion queue
+ * @comp: completion descriptor array
+ * @txq_grp: See struct idpf_txq_group
+ * @flags: See enum idpf_queue_flags_t
+ * @desc_count: Number of descriptors
+ * @clean_budget: queue cleaning budget
+ * @netdev: &net_device corresponding to this queue
+ * @next_to_use: Next descriptor to use. Relevant in both split & single txq
+ * and bufq.
+ * @next_to_clean: Next descriptor to clean
+ * @num_completions: Only relevant for TX completion queue. It tracks the
+ * number of completions received to compare against the
+ * number of completions pending, as accumulated by the
+ * TX queues.
+ * @q_id: Queue id
+ * @size: Length of descriptor ring in bytes
+ * @dma: Physical address of ring
+ * @q_vector: Backreference to associated vector
+ */
+struct idpf_compl_queue {
+ __cacheline_group_begin_aligned(read_mostly);
+ struct idpf_splitq_tx_compl_desc *comp;
+ struct idpf_txq_group *txq_grp;
- u16 compl_tag_bufid_m;
- u16 compl_tag_gen_s;
+ DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
+ u32 desc_count;
- u16 compl_tag_cur_gen;
- u16 compl_tag_gen_max;
+ u32 clean_budget;
+ struct net_device *netdev;
+ __cacheline_group_end_aligned(read_mostly);
- DECLARE_HASHTABLE(sched_buf_hash, 12);
-} ____cacheline_internodealigned_in_smp;
+ __cacheline_group_begin_aligned(read_write);
+ u32 next_to_use;
+ u32 next_to_clean;
+
+ u32 num_completions;
+ __cacheline_group_end_aligned(read_write);
+
+ __cacheline_group_begin_aligned(cold);
+ u32 q_id;
+ u32 size;
+ dma_addr_t dma;
+
+ struct idpf_q_vector *q_vector;
+ __cacheline_group_end_aligned(cold);
+};
+libeth_cacheline_set_assert(struct idpf_compl_queue, 40, 16, 24);
/**
* struct idpf_sw_queue
- * @next_to_clean: Next descriptor to clean
- * @next_to_alloc: Buffer to allocate at
- * @flags: See enum idpf_queue_flags_t
* @ring: Pointer to the ring
+ * @flags: See enum idpf_queue_flags_t
* @desc_count: Descriptor count
- * @dev: Device back pointer for DMA mapping
+ * @next_to_use: Buffer to allocate at
+ * @next_to_clean: Next descriptor to clean
*
* Software queues are used in splitq mode to manage buffers between rxq
* producer and the bufq consumer. These are required in order to maintain a
* lockless buffer management system and are strictly software only constructs.
*/
struct idpf_sw_queue {
- u16 next_to_clean;
- u16 next_to_alloc;
+ __cacheline_group_begin_aligned(read_mostly);
+ u32 *ring;
+
DECLARE_BITMAP(flags, __IDPF_Q_FLAGS_NBITS);
- u16 *ring;
- u16 desc_count;
- struct device *dev;
-} ____cacheline_internodealigned_in_smp;
+ u32 desc_count;
+ __cacheline_group_end_aligned(read_mostly);
+
+ __cacheline_group_begin_aligned(read_write);
+ u32 next_to_use;
+ u32 next_to_clean;
+ __cacheline_group_end_aligned(read_write);
+};
+libeth_cacheline_group_assert(struct idpf_sw_queue, read_mostly, 24);
+libeth_cacheline_group_assert(struct idpf_sw_queue, read_write, 8);
+libeth_cacheline_struct_assert(struct idpf_sw_queue, 24, 8);
/**
* struct idpf_rxq_set
* @rxq: RX queue
- * @refillq0: Pointer to refill queue 0
- * @refillq1: Pointer to refill queue 1
+ * @refillq: pointers to refill queues
*
* Splitq only. idpf_rxq_set associates an rxq with at an array of refillqs.
* Each rxq needs a refillq to return used buffers back to the respective bufq.
* Bufqs then clean these refillqs for buffers to give to hardware.
*/
struct idpf_rxq_set {
- struct idpf_queue rxq;
- struct idpf_sw_queue *refillq0;
- struct idpf_sw_queue *refillq1;
+ struct idpf_rx_queue rxq;
+ struct idpf_sw_queue *refillq[IDPF_MAX_BUFQS_PER_RXQ_GRP];
};
/**
@@ -805,7 +903,7 @@ struct idpf_rxq_set {
* managed by at most two bufqs (depending on performance configuration).
