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|
/*
* Copyright (c) 2014, 2015, 2016, 2017 Nicira, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <config.h>
#include "netdev-dpdk.h"
#include <errno.h>
#include <signal.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <linux/virtio_net.h>
#include <sys/socket.h>
#include <linux/if.h>
/* Include rte_compat.h first to allow experimental API's needed for the
* rte_meter.h rfc4115 functions. Once they are no longer marked as
* experimental the #define and rte_compat.h include can be removed.
*/
#define ALLOW_EXPERIMENTAL_API
#include <rte_compat.h>
#include <rte_bus_pci.h>
#include <rte_config.h>
#include <rte_cycles.h>
#include <rte_errno.h>
#include <rte_eth_ring.h>
#include <rte_ethdev.h>
#include <rte_flow.h>
#include <rte_malloc.h>
#include <rte_mbuf.h>
#include <rte_meter.h>
#include <rte_pci.h>
#include <rte_version.h>
#include <rte_vhost.h>
#include "cmap.h"
#include "coverage.h"
#include "dirs.h"
#include "dp-packet.h"
#include "dpdk.h"
#include "dpif-netdev.h"
#include "fatal-signal.h"
#include "if-notifier.h"
#include "netdev-provider.h"
#include "netdev-vport.h"
#include "odp-util.h"
#include "openvswitch/dynamic-string.h"
#include "openvswitch/list.h"
#include "openvswitch/match.h"
#include "openvswitch/ofp-print.h"
#include "openvswitch/shash.h"
#include "openvswitch/vlog.h"
#include "ovs-numa.h"
#include "ovs-rcu.h"
#include "ovs-thread.h"
#include "packets.h"
#include "smap.h"
#include "sset.h"
#include "timeval.h"
#include "unaligned.h"
#include "unixctl.h"
#include "util.h"
#include "uuid.h"
enum {VIRTIO_RXQ, VIRTIO_TXQ, VIRTIO_QNUM};
VLOG_DEFINE_THIS_MODULE(netdev_dpdk);
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 20);
COVERAGE_DEFINE(vhost_tx_contention);
COVERAGE_DEFINE(vhost_notification);
#define DPDK_PORT_WATCHDOG_INTERVAL 5
#define OVS_CACHE_LINE_SIZE CACHE_LINE_SIZE
#define OVS_VPORT_DPDK "ovs_dpdk"
/*
* need to reserve tons of extra space in the mbufs so we can align the
* DMA addresses to 4KB.
* The minimum mbuf size is limited to avoid scatter behaviour and drop in
* performance for standard Ethernet MTU.
*/
#define ETHER_HDR_MAX_LEN (RTE_ETHER_HDR_LEN + RTE_ETHER_CRC_LEN \
+ (2 * VLAN_HEADER_LEN))
#define MTU_TO_FRAME_LEN(mtu) ((mtu) + RTE_ETHER_HDR_LEN + \
RTE_ETHER_CRC_LEN)
#define MTU_TO_MAX_FRAME_LEN(mtu) ((mtu) + ETHER_HDR_MAX_LEN)
#define FRAME_LEN_TO_MTU(frame_len) ((frame_len) \
- RTE_ETHER_HDR_LEN - RTE_ETHER_CRC_LEN)
#define NETDEV_DPDK_MBUF_ALIGN 1024
#define NETDEV_DPDK_MAX_PKT_LEN 9728
/* Max and min number of packets in the mempool. OVS tries to allocate a
* mempool with MAX_NB_MBUF: if this fails (because the system doesn't have
* enough hugepages) we keep halving the number until the allocation succeeds
* or we reach MIN_NB_MBUF */
#define MAX_NB_MBUF (4096 * 64)
#define MIN_NB_MBUF (4096 * 4)
#define MP_CACHE_SZ RTE_MEMPOOL_CACHE_MAX_SIZE
/* MAX_NB_MBUF can be divided by 2 many times, until MIN_NB_MBUF */
BUILD_ASSERT_DECL(MAX_NB_MBUF % ROUND_DOWN_POW2(MAX_NB_MBUF / MIN_NB_MBUF)
== 0);
/* The smallest possible NB_MBUF that we're going to try should be a multiple
* of MP_CACHE_SZ. This is advised by DPDK documentation. */
BUILD_ASSERT_DECL((MAX_NB_MBUF / ROUND_DOWN_POW2(MAX_NB_MBUF / MIN_NB_MBUF))
% MP_CACHE_SZ == 0);
#define SOCKET0 0
/* Default size of Physical NIC RXQ */
#define NIC_PORT_DEFAULT_RXQ_SIZE 2048
/* Default size of Physical NIC TXQ */
#define NIC_PORT_DEFAULT_TXQ_SIZE 2048
/* Maximum size of Physical NIC Queues */
#define NIC_PORT_MAX_Q_SIZE 4096
#define OVS_VHOST_MAX_QUEUE_NUM 1024 /* Maximum number of vHost TX queues. */
#define OVS_VHOST_QUEUE_MAP_UNKNOWN (-1) /* Mapping not initialized. */
#define OVS_VHOST_QUEUE_DISABLED (-2) /* Queue was disabled by guest and not
* yet mapped to another queue. */
#define DPDK_ETH_PORT_ID_INVALID RTE_MAX_ETHPORTS
/* DPDK library uses uint16_t for port_id. */
typedef uint16_t dpdk_port_t;
#define DPDK_PORT_ID_FMT "%"PRIu16
/* Minimum amount of vhost tx retries, effectively a disable. */
#define VHOST_ENQ_RETRY_MIN 0
/* Maximum amount of vhost tx retries. */
#define VHOST_ENQ_RETRY_MAX 32
/* Legacy default value for vhost tx retries. */
#define VHOST_ENQ_RETRY_DEF 8
#define IF_NAME_SZ (PATH_MAX > IFNAMSIZ ? PATH_MAX : IFNAMSIZ)
static const struct rte_eth_conf port_conf = {
.rxmode = {
.mq_mode = ETH_MQ_RX_RSS,
.split_hdr_size = 0,
.offloads = 0,
},
.rx_adv_conf = {
.rss_conf = {
.rss_key = NULL,
.rss_hf = ETH_RSS_IP | ETH_RSS_UDP | ETH_RSS_TCP,
},
},
.txmode = {
.mq_mode = ETH_MQ_TX_NONE,
},
};
/*
* These callbacks allow virtio-net devices to be added to vhost ports when
* configuration has been fully completed.
*/
static int new_device(int vid);
static void destroy_device(int vid);
static int vring_state_changed(int vid, uint16_t queue_id, int enable);
static void destroy_connection(int vid);
static void vhost_guest_notified(int vid);
static const struct vhost_device_ops virtio_net_device_ops =
{
.new_device = new_device,
.destroy_device = destroy_device,
.vring_state_changed = vring_state_changed,
.features_changed = NULL,
.new_connection = NULL,
.destroy_connection = destroy_connection,
.guest_notified = vhost_guest_notified,
};
/* Custom software stats for dpdk ports */
struct netdev_dpdk_sw_stats {
/* No. of retries when unable to transmit. */
uint64_t tx_retries;
/* Packet drops when unable to transmit; Probably Tx queue is full. */
uint64_t tx_failure_drops;
/* Packet length greater than device MTU. */
uint64_t tx_mtu_exceeded_drops;
/* Packet drops in egress policer processing. */
uint64_t tx_qos_drops;
/* Packet drops in ingress policer processing. */
uint64_t rx_qos_drops;
};
enum { DPDK_RING_SIZE = 256 };
BUILD_ASSERT_DECL(IS_POW2(DPDK_RING_SIZE));
enum { DRAIN_TSC = 200000ULL };
enum dpdk_dev_type {
DPDK_DEV_ETH = 0,
DPDK_DEV_VHOST = 1,
};
/* Quality of Service */
/* An instance of a QoS configuration. Always associated with a particular
* network device.
*
* Each QoS implementation subclasses this with whatever additional data it
* needs.
*/
struct qos_conf {
const struct dpdk_qos_ops *ops;
rte_spinlock_t lock;
};
/* QoS queue information used by the netdev queue dump functions. */
struct netdev_dpdk_queue_state {
uint32_t *queues;
size_t cur_queue;
size_t n_queues;
};
/* A particular implementation of dpdk QoS operations.
*
* The functions below return 0 if successful or a positive errno value on
* failure, except where otherwise noted. All of them must be provided, except
* where otherwise noted.
*/
struct dpdk_qos_ops {
/* Name of the QoS type */
const char *qos_name;
/* Called to construct a qos_conf object. The implementation should make
* the appropriate calls to configure QoS according to 'details'.
*
* The contents of 'details' should be documented as valid for 'ovs_name'
* in the "other_config" column in the "QoS" table in vswitchd/vswitch.xml
* (which is built as ovs-vswitchd.conf.db(8)).
*
* This function must return 0 if and only if it sets '*conf' to an
* initialized 'struct qos_conf'.
*
* For all QoS implementations it should always be non-null.
*/
int (*qos_construct)(const struct smap *details, struct qos_conf **conf);
/* Destroys the data structures allocated by the implementation as part of
* 'qos_conf'.
*
* For all QoS implementations it should always be non-null.
*/
void (*qos_destruct)(struct qos_conf *conf);
/* Retrieves details of 'conf' configuration into 'details'.
*
* The contents of 'details' should be documented as valid for 'ovs_name'
* in the "other_config" column in the "QoS" table in vswitchd/vswitch.xml
* (which is built as ovs-vswitchd.conf.db(8)).
*/
int (*qos_get)(const struct qos_conf *conf, struct smap *details);
/* Returns true if 'conf' is already configured according to 'details'.
*
* The contents of 'details' should be documented as valid for 'ovs_name'
* in the "other_config" column in the "QoS" table in vswitchd/vswitch.xml
* (which is built as ovs-vswitchd.conf.db(8)).
*
* For all QoS implementations it should always be non-null.
*/
bool (*qos_is_equal)(const struct qos_conf *conf,
const struct smap *details);
/* Modify an array of rte_mbufs. The modification is specific to
* each qos implementation.
*
* The function should take and array of mbufs and an int representing
* the current number of mbufs present in the array.
*
* After the function has performed a qos modification to the array of
* mbufs it returns an int representing the number of mbufs now present in
* the array. This value is can then be passed to the port send function
* along with the modified array for transmission.
*
* For all QoS implementations it should always be non-null.
*/
int (*qos_run)(struct qos_conf *qos_conf, struct rte_mbuf **pkts,
int pkt_cnt, bool should_steal);
/* Called to construct a QoS Queue. The implementation should make
* the appropriate calls to configure QoS Queue according to 'details'.
*
* The contents of 'details' should be documented as valid for 'ovs_name'
* in the "other_config" column in the "QoS" table in vswitchd/vswitch.xml
* (which is built as ovs-vswitchd.conf.db(8)).
*
* This function must return 0 if and only if it constructs
* QoS queue successfully.
*/
int (*qos_queue_construct)(const struct smap *details,
uint32_t queue_id, struct qos_conf *conf);
/* Destroys the QoS Queue. */
void (*qos_queue_destruct)(struct qos_conf *conf, uint32_t queue_id);
/* Retrieves details of QoS Queue configuration into 'details'.
*
* The contents of 'details' should be documented as valid for 'ovs_name'
* in the "other_config" column in the "QoS" table in vswitchd/vswitch.xml
* (which is built as ovs-vswitchd.conf.db(8)).
*/
int (*qos_queue_get)(struct smap *details, uint32_t queue_id,
const struct qos_conf *conf);
/* Retrieves statistics of QoS Queue configuration into 'stats'. */
int (*qos_queue_get_stats)(const struct qos_conf *conf, uint32_t queue_id,
struct netdev_queue_stats *stats);
/* Setup the 'netdev_dpdk_queue_state' structure used by the dpdk queue
* dump functions.
*/
int (*qos_queue_dump_state_init)(const struct qos_conf *conf,
struct netdev_dpdk_queue_state *state);
};
/* dpdk_qos_ops for each type of user space QoS implementation. */
static const struct dpdk_qos_ops egress_policer_ops;
static const struct dpdk_qos_ops trtcm_policer_ops;
/*
* Array of dpdk_qos_ops, contains pointer to all supported QoS
* operations.
*/
static const struct dpdk_qos_ops *const qos_confs[] = {
&egress_policer_ops,
&trtcm_policer_ops,
NULL
};
static struct ovs_mutex dpdk_mutex = OVS_MUTEX_INITIALIZER;
/* Contains all 'struct dpdk_dev's. */
static struct ovs_list dpdk_list OVS_GUARDED_BY(dpdk_mutex)
= OVS_LIST_INITIALIZER(&dpdk_list);
static struct ovs_mutex dpdk_mp_mutex OVS_ACQ_AFTER(dpdk_mutex)
= OVS_MUTEX_INITIALIZER;
/* Contains all 'struct dpdk_mp's. */
static struct ovs_list dpdk_mp_list OVS_GUARDED_BY(dpdk_mp_mutex)
= OVS_LIST_INITIALIZER(&dpdk_mp_list);
struct dpdk_mp {
struct rte_mempool *mp;
int mtu;
int socket_id;
int refcount;
struct ovs_list list_node OVS_GUARDED_BY(dpdk_mp_mutex);
};
/* There should be one 'struct dpdk_tx_queue' created for
* each netdev tx queue. */
struct dpdk_tx_queue {
/* Padding to make dpdk_tx_queue exactly one cache line long. */
PADDED_MEMBERS(CACHE_LINE_SIZE,
/* Protects the members and the NIC queue from concurrent access.
* It is used only if the queue is shared among different pmd threads
* (see 'concurrent_txq'). */
rte_spinlock_t tx_lock;
/* Mapping of configured vhost-user queue to enabled by guest. */
int map;
);
};
/* dpdk has no way to remove dpdk ring ethernet devices
so we have to keep them around once they've been created
*/
static struct ovs_list dpdk_ring_list OVS_GUARDED_BY(dpdk_mutex)
= OVS_LIST_INITIALIZER(&dpdk_ring_list);
struct dpdk_ring {
/* For the client rings */
struct rte_ring *cring_tx;
struct rte_ring *cring_rx;
unsigned int user_port_id; /* User given port no, parsed from port name */
dpdk_port_t eth_port_id; /* ethernet device port id */
struct ovs_list list_node OVS_GUARDED_BY(dpdk_mutex);
};
struct ingress_policer {
struct rte_meter_srtcm_params app_srtcm_params;
struct rte_meter_srtcm in_policer;
struct rte_meter_srtcm_profile in_prof;
rte_spinlock_t policer_lock;
};
enum dpdk_hw_ol_features {
NETDEV_RX_CHECKSUM_OFFLOAD = 1 << 0,
NETDEV_RX_HW_CRC_STRIP = 1 << 1,
NETDEV_RX_HW_SCATTER = 1 << 2
};
/*
* In order to avoid confusion in variables names, following naming convention
* should be used, if possible:
*
* 'struct netdev' : 'netdev'
* 'struct netdev_dpdk' : 'dev'
* 'struct netdev_rxq' : 'rxq'
* 'struct netdev_rxq_dpdk' : 'rx'
*
* Example:
* struct netdev *netdev = netdev_from_name(name);
* struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
*
* Also, 'netdev' should be used instead of 'dev->up', where 'netdev' was
* already defined.