*/
struct idpf_bufq_set {
- struct idpf_queue bufq;
+ struct idpf_buf_queue bufq;
int num_refillqs;
struct idpf_sw_queue *refillqs;
};
@@ -831,7 +929,7 @@ struct idpf_rxq_group {
union {
struct {
u16 num_rxq;
- struct idpf_queue *rxqs[IDPF_LARGE_MAX_Q];
+ struct idpf_rx_queue *rxqs[IDPF_LARGE_MAX_Q];
} singleq;
struct {
u16 num_rxq_sets;
@@ -846,6 +944,7 @@ struct idpf_rxq_group {
* @vport: Vport back pointer
* @num_txq: Number of TX queues associated
* @txqs: Array of TX queue pointers
+ * @stashes: array of OOO stashes for the queues
* @complq: Associated completion queue pointer, split queue only
* @num_completions_pending: Total number of completions pending for the
* completion queue, acculumated for all TX queues
@@ -859,13 +958,26 @@ struct idpf_txq_group {
struct idpf_vport *vport;
u16 num_txq;
- struct idpf_queue *txqs[IDPF_LARGE_MAX_Q];
+ struct idpf_tx_queue *txqs[IDPF_LARGE_MAX_Q];
+ struct idpf_txq_stash *stashes;
- struct idpf_queue *complq;
+ struct idpf_compl_queue *complq;
u32 num_completions_pending;
};
+static inline int idpf_q_vector_to_mem(const struct idpf_q_vector *q_vector)
+{
+ u32 cpu;
+
+ if (!q_vector)
+ return NUMA_NO_NODE;
+
+ cpu = cpumask_first(q_vector->affinity_mask);
+
+ return cpu < nr_cpu_ids ? cpu_to_mem(cpu) : NUMA_NO_NODE;
+}
+
/**
* idpf_size_to_txd_count - Get number of descriptors needed for large Tx frag
* @size: transmit request size in bytes
@@ -921,60 +1033,6 @@ static inline void idpf_tx_splitq_build_desc(union idpf_tx_flex_desc *desc,
idpf_tx_splitq_build_flow_desc(desc, params, td_cmd, size);
}
-/**
- * idpf_alloc_page - Allocate a new RX buffer from the page pool
- * @pool: page_pool to allocate from
- * @buf: metadata struct to populate with page info
- * @buf_size: 2K or 4K
- *
- * Returns &dma_addr_t to be passed to HW for Rx, %DMA_MAPPING_ERROR otherwise.
- */
-static inline dma_addr_t idpf_alloc_page(struct page_pool *pool,
- struct idpf_rx_buf *buf,
- unsigned int buf_size)
-{
- if (buf_size == IDPF_RX_BUF_2048)
- buf->page = page_pool_dev_alloc_frag(pool, &buf->page_offset,
- buf_size);
- else
- buf->page = page_pool_dev_alloc_pages(pool);
-
- if (!buf->page)
- return DMA_MAPPING_ERROR;
-
- buf->truesize = buf_size;
-
- return page_pool_get_dma_addr(buf->page) + buf->page_offset +
- pool->p.offset;
-}
-
-/**
- * idpf_rx_put_page - Return RX buffer page to pool
- * @rx_buf: RX buffer metadata struct
- */
-static inline void idpf_rx_put_page(struct idpf_rx_buf *rx_buf)
-{
- page_pool_put_page(rx_buf->page->pp, rx_buf->page,
- rx_buf->truesize, true);
- rx_buf->page = NULL;
-}
-
-/**
- * idpf_rx_sync_for_cpu - Synchronize DMA buffer
- * @rx_buf: RX buffer metadata struct
- * @len: frame length from descriptor
- */
-static inline void idpf_rx_sync_for_cpu(struct idpf_rx_buf *rx_buf, u32 len)
-{
- struct page *page = rx_buf->page;
- struct page_pool *pp = page->pp;
-
- dma_sync_single_range_for_cpu(pp->p.dev,
- page_pool_get_dma_addr(page),
- rx_buf->page_offset + pp->p.offset, len,
- page_pool_get_dma_dir(pp));
-}
-
int idpf_vport_singleq_napi_poll(struct napi_struct *napi, int budget);
void idpf_vport_init_num_qs(struct idpf_vport *vport,
struct virtchnl2_create_vport *vport_msg);
@@ -991,35 +1049,27 @@ void idpf_vport_intr_update_itr_ena_irq(struct idpf_q_vector *q_vector);
void idpf_vport_intr_deinit(struct idpf_vport *vport);
int idpf_vport_intr_init(struct idpf_vport *vport);
void idpf_vport_intr_ena(struct idpf_vport *vport);
-enum pkt_hash_types idpf_ptype_to_htype(const struct idpf_rx_ptype_decoded *decoded);
int idpf_config_rss(struct idpf_vport *vport);
int idpf_init_rss(struct idpf_vport *vport);
void idpf_deinit_rss(struct idpf_vport *vport);
int idpf_rx_bufs_init_all(struct idpf_vport *vport);
void idpf_rx_add_frag(struct idpf_rx_buf *rx_buf, struct sk_buff *skb,
unsigned int size);
-struct sk_buff *idpf_rx_construct_skb(struct idpf_queue *rxq,
- struct idpf_rx_buf *rx_buf,
- unsigned int size);
-bool idpf_init_rx_buf_hw_alloc(struct idpf_queue *rxq, struct idpf_rx_buf *buf);
-void idpf_rx_buf_hw_update(struct idpf_queue *rxq, u32 val);
-void idpf_tx_buf_hw_update(struct idpf_queue *tx_q, u32 val,
+struct sk_buff *idpf_rx_build_skb(const struct libeth_fqe *buf, u32 size);
+void idpf_tx_buf_hw_update(struct idpf_tx_queue *tx_q, u32 val,
bool xmit_more);
unsigned int idpf_size_to_txd_count(unsigned int size);
-netdev_tx_t idpf_tx_drop_skb(struct idpf_queue *tx_q, struct sk_buff *skb);
-void idpf_tx_dma_map_error(struct idpf_queue *txq, struct sk_buff *skb,
+netdev_tx_t idpf_tx_drop_skb(struct idpf_tx_queue *tx_q, struct sk_buff *skb);
+void idpf_tx_dma_map_error(struct idpf_tx_queue *txq, struct sk_buff *skb,
struct idpf_tx_buf *first, u16 ring_idx);
-unsigned int idpf_tx_desc_count_required(struct idpf_queue *txq,
+unsigned int idpf_tx_desc_count_required(struct idpf_tx_queue *txq,
struct sk_buff *skb);
-bool idpf_chk_linearize(struct sk_buff *skb, unsigned int max_bufs,
- unsigned int count);
-int idpf_tx_maybe_stop_common(struct idpf_queue *tx_q, unsigned int size);
+int idpf_tx_maybe_stop_common(struct idpf_tx_queue *tx_q, unsigned int size);
void idpf_tx_timeout(struct net_device *netdev, unsigned int txqueue);
-netdev_tx_t idpf_tx_splitq_start(struct sk_buff *skb,
- struct net_device *netdev);
-netdev_tx_t idpf_tx_singleq_start(struct sk_buff *skb,
- struct net_device *netdev);
-bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_queue *rxq,
+netdev_tx_t idpf_tx_singleq_frame(struct sk_buff *skb,
+ struct idpf_tx_queue *tx_q);
+netdev_tx_t idpf_tx_start(struct sk_buff *skb, struct net_device *netdev);
+bool idpf_rx_singleq_buf_hw_alloc_all(struct idpf_rx_queue *rxq,
u16 cleaned_count);
int idpf_tso(struct sk_buff *skb, struct idpf_tx_offload_params *off);
diff --git a/drivers/net/ethernet/intel/idpf/idpf_virtchnl.c b/drivers/net/ethernet/intel/idpf/idpf_virtchnl.c
index a5f9b7a5effe..70986e12da28 100644
--- a/drivers/net/ethernet/intel/idpf/idpf_virtchnl.c
+++ b/drivers/net/ethernet/intel/idpf/idpf_virtchnl.c
@@ -1,6 +1,8 @@
// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (C) 2023 Intel Corporation */
+#include <net/libeth/rx.h>
+
#include "idpf.h"
#include "idpf_virtchnl.h"
@@ -750,7 +752,7 @@ static int idpf_wait_for_marker_event(struct idpf_vport *vport)
int i;
for (i = 0; i < vport->num_txq; i++)
- set_bit(__IDPF_Q_SW_MARKER, vport->txqs[i]->flags);
+ idpf_queue_set(SW_MARKER, vport->txqs[i]);
event = wait_event_timeout(vport->sw_marker_wq,
test_and_clear_bit(IDPF_VPORT_SW_MARKER,
@@ -758,7 +760,7 @@ static int idpf_wait_for_marker_event(struct idpf_vport *vport)
msecs_to_jiffies(500));
for (i = 0; i < vport->num_txq; i++)
- clear_bit(__IDPF_Q_POLL_MODE, vport->txqs[i]->flags);
+ idpf_queue_clear(POLL_MODE, vport->txqs[i]);
if (event)
return 0;