*/
struct netdev_dpdk {
PADDED_MEMBERS_CACHELINE_MARKER(CACHE_LINE_SIZE, cacheline0,
dpdk_port_t port_id;
/* If true, device was attached by rte_eth_dev_attach(). */
bool attached;
/* If true, rte_eth_dev_start() was successfully called */
bool started;
bool reset_needed;
/* 1 pad byte here. */
struct eth_addr hwaddr;
int mtu;
int socket_id;
int buf_size;
int max_packet_len;
enum dpdk_dev_type type;
enum netdev_flags flags;
int link_reset_cnt;
union {
/* Device arguments for dpdk ports. */
char *devargs;
/* Identifier used to distinguish vhost devices from each other. */
char *vhost_id;
};
struct dpdk_tx_queue *tx_q;
struct rte_eth_link link;
);
PADDED_MEMBERS_CACHELINE_MARKER(CACHE_LINE_SIZE, cacheline1,
struct ovs_mutex mutex OVS_ACQ_AFTER(dpdk_mutex);
struct dpdk_mp *dpdk_mp;
/* virtio identifier for vhost devices */
ovsrcu_index vid;
/* True if vHost device is 'up' and has been reconfigured at least once */
bool vhost_reconfigured;
atomic_uint8_t vhost_tx_retries_max;
/* 2 pad bytes here. */
);
PADDED_MEMBERS(CACHE_LINE_SIZE,
struct netdev up;
/* In dpdk_list. */
struct ovs_list list_node OVS_GUARDED_BY(dpdk_mutex);
/* QoS configuration and lock for the device */
OVSRCU_TYPE(struct qos_conf *) qos_conf;
/* Ingress Policer */
OVSRCU_TYPE(struct ingress_policer *) ingress_policer;
uint32_t policer_rate;
uint32_t policer_burst;
/* Array of vhost rxq states, see vring_state_changed. */
bool *vhost_rxq_enabled;
);
PADDED_MEMBERS(CACHE_LINE_SIZE,
struct netdev_stats stats;
struct netdev_dpdk_sw_stats *sw_stats;
/* Protects stats */
rte_spinlock_t stats_lock;
/* 36 pad bytes here. */
);
PADDED_MEMBERS(CACHE_LINE_SIZE,
/* The following properties cannot be changed when a device is running,
* so we remember the request and update them next time
* netdev_dpdk*_reconfigure() is called */
int requested_mtu;
int requested_n_txq;
int requested_n_rxq;
int requested_rxq_size;
int requested_txq_size;
/* Number of rx/tx descriptors for physical devices */
int rxq_size;
int txq_size;
/* Socket ID detected when vHost device is brought up */
int requested_socket_id;
/* Denotes whether vHost port is client/server mode */
uint64_t vhost_driver_flags;
/* DPDK-ETH Flow control */
struct rte_eth_fc_conf fc_conf;
/* DPDK-ETH hardware offload features,
* from the enum set 'dpdk_hw_ol_features' */
uint32_t hw_ol_features;
/* Properties for link state change detection mode.
* If lsc_interrupt_mode is set to false, poll mode is used,
* otherwise interrupt mode is used. */
bool requested_lsc_interrupt_mode;
bool lsc_interrupt_mode;
);
PADDED_MEMBERS(CACHE_LINE_SIZE,
/* Names of all XSTATS counters */
struct rte_eth_xstat_name *rte_xstats_names;
int rte_xstats_names_size;
int rte_xstats_ids_size;
uint64_t *rte_xstats_ids;
);
};
struct netdev_rxq_dpdk {
struct netdev_rxq up;
dpdk_port_t port_id;
};
static void netdev_dpdk_destruct(struct netdev *netdev);
static void netdev_dpdk_vhost_destruct(struct netdev *netdev);
static int netdev_dpdk_get_sw_custom_stats(const struct netdev *,
struct netdev_custom_stats *);
static void netdev_dpdk_clear_xstats(struct netdev_dpdk *dev);
int netdev_dpdk_get_vid(const struct netdev_dpdk *dev);
struct ingress_policer *
netdev_dpdk_get_ingress_policer(const struct netdev_dpdk *dev);
static bool
is_dpdk_class(const struct netdev_class *class)
{
return class->destruct == netdev_dpdk_destruct
|| class->destruct == netdev_dpdk_vhost_destruct;
}
/* DPDK NIC drivers allocate RX buffers at a particular granularity, typically
* aligned at 1k or less. If a declared mbuf size is not a multiple of this
* value, insufficient buffers are allocated to accomodate the packet in its
* entirety. Furthermore, certain drivers need to ensure that there is also
* sufficient space in the Rx buffer to accommodate two VLAN tags (for QinQ
* frames). If the RX buffer is too small, then the driver enables scatter RX
* behaviour, which reduces performance. To prevent this, use a buffer size
* that is closest to 'mtu', but which satisfies the aforementioned criteria.
*/
static uint32_t
dpdk_buf_size(int mtu)
{
return ROUND_UP(MTU_TO_MAX_FRAME_LEN(mtu), NETDEV_DPDK_MBUF_ALIGN)
+ RTE_PKTMBUF_HEADROOM;
}
/* Allocates an area of 'sz' bytes from DPDK. The memory is zero'ed.
*
* Unlike xmalloc(), this function can return NULL on failure. */
static void *
dpdk_rte_mzalloc(size_t sz)
{
return rte_zmalloc(OVS_VPORT_DPDK, sz, OVS_CACHE_LINE_SIZE);
}
void
free_dpdk_buf(struct dp_packet *p)
{
struct rte_mbuf *pkt = (struct rte_mbuf *) p;
rte_pktmbuf_free(pkt);
}
static void
ovs_rte_pktmbuf_init(struct rte_mempool *mp OVS_UNUSED,
void *opaque_arg OVS_UNUSED,
void *_p,
unsigned i OVS_UNUSED)
{
struct rte_mbuf *pkt = _p;
dp_packet_init_dpdk((struct dp_packet *) pkt);
}
static int
dpdk_mp_full(const struct rte_mempool *mp) OVS_REQUIRES(dpdk_mp_mutex)
{
/* At this point we want to know if all the mbufs are back
* in the mempool. rte_mempool_full() is not atomic but it's
* the best available and as we are no longer requesting mbufs
* from the mempool, it means mbufs will not move from
* 'mempool ring' --> 'mempool cache'. In rte_mempool_full()
* the ring is counted before caches, so we won't get false
* positives in this use case and we handle false negatives.
*
* If future implementations of rte_mempool_full() were to change
* it could be possible for a false positive. Even that would
* likely be ok, as there are additional checks during mempool
* freeing but it would make things racey.
*/
return rte_mempool_full(mp);
}
/* Free unused mempools. */
static void
dpdk_mp_sweep(void) OVS_REQUIRES(dpdk_mp_mutex)
{
struct dpdk_mp *dmp, *next;
LIST_FOR_EACH_SAFE (dmp, next, list_node, &dpdk_mp_list) {
if (!dmp->refcount && dpdk_mp_full(dmp->mp)) {
VLOG_DBG("Freeing mempool \"%s\"", dmp->mp->name);
ovs_list_remove(&dmp->list_node);
rte_mempool_free(dmp->mp);
rte_free(dmp);
}
}
}
/* Calculating the required number of mbufs differs depending on the
* mempool model being used. Check if per port memory is in use before
* calculating.
*/
static uint32_t
dpdk_calculate_mbufs(struct netdev_dpdk *dev, int mtu, bool per_port_mp)
{
uint32_t n_mbufs;
if (!per_port_mp) {
/* Shared memory are being used.
* XXX: this is a really rough method of provisioning memory.
* It's impossible to determine what the exact memory requirements are
* when the number of ports and rxqs that utilize a particular mempool
* can change dynamically at runtime. For now, use this rough
* heurisitic.
*/
if (mtu >= RTE_ETHER_MTU) {
n_mbufs = MAX_NB_MBUF;
} else {
n_mbufs = MIN_NB_MBUF;
}
} else {
/* Per port memory is being used.
* XXX: rough estimation of number of mbufs required for this port:
* <packets required to fill the device rxqs>
* + <packets that could be stuck on other ports txqs>
* + <packets in the pmd threads>
* + <additional memory for corner cases>
*/
n_mbufs = dev->requested_n_rxq * dev->requested_rxq_size
+ dev->requested_n_txq * dev->requested_txq_size
+ MIN(RTE_MAX_LCORE, dev->requested_n_rxq) * NETDEV_MAX_BURST
+ MIN_NB_MBUF;
}
return n_mbufs;
}
static struct dpdk_mp *
dpdk_mp_create(struct netdev_dpdk *dev, int mtu, bool per_port_mp)
{
char mp_name[RTE_MEMPOOL_NAMESIZE];
const char *netdev_name = netdev_get_name(&dev->up);
int socket_id = dev->requested_socket_id;
uint32_t n_mbufs = 0;
uint32_t mbuf_size = 0;
uint32_t aligned_mbuf_size = 0;
uint32_t mbuf_priv_data_len = 0;
uint32_t pkt_size = 0;
uint32_t hash = hash_string(netdev_name, 0);
struct dpdk_mp *dmp = NULL;
int ret;
dmp = dpdk_rte_mzalloc(sizeof *dmp);
if (!dmp) {
return NULL;
}
dmp->socket_id = socket_id;
dmp->mtu = mtu;
dmp->refcount = 1;
/* Get the size of each mbuf, based on the MTU */
mbuf_size = MTU_TO_FRAME_LEN(mtu);
n_mbufs = dpdk_calculate_mbufs(dev, mtu, per_port_mp);
do {
/* Full DPDK memory pool name must be unique and cannot be
* longer than RTE_MEMPOOL_NAMESIZE. Note that for the shared
* mempool case this can result in one device using a mempool
* which references a different device in it's name. However as
* mempool names are hashed, the device name will not be readable
* so this is not an issue for tasks such as debugging.
*/
ret = snprintf(mp_name, RTE_MEMPOOL_NAMESIZE,
"ovs%08x%02d%05d%07u",
hash, socket_id, mtu, n_mbufs);
if (ret < 0 || ret >= RTE_MEMPOOL_NAMESIZE) {
VLOG_DBG("snprintf returned %d. "
"Failed to generate a mempool name for \"%s\". "
"Hash:0x%x, socket_id: %d, mtu:%d, mbufs:%u.",
ret, netdev_name, hash, socket_id, mtu, n_mbufs);
break;
}
VLOG_DBG("Port %s: Requesting a mempool of %u mbufs of size %u "
"on socket %d for %d Rx and %d Tx queues, "
"cache line size of %u",
netdev_name, n_mbufs, mbuf_size, socket_id,
dev->requested_n_rxq, dev->requested_n_txq,
RTE_CACHE_LINE_SIZE);
/* The size of the mbuf's private area (i.e. area that holds OvS'
* dp_packet data)*/
mbuf_priv_data_len = sizeof(struct dp_packet) -
sizeof(struct rte_mbuf);
/* The size of the entire dp_packet. */
pkt_size = sizeof(struct dp_packet) + mbuf_size;
/* mbuf size, rounded up to cacheline size. */
aligned_mbuf_size = ROUND_UP(pkt_size, RTE_CACHE_LINE_SIZE);
/* If there is a size discrepancy, add padding to mbuf_priv_data_len.
* This maintains mbuf size cache alignment, while also honoring RX
* buffer alignment in the data portion of the mbuf. If this adjustment
* is not made, there is a possiblity later on that for an element of
* the mempool, buf, buf->data_len < (buf->buf_len - buf->data_off).
* This is problematic in the case of multi-segment mbufs, particularly
* when an mbuf segment needs to be resized (when [push|popp]ing a VLAN
* header, for example.
*/
mbuf_priv_data_len += (aligned_mbuf_size - pkt_size);
dmp->mp = rte_pktmbuf_pool_create(mp_name, n_mbufs, MP_CACHE_SZ,
mbuf_priv_data_len,
mbuf_size,
socket_id);
if (dmp->mp) {
VLOG_DBG("Allocated \"%s\" mempool with %u mbufs",
mp_name, n_mbufs);
/* rte_pktmbuf_pool_create has done some initialization of the
* rte_mbuf part of each dp_packet, while ovs_rte_pktmbuf_init
* initializes some OVS specific fields of dp_packet.
*/
rte_mempool_obj_iter(dmp->mp, ovs_rte_pktmbuf_init, NULL);
return dmp;
} else if (rte_errno == EEXIST) {
/* A mempool with the same name already exists. We just
* retrieve its pointer to be returned to the caller. */
dmp->mp = rte_mempool_lookup(mp_name);
/* As the mempool create returned EEXIST we can expect the
* lookup has returned a valid pointer. If for some reason
* that's not the case we keep track of it. */
VLOG_DBG("A mempool with name \"%s\" already exists at %p.",
mp_name, dmp->mp);
return dmp;
} else {
VLOG_DBG("Failed to create mempool \"%s\" with a request of "
"%u mbufs, retrying with %u mbufs",
mp_name, n_mbufs, n_mbufs / 2);
}
} while (!dmp->mp && rte_errno == ENOMEM && (n_mbufs /= 2) >= MIN_NB_MBUF);
VLOG_ERR("Failed to create mempool \"%s\" with a request of %u mbufs",
mp_name, n_mbufs);
rte_free(dmp);
return NULL;
}
static struct dpdk_mp *
dpdk_mp_get(struct netdev_dpdk *dev, int mtu, bool per_port_mp)
{
struct dpdk_mp *dmp, *next;
bool reuse = false;
ovs_mutex_lock(&dpdk_mp_mutex);
/* Check if shared memory is being used, if so check existing mempools
* to see if reuse is possible. */
if (!per_port_mp) {
LIST_FOR_EACH (dmp, list_node, &dpdk_mp_list) {
if (dmp->socket_id == dev->requested_socket_id
&& dmp->mtu == mtu) {
VLOG_DBG("Reusing mempool \"%s\"", dmp->mp->name);
dmp->refcount++;
reuse = true;
break;
}
}
}
/* Sweep mempools after reuse or before create. */
dpdk_mp_sweep();
if (!reuse) {
dmp = dpdk_mp_create(dev, mtu, per_port_mp);
if (dmp) {
/* Shared memory will hit the reuse case above so will not
* request a mempool that already exists but we need to check
* for the EEXIST case for per port memory case. Compare the
* mempool returned by dmp to each entry in dpdk_mp_list. If a
* match is found, free dmp as a new entry is not required, set
* dmp to point to the existing entry and increment the refcount
* to avoid being freed at a later stage.
*/
if (per_port_mp && rte_errno == EEXIST) {
LIST_FOR_EACH (next, list_node, &dpdk_mp_list) {
if (dmp->mp == next->mp) {
rte_free(dmp);
dmp = next;
dmp->refcount++;
}
}
} else {
ovs_list_push_back(&dpdk_mp_list, &dmp->list_node);
}
}
}
ovs_mutex_unlock(&dpdk_mp_mutex);
return dmp;
}
/* Decrement reference to a mempool. */
static void
dpdk_mp_put(struct dpdk_mp *dmp)
{
if (!dmp) {
return;
}
ovs_mutex_lock(&dpdk_mp_mutex);
ovs_assert(dmp->refcount);
dmp->refcount--;
ovs_mutex_unlock(&dpdk_mp_mutex);
}
/* Depending on the memory model being used this function tries to
* identify and reuse an existing mempool or tries to allocate a new
* mempool on requested_socket_id with mbuf size corresponding to the
* requested_mtu. On success, a new configuration will be applied.