@@ -1092,7 +1094,6 @@ static int __idpf_queue_reg_init(struct idpf_vport *vport, u32 *reg_vals,
int num_regs, u32 q_type)
{
struct idpf_adapter *adapter = vport->adapter;
- struct idpf_queue *q;
int i, j, k = 0;
switch (q_type) {
@@ -1111,6 +1112,8 @@ static int __idpf_queue_reg_init(struct idpf_vport *vport, u32 *reg_vals,
u16 num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq && k < num_regs; j++, k++) {
+ struct idpf_rx_queue *q;
+
q = rx_qgrp->singleq.rxqs[j];
q->tail = idpf_get_reg_addr(adapter,
reg_vals[k]);
@@ -1123,6 +1126,8 @@ static int __idpf_queue_reg_init(struct idpf_vport *vport, u32 *reg_vals,
u8 num_bufqs = vport->num_bufqs_per_qgrp;
for (j = 0; j < num_bufqs && k < num_regs; j++, k++) {
+ struct idpf_buf_queue *q;
+
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
q->tail = idpf_get_reg_addr(adapter,
reg_vals[k]);
@@ -1253,12 +1258,12 @@ int idpf_send_create_vport_msg(struct idpf_adapter *adapter,
vport_msg->vport_type = cpu_to_le16(VIRTCHNL2_VPORT_TYPE_DEFAULT);
vport_msg->vport_index = cpu_to_le16(idx);
- if (adapter->req_tx_splitq)
+ if (adapter->req_tx_splitq || !IS_ENABLED(CONFIG_IDPF_SINGLEQ))
vport_msg->txq_model = cpu_to_le16(VIRTCHNL2_QUEUE_MODEL_SPLIT);
else
vport_msg->txq_model = cpu_to_le16(VIRTCHNL2_QUEUE_MODEL_SINGLE);
- if (adapter->req_rx_splitq)
+ if (adapter->req_rx_splitq || !IS_ENABLED(CONFIG_IDPF_SINGLEQ))
vport_msg->rxq_model = cpu_to_le16(VIRTCHNL2_QUEUE_MODEL_SPLIT);
else
vport_msg->rxq_model = cpu_to_le16(VIRTCHNL2_QUEUE_MODEL_SINGLE);
@@ -1320,10 +1325,17 @@ int idpf_check_supported_desc_ids(struct idpf_vport *vport)
vport_msg = adapter->vport_params_recvd[vport->idx];
+ if (!IS_ENABLED(CONFIG_IDPF_SINGLEQ) &&
+ (vport_msg->rxq_model == VIRTCHNL2_QUEUE_MODEL_SINGLE ||
+ vport_msg->txq_model == VIRTCHNL2_QUEUE_MODEL_SINGLE)) {
+ pci_err(adapter->pdev, "singleq mode requested, but not compiled-in\n");
+ return -EOPNOTSUPP;
+ }
+
rx_desc_ids = le64_to_cpu(vport_msg->rx_desc_ids);
tx_desc_ids = le64_to_cpu(vport_msg->tx_desc_ids);
- if (vport->rxq_model == VIRTCHNL2_QUEUE_MODEL_SPLIT) {
+ if (idpf_is_queue_model_split(vport->rxq_model)) {
if (!(rx_desc_ids & VIRTCHNL2_RXDID_2_FLEX_SPLITQ_M)) {
dev_info(&adapter->pdev->dev, "Minimum RX descriptor support not provided, using the default\n");
vport_msg->rx_desc_ids = cpu_to_le64(VIRTCHNL2_RXDID_2_FLEX_SPLITQ_M);
@@ -1333,7 +1345,7 @@ int idpf_check_supported_desc_ids(struct idpf_vport *vport)
vport->base_rxd = true;
}
- if (vport->txq_model != VIRTCHNL2_QUEUE_MODEL_SPLIT)
+ if (!idpf_is_queue_model_split(vport->txq_model))
return 0;
if ((tx_desc_ids & MIN_SUPPORT_TXDID) != MIN_SUPPORT_TXDID) {
@@ -1449,19 +1461,19 @@ static int idpf_send_config_tx_queues_msg(struct idpf_vport *vport)
qi[k].model =
cpu_to_le16(vport->txq_model);
qi[k].type =
- cpu_to_le32(tx_qgrp->txqs[j]->q_type);
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_TX);
qi[k].ring_len =
cpu_to_le16(tx_qgrp->txqs[j]->desc_count);
qi[k].dma_ring_addr =
cpu_to_le64(tx_qgrp->txqs[j]->dma);
if (idpf_is_queue_model_split(vport->txq_model)) {
- struct idpf_queue *q = tx_qgrp->txqs[j];
+ struct idpf_tx_queue *q = tx_qgrp->txqs[j];
qi[k].tx_compl_queue_id =
cpu_to_le16(tx_qgrp->complq->q_id);
qi[k].relative_queue_id = cpu_to_le16(j);
- if (test_bit(__IDPF_Q_FLOW_SCH_EN, q->flags))
+ if (idpf_queue_has(FLOW_SCH_EN, q))
qi[k].sched_mode =
cpu_to_le16(VIRTCHNL2_TXQ_SCHED_MODE_FLOW);
else
@@ -1478,11 +1490,11 @@ static int idpf_send_config_tx_queues_msg(struct idpf_vport *vport)
qi[k].queue_id = cpu_to_le32(tx_qgrp->complq->q_id);
qi[k].model = cpu_to_le16(vport->txq_model);
- qi[k].type = cpu_to_le32(tx_qgrp->complq->q_type);
+ qi[k].type = cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_TX_COMPLETION);
qi[k].ring_len = cpu_to_le16(tx_qgrp->complq->desc_count);
qi[k].dma_ring_addr = cpu_to_le64(tx_qgrp->complq->dma);
- if (test_bit(__IDPF_Q_FLOW_SCH_EN, tx_qgrp->complq->flags))
+ if (idpf_queue_has(FLOW_SCH_EN, tx_qgrp->complq))
sched_mode = VIRTCHNL2_TXQ_SCHED_MODE_FLOW;
else
sched_mode = VIRTCHNL2_TXQ_SCHED_MODE_QUEUE;
@@ -1567,17 +1579,18 @@ static int idpf_send_config_rx_queues_msg(struct idpf_vport *vport)
goto setup_rxqs;
for (j = 0; j < vport->num_bufqs_per_qgrp; j++, k++) {
- struct idpf_queue *bufq =
+ struct idpf_buf_queue *bufq =
&rx_qgrp->splitq.bufq_sets[j].bufq;
qi[k].queue_id = cpu_to_le32(bufq->q_id);
qi[k].model = cpu_to_le16(vport->rxq_model);
- qi[k].type = cpu_to_le32(bufq->q_type);
+ qi[k].type =
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX_BUFFER);
qi[k].desc_ids = cpu_to_le64(VIRTCHNL2_RXDID_2_FLEX_SPLITQ_M);
qi[k].ring_len = cpu_to_le16(bufq->desc_count);
qi[k].dma_ring_addr = cpu_to_le64(bufq->dma);
qi[k].data_buffer_size = cpu_to_le32(bufq->rx_buf_size);
- qi[k].buffer_notif_stride = bufq->rx_buf_stride;
+ qi[k].buffer_notif_stride = IDPF_RX_BUF_STRIDE;
qi[k].rx_buffer_low_watermark =
cpu_to_le16(bufq->rx_buffer_low_watermark);
if (idpf_is_feature_ena(vport, NETIF_F_GRO_HW))
@@ -1591,35 +1604,47 @@ setup_rxqs:
num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq; j++, k++) {
- struct idpf_queue *rxq;
+ const struct idpf_bufq_set *sets;
+ struct idpf_rx_queue *rxq;
if (!idpf_is_queue_model_split(vport->rxq_model)) {
rxq = rx_qgrp->singleq.rxqs[j];
goto common_qi_fields;
}
+
rxq = &rx_qgrp->splitq.rxq_sets[j]->rxq;
- qi[k].rx_bufq1_id =
- cpu_to_le16(rxq->rxq_grp->splitq.bufq_sets[0].bufq.q_id);
+ sets = rxq->bufq_sets;
+
+ /* In splitq mode, RXQ buffer size should be
+ * set to that of the first buffer queue
+ * associated with this RXQ.
+ */
+ rxq->rx_buf_size = sets[0].bufq.rx_buf_size;
+
+ qi[k].rx_bufq1_id = cpu_to_le16(sets[0].bufq.q_id);
if (vport->num_bufqs_per_qgrp > IDPF_SINGLE_BUFQ_PER_RXQ_GRP) {
qi[k].bufq2_ena = IDPF_BUFQ2_ENA;
qi[k].rx_bufq2_id =
- cpu_to_le16(rxq->rxq_grp->splitq.bufq_sets[1].bufq.q_id);
+ cpu_to_le16(sets[1].bufq.q_id);
}
qi[k].rx_buffer_low_watermark =
cpu_to_le16(rxq->rx_buffer_low_watermark);
if (idpf_is_feature_ena(vport, NETIF_F_GRO_HW))
qi[k].qflags |= cpu_to_le16(VIRTCHNL2_RXQ_RSC);
-common_qi_fields:
- if (rxq->rx_hsplit_en) {
+ rxq->rx_hbuf_size = sets[0].bufq.rx_hbuf_size;
+
+ if (idpf_queue_has(HSPLIT_EN, rxq)) {
qi[k].qflags |=
cpu_to_le16(VIRTCHNL2_RXQ_HDR_SPLIT);
qi[k].hdr_buffer_size =
cpu_to_le16(rxq->rx_hbuf_size);
}
+
+common_qi_fields:
qi[k].queue_id = cpu_to_le32(rxq->q_id);
qi[k].model = cpu_to_le16(vport->rxq_model);
- qi[k].type = cpu_to_le32(rxq->q_type);
+ qi[k].type = cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX);
qi[k].ring_len = cpu_to_le16(rxq->desc_count);
qi[k].dma_ring_addr = cpu_to_le64(rxq->dma);
qi[k].max_pkt_size = cpu_to_le32(rxq->rx_max_pkt_size);
@@ -1706,7 +1731,7 @@ static int idpf_send_ena_dis_queues_msg(struct idpf_vport *vport, bool ena)
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
for (j = 0; j < tx_qgrp->num_txq; j++, k++) {