* On error, device will be left unchanged. */
static int
netdev_dpdk_mempool_configure(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
uint32_t buf_size = dpdk_buf_size(dev->requested_mtu);
struct dpdk_mp *dmp;
int ret = 0;
bool per_port_mp = dpdk_per_port_memory();
/* With shared memory we do not need to configure a mempool if the MTU
* and socket ID have not changed, the previous configuration is still
* valid so return 0 */
if (!per_port_mp && dev->mtu == dev->requested_mtu
&& dev->socket_id == dev->requested_socket_id) {
return ret;
}
dmp = dpdk_mp_get(dev, FRAME_LEN_TO_MTU(buf_size), per_port_mp);
if (!dmp) {
VLOG_ERR("Failed to create memory pool for netdev "
"%s, with MTU %d on socket %d: %s\n",
dev->up.name, dev->requested_mtu, dev->requested_socket_id,
rte_strerror(rte_errno));
ret = rte_errno;
} else {
/* Check for any pre-existing dpdk_mp for the device before accessing
* the associated mempool.
*/
if (dev->dpdk_mp != NULL) {
/* A new MTU was requested, decrement the reference count for the
* devices current dpdk_mp. This is required even if a pointer to
* same dpdk_mp is returned by dpdk_mp_get. The refcount for dmp
* has already been incremented by dpdk_mp_get at this stage so it
* must be decremented to keep an accurate refcount for the
* dpdk_mp.
*/
dpdk_mp_put(dev->dpdk_mp);
}
dev->dpdk_mp = dmp;
dev->mtu = dev->requested_mtu;
dev->socket_id = dev->requested_socket_id;
dev->max_packet_len = MTU_TO_FRAME_LEN(dev->mtu);
}
return ret;
}
static void
check_link_status(struct netdev_dpdk *dev)
{
struct rte_eth_link link;
rte_eth_link_get_nowait(dev->port_id, &link);
if (dev->link.link_status != link.link_status) {
netdev_change_seq_changed(&dev->up);
dev->link_reset_cnt++;
dev->link = link;
if (dev->link.link_status) {
VLOG_DBG_RL(&rl,
"Port "DPDK_PORT_ID_FMT" Link Up - speed %u Mbps - %s",
dev->port_id, (unsigned) dev->link.link_speed,
(dev->link.link_duplex == ETH_LINK_FULL_DUPLEX)
? "full-duplex" : "half-duplex");
} else {
VLOG_DBG_RL(&rl, "Port "DPDK_PORT_ID_FMT" Link Down",
dev->port_id);
}
}
}
static void *
dpdk_watchdog(void *dummy OVS_UNUSED)
{
struct netdev_dpdk *dev;
pthread_detach(pthread_self());
for (;;) {
ovs_mutex_lock(&dpdk_mutex);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
ovs_mutex_lock(&dev->mutex);
if (dev->type == DPDK_DEV_ETH) {
check_link_status(dev);
}
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
xsleep(DPDK_PORT_WATCHDOG_INTERVAL);
}
return NULL;
}
static int
dpdk_eth_dev_port_config(struct netdev_dpdk *dev, int n_rxq, int n_txq)
{
int diag = 0;
int i;
struct rte_eth_conf conf = port_conf;
struct rte_eth_dev_info info;
uint16_t conf_mtu;
rte_eth_dev_info_get(dev->port_id, &info);
/* As of DPDK 17.11.1 a few PMDs require to explicitly enable
* scatter to support jumbo RX.
* Setting scatter for the device is done after checking for
* scatter support in the device capabilites. */
if (dev->mtu > RTE_ETHER_MTU) {
if (dev->hw_ol_features & NETDEV_RX_HW_SCATTER) {
conf.rxmode.offloads |= DEV_RX_OFFLOAD_SCATTER;
}
}
conf.intr_conf.lsc = dev->lsc_interrupt_mode;
if (dev->hw_ol_features & NETDEV_RX_CHECKSUM_OFFLOAD) {
conf.rxmode.offloads |= DEV_RX_OFFLOAD_CHECKSUM;
}
if (!(dev->hw_ol_features & NETDEV_RX_HW_CRC_STRIP)
&& info.rx_offload_capa & DEV_RX_OFFLOAD_KEEP_CRC) {
conf.rxmode.offloads |= DEV_RX_OFFLOAD_KEEP_CRC;
}
/* Limit configured rss hash functions to only those supported
* by the eth device. */
conf.rx_adv_conf.rss_conf.rss_hf &= info.flow_type_rss_offloads;
/* A device may report more queues than it makes available (this has
* been observed for Intel xl710, which reserves some of them for
* SRIOV): rte_eth_*_queue_setup will fail if a queue is not
* available. When this happens we can retry the configuration
* and request less queues */
while (n_rxq && n_txq) {
if (diag) {
VLOG_INFO("Retrying setup with (rxq:%d txq:%d)", n_rxq, n_txq);
}
diag = rte_eth_dev_configure(dev->port_id, n_rxq, n_txq, &conf);
if (diag) {
VLOG_WARN("Interface %s eth_dev setup error %s\n",
dev->up.name, rte_strerror(-diag));
break;
}
diag = rte_eth_dev_set_mtu(dev->port_id, dev->mtu);
if (diag) {
/* A device may not support rte_eth_dev_set_mtu, in this case
* flag a warning to the user and include the devices configured
* MTU value that will be used instead. */
if (-ENOTSUP == diag) {
rte_eth_dev_get_mtu(dev->port_id, &conf_mtu);
VLOG_WARN("Interface %s does not support MTU configuration, "
"max packet size supported is %"PRIu16".",
dev->up.name, conf_mtu);
} else {
VLOG_ERR("Interface %s MTU (%d) setup error: %s",
dev->up.name, dev->mtu, rte_strerror(-diag));
break;
}
}
for (i = 0; i < n_txq; i++) {
diag = rte_eth_tx_queue_setup(dev->port_id, i, dev->txq_size,
dev->socket_id, NULL);
if (diag) {
VLOG_INFO("Interface %s unable to setup txq(%d): %s",
dev->up.name, i, rte_strerror(-diag));
break;
}
}
if (i != n_txq) {
/* Retry with less tx queues */
n_txq = i;
continue;
}
for (i = 0; i < n_rxq; i++) {
diag = rte_eth_rx_queue_setup(dev->port_id, i, dev->rxq_size,
dev->socket_id, NULL,
dev->dpdk_mp->mp);
if (diag) {
VLOG_INFO("Interface %s unable to setup rxq(%d): %s",
dev->up.name, i, rte_strerror(-diag));
break;
}
}
if (i != n_rxq) {
/* Retry with less rx queues */
n_rxq = i;
continue;
}
dev->up.n_rxq = n_rxq;
dev->up.n_txq = n_txq;
return 0;
}
return diag;
}
static void
dpdk_eth_flow_ctrl_setup(struct netdev_dpdk *dev) OVS_REQUIRES(dev->mutex)
{
if (rte_eth_dev_flow_ctrl_set(dev->port_id, &dev->fc_conf)) {
VLOG_WARN("Failed to enable flow control on device "DPDK_PORT_ID_FMT,
dev->port_id);
}
}
static int
dpdk_eth_dev_init(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
struct rte_pktmbuf_pool_private *mbp_priv;
struct rte_eth_dev_info info;
struct rte_ether_addr eth_addr;
int diag;
int n_rxq, n_txq;
uint32_t rx_chksm_offload_capa = DEV_RX_OFFLOAD_UDP_CKSUM |
DEV_RX_OFFLOAD_TCP_CKSUM |
DEV_RX_OFFLOAD_IPV4_CKSUM;
rte_eth_dev_info_get(dev->port_id, &info);
if (strstr(info.driver_name, "vf") != NULL) {
VLOG_INFO("Virtual function detected, HW_CRC_STRIP will be enabled");
dev->hw_ol_features |= NETDEV_RX_HW_CRC_STRIP;
} else {
dev->hw_ol_features &= ~NETDEV_RX_HW_CRC_STRIP;
}
if ((info.rx_offload_capa & rx_chksm_offload_capa) !=
rx_chksm_offload_capa) {
VLOG_WARN("Rx checksum offload is not supported on port "
DPDK_PORT_ID_FMT, dev->port_id);
dev->hw_ol_features &= ~NETDEV_RX_CHECKSUM_OFFLOAD;
} else {
dev->hw_ol_features |= NETDEV_RX_CHECKSUM_OFFLOAD;
}
if (info.rx_offload_capa & DEV_RX_OFFLOAD_SCATTER) {
dev->hw_ol_features |= NETDEV_RX_HW_SCATTER;
} else {
/* Do not warn on lack of scatter support */
dev->hw_ol_features &= ~NETDEV_RX_HW_SCATTER;
}
n_rxq = MIN(info.max_rx_queues, dev->up.n_rxq);
n_txq = MIN(info.max_tx_queues, dev->up.n_txq);
diag = dpdk_eth_dev_port_config(dev, n_rxq, n_txq);
if (diag) {
VLOG_ERR("Interface %s(rxq:%d txq:%d lsc interrupt mode:%s) "
"configure error: %s",
dev->up.name, n_rxq, n_txq,
dev->lsc_interrupt_mode ? "true" : "false",
rte_strerror(-diag));
return -diag;
}
diag = rte_eth_dev_start(dev->port_id);
if (diag) {
VLOG_ERR("Interface %s start error: %s", dev->up.name,
rte_strerror(-diag));
return -diag;
}
dev->started = true;
rte_eth_promiscuous_enable(dev->port_id);
rte_eth_allmulticast_enable(dev->port_id);
memset(ð_addr, 0x0, sizeof(eth_addr));
rte_eth_macaddr_get(dev->port_id, ð_addr);
VLOG_INFO_RL(&rl, "Port "DPDK_PORT_ID_FMT": "ETH_ADDR_FMT,
dev->port_id, ETH_ADDR_BYTES_ARGS(eth_addr.addr_bytes));
memcpy(dev->hwaddr.ea, eth_addr.addr_bytes, ETH_ADDR_LEN);
rte_eth_link_get_nowait(dev->port_id, &dev->link);
mbp_priv = rte_mempool_get_priv(dev->dpdk_mp->mp);
dev->buf_size = mbp_priv->mbuf_data_room_size - RTE_PKTMBUF_HEADROOM;
return 0;
}
static struct netdev_dpdk *
netdev_dpdk_cast(const struct netdev *netdev)
{
return CONTAINER_OF(netdev, struct netdev_dpdk, up);
}
static struct netdev *
netdev_dpdk_alloc(void)
{
struct netdev_dpdk *dev;
dev = dpdk_rte_mzalloc(sizeof *dev);
if (dev) {
return &dev->up;
}
return NULL;
}
static struct dpdk_tx_queue *
netdev_dpdk_alloc_txq(unsigned int n_txqs)
{
struct dpdk_tx_queue *txqs;
unsigned i;
txqs = dpdk_rte_mzalloc(n_txqs * sizeof *txqs);
if (txqs) {
for (i = 0; i < n_txqs; i++) {
/* Initialize map for vhost devices. */
txqs[i].map = OVS_VHOST_QUEUE_MAP_UNKNOWN;
rte_spinlock_init(&txqs[i].tx_lock);
}
}
return txqs;
}
static int
common_construct(struct netdev *netdev, dpdk_port_t port_no,
enum dpdk_dev_type type, int socket_id)
OVS_REQUIRES(dpdk_mutex)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_init(&dev->mutex);
rte_spinlock_init(&dev->stats_lock);
/* If the 'sid' is negative, it means that the kernel fails
* to obtain the pci numa info. In that situation, always
* use 'SOCKET0'. */
dev->socket_id = socket_id < 0 ? SOCKET0 : socket_id;
dev->requested_socket_id = dev->socket_id;
dev->port_id = port_no;
dev->type = type;
dev->flags = 0;
dev->requested_mtu = RTE_ETHER_MTU;
dev->max_packet_len = MTU_TO_FRAME_LEN(dev->mtu);
dev->requested_lsc_interrupt_mode = 0;
ovsrcu_index_init(&dev->vid, -1);
dev->vhost_reconfigured = false;
dev->attached = false;
dev->started = false;
dev->reset_needed = false;
ovsrcu_init(&dev->qos_conf, NULL);
ovsrcu_init(&dev->ingress_policer, NULL);
dev->policer_rate = 0;
dev->policer_burst = 0;
netdev->n_rxq = 0;
netdev->n_txq = 0;
dev->requested_n_rxq = NR_QUEUE;
dev->requested_n_txq = NR_QUEUE;
dev->requested_rxq_size = NIC_PORT_DEFAULT_RXQ_SIZE;
dev->requested_txq_size = NIC_PORT_DEFAULT_TXQ_SIZE;
/* Initialize the flow control to NULL */
memset(&dev->fc_conf, 0, sizeof dev->fc_conf);
/* Initilize the hardware offload flags to 0 */
dev->hw_ol_features = 0;
dev->flags = NETDEV_UP | NETDEV_PROMISC;
ovs_list_push_back(&dpdk_list, &dev->list_node);
netdev_request_reconfigure(netdev);
dev->rte_xstats_names = NULL;
dev->rte_xstats_names_size = 0;
dev->rte_xstats_ids = NULL;
dev->rte_xstats_ids_size = 0;
dev->sw_stats = xzalloc(sizeof *dev->sw_stats);
dev->sw_stats->tx_retries = (dev->type == DPDK_DEV_VHOST) ? 0 : UINT64_MAX;
return 0;
}
/* dev_name must be the prefix followed by a positive decimal number.
* (no leading + or - signs are allowed) */
static int
dpdk_dev_parse_name(const char dev_name[], const char prefix[],
unsigned int *port_no)
{
const char *cport;
if (strncmp(dev_name, prefix, strlen(prefix))) {
return ENODEV;
}
cport = dev_name + strlen(prefix);
if (str_to_uint(cport, 10, port_no)) {
return 0;
} else {
return ENODEV;
}
}
/* Get the number of OVS interfaces which have the same DPDK
* rte device (e.g. same pci bus address).
* FIXME: avoid direct access to DPDK internal array rte_eth_devices.
*/
static int
netdev_dpdk_get_num_ports(struct rte_device *device)
OVS_REQUIRES(dpdk_mutex)
{
struct netdev_dpdk *dev;
int count = 0;
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
if (rte_eth_devices[dev->port_id].device == device
&& rte_eth_devices[dev->port_id].state != RTE_ETH_DEV_UNUSED) {
count++;
}
}
return count;
}
static int
vhost_common_construct(struct netdev *netdev)
OVS_REQUIRES(dpdk_mutex)
{
int socket_id = rte_lcore_to_socket_id(rte_get_master_lcore());
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
dev->vhost_rxq_enabled = dpdk_rte_mzalloc(OVS_VHOST_MAX_QUEUE_NUM *
sizeof *dev->vhost_rxq_enabled);
if (!dev->vhost_rxq_enabled) {
return ENOMEM;
}
dev->tx_q = netdev_dpdk_alloc_txq(OVS_VHOST_MAX_QUEUE_NUM);
if (!dev->tx_q) {
rte_free(dev->vhost_rxq_enabled);
return ENOMEM;
}
atomic_init(&dev->vhost_tx_retries_max, VHOST_ENQ_RETRY_DEF);
return common_construct(netdev, DPDK_ETH_PORT_ID_INVALID,
DPDK_DEV_VHOST, socket_id);
}
static int
netdev_dpdk_vhost_construct(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
const char *name = netdev->name;
int err;
/* 'name' is appended to 'vhost_sock_dir' and used to create a socket in
* the file system. '/' or '\' would traverse directories, so they're not
* acceptable in 'name'. */
if (strchr(name, '/') || strchr(name, '\\')) {
VLOG_ERR("\"%s\" is not a valid name for a vhost-user port. "
"A valid name must not include '/' or '\\'",
name);
return EINVAL;
}
ovs_mutex_lock(&dpdk_mutex);
/* Take the name of the vhost-user port and append it to the location where
* the socket is to be created, then register the socket.
*/
dev->vhost_id = xasprintf("%s/%s", dpdk_get_vhost_sock_dir(), name);
dev->vhost_driver_flags &= ~RTE_VHOST_USER_CLIENT;
/* There is no support for multi-segments buffers. */
dev->vhost_driver_flags |= RTE_VHOST_USER_LINEARBUF_SUPPORT;
err = rte_vhost_driver_register(dev->vhost_id, dev->vhost_driver_flags);
if (err) {
VLOG_ERR("vhost-user socket device setup failure for socket %s\n",
dev->vhost_id);
goto out;
} else {
fatal_signal_add_file_to_unlink(dev->vhost_id);
VLOG_INFO("Socket %s created for vhost-user port %s\n",
dev->vhost_id, name);
}
err = rte_vhost_driver_callback_register(dev->vhost_id,
&virtio_net_device_ops);
if (err) {
VLOG_ERR("rte_vhost_driver_callback_register failed for vhost user "
"port: %s\n", name);
goto out;
}
err = rte_vhost_driver_disable_features(dev->vhost_id,
1ULL << VIRTIO_NET_F_HOST_TSO4
| 1ULL << VIRTIO_NET_F_HOST_TSO6
| 1ULL << VIRTIO_NET_F_CSUM);
if (err) {
VLOG_ERR("rte_vhost_driver_disable_features failed for vhost user "
"port: %s\n", name);
goto out;
}
err = rte_vhost_driver_start(dev->vhost_id);
if (err) {
VLOG_ERR("rte_vhost_driver_start failed for vhost user "
"port: %s\n", name);
goto out;
}
err = vhost_common_construct(netdev);
if (err) {
VLOG_ERR("vhost_common_construct failed for vhost user "
"port: %s\n", name);
}
out:
if (err) {
free(dev->vhost_id);
dev->vhost_id = NULL;
}
ovs_mutex_unlock(&dpdk_mutex);
VLOG_WARN_ONCE("dpdkvhostuser ports are considered deprecated; "
"please migrate to dpdkvhostuserclient ports.");
return err;
}
static int
netdev_dpdk_vhost_client_construct(struct netdev *netdev)
{
int err;
ovs_mutex_lock(&dpdk_mutex);
err = vhost_common_construct(netdev);
if (err) {
VLOG_ERR("vhost_common_construct failed for vhost user client"
"port: %s\n", netdev->name);
}
ovs_mutex_unlock(&dpdk_mutex);
return err;
}
static int
netdev_dpdk_construct(struct netdev *netdev)
{
int err;
ovs_mutex_lock(&dpdk_mutex);
err = common_construct(netdev, DPDK_ETH_PORT_ID_INVALID,
DPDK_DEV_ETH, SOCKET0);
ovs_mutex_unlock(&dpdk_mutex);
return err;
}
static void
common_destruct(struct netdev_dpdk *dev)
OVS_REQUIRES(dpdk_mutex)
OVS_EXCLUDED(dev->mutex)
{
rte_free(dev->tx_q);
dpdk_mp_put(dev->dpdk_mp);
ovs_list_remove(&dev->list_node);
free(ovsrcu_get_protected(struct ingress_policer *,
&dev->ingress_policer));
free(dev->sw_stats);
ovs_mutex_destroy(&dev->mutex);
}
static void
netdev_dpdk_destruct(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_device *rte_dev;
struct rte_eth_dev *eth_dev;
bool remove_on_close;
ovs_mutex_lock(&dpdk_mutex);
rte_eth_dev_stop(dev->port_id);
dev->started = false;
if (dev->attached) {
/* Retrieve eth device data before closing it.
* FIXME: avoid direct access to DPDK internal array rte_eth_devices.
*/
eth_dev = &rte_eth_devices[dev->port_id];
remove_on_close =
eth_dev->data &&
(eth_dev->data->dev_flags & RTE_ETH_DEV_CLOSE_REMOVE);
rte_dev = eth_dev->device;
/* Remove the eth device. */
rte_eth_dev_close(dev->port_id);
/* Remove this rte device and all its eth devices if flag
* RTE_ETH_DEV_CLOSE_REMOVE is not supported (which means representors
* are not supported), or if all the eth devices belonging to the rte
* device are closed.
*/
if (!remove_on_close || !netdev_dpdk_get_num_ports(rte_dev)) {
int ret = rte_dev_remove(rte_dev);
if (ret < 0) {
VLOG_ERR("Device '%s' can not be detached: %s.",
dev->devargs, rte_strerror(-ret));
} else {
/* Device was closed and detached. */
VLOG_INFO("Device '%s' has been removed and detached",
dev->devargs);
}
} else {
/* Device was only closed. rte_dev_remove() was not called. */
VLOG_INFO("Device '%s' has been removed", dev->devargs);
}
}
netdev_dpdk_clear_xstats(dev);
free(dev->devargs);
common_destruct(dev);
ovs_mutex_unlock(&dpdk_mutex);
}
/* rte_vhost_driver_unregister() can call back destroy_device(), which will
* try to acquire 'dpdk_mutex' and possibly 'dev->mutex'. To avoid a
* deadlock, none of the mutexes must be held while calling this function. */
static int
dpdk_vhost_driver_unregister(struct netdev_dpdk *dev OVS_UNUSED,
char *vhost_id)
OVS_EXCLUDED(dpdk_mutex)
OVS_EXCLUDED(dev->mutex)
{
return rte_vhost_driver_unregister(vhost_id);
}
static void
netdev_dpdk_vhost_destruct(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
char *vhost_id;
ovs_mutex_lock(&dpdk_mutex);
/* Guest becomes an orphan if still attached. */
if (netdev_dpdk_get_vid(dev) >= 0
&& !(dev->vhost_driver_flags & RTE_VHOST_USER_CLIENT)) {
VLOG_ERR("Removing port '%s' while vhost device still attached.",
netdev->name);
VLOG_ERR("To restore connectivity after re-adding of port, VM on "
"socket '%s' must be restarted.", dev->vhost_id);
}
vhost_id = dev->vhost_id;
dev->vhost_id = NULL;
rte_free(dev->vhost_rxq_enabled);
common_destruct(dev);
ovs_mutex_unlock(&dpdk_mutex);
if (!vhost_id) {
goto out;
}
if (dpdk_vhost_driver_unregister(dev, vhost_id)) {
VLOG_ERR("%s: Unable to unregister vhost driver for socket '%s'.\n",
netdev->name, vhost_id);
} else if (!(dev->vhost_driver_flags & RTE_VHOST_USER_CLIENT)) {
/* OVS server mode - remove this socket from list for deletion */
fatal_signal_remove_file_to_unlink(vhost_id);
}
out:
free(vhost_id);
}
static void
netdev_dpdk_dealloc(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
rte_free(dev);
}
static void
netdev_dpdk_clear_xstats(struct netdev_dpdk *dev)
{
/* If statistics are already allocated, we have to
* reconfigure, as port_id could have been changed. */
if (dev->rte_xstats_names) {
free(dev->rte_xstats_names);
dev->rte_xstats_names = NULL;
dev->rte_xstats_names_size = 0;
}
if (dev->rte_xstats_ids) {
free(dev->rte_xstats_ids);
dev->rte_xstats_ids = NULL;
dev->rte_xstats_ids_size = 0;
}
}
static const char*
netdev_dpdk_get_xstat_name(struct netdev_dpdk *dev, uint64_t id)
{
if (id >= dev->rte_xstats_names_size) {
return "UNKNOWN";
}
return dev->rte_xstats_names[id].name;
}
static bool
netdev_dpdk_configure_xstats(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
int rte_xstats_len;
bool ret;
struct rte_eth_xstat *rte_xstats;
uint64_t id;
int xstats_no;
const char *name;
/* Retrieving all XSTATS names. If something will go wrong
* or amount of counters will be equal 0, rte_xstats_names
* buffer will be marked as NULL, and any further xstats
* query won't be performed (e.g. during netdev_dpdk_get_stats
* execution). */
ret = false;
rte_xstats = NULL;
if (dev->rte_xstats_names == NULL || dev->rte_xstats_ids == NULL) {
dev->rte_xstats_names_size =
rte_eth_xstats_get_names(dev->port_id, NULL, 0);
if (dev->rte_xstats_names_size < 0) {
VLOG_WARN("Cannot get XSTATS for port: "DPDK_PORT_ID_FMT,
dev->port_id);
dev->rte_xstats_names_size = 0;
} else {
/* Reserve memory for xstats names and values */
dev->rte_xstats_names = xcalloc(dev->rte_xstats_names_size,
sizeof *dev->rte_xstats_names);
if (dev->rte_xstats_names) {
/* Retreive xstats names */
rte_xstats_len =
rte_eth_xstats_get_names(dev->port_id,
dev->rte_xstats_names,
dev->rte_xstats_names_size);
if (rte_xstats_len < 0) {
VLOG_WARN("Cannot get XSTATS names for port: "
DPDK_PORT_ID_FMT, dev->port_id);
goto out;
} else if (rte_xstats_len != dev->rte_xstats_names_size) {
VLOG_WARN("XSTATS size doesn't match for port: "
DPDK_PORT_ID_FMT, dev->port_id);
goto out;
}
dev->rte_xstats_ids = xcalloc(dev->rte_xstats_names_size,
sizeof(uint64_t));
/* We have to calculate number of counters */
rte_xstats = xmalloc(rte_xstats_len * sizeof *rte_xstats);
memset(rte_xstats, 0xff, sizeof *rte_xstats * rte_xstats_len);
/* Retreive xstats values */
if (rte_eth_xstats_get(dev->port_id, rte_xstats,
rte_xstats_len) > 0) {
dev->rte_xstats_ids_size = 0;
xstats_no = 0;
for (uint32_t i = 0; i < rte_xstats_len; i++) {
id = rte_xstats[i].id;
name = netdev_dpdk_get_xstat_name(dev, id);
/* We need to filter out everything except
* dropped, error and management counters */
if (string_ends_with(name, "_errors") ||
strstr(name, "_management_") ||
string_ends_with(name, "_dropped")) {
dev->rte_xstats_ids[xstats_no] = id;
xstats_no++;
}
}
dev->rte_xstats_ids_size = xstats_no;
ret = true;
} else {
VLOG_WARN("Can't get XSTATS IDs for port: "
DPDK_PORT_ID_FMT, dev->port_id);
}
free(rte_xstats);
}
}
} else {
/* Already configured */
ret = true;
}
out:
if (!ret) {
netdev_dpdk_clear_xstats(dev);
}
return ret;
}
static int
netdev_dpdk_get_config(const struct netdev *netdev, struct smap *args)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
smap_add_format(args, "requested_rx_queues", "%d", dev->requested_n_rxq);
smap_add_format(args, "configured_rx_queues", "%d", netdev->n_rxq);
smap_add_format(args, "requested_tx_queues", "%d", dev->requested_n_txq);
smap_add_format(args, "configured_tx_queues", "%d", netdev->n_txq);
smap_add_format(args, "mtu", "%d", dev->mtu);
if (dev->type == DPDK_DEV_ETH) {
smap_add_format(args, "requested_rxq_descriptors", "%d",
dev->requested_rxq_size);
smap_add_format(args, "configured_rxq_descriptors", "%d",
dev->rxq_size);
smap_add_format(args, "requested_txq_descriptors", "%d",
dev->requested_txq_size);
smap_add_format(args, "configured_txq_descriptors", "%d",
dev->txq_size);
if (dev->hw_ol_features & NETDEV_RX_CHECKSUM_OFFLOAD) {
smap_add(args, "rx_csum_offload", "true");
} else {
smap_add(args, "rx_csum_offload", "false");
}
smap_add(args, "lsc_interrupt_mode",
dev->lsc_interrupt_mode ? "true" : "false");
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static struct netdev_dpdk *
netdev_dpdk_lookup_by_port_id(dpdk_port_t port_id)
OVS_REQUIRES(dpdk_mutex)
{
struct netdev_dpdk *dev;
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
if (dev->port_id == port_id) {
return dev;
}
}
return NULL;
}
static dpdk_port_t
netdev_dpdk_get_port_by_mac(const char *mac_str)
{
dpdk_port_t port_id;
struct eth_addr mac, port_mac;
if (!eth_addr_from_string(mac_str, &mac)) {
VLOG_ERR("invalid mac: %s", mac_str);
return DPDK_ETH_PORT_ID_INVALID;
}
RTE_ETH_FOREACH_DEV (port_id) {
struct rte_ether_addr ea;
rte_eth_macaddr_get(port_id, &ea);
memcpy(port_mac.ea, ea.addr_bytes, ETH_ADDR_LEN);
if (eth_addr_equals(mac, port_mac)) {
return port_id;
}
}
return DPDK_ETH_PORT_ID_INVALID;
}
/* Return the first DPDK port id matching the devargs pattern. */
static dpdk_port_t netdev_dpdk_get_port_by_devargs(const char *devargs)
OVS_REQUIRES(dpdk_mutex)
{
dpdk_port_t port_id;
struct rte_dev_iterator iterator;
RTE_ETH_FOREACH_MATCHING_DEV (port_id, devargs, &iterator) {
/* If a break is done - must call rte_eth_iterator_cleanup. */
rte_eth_iterator_cleanup(&iterator);
break;
}
return port_id;
}
/*
* Normally, a PCI id (optionally followed by a representor number)
* is enough for identifying a specific DPDK port.
* However, for some NICs having multiple ports sharing the same PCI
* id, using PCI id won't work then.
*
* To fix that, here one more method is introduced: "class=eth,mac=$MAC".
*
* Note that the compatibility is fully kept: user can still use the
* PCI id for adding ports (when it's enough for them).