- qc[k].type = cpu_to_le32(tx_qgrp->txqs[j]->q_type);
+ qc[k].type = cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_TX);
qc[k].start_queue_id = cpu_to_le32(tx_qgrp->txqs[j]->q_id);
qc[k].num_queues = cpu_to_le32(IDPF_NUMQ_PER_CHUNK);
}
@@ -1720,7 +1745,7 @@ static int idpf_send_ena_dis_queues_msg(struct idpf_vport *vport, bool ena)
for (i = 0; i < vport->num_txq_grp; i++, k++) {
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
- qc[k].type = cpu_to_le32(tx_qgrp->complq->q_type);
+ qc[k].type = cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_TX_COMPLETION);
qc[k].start_queue_id = cpu_to_le32(tx_qgrp->complq->q_id);
qc[k].num_queues = cpu_to_le32(IDPF_NUMQ_PER_CHUNK);
}
@@ -1741,12 +1766,12 @@ setup_rx:
qc[k].start_queue_id =
cpu_to_le32(rx_qgrp->splitq.rxq_sets[j]->rxq.q_id);
qc[k].type =
- cpu_to_le32(rx_qgrp->splitq.rxq_sets[j]->rxq.q_type);
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX);
} else {
qc[k].start_queue_id =
cpu_to_le32(rx_qgrp->singleq.rxqs[j]->q_id);
qc[k].type =
- cpu_to_le32(rx_qgrp->singleq.rxqs[j]->q_type);
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX);
}
qc[k].num_queues = cpu_to_le32(IDPF_NUMQ_PER_CHUNK);
}
@@ -1761,10 +1786,11 @@ setup_rx:
struct idpf_rxq_group *rx_qgrp = &vport->rxq_grps[i];
for (j = 0; j < vport->num_bufqs_per_qgrp; j++, k++) {
- struct idpf_queue *q;
+ const struct idpf_buf_queue *q;
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
- qc[k].type = cpu_to_le32(q->q_type);
+ qc[k].type =
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX_BUFFER);
qc[k].start_queue_id = cpu_to_le32(q->q_id);
qc[k].num_queues = cpu_to_le32(IDPF_NUMQ_PER_CHUNK);
}
@@ -1849,7 +1875,8 @@ int idpf_send_map_unmap_queue_vector_msg(struct idpf_vport *vport, bool map)
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
for (j = 0; j < tx_qgrp->num_txq; j++, k++) {
- vqv[k].queue_type = cpu_to_le32(tx_qgrp->txqs[j]->q_type);
+ vqv[k].queue_type =
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_TX);
vqv[k].queue_id = cpu_to_le32(tx_qgrp->txqs[j]->q_id);
if (idpf_is_queue_model_split(vport->txq_model)) {
@@ -1879,14 +1906,15 @@ int idpf_send_map_unmap_queue_vector_msg(struct idpf_vport *vport, bool map)
num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq; j++, k++) {
- struct idpf_queue *rxq;
+ struct idpf_rx_queue *rxq;
if (idpf_is_queue_model_split(vport->rxq_model))
rxq = &rx_qgrp->splitq.rxq_sets[j]->rxq;
else
rxq = rx_qgrp->singleq.rxqs[j];
- vqv[k].queue_type = cpu_to_le32(rxq->q_type);
+ vqv[k].queue_type =
+ cpu_to_le32(VIRTCHNL2_QUEUE_TYPE_RX);
vqv[k].queue_id = cpu_to_le32(rxq->q_id);
vqv[k].vector_id = cpu_to_le16(rxq->q_vector->v_idx);
vqv[k].itr_idx = cpu_to_le32(rxq->q_vector->rx_itr_idx);
@@ -1975,7 +2003,7 @@ int idpf_send_disable_queues_msg(struct idpf_vport *vport)
* queues virtchnl message is sent
*/
for (i = 0; i < vport->num_txq; i++)
- set_bit(__IDPF_Q_POLL_MODE, vport->txqs[i]->flags);
+ idpf_queue_set(POLL_MODE, vport->txqs[i]);
/* schedule the napi to receive all the marker packets */
local_bh_disable();
@@ -2469,39 +2497,52 @@ do_memcpy:
* @frag: fragmentation allowed
*
*/
-static void idpf_fill_ptype_lookup(struct idpf_rx_ptype_decoded *ptype,
+static void idpf_fill_ptype_lookup(struct libeth_rx_pt *ptype,
struct idpf_ptype_state *pstate,
bool ipv4, bool frag)
{
if (!pstate->outer_ip || !pstate->outer_frag) {