*/
static dpdk_port_t
netdev_dpdk_process_devargs(struct netdev_dpdk *dev,
const char *devargs, char **errp)
OVS_REQUIRES(dpdk_mutex)
{
dpdk_port_t new_port_id;
if (strncmp(devargs, "class=eth,mac=", 14) == 0) {
new_port_id = netdev_dpdk_get_port_by_mac(&devargs[14]);
} else {
new_port_id = netdev_dpdk_get_port_by_devargs(devargs);
if (!rte_eth_dev_is_valid_port(new_port_id)) {
/* Device not found in DPDK, attempt to attach it */
if (rte_dev_probe(devargs)) {
new_port_id = DPDK_ETH_PORT_ID_INVALID;
} else {
new_port_id = netdev_dpdk_get_port_by_devargs(devargs);
if (rte_eth_dev_is_valid_port(new_port_id)) {
/* Attach successful */
dev->attached = true;
VLOG_INFO("Device '%s' attached to DPDK", devargs);
} else {
/* Attach unsuccessful */
new_port_id = DPDK_ETH_PORT_ID_INVALID;
}
}
}
}
if (new_port_id == DPDK_ETH_PORT_ID_INVALID) {
VLOG_WARN_BUF(errp, "Error attaching device '%s' to DPDK", devargs);
}
return new_port_id;
}
static int
dpdk_eth_event_callback(dpdk_port_t port_id, enum rte_eth_event_type type,
void *param OVS_UNUSED, void *ret_param OVS_UNUSED)
{
struct netdev_dpdk *dev;
switch ((int) type) {
case RTE_ETH_EVENT_INTR_RESET:
ovs_mutex_lock(&dpdk_mutex);
dev = netdev_dpdk_lookup_by_port_id(port_id);
if (dev) {
ovs_mutex_lock(&dev->mutex);
dev->reset_needed = true;
netdev_request_reconfigure(&dev->up);
VLOG_DBG_RL(&rl, "%s: Device reset requested.",
netdev_get_name(&dev->up));
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
break;
default:
/* Ignore all other types. */
break;
}
return 0;
}
static void
dpdk_set_rxq_config(struct netdev_dpdk *dev, const struct smap *args)
OVS_REQUIRES(dev->mutex)
{
int new_n_rxq;
new_n_rxq = MAX(smap_get_int(args, "n_rxq", NR_QUEUE), 1);
if (new_n_rxq != dev->requested_n_rxq) {
dev->requested_n_rxq = new_n_rxq;
netdev_request_reconfigure(&dev->up);
}
}
static void
dpdk_process_queue_size(struct netdev *netdev, const struct smap *args,
const char *flag, int default_size, int *new_size)
{
int queue_size = smap_get_int(args, flag, default_size);
if (queue_size <= 0 || queue_size > NIC_PORT_MAX_Q_SIZE
|| !is_pow2(queue_size)) {
queue_size = default_size;
}
if (queue_size != *new_size) {
*new_size = queue_size;
netdev_request_reconfigure(netdev);
}
}
static int
netdev_dpdk_set_config(struct netdev *netdev, const struct smap *args,
char **errp)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
bool rx_fc_en, tx_fc_en, autoneg, lsc_interrupt_mode;
bool flow_control_requested = true;
enum rte_eth_fc_mode fc_mode;
static const enum rte_eth_fc_mode fc_mode_set[2][2] = {
{RTE_FC_NONE, RTE_FC_TX_PAUSE},
{RTE_FC_RX_PAUSE, RTE_FC_FULL }
};
const char *new_devargs;
int err = 0;
ovs_mutex_lock(&dpdk_mutex);
ovs_mutex_lock(&dev->mutex);
dpdk_set_rxq_config(dev, args);
dpdk_process_queue_size(netdev, args, "n_rxq_desc",
NIC_PORT_DEFAULT_RXQ_SIZE,
&dev->requested_rxq_size);
dpdk_process_queue_size(netdev, args, "n_txq_desc",
NIC_PORT_DEFAULT_TXQ_SIZE,
&dev->requested_txq_size);
new_devargs = smap_get(args, "dpdk-devargs");
if (dev->devargs && new_devargs && strcmp(new_devargs, dev->devargs)) {
/* The user requested a new device. If we return error, the caller
* will delete this netdev and try to recreate it. */
err = EAGAIN;
goto out;
}
/* dpdk-devargs is required for device configuration */
if (new_devargs && new_devargs[0]) {
/* Don't process dpdk-devargs if value is unchanged and port id
* is valid */
if (!(dev->devargs && !strcmp(dev->devargs, new_devargs)
&& rte_eth_dev_is_valid_port(dev->port_id))) {
dpdk_port_t new_port_id = netdev_dpdk_process_devargs(dev,
new_devargs,
errp);
if (!rte_eth_dev_is_valid_port(new_port_id)) {
err = EINVAL;
} else if (new_port_id == dev->port_id) {
/* Already configured, do not reconfigure again */
err = 0;
} else {
struct netdev_dpdk *dup_dev;
dup_dev = netdev_dpdk_lookup_by_port_id(new_port_id);
if (dup_dev) {
VLOG_WARN_BUF(errp, "'%s' is trying to use device '%s' "
"which is already in use by '%s'",
netdev_get_name(netdev), new_devargs,
netdev_get_name(&dup_dev->up));
err = EADDRINUSE;
} else {
int sid = rte_eth_dev_socket_id(new_port_id);
dev->requested_socket_id = sid < 0 ? SOCKET0 : sid;
dev->devargs = xstrdup(new_devargs);
dev->port_id = new_port_id;
netdev_request_reconfigure(&dev->up);
netdev_dpdk_clear_xstats(dev);
err = 0;
}
}
}
} else {
VLOG_WARN_BUF(errp, "'%s' is missing 'options:dpdk-devargs'. "
"The old 'dpdk<port_id>' names are not supported",
netdev_get_name(netdev));
err = EINVAL;
}
if (err) {
goto out;
}
lsc_interrupt_mode = smap_get_bool(args, "dpdk-lsc-interrupt", false);
if (dev->requested_lsc_interrupt_mode != lsc_interrupt_mode) {
dev->requested_lsc_interrupt_mode = lsc_interrupt_mode;
netdev_request_reconfigure(netdev);
}
rx_fc_en = smap_get_bool(args, "rx-flow-ctrl", false);
tx_fc_en = smap_get_bool(args, "tx-flow-ctrl", false);
autoneg = smap_get_bool(args, "flow-ctrl-autoneg", false);
fc_mode = fc_mode_set[tx_fc_en][rx_fc_en];
if (!smap_get(args, "rx-flow-ctrl") && !smap_get(args, "tx-flow-ctrl")
&& !smap_get(args, "flow-ctrl-autoneg")) {
/* FIXME: User didn't ask for flow control configuration.
* For now we'll not print a warning if flow control is not
* supported by the DPDK port. */
flow_control_requested = false;
}
/* Get the Flow control configuration. */
err = -rte_eth_dev_flow_ctrl_get(dev->port_id, &dev->fc_conf);
if (err) {
if (err == ENOTSUP) {
if (flow_control_requested) {
VLOG_WARN("%s: Flow control is not supported.",
netdev_get_name(netdev));
}
err = 0; /* Not fatal. */
} else {
VLOG_WARN("%s: Cannot get flow control parameters: %s",
netdev_get_name(netdev), rte_strerror(err));
}
goto out;
}
if (dev->fc_conf.mode != fc_mode || autoneg != dev->fc_conf.autoneg) {
dev->fc_conf.mode = fc_mode;
dev->fc_conf.autoneg = autoneg;
dpdk_eth_flow_ctrl_setup(dev);
}
out:
ovs_mutex_unlock(&dev->mutex);
ovs_mutex_unlock(&dpdk_mutex);
return err;
}
static int
netdev_dpdk_ring_set_config(struct netdev *netdev, const struct smap *args,
char **errp OVS_UNUSED)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
dpdk_set_rxq_config(dev, args);
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_vhost_client_set_config(struct netdev *netdev,
const struct smap *args,
char **errp OVS_UNUSED)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
const char *path;
int max_tx_retries, cur_max_tx_retries;
ovs_mutex_lock(&dev->mutex);
if (!(dev->vhost_driver_flags & RTE_VHOST_USER_CLIENT)) {
path = smap_get(args, "vhost-server-path");
if (!nullable_string_is_equal(path, dev->vhost_id)) {
free(dev->vhost_id);
dev->vhost_id = nullable_xstrdup(path);
/* check zero copy configuration */
if (smap_get_bool(args, "dq-zero-copy", false)) {
dev->vhost_driver_flags |= RTE_VHOST_USER_DEQUEUE_ZERO_COPY;
} else {
dev->vhost_driver_flags &= ~RTE_VHOST_USER_DEQUEUE_ZERO_COPY;
}
netdev_request_reconfigure(netdev);
}
}
max_tx_retries = smap_get_int(args, "tx-retries-max",
VHOST_ENQ_RETRY_DEF);
if (max_tx_retries < VHOST_ENQ_RETRY_MIN
|| max_tx_retries > VHOST_ENQ_RETRY_MAX) {
max_tx_retries = VHOST_ENQ_RETRY_DEF;
}
atomic_read_relaxed(&dev->vhost_tx_retries_max, &cur_max_tx_retries);
if (max_tx_retries != cur_max_tx_retries) {
atomic_store_relaxed(&dev->vhost_tx_retries_max, max_tx_retries);
VLOG_INFO("Max Tx retries for vhost device '%s' set to %d",
netdev_get_name(netdev), max_tx_retries);
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_numa_id(const struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
return dev->socket_id;
}
/* Sets the number of tx queues for the dpdk interface. */
static int
netdev_dpdk_set_tx_multiq(struct netdev *netdev, unsigned int n_txq)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
if (dev->requested_n_txq == n_txq) {
goto out;
}
dev->requested_n_txq = n_txq;
netdev_request_reconfigure(netdev);
out:
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static struct netdev_rxq *
netdev_dpdk_rxq_alloc(void)
{
struct netdev_rxq_dpdk *rx = dpdk_rte_mzalloc(sizeof *rx);
if (rx) {
return &rx->up;
}
return NULL;
}
static struct netdev_rxq_dpdk *
netdev_rxq_dpdk_cast(const struct netdev_rxq *rxq)
{
return CONTAINER_OF(rxq, struct netdev_rxq_dpdk, up);
}
static int
netdev_dpdk_rxq_construct(struct netdev_rxq *rxq)
{
struct netdev_rxq_dpdk *rx = netdev_rxq_dpdk_cast(rxq);
struct netdev_dpdk *dev = netdev_dpdk_cast(rxq->netdev);
ovs_mutex_lock(&dev->mutex);
rx->port_id = dev->port_id;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static void
netdev_dpdk_rxq_destruct(struct netdev_rxq *rxq OVS_UNUSED)
{
}
static void
netdev_dpdk_rxq_dealloc(struct netdev_rxq *rxq)
{
struct netdev_rxq_dpdk *rx = netdev_rxq_dpdk_cast(rxq);
rte_free(rx);
}
/* Tries to transmit 'pkts' to txq 'qid' of device 'dev'. Takes ownership of
* 'pkts', even in case of failure.
*
* Returns the number of packets that weren't transmitted. */
static inline int
netdev_dpdk_eth_tx_burst(struct netdev_dpdk *dev, int qid,
struct rte_mbuf **pkts, int cnt)
{
uint32_t nb_tx = 0;
while (nb_tx != cnt) {
uint32_t ret;
ret = rte_eth_tx_burst(dev->port_id, qid, pkts + nb_tx, cnt - nb_tx);
if (!ret) {
break;
}
nb_tx += ret;
}
if (OVS_UNLIKELY(nb_tx != cnt)) {
/* Free buffers, which we couldn't transmit, one at a time (each
* packet could come from a different mempool) */
int i;
for (i = nb_tx; i < cnt; i++) {
rte_pktmbuf_free(pkts[i]);
}
}
return cnt - nb_tx;
}
static inline bool
netdev_dpdk_srtcm_policer_pkt_handle(struct rte_meter_srtcm *meter,
struct rte_meter_srtcm_profile *profile,
struct rte_mbuf *pkt, uint64_t time)
{
uint32_t pkt_len = rte_pktmbuf_pkt_len(pkt) - sizeof(struct rte_ether_hdr);
return rte_meter_srtcm_color_blind_check(meter, profile, time, pkt_len) ==
RTE_COLOR_GREEN;
}
static int
srtcm_policer_run_single_packet(struct rte_meter_srtcm *meter,
struct rte_meter_srtcm_profile *profile,
struct rte_mbuf **pkts, int pkt_cnt,
bool should_steal)
{
int i = 0;
int cnt = 0;
struct rte_mbuf *pkt = NULL;
uint64_t current_time = rte_rdtsc();
for (i = 0; i < pkt_cnt; i++) {
pkt = pkts[i];
/* Handle current packet */
if (netdev_dpdk_srtcm_policer_pkt_handle(meter, profile,
pkt, current_time)) {
if (cnt != i) {
pkts[cnt] = pkt;
}
cnt++;
} else {
if (should_steal) {
rte_pktmbuf_free(pkt);
}
}
}
return cnt;
}
static int
ingress_policer_run(struct ingress_policer *policer, struct rte_mbuf **pkts,
int pkt_cnt, bool should_steal)
{
int cnt = 0;
rte_spinlock_lock(&policer->policer_lock);
cnt = srtcm_policer_run_single_packet(&policer->in_policer,
&policer->in_prof,
pkts, pkt_cnt, should_steal);
rte_spinlock_unlock(&policer->policer_lock);
return cnt;
}
static bool
is_vhost_running(struct netdev_dpdk *dev)
{
return (netdev_dpdk_get_vid(dev) >= 0 && dev->vhost_reconfigured);
}
static inline void
netdev_dpdk_vhost_update_rx_size_counters(struct netdev_stats *stats,
unsigned int packet_size)
{
/* Hard-coded search for the size bucket. */
if (packet_size < 256) {
if (packet_size >= 128) {
stats->rx_128_to_255_packets++;
} else if (packet_size <= 64) {
stats->rx_1_to_64_packets++;
} else {
stats->rx_65_to_127_packets++;
}
} else {
if (packet_size >= 1523) {
stats->rx_1523_to_max_packets++;
} else if (packet_size >= 1024) {
stats->rx_1024_to_1522_packets++;
} else if (packet_size < 512) {
stats->rx_256_to_511_packets++;
} else {
stats->rx_512_to_1023_packets++;
}
}
}
static inline void
netdev_dpdk_vhost_update_rx_counters(struct netdev_dpdk *dev,
struct dp_packet **packets, int count,
int qos_drops)
{
struct netdev_stats *stats = &dev->stats;
struct dp_packet *packet;
unsigned int packet_size;
int i;
stats->rx_packets += count;
stats->rx_dropped += qos_drops;
for (i = 0; i < count; i++) {
packet = packets[i];
packet_size = dp_packet_size(packet);
if (OVS_UNLIKELY(packet_size < ETH_HEADER_LEN)) {
/* This only protects the following multicast counting from
* too short packets, but it does not stop the packet from
* further processing. */
stats->rx_errors++;
stats->rx_length_errors++;
continue;
}
netdev_dpdk_vhost_update_rx_size_counters(stats, packet_size);
struct eth_header *eh = (struct eth_header *) dp_packet_data(packet);
if (OVS_UNLIKELY(eth_addr_is_multicast(eh->eth_dst))) {
stats->multicast++;
}
stats->rx_bytes += packet_size;
}
if (OVS_UNLIKELY(qos_drops)) {
dev->sw_stats->rx_qos_drops += qos_drops;
}
}
/*
* The receive path for the vhost port is the TX path out from guest.
*/
static int
netdev_dpdk_vhost_rxq_recv(struct netdev_rxq *rxq,
struct dp_packet_batch *batch, int *qfill)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(rxq->netdev);
struct ingress_policer *policer = netdev_dpdk_get_ingress_policer(dev);
uint16_t nb_rx = 0;
uint16_t qos_drops = 0;
int qid = rxq->queue_id * VIRTIO_QNUM + VIRTIO_TXQ;
int vid = netdev_dpdk_get_vid(dev);
if (OVS_UNLIKELY(vid < 0 || !dev->vhost_reconfigured
|| !(dev->flags & NETDEV_UP))) {
return EAGAIN;
}
nb_rx = rte_vhost_dequeue_burst(vid, qid, dev->dpdk_mp->mp,
(struct rte_mbuf **) batch->packets,
NETDEV_MAX_BURST);
if (!nb_rx) {
return EAGAIN;
}
if (qfill) {
if (nb_rx == NETDEV_MAX_BURST) {
/* The DPDK API returns a uint32_t which often has invalid bits in
* the upper 16-bits. Need to restrict the value to uint16_t. */
*qfill = rte_vhost_rx_queue_count(vid, qid) & UINT16_MAX;
} else {
*qfill = 0;
}
}
if (policer) {
qos_drops = nb_rx;
nb_rx = ingress_policer_run(policer,
(struct rte_mbuf **) batch->packets,
nb_rx, true);
qos_drops -= nb_rx;
}
rte_spinlock_lock(&dev->stats_lock);
netdev_dpdk_vhost_update_rx_counters(dev, batch->packets,
nb_rx, qos_drops);
rte_spinlock_unlock(&dev->stats_lock);
batch->count = nb_rx;
dp_packet_batch_init_packet_fields(batch);
return 0;
}
static bool
netdev_dpdk_vhost_rxq_enabled(struct netdev_rxq *rxq)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(rxq->netdev);
return dev->vhost_rxq_enabled[rxq->queue_id];
}
static int
netdev_dpdk_rxq_recv(struct netdev_rxq *rxq, struct dp_packet_batch *batch,
int *qfill)
{
struct netdev_rxq_dpdk *rx = netdev_rxq_dpdk_cast(rxq);
struct netdev_dpdk *dev = netdev_dpdk_cast(rxq->netdev);
struct ingress_policer *policer = netdev_dpdk_get_ingress_policer(dev);
int nb_rx;
int dropped = 0;
if (OVS_UNLIKELY(!(dev->flags & NETDEV_UP))) {
return EAGAIN;
}
nb_rx = rte_eth_rx_burst(rx->port_id, rxq->queue_id,
(struct rte_mbuf **) batch->packets,
NETDEV_MAX_BURST);
if (!nb_rx) {
return EAGAIN;
}
if (policer) {
dropped = nb_rx;
nb_rx = ingress_policer_run(policer,
(struct rte_mbuf **) batch->packets,
nb_rx, true);
dropped -= nb_rx;
}
/* Update stats to reflect dropped packets */
if (OVS_UNLIKELY(dropped)) {
rte_spinlock_lock(&dev->stats_lock);
dev->stats.rx_dropped += dropped;
dev->sw_stats->rx_qos_drops += dropped;
rte_spinlock_unlock(&dev->stats_lock);
}
batch->count = nb_rx;
dp_packet_batch_init_packet_fields(batch);
if (qfill) {
if (nb_rx == NETDEV_MAX_BURST) {
*qfill = rte_eth_rx_queue_count(rx->port_id, rxq->queue_id);
} else {
*qfill = 0;
}
}
return 0;
}
static inline int
netdev_dpdk_qos_run(struct netdev_dpdk *dev, struct rte_mbuf **pkts,
int cnt, bool should_steal)
{
struct qos_conf *qos_conf = ovsrcu_get(struct qos_conf *, &dev->qos_conf);
if (qos_conf) {
rte_spinlock_lock(&qos_conf->lock);
cnt = qos_conf->ops->qos_run(qos_conf, pkts, cnt, should_steal);
rte_spinlock_unlock(&qos_conf->lock);
}
return cnt;
}
static int
netdev_dpdk_filter_packet_len(struct netdev_dpdk *dev, struct rte_mbuf **pkts,
int pkt_cnt)
{
int i = 0;
int cnt = 0;
struct rte_mbuf *pkt;
for (i = 0; i < pkt_cnt; i++) {
pkt = pkts[i];
if (OVS_UNLIKELY(pkt->pkt_len > dev->max_packet_len)) {
VLOG_WARN_RL(&rl, "%s: Too big size %" PRIu32 " max_packet_len %d",
dev->up.name, pkt->pkt_len, dev->max_packet_len);
rte_pktmbuf_free(pkt);
continue;
}
if (OVS_UNLIKELY(i != cnt)) {
pkts[cnt] = pkt;
}
cnt++;
}
return cnt;
}
static inline void
netdev_dpdk_vhost_update_tx_counters(struct netdev_dpdk *dev,
struct dp_packet **packets,
int attempted,
struct netdev_dpdk_sw_stats *sw_stats_add)
{
int dropped = sw_stats_add->tx_mtu_exceeded_drops +
sw_stats_add->tx_qos_drops +
sw_stats_add->tx_failure_drops;
struct netdev_stats *stats = &dev->stats;
int sent = attempted - dropped;
int i;
stats->tx_packets += sent;
stats->tx_dropped += dropped;
for (i = 0; i < sent; i++) {
stats->tx_bytes += dp_packet_size(packets[i]);
}
if (OVS_UNLIKELY(dropped || sw_stats_add->tx_retries)) {
struct netdev_dpdk_sw_stats *sw_stats = dev->sw_stats;
sw_stats->tx_retries += sw_stats_add->tx_retries;
sw_stats->tx_failure_drops += sw_stats_add->tx_failure_drops;
sw_stats->tx_mtu_exceeded_drops += sw_stats_add->tx_mtu_exceeded_drops;
sw_stats->tx_qos_drops += sw_stats_add->tx_qos_drops;
}
}
static void
__netdev_dpdk_vhost_send(struct netdev *netdev, int qid,
struct dp_packet **pkts, int cnt)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_mbuf **cur_pkts = (struct rte_mbuf **) pkts;
struct netdev_dpdk_sw_stats sw_stats_add;
unsigned int n_packets_to_free = cnt;
unsigned int total_packets = cnt;
int i, retries = 0;
int max_retries = VHOST_ENQ_RETRY_MIN;
int vid = netdev_dpdk_get_vid(dev);
qid = dev->tx_q[qid % netdev->n_txq].map;
if (OVS_UNLIKELY(vid < 0 || !dev->vhost_reconfigured || qid < 0
|| !(dev->flags & NETDEV_UP))) {
rte_spinlock_lock(&dev->stats_lock);
dev->stats.tx_dropped+= cnt;
rte_spinlock_unlock(&dev->stats_lock);
goto out;
}
if (OVS_UNLIKELY(!rte_spinlock_trylock(&dev->tx_q[qid].tx_lock))) {
COVERAGE_INC(vhost_tx_contention);
rte_spinlock_lock(&dev->tx_q[qid].tx_lock);
}
cnt = netdev_dpdk_filter_packet_len(dev, cur_pkts, cnt);
sw_stats_add.tx_mtu_exceeded_drops = total_packets - cnt;
/* Check has QoS has been configured for the netdev */
sw_stats_add.tx_qos_drops = cnt;
cnt = netdev_dpdk_qos_run(dev, cur_pkts, cnt, true);
sw_stats_add.tx_qos_drops -= cnt;
n_packets_to_free = cnt;
do {
int vhost_qid = qid * VIRTIO_QNUM + VIRTIO_RXQ;
unsigned int tx_pkts;
tx_pkts = rte_vhost_enqueue_burst(vid, vhost_qid, cur_pkts, cnt);
if (OVS_LIKELY(tx_pkts)) {
/* Packets have been sent.*/
cnt -= tx_pkts;
/* Prepare for possible retry.*/
cur_pkts = &cur_pkts[tx_pkts];
if (OVS_UNLIKELY(cnt && !retries)) {
/*
* Read max retries as there are packets not sent
* and no retries have already occurred.
*/
atomic_read_relaxed(&dev->vhost_tx_retries_max, &max_retries);
}
} else {
/* No packets sent - do not retry.*/
break;
}
} while (cnt && (retries++ < max_retries));
rte_spinlock_unlock(&dev->tx_q[qid].tx_lock);
sw_stats_add.tx_failure_drops = cnt;
sw_stats_add.tx_retries = MIN(retries, max_retries);
rte_spinlock_lock(&dev->stats_lock);
netdev_dpdk_vhost_update_tx_counters(dev, pkts, total_packets,
&sw_stats_add);
rte_spinlock_unlock(&dev->stats_lock);
out:
for (i = 0; i < n_packets_to_free; i++) {
dp_packet_delete(pkts[i]);
}
}
/* Tx function. Transmit packets indefinitely */
static void
dpdk_do_tx_copy(struct netdev *netdev, int qid, struct dp_packet_batch *batch)
OVS_NO_THREAD_SAFETY_ANALYSIS
{
const size_t batch_cnt = dp_packet_batch_size(batch);
#if !defined(__CHECKER__) && !defined(_WIN32)
const size_t PKT_ARRAY_SIZE = batch_cnt;
#else
/* Sparse or MSVC doesn't like variable length array. */
enum { PKT_ARRAY_SIZE = NETDEV_MAX_BURST };
#endif
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_mbuf *pkts[PKT_ARRAY_SIZE];
struct netdev_dpdk_sw_stats *sw_stats = dev->sw_stats;
uint32_t cnt = batch_cnt;
uint32_t dropped = 0;
uint32_t tx_failure = 0;
uint32_t mtu_drops = 0;
uint32_t qos_drops = 0;
if (dev->type != DPDK_DEV_VHOST) {
/* Check if QoS has been configured for this netdev. */
cnt = netdev_dpdk_qos_run(dev, (struct rte_mbuf **) batch->packets,
batch_cnt, false);
qos_drops = batch_cnt - cnt;
}
uint32_t txcnt = 0;
for (uint32_t i = 0; i < cnt; i++) {
struct dp_packet *packet = batch->packets[i];
uint32_t size = dp_packet_size(packet);
if (OVS_UNLIKELY(size > dev->max_packet_len)) {
VLOG_WARN_RL(&rl, "Too big size %u max_packet_len %d",
size, dev->max_packet_len);
mtu_drops++;
continue;
}
pkts[txcnt] = rte_pktmbuf_alloc(dev->dpdk_mp->mp);
if (OVS_UNLIKELY(!pkts[txcnt])) {
dropped = cnt - i;
break;
}
/* We have to do a copy for now */
memcpy(rte_pktmbuf_mtod(pkts[txcnt], void *),
dp_packet_data(packet), size);
dp_packet_set_size((struct dp_packet *)pkts[txcnt], size);
txcnt++;
}
if (OVS_LIKELY(txcnt)) {
if (dev->type == DPDK_DEV_VHOST) {
__netdev_dpdk_vhost_send(netdev, qid, (struct dp_packet **) pkts,
txcnt);
} else {
tx_failure = netdev_dpdk_eth_tx_burst(dev, qid, pkts, txcnt);
}
}
dropped += qos_drops + mtu_drops + tx_failure;
if (OVS_UNLIKELY(dropped)) {
rte_spinlock_lock(&dev->stats_lock);
dev->stats.tx_dropped += dropped;
sw_stats->tx_failure_drops += tx_failure;
sw_stats->tx_mtu_exceeded_drops += mtu_drops;
sw_stats->tx_qos_drops += qos_drops;
rte_spinlock_unlock(&dev->stats_lock);
}
}
static int
netdev_dpdk_vhost_send(struct netdev *netdev, int qid,
struct dp_packet_batch *batch,
bool concurrent_txq OVS_UNUSED)
{
if (OVS_UNLIKELY(batch->packets[0]->source != DPBUF_DPDK)) {
dpdk_do_tx_copy(netdev, qid, batch);
dp_packet_delete_batch(batch, true);
} else {
__netdev_dpdk_vhost_send(netdev, qid, batch->packets,
dp_packet_batch_size(batch));
}
return 0;
}
static inline void
netdev_dpdk_send__(struct netdev_dpdk *dev, int qid,
struct dp_packet_batch *batch,
bool concurrent_txq)
{
if (OVS_UNLIKELY(!(dev->flags & NETDEV_UP))) {
dp_packet_delete_batch(batch, true);
return;
}
if (OVS_UNLIKELY(concurrent_txq)) {
qid = qid % dev->up.n_txq;
rte_spinlock_lock(&dev->tx_q[qid].tx_lock);
}
if (OVS_UNLIKELY(batch->packets[0]->source != DPBUF_DPDK)) {
struct netdev *netdev = &dev->up;
dpdk_do_tx_copy(netdev, qid, batch);
dp_packet_delete_batch(batch, true);
} else {
struct netdev_dpdk_sw_stats *sw_stats = dev->sw_stats;
int tx_cnt, dropped;
int tx_failure, mtu_drops, qos_drops;
int batch_cnt = dp_packet_batch_size(batch);
struct rte_mbuf **pkts = (struct rte_mbuf **) batch->packets;
tx_cnt = netdev_dpdk_filter_packet_len(dev, pkts, batch_cnt);
mtu_drops = batch_cnt - tx_cnt;
qos_drops = tx_cnt;
tx_cnt = netdev_dpdk_qos_run(dev, pkts, tx_cnt, true);
qos_drops -= tx_cnt;
tx_failure = netdev_dpdk_eth_tx_burst(dev, qid, pkts, tx_cnt);
dropped = tx_failure + mtu_drops + qos_drops;
if (OVS_UNLIKELY(dropped)) {
rte_spinlock_lock(&dev->stats_lock);
dev->stats.tx_dropped += dropped;
sw_stats->tx_failure_drops += tx_failure;
sw_stats->tx_mtu_exceeded_drops += mtu_drops;
sw_stats->tx_qos_drops += qos_drops;
rte_spinlock_unlock(&dev->stats_lock);
}
}
if (OVS_UNLIKELY(concurrent_txq)) {
rte_spinlock_unlock(&dev->tx_q[qid].tx_lock);
}
}
static int
netdev_dpdk_eth_send(struct netdev *netdev, int qid,
struct dp_packet_batch *batch, bool concurrent_txq)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
netdev_dpdk_send__(dev, qid, batch, concurrent_txq);
return 0;
}
static int
netdev_dpdk_set_etheraddr(struct netdev *netdev, const struct eth_addr mac)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
if (!eth_addr_equals(dev->hwaddr, mac)) {
dev->hwaddr = mac;
netdev_change_seq_changed(netdev);
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_etheraddr(const struct netdev *netdev, struct eth_addr *mac)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
*mac = dev->hwaddr;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_mtu(const struct netdev *netdev, int *mtup)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
*mtup = dev->mtu;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_set_mtu(struct netdev *netdev, int mtu)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
/* XXX: Ensure that the overall frame length of the requested MTU does not
* surpass the NETDEV_DPDK_MAX_PKT_LEN. DPDK device drivers differ in how
* the L2 frame length is calculated for a given MTU when
* rte_eth_dev_set_mtu(mtu) is called e.g. i40e driver includes 2 x vlan
* headers, the em driver includes 1 x vlan header, the ixgbe driver does
* not include vlan headers. As such we should use
* MTU_TO_MAX_FRAME_LEN(mtu) which includes an additional 2 x vlan headers
* (8 bytes) for comparison. This avoids a failure later with
* rte_eth_dev_set_mtu(). This approach should be used until DPDK provides
* a method to retrieve the upper bound MTU for a given device.