- ptype->outer_ip = IDPF_RX_PTYPE_OUTER_IP;
pstate->outer_ip = true;
if (ipv4)
- ptype->outer_ip_ver = IDPF_RX_PTYPE_OUTER_IPV4;
+ ptype->outer_ip = LIBETH_RX_PT_OUTER_IPV4;
else
- ptype->outer_ip_ver = IDPF_RX_PTYPE_OUTER_IPV6;
+ ptype->outer_ip = LIBETH_RX_PT_OUTER_IPV6;
if (frag) {
- ptype->outer_frag = IDPF_RX_PTYPE_FRAG;
+ ptype->outer_frag = LIBETH_RX_PT_FRAG;
pstate->outer_frag = true;
}
} else {
- ptype->tunnel_type = IDPF_RX_PTYPE_TUNNEL_IP_IP;
+ ptype->tunnel_type = LIBETH_RX_PT_TUNNEL_IP_IP;
pstate->tunnel_state = IDPF_PTYPE_TUNNEL_IP;
if (ipv4)
- ptype->tunnel_end_prot =
- IDPF_RX_PTYPE_TUNNEL_END_IPV4;
+ ptype->tunnel_end_prot = LIBETH_RX_PT_TUNNEL_END_IPV4;
else
- ptype->tunnel_end_prot =
- IDPF_RX_PTYPE_TUNNEL_END_IPV6;
+ ptype->tunnel_end_prot = LIBETH_RX_PT_TUNNEL_END_IPV6;
if (frag)
- ptype->tunnel_end_frag = IDPF_RX_PTYPE_FRAG;
+ ptype->tunnel_end_frag = LIBETH_RX_PT_FRAG;
}
}
+static void idpf_finalize_ptype_lookup(struct libeth_rx_pt *ptype)
+{
+ if (ptype->payload_layer == LIBETH_RX_PT_PAYLOAD_L2 &&
+ ptype->inner_prot)
+ ptype->payload_layer = LIBETH_RX_PT_PAYLOAD_L4;
+ else if (ptype->payload_layer == LIBETH_RX_PT_PAYLOAD_L2 &&
+ ptype->outer_ip)
+ ptype->payload_layer = LIBETH_RX_PT_PAYLOAD_L3;
+ else if (ptype->outer_ip == LIBETH_RX_PT_OUTER_L2)
+ ptype->payload_layer = LIBETH_RX_PT_PAYLOAD_L2;
+ else
+ ptype->payload_layer = LIBETH_RX_PT_PAYLOAD_NONE;
+
+ libeth_rx_pt_gen_hash_type(ptype);
+}
+
/**
* idpf_send_get_rx_ptype_msg - Send virtchnl for ptype info
* @vport: virtual port data structure
@@ -2512,7 +2553,7 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
{
struct virtchnl2_get_ptype_info *get_ptype_info __free(kfree) = NULL;
struct virtchnl2_get_ptype_info *ptype_info __free(kfree) = NULL;
- struct idpf_rx_ptype_decoded *ptype_lkup = vport->rx_ptype_lkup;
+ struct libeth_rx_pt *ptype_lkup __free(kfree) = NULL;
int max_ptype, ptypes_recvd = 0, ptype_offset;
struct idpf_adapter *adapter = vport->adapter;
struct idpf_vc_xn_params xn_params = {};
@@ -2520,12 +2561,17 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
ssize_t reply_sz;
int i, j, k;
+ if (vport->rx_ptype_lkup)
+ return 0;
+
if (idpf_is_queue_model_split(vport->rxq_model))
max_ptype = IDPF_RX_MAX_PTYPE;
else
max_ptype = IDPF_RX_MAX_BASE_PTYPE;
- memset(vport->rx_ptype_lkup, 0, sizeof(vport->rx_ptype_lkup));
+ ptype_lkup = kcalloc(max_ptype, sizeof(*ptype_lkup), GFP_KERNEL);
+ if (!ptype_lkup)
+ return -ENOMEM;
get_ptype_info = kzalloc(sizeof(*get_ptype_info), GFP_KERNEL);
if (!get_ptype_info)
@@ -2583,16 +2629,13 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
/* 0xFFFF indicates end of ptypes */
if (le16_to_cpu(ptype->ptype_id_10) ==
IDPF_INVALID_PTYPE_ID)
- return 0;
+ goto out;
if (idpf_is_queue_model_split(vport->rxq_model))
k = le16_to_cpu(ptype->ptype_id_10);
else
k = ptype->ptype_id_8;
- if (ptype->proto_id_count)
- ptype_lkup[k].known = 1;
-
for (j = 0; j < ptype->proto_id_count; j++) {
id = le16_to_cpu(ptype->proto_id[j]);
switch (id) {
@@ -2600,18 +2643,18 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
if (pstate.tunnel_state ==
IDPF_PTYPE_TUNNEL_IP) {
ptype_lkup[k].tunnel_type =
- IDPF_RX_PTYPE_TUNNEL_IP_GRENAT;
+ LIBETH_RX_PT_TUNNEL_IP_GRENAT;
pstate.tunnel_state |=
IDPF_PTYPE_TUNNEL_IP_GRENAT;
}
break;
case VIRTCHNL2_PROTO_HDR_MAC:
ptype_lkup[k].outer_ip =
- IDPF_RX_PTYPE_OUTER_L2;
+ LIBETH_RX_PT_OUTER_L2;
if (pstate.tunnel_state ==