*/
if (MTU_TO_MAX_FRAME_LEN(mtu) > NETDEV_DPDK_MAX_PKT_LEN
|| mtu < RTE_ETHER_MIN_MTU) {
VLOG_WARN("%s: unsupported MTU %d\n", dev->up.name, mtu);
return EINVAL;
}
ovs_mutex_lock(&dev->mutex);
if (dev->requested_mtu != mtu) {
dev->requested_mtu = mtu;
netdev_request_reconfigure(netdev);
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_carrier(const struct netdev *netdev, bool *carrier);
static int
netdev_dpdk_vhost_get_stats(const struct netdev *netdev,
struct netdev_stats *stats)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
rte_spinlock_lock(&dev->stats_lock);
/* Supported Stats */
stats->rx_packets = dev->stats.rx_packets;
stats->tx_packets = dev->stats.tx_packets;
stats->rx_dropped = dev->stats.rx_dropped;
stats->tx_dropped = dev->stats.tx_dropped;
stats->multicast = dev->stats.multicast;
stats->rx_bytes = dev->stats.rx_bytes;
stats->tx_bytes = dev->stats.tx_bytes;
stats->rx_errors = dev->stats.rx_errors;
stats->rx_length_errors = dev->stats.rx_length_errors;
stats->rx_1_to_64_packets = dev->stats.rx_1_to_64_packets;
stats->rx_65_to_127_packets = dev->stats.rx_65_to_127_packets;
stats->rx_128_to_255_packets = dev->stats.rx_128_to_255_packets;
stats->rx_256_to_511_packets = dev->stats.rx_256_to_511_packets;
stats->rx_512_to_1023_packets = dev->stats.rx_512_to_1023_packets;
stats->rx_1024_to_1522_packets = dev->stats.rx_1024_to_1522_packets;
stats->rx_1523_to_max_packets = dev->stats.rx_1523_to_max_packets;
rte_spinlock_unlock(&dev->stats_lock);
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static void
netdev_dpdk_convert_xstats(struct netdev_stats *stats,
const struct rte_eth_xstat *xstats,
const struct rte_eth_xstat_name *names,
const unsigned int size)
{
/* DPDK XSTATS Counter names definition. */
#define DPDK_XSTATS \
DPDK_XSTAT(multicast, "rx_multicast_packets" ) \
DPDK_XSTAT(tx_multicast_packets, "tx_multicast_packets" ) \
DPDK_XSTAT(rx_broadcast_packets, "rx_broadcast_packets" ) \
DPDK_XSTAT(tx_broadcast_packets, "tx_broadcast_packets" ) \
DPDK_XSTAT(rx_undersized_errors, "rx_undersized_errors" ) \
DPDK_XSTAT(rx_oversize_errors, "rx_oversize_errors" ) \
DPDK_XSTAT(rx_fragmented_errors, "rx_fragmented_errors" ) \
DPDK_XSTAT(rx_jabber_errors, "rx_jabber_errors" ) \
DPDK_XSTAT(rx_1_to_64_packets, "rx_size_64_packets" ) \
DPDK_XSTAT(rx_65_to_127_packets, "rx_size_65_to_127_packets" ) \
DPDK_XSTAT(rx_128_to_255_packets, "rx_size_128_to_255_packets" ) \
DPDK_XSTAT(rx_256_to_511_packets, "rx_size_256_to_511_packets" ) \
DPDK_XSTAT(rx_512_to_1023_packets, "rx_size_512_to_1023_packets" ) \
DPDK_XSTAT(rx_1024_to_1522_packets, "rx_size_1024_to_1522_packets" ) \
DPDK_XSTAT(rx_1523_to_max_packets, "rx_size_1523_to_max_packets" ) \
DPDK_XSTAT(tx_1_to_64_packets, "tx_size_64_packets" ) \
DPDK_XSTAT(tx_65_to_127_packets, "tx_size_65_to_127_packets" ) \
DPDK_XSTAT(tx_128_to_255_packets, "tx_size_128_to_255_packets" ) \
DPDK_XSTAT(tx_256_to_511_packets, "tx_size_256_to_511_packets" ) \
DPDK_XSTAT(tx_512_to_1023_packets, "tx_size_512_to_1023_packets" ) \
DPDK_XSTAT(tx_1024_to_1522_packets, "tx_size_1024_to_1522_packets" ) \
DPDK_XSTAT(tx_1523_to_max_packets, "tx_size_1523_to_max_packets" )
for (unsigned int i = 0; i < size; i++) {
#define DPDK_XSTAT(MEMBER, NAME) \
if (strcmp(NAME, names[i].name) == 0) { \
stats->MEMBER = xstats[i].value; \
continue; \
}
DPDK_XSTATS;
#undef DPDK_XSTAT
}
#undef DPDK_XSTATS
}
static int
netdev_dpdk_get_stats(const struct netdev *netdev, struct netdev_stats *stats)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_eth_stats rte_stats;
bool gg;
netdev_dpdk_get_carrier(netdev, &gg);
ovs_mutex_lock(&dev->mutex);
struct rte_eth_xstat *rte_xstats = NULL;
struct rte_eth_xstat_name *rte_xstats_names = NULL;
int rte_xstats_len, rte_xstats_new_len, rte_xstats_ret;
if (rte_eth_stats_get(dev->port_id, &rte_stats)) {
VLOG_ERR("Can't get ETH statistics for port: "DPDK_PORT_ID_FMT,
dev->port_id);
ovs_mutex_unlock(&dev->mutex);
return EPROTO;
}
/* Get length of statistics */
rte_xstats_len = rte_eth_xstats_get_names(dev->port_id, NULL, 0);
if (rte_xstats_len < 0) {
VLOG_WARN("Cannot get XSTATS values for port: "DPDK_PORT_ID_FMT,
dev->port_id);
goto out;
}
/* Reserve memory for xstats names and values */
rte_xstats_names = xcalloc(rte_xstats_len, sizeof *rte_xstats_names);
rte_xstats = xcalloc(rte_xstats_len, sizeof *rte_xstats);
/* Retreive xstats names */
rte_xstats_new_len = rte_eth_xstats_get_names(dev->port_id,
rte_xstats_names,
rte_xstats_len);
if (rte_xstats_new_len != rte_xstats_len) {
VLOG_WARN("Cannot get XSTATS names for port: "DPDK_PORT_ID_FMT,
dev->port_id);
goto out;
}
/* Retreive xstats values */
memset(rte_xstats, 0xff, sizeof *rte_xstats * rte_xstats_len);
rte_xstats_ret = rte_eth_xstats_get(dev->port_id, rte_xstats,
rte_xstats_len);
if (rte_xstats_ret > 0 && rte_xstats_ret <= rte_xstats_len) {
netdev_dpdk_convert_xstats(stats, rte_xstats, rte_xstats_names,
rte_xstats_len);
} else {
VLOG_WARN("Cannot get XSTATS values for port: "DPDK_PORT_ID_FMT,
dev->port_id);
}
out:
free(rte_xstats);
free(rte_xstats_names);
stats->rx_packets = rte_stats.ipackets;
stats->tx_packets = rte_stats.opackets;
stats->rx_bytes = rte_stats.ibytes;
stats->tx_bytes = rte_stats.obytes;
stats->rx_errors = rte_stats.ierrors;
stats->tx_errors = rte_stats.oerrors;
rte_spinlock_lock(&dev->stats_lock);
stats->tx_dropped = dev->stats.tx_dropped;
stats->rx_dropped = dev->stats.rx_dropped;
rte_spinlock_unlock(&dev->stats_lock);
/* These are the available DPDK counters for packets not received due to
* local resource constraints in DPDK and NIC respectively. */
stats->rx_dropped += rte_stats.rx_nombuf + rte_stats.imissed;
stats->rx_missed_errors = rte_stats.imissed;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_custom_stats(const struct netdev *netdev,
struct netdev_custom_stats *custom_stats)
{
uint32_t i;
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int rte_xstats_ret, sw_stats_size;
netdev_dpdk_get_sw_custom_stats(netdev, custom_stats);
ovs_mutex_lock(&dev->mutex);
if (netdev_dpdk_configure_xstats(dev)) {
uint64_t *values = xcalloc(dev->rte_xstats_ids_size,
sizeof(uint64_t));
rte_xstats_ret =
rte_eth_xstats_get_by_id(dev->port_id, dev->rte_xstats_ids,
values, dev->rte_xstats_ids_size);
if (rte_xstats_ret > 0 &&
rte_xstats_ret <= dev->rte_xstats_ids_size) {
sw_stats_size = custom_stats->size;
custom_stats->size += rte_xstats_ret;
custom_stats->counters = xrealloc(custom_stats->counters,
custom_stats->size *
sizeof *custom_stats->counters);
for (i = 0; i < rte_xstats_ret; i++) {
ovs_strlcpy(custom_stats->counters[sw_stats_size + i].name,
netdev_dpdk_get_xstat_name(dev,
dev->rte_xstats_ids[i]),
NETDEV_CUSTOM_STATS_NAME_SIZE);
custom_stats->counters[sw_stats_size + i].value = values[i];
}
} else {
VLOG_WARN("Cannot get XSTATS values for port: "DPDK_PORT_ID_FMT,
dev->port_id);
/* Let's clear statistics cache, so it will be
* reconfigured */
netdev_dpdk_clear_xstats(dev);
}
free(values);
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_sw_custom_stats(const struct netdev *netdev,
struct netdev_custom_stats *custom_stats)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int i, n;
#define SW_CSTATS \
SW_CSTAT(tx_retries) \
SW_CSTAT(tx_failure_drops) \
SW_CSTAT(tx_mtu_exceeded_drops) \
SW_CSTAT(tx_qos_drops) \
SW_CSTAT(rx_qos_drops)
#define SW_CSTAT(NAME) + 1
custom_stats->size = SW_CSTATS;
#undef SW_CSTAT
custom_stats->counters = xcalloc(custom_stats->size,
sizeof *custom_stats->counters);
ovs_mutex_lock(&dev->mutex);
rte_spinlock_lock(&dev->stats_lock);
i = 0;
#define SW_CSTAT(NAME) \
custom_stats->counters[i++].value = dev->sw_stats->NAME;
SW_CSTATS;
#undef SW_CSTAT
rte_spinlock_unlock(&dev->stats_lock);
ovs_mutex_unlock(&dev->mutex);
i = 0;
n = 0;
#define SW_CSTAT(NAME) \
if (custom_stats->counters[i].value != UINT64_MAX) { \
ovs_strlcpy(custom_stats->counters[n].name, \
"ovs_"#NAME, NETDEV_CUSTOM_STATS_NAME_SIZE); \
custom_stats->counters[n].value = custom_stats->counters[i].value; \
n++; \
} \
i++;
SW_CSTATS;
#undef SW_CSTAT
custom_stats->size = n;
return 0;
}
static int
netdev_dpdk_get_features(const struct netdev *netdev,
enum netdev_features *current,
enum netdev_features *advertised,
enum netdev_features *supported,
enum netdev_features *peer)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_eth_link link;
uint32_t feature = 0;
ovs_mutex_lock(&dev->mutex);
link = dev->link;
ovs_mutex_unlock(&dev->mutex);
/* Match against OpenFlow defined link speed values. */
if (link.link_duplex == ETH_LINK_FULL_DUPLEX) {
switch (link.link_speed) {
case ETH_SPEED_NUM_10M:
feature |= NETDEV_F_10MB_FD;
break;
case ETH_SPEED_NUM_100M:
feature |= NETDEV_F_100MB_FD;
break;
case ETH_SPEED_NUM_1G:
feature |= NETDEV_F_1GB_FD;
break;
case ETH_SPEED_NUM_10G:
feature |= NETDEV_F_10GB_FD;
break;
case ETH_SPEED_NUM_40G:
feature |= NETDEV_F_40GB_FD;
break;
case ETH_SPEED_NUM_100G:
feature |= NETDEV_F_100GB_FD;
break;
default:
feature |= NETDEV_F_OTHER;
}
} else if (link.link_duplex == ETH_LINK_HALF_DUPLEX) {
switch (link.link_speed) {
case ETH_SPEED_NUM_10M:
feature |= NETDEV_F_10MB_HD;
break;
case ETH_SPEED_NUM_100M:
feature |= NETDEV_F_100MB_HD;
break;
case ETH_SPEED_NUM_1G:
feature |= NETDEV_F_1GB_HD;
break;
default:
feature |= NETDEV_F_OTHER;
}
}
if (link.link_autoneg) {
feature |= NETDEV_F_AUTONEG;
}
*current = feature;
*advertised = *supported = *peer = 0;
return 0;
}
static struct ingress_policer *
netdev_dpdk_policer_construct(uint32_t rate, uint32_t burst)
{
struct ingress_policer *policer = NULL;
uint64_t rate_bytes;
uint64_t burst_bytes;
int err = 0;
policer = xmalloc(sizeof *policer);
rte_spinlock_init(&policer->policer_lock);
/* rte_meter requires bytes so convert kbits rate and burst to bytes. */
rate_bytes = rate * 1000ULL / 8;
burst_bytes = burst * 1000ULL / 8;
policer->app_srtcm_params.cir = rate_bytes;
policer->app_srtcm_params.cbs = burst_bytes;
policer->app_srtcm_params.ebs = 0;
err = rte_meter_srtcm_profile_config(&policer->in_prof,
&policer->app_srtcm_params);
if (!err) {
err = rte_meter_srtcm_config(&policer->in_policer,
&policer->in_prof);
}
if (err) {
VLOG_ERR("Could not create rte meter for ingress policer");
free(policer);
return NULL;
}
return policer;
}
static int
netdev_dpdk_set_policing(struct netdev* netdev, uint32_t policer_rate,
uint32_t policer_burst)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct ingress_policer *policer;
/* Force to 0 if no rate specified,
* default to 8000 kbits if burst is 0,
* else stick with user-specified value.
*/
policer_burst = (!policer_rate ? 0
: !policer_burst ? 8000
: policer_burst);
ovs_mutex_lock(&dev->mutex);
policer = ovsrcu_get_protected(struct ingress_policer *,
&dev->ingress_policer);
if (dev->policer_rate == policer_rate &&
dev->policer_burst == policer_burst) {
/* Assume that settings haven't changed since we last set them. */
ovs_mutex_unlock(&dev->mutex);
return 0;
}
/* Destroy any existing ingress policer for the device if one exists */
if (policer) {
ovsrcu_postpone(free, policer);
}
if (policer_rate != 0) {
policer = netdev_dpdk_policer_construct(policer_rate, policer_burst);
} else {
policer = NULL;
}
ovsrcu_set(&dev->ingress_policer, policer);
dev->policer_rate = policer_rate;
dev->policer_burst = policer_burst;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_get_ifindex(const struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
/* Calculate hash from the netdev name. Ensure that ifindex is a 24-bit
* postive integer to meet RFC 2863 recommendations.