IDPF_TUN_IP_GRE) {
ptype_lkup[k].tunnel_type =
- IDPF_RX_PTYPE_TUNNEL_IP_GRENAT_MAC;
+ LIBETH_RX_PT_TUNNEL_IP_GRENAT_MAC;
pstate.tunnel_state |=
IDPF_PTYPE_TUNNEL_IP_GRENAT_MAC;
}
@@ -2638,23 +2681,23 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
break;
case VIRTCHNL2_PROTO_HDR_UDP:
ptype_lkup[k].inner_prot =
- IDPF_RX_PTYPE_INNER_PROT_UDP;
+ LIBETH_RX_PT_INNER_UDP;
break;
case VIRTCHNL2_PROTO_HDR_TCP:
ptype_lkup[k].inner_prot =
- IDPF_RX_PTYPE_INNER_PROT_TCP;
+ LIBETH_RX_PT_INNER_TCP;
break;
case VIRTCHNL2_PROTO_HDR_SCTP:
ptype_lkup[k].inner_prot =
- IDPF_RX_PTYPE_INNER_PROT_SCTP;
+ LIBETH_RX_PT_INNER_SCTP;
break;
case VIRTCHNL2_PROTO_HDR_ICMP:
ptype_lkup[k].inner_prot =
- IDPF_RX_PTYPE_INNER_PROT_ICMP;
+ LIBETH_RX_PT_INNER_ICMP;
break;
case VIRTCHNL2_PROTO_HDR_PAY:
ptype_lkup[k].payload_layer =
- IDPF_RX_PTYPE_PAYLOAD_LAYER_PAY2;
+ LIBETH_RX_PT_PAYLOAD_L2;
break;
case VIRTCHNL2_PROTO_HDR_ICMPV6:
case VIRTCHNL2_PROTO_HDR_IPV6_EH:
@@ -2708,9 +2751,14 @@ int idpf_send_get_rx_ptype_msg(struct idpf_vport *vport)
break;
}
}
+
+ idpf_finalize_ptype_lookup(&ptype_lkup[k]);
}
}
+out:
+ vport->rx_ptype_lkup = no_free_ptr(ptype_lkup);
+
return 0;
}
@@ -3125,7 +3173,7 @@ void idpf_vport_init(struct idpf_vport *vport, struct idpf_vport_max_q *max_q)
rss_data->rss_lut_size = le16_to_cpu(vport_msg->rss_lut_size);
ether_addr_copy(vport->default_mac_addr, vport_msg->default_mac_addr);
- vport->max_mtu = le16_to_cpu(vport_msg->max_mtu) - IDPF_PACKET_HDR_PAD;
+ vport->max_mtu = le16_to_cpu(vport_msg->max_mtu) - LIBETH_RX_LL_LEN;
/* Initialize Tx and Rx profiles for Dynamic Interrupt Moderation */
memcpy(vport->rx_itr_profile, rx_itr, IDPF_DIM_PROFILE_SLOTS);
@@ -3242,7 +3290,6 @@ static int __idpf_vport_queue_ids_init(struct idpf_vport *vport,
int num_qids,
u32 q_type)
{
- struct idpf_queue *q;
int i, j, k = 0;
switch (q_type) {
@@ -3250,11 +3297,8 @@ static int __idpf_vport_queue_ids_init(struct idpf_vport *vport,
for (i = 0; i < vport->num_txq_grp; i++) {
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
- for (j = 0; j < tx_qgrp->num_txq && k < num_qids; j++, k++) {
+ for (j = 0; j < tx_qgrp->num_txq && k < num_qids; j++, k++)
tx_qgrp->txqs[j]->q_id = qids[k];
- tx_qgrp->txqs[j]->q_type =
- VIRTCHNL2_QUEUE_TYPE_TX;
- }
}
break;
case VIRTCHNL2_QUEUE_TYPE_RX:
@@ -3268,12 +3312,13 @@ static int __idpf_vport_queue_ids_init(struct idpf_vport *vport,
num_rxq = rx_qgrp->singleq.num_rxq;
for (j = 0; j < num_rxq && k < num_qids; j++, k++) {
+ struct idpf_rx_queue *q;
+
if (idpf_is_queue_model_split(vport->rxq_model))
q = &rx_qgrp->splitq.rxq_sets[j]->rxq;
else
q = rx_qgrp->singleq.rxqs[j];
q->q_id = qids[k];
- q->q_type = VIRTCHNL2_QUEUE_TYPE_RX;
}
}
break;
@@ -3282,8 +3327,6 @@ static int __idpf_vport_queue_ids_init(struct idpf_vport *vport,
struct idpf_txq_group *tx_qgrp = &vport->txq_grps[i];
tx_qgrp->complq->q_id = qids[k];
- tx_qgrp->complq->q_type =
- VIRTCHNL2_QUEUE_TYPE_TX_COMPLETION;
}
break;
case VIRTCHNL2_QUEUE_TYPE_RX_BUFFER:
@@ -3292,9 +3335,10 @@ static int __idpf_vport_queue_ids_init(struct idpf_vport *vport,
u8 num_bufqs = vport->num_bufqs_per_qgrp;
for (j = 0; j < num_bufqs && k < num_qids; j++, k++) {
+ struct idpf_buf_queue *q;
+
q = &rx_qgrp->splitq.bufq_sets[j].bufq;
q->q_id = qids[k];
- q->q_type = VIRTCHNL2_QUEUE_TYPE_RX_BUFFER;
}
}
break;
generated by cgit v1.2.3-58-ga151 (git 2.39.0) at 2024-11-21 16:39:07 +0000