*/
int ifindex = hash_string(netdev->name, 0) % 0xfffffe + 1;
ovs_mutex_unlock(&dev->mutex);
return ifindex;
}
static int
netdev_dpdk_get_carrier(const struct netdev *netdev, bool *carrier)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
check_link_status(dev);
*carrier = dev->link.link_status;
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static int
netdev_dpdk_vhost_get_carrier(const struct netdev *netdev, bool *carrier)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
if (is_vhost_running(dev)) {
*carrier = 1;
} else {
*carrier = 0;
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
static long long int
netdev_dpdk_get_carrier_resets(const struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
long long int carrier_resets;
ovs_mutex_lock(&dev->mutex);
carrier_resets = dev->link_reset_cnt;
ovs_mutex_unlock(&dev->mutex);
return carrier_resets;
}
static int
netdev_dpdk_set_miimon(struct netdev *netdev OVS_UNUSED,
long long int interval OVS_UNUSED)
{
return EOPNOTSUPP;
}
static int
netdev_dpdk_update_flags__(struct netdev_dpdk *dev,
enum netdev_flags off, enum netdev_flags on,
enum netdev_flags *old_flagsp)
OVS_REQUIRES(dev->mutex)
{
if ((off | on) & ~(NETDEV_UP | NETDEV_PROMISC)) {
return EINVAL;
}
*old_flagsp = dev->flags;
dev->flags |= on;
dev->flags &= ~off;
if (dev->flags == *old_flagsp) {
return 0;
}
if (dev->type == DPDK_DEV_ETH) {
if ((dev->flags ^ *old_flagsp) & NETDEV_UP) {
int err;
if (dev->flags & NETDEV_UP) {
err = rte_eth_dev_set_link_up(dev->port_id);
} else {
err = rte_eth_dev_set_link_down(dev->port_id);
}
if (err == -ENOTSUP) {
VLOG_INFO("Interface %s does not support link state "
"configuration", netdev_get_name(&dev->up));
} else if (err < 0) {
VLOG_ERR("Interface %s link change error: %s",
netdev_get_name(&dev->up), rte_strerror(-err));
dev->flags = *old_flagsp;
return -err;
}
}
if (dev->flags & NETDEV_PROMISC) {
rte_eth_promiscuous_enable(dev->port_id);
}
netdev_change_seq_changed(&dev->up);
} else {
/* If DPDK_DEV_VHOST device's NETDEV_UP flag was changed and vhost is
* running then change netdev's change_seq to trigger link state
* update. */
if ((NETDEV_UP & ((*old_flagsp ^ on) | (*old_flagsp ^ off)))
&& is_vhost_running(dev)) {
netdev_change_seq_changed(&dev->up);
/* Clear statistics if device is getting up. */
if (NETDEV_UP & on) {
rte_spinlock_lock(&dev->stats_lock);
memset(&dev->stats, 0, sizeof dev->stats);
rte_spinlock_unlock(&dev->stats_lock);
}
}
}
return 0;
}
static int
netdev_dpdk_update_flags(struct netdev *netdev,
enum netdev_flags off, enum netdev_flags on,
enum netdev_flags *old_flagsp)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int error;
ovs_mutex_lock(&dev->mutex);
error = netdev_dpdk_update_flags__(dev, off, on, old_flagsp);
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_vhost_user_get_status(const struct netdev *netdev,
struct smap *args)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
bool client_mode = dev->vhost_driver_flags & RTE_VHOST_USER_CLIENT;
smap_add_format(args, "mode", "%s", client_mode ? "client" : "server");
int vid = netdev_dpdk_get_vid(dev);
if (vid < 0) {
smap_add_format(args, "status", "disconnected");
ovs_mutex_unlock(&dev->mutex);
return 0;
} else {
smap_add_format(args, "status", "connected");
}
char socket_name[PATH_MAX];
if (!rte_vhost_get_ifname(vid, socket_name, PATH_MAX)) {
smap_add_format(args, "socket", "%s", socket_name);
}
uint64_t features;
if (!rte_vhost_get_negotiated_features(vid, &features)) {
smap_add_format(args, "features", "0x%016"PRIx64, features);
}
uint16_t mtu;
if (!rte_vhost_get_mtu(vid, &mtu)) {
smap_add_format(args, "mtu", "%d", mtu);
}
int numa = rte_vhost_get_numa_node(vid);
if (numa >= 0) {
smap_add_format(args, "numa", "%d", numa);
}
uint16_t vring_num = rte_vhost_get_vring_num(vid);
if (vring_num) {
smap_add_format(args, "num_of_vrings", "%d", vring_num);
}
for (int i = 0; i < vring_num; i++) {
struct rte_vhost_vring vring;
rte_vhost_get_vhost_vring(vid, i, &vring);
smap_add_nocopy(args, xasprintf("vring_%d_size", i),
xasprintf("%d", vring.size));
}
ovs_mutex_unlock(&dev->mutex);
return 0;
}
/*
* Convert a given uint32_t link speed defined in DPDK to a string
* equivalent.
*/
static const char *
netdev_dpdk_link_speed_to_str__(uint32_t link_speed)
{
switch (link_speed) {
case ETH_SPEED_NUM_10M: return "10Mbps";
case ETH_SPEED_NUM_100M: return "100Mbps";
case ETH_SPEED_NUM_1G: return "1Gbps";
case ETH_SPEED_NUM_2_5G: return "2.5Gbps";
case ETH_SPEED_NUM_5G: return "5Gbps";
case ETH_SPEED_NUM_10G: return "10Gbps";
case ETH_SPEED_NUM_20G: return "20Gbps";
case ETH_SPEED_NUM_25G: return "25Gbps";
case ETH_SPEED_NUM_40G: return "40Gbps";
case ETH_SPEED_NUM_50G: return "50Gbps";
case ETH_SPEED_NUM_56G: return "56Gbps";
case ETH_SPEED_NUM_100G: return "100Gbps";
default: return "Not Defined";
}
}
static int
netdev_dpdk_get_status(const struct netdev *netdev, struct smap *args)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct rte_eth_dev_info dev_info;
uint32_t link_speed;
if (!rte_eth_dev_is_valid_port(dev->port_id)) {
return ENODEV;
}
ovs_mutex_lock(&dpdk_mutex);
ovs_mutex_lock(&dev->mutex);
rte_eth_dev_info_get(dev->port_id, &dev_info);
link_speed = dev->link.link_speed;
ovs_mutex_unlock(&dev->mutex);
const struct rte_bus *bus;
const struct rte_pci_device *pci_dev;
uint16_t vendor_id = PCI_ANY_ID;
uint16_t device_id = PCI_ANY_ID;
bus = rte_bus_find_by_device(dev_info.device);
if (bus && !strcmp(bus->name, "pci")) {
pci_dev = RTE_DEV_TO_PCI(dev_info.device);
if (pci_dev) {
vendor_id = pci_dev->id.vendor_id;
device_id = pci_dev->id.device_id;
}
}
ovs_mutex_unlock(&dpdk_mutex);
smap_add_format(args, "port_no", DPDK_PORT_ID_FMT, dev->port_id);
smap_add_format(args, "numa_id", "%d",
rte_eth_dev_socket_id(dev->port_id));
smap_add_format(args, "driver_name", "%s", dev_info.driver_name);
smap_add_format(args, "min_rx_bufsize", "%u", dev_info.min_rx_bufsize);
smap_add_format(args, "max_rx_pktlen", "%u", dev->max_packet_len);
smap_add_format(args, "max_rx_queues", "%u", dev_info.max_rx_queues);
smap_add_format(args, "max_tx_queues", "%u", dev_info.max_tx_queues);
smap_add_format(args, "max_mac_addrs", "%u", dev_info.max_mac_addrs);
smap_add_format(args, "max_hash_mac_addrs", "%u",
dev_info.max_hash_mac_addrs);
smap_add_format(args, "max_vfs", "%u", dev_info.max_vfs);
smap_add_format(args, "max_vmdq_pools", "%u", dev_info.max_vmdq_pools);
/* Querying the DPDK library for iftype may be done in future, pending
* support; cf. RFC 3635 Section 3.2.4. */
enum { IF_TYPE_ETHERNETCSMACD = 6 };
smap_add_format(args, "if_type", "%"PRIu32, IF_TYPE_ETHERNETCSMACD);
smap_add_format(args, "if_descr", "%s %s", rte_version(),
dev_info.driver_name);
smap_add_format(args, "pci-vendor_id", "0x%x", vendor_id);
smap_add_format(args, "pci-device_id", "0x%x", device_id);
/* Not all link speeds are defined in the OpenFlow specs e.g. 25 Gbps.
* In that case the speed will not be reported as part of the usual
* call to get_features(). Get the link speed of the device and add it
* to the device status in an easy to read string format.
*/
smap_add(args, "link_speed",
netdev_dpdk_link_speed_to_str__(link_speed));
return 0;
}
static void
netdev_dpdk_set_admin_state__(struct netdev_dpdk *dev, bool admin_state)
OVS_REQUIRES(dev->mutex)
{
enum netdev_flags old_flags;
if (admin_state) {
netdev_dpdk_update_flags__(dev, 0, NETDEV_UP, &old_flags);
} else {
netdev_dpdk_update_flags__(dev, NETDEV_UP, 0, &old_flags);
}
}
static void
netdev_dpdk_set_admin_state(struct unixctl_conn *conn, int argc,
const char *argv[], void *aux OVS_UNUSED)
{
bool up;
if (!strcasecmp(argv[argc - 1], "up")) {
up = true;
} else if ( !strcasecmp(argv[argc - 1], "down")) {
up = false;
} else {
unixctl_command_reply_error(conn, "Invalid Admin State");
return;
}
if (argc > 2) {
struct netdev *netdev = netdev_from_name(argv[1]);
if (netdev && is_dpdk_class(netdev->netdev_class)) {
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
netdev_dpdk_set_admin_state__(dev, up);
ovs_mutex_unlock(&dev->mutex);
netdev_close(netdev);
} else {
unixctl_command_reply_error(conn, "Not a DPDK Interface");
netdev_close(netdev);
return;
}
} else {
struct netdev_dpdk *dev;
ovs_mutex_lock(&dpdk_mutex);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
ovs_mutex_lock(&dev->mutex);
netdev_dpdk_set_admin_state__(dev, up);
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
}
unixctl_command_reply(conn, "OK");
}
static void
netdev_dpdk_detach(struct unixctl_conn *conn, int argc OVS_UNUSED,
const char *argv[], void *aux OVS_UNUSED)
{
char *response;
dpdk_port_t port_id;
struct netdev_dpdk *dev;
struct rte_device *rte_dev;
struct ds used_interfaces = DS_EMPTY_INITIALIZER;
bool used = false;
ovs_mutex_lock(&dpdk_mutex);
port_id = netdev_dpdk_get_port_by_devargs(argv[1]);
if (!rte_eth_dev_is_valid_port(port_id)) {
response = xasprintf("Device '%s' not found in DPDK", argv[1]);
goto error;
}
rte_dev = rte_eth_devices[port_id].device;
ds_put_format(&used_interfaces,
"Device '%s' is being used by the following interfaces:",
argv[1]);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
/* FIXME: avoid direct access to DPDK array rte_eth_devices. */
if (rte_eth_devices[dev->port_id].device == rte_dev
&& rte_eth_devices[dev->port_id].state != RTE_ETH_DEV_UNUSED) {
used = true;
ds_put_format(&used_interfaces, " %s",
netdev_get_name(&dev->up));
}
}
if (used) {
ds_put_cstr(&used_interfaces, ". Remove them before detaching.");
response = ds_steal_cstr(&used_interfaces);
ds_destroy(&used_interfaces);
goto error;
}
ds_destroy(&used_interfaces);
rte_eth_dev_close(port_id);
if (rte_dev_remove(rte_dev) < 0) {
response = xasprintf("Device '%s' can not be detached", argv[1]);
goto error;
}
response = xasprintf("All devices shared with device '%s' "
"have been detached", argv[1]);
ovs_mutex_unlock(&dpdk_mutex);
unixctl_command_reply(conn, response);
free(response);
return;
error:
ovs_mutex_unlock(&dpdk_mutex);
unixctl_command_reply_error(conn, response);
free(response);
}
static void
netdev_dpdk_get_mempool_info(struct unixctl_conn *conn,
int argc, const char *argv[],
void *aux OVS_UNUSED)
{
size_t size;
FILE *stream;
char *response = NULL;
struct netdev *netdev = NULL;
if (argc == 2) {
netdev = netdev_from_name(argv[1]);
if (!netdev || !is_dpdk_class(netdev->netdev_class)) {
unixctl_command_reply_error(conn, "Not a DPDK Interface");
goto out;
}
}
stream = open_memstream(&response, &size);
if (!stream) {
response = xasprintf("Unable to open memstream: %s.",
ovs_strerror(errno));
unixctl_command_reply_error(conn, response);
goto out;
}
if (netdev) {
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
ovs_mutex_lock(&dpdk_mp_mutex);
rte_mempool_dump(stream, dev->dpdk_mp->mp);
ovs_mutex_unlock(&dpdk_mp_mutex);
ovs_mutex_unlock(&dev->mutex);
} else {
ovs_mutex_lock(&dpdk_mp_mutex);
rte_mempool_list_dump(stream);
ovs_mutex_unlock(&dpdk_mp_mutex);
}
fclose(stream);
unixctl_command_reply(conn, response);
out:
free(response);
netdev_close(netdev);
}
/*
* Set virtqueue flags so that we do not receive interrupts.
*/
static void
set_irq_status(int vid)
{
uint32_t i;
for (i = 0; i < rte_vhost_get_vring_num(vid); i++) {
rte_vhost_enable_guest_notification(vid, i, 0);
}
}
/*
* Fixes mapping for vhost-user tx queues. Must be called after each
* enabling/disabling of queues and n_txq modifications.
*/
static void
netdev_dpdk_remap_txqs(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
int *enabled_queues, n_enabled = 0;
int i, k, total_txqs = dev->up.n_txq;
enabled_queues = xcalloc(total_txqs, sizeof *enabled_queues);
for (i = 0; i < total_txqs; i++) {
/* Enabled queues always mapped to themselves. */
if (dev->tx_q[i].map == i) {
enabled_queues[n_enabled++] = i;
}
}
if (n_enabled == 0 && total_txqs != 0) {
enabled_queues[0] = OVS_VHOST_QUEUE_DISABLED;
n_enabled = 1;
}
k = 0;
for (i = 0; i < total_txqs; i++) {
if (dev->tx_q[i].map != i) {
dev->tx_q[i].map = enabled_queues[k];
k = (k + 1) % n_enabled;
}
}
if (VLOG_IS_DBG_ENABLED()) {
struct ds mapping = DS_EMPTY_INITIALIZER;
ds_put_format(&mapping, "TX queue mapping for port '%s':\n",
netdev_get_name(&dev->up));
for (i = 0; i < total_txqs; i++) {
ds_put_format(&mapping, "%2d --> %2d\n", i, dev->tx_q[i].map);
}
VLOG_DBG("%s", ds_cstr(&mapping));
ds_destroy(&mapping);
}
free(enabled_queues);
}
/*
* A new virtio-net device is added to a vhost port.
*/
static int
new_device(int vid)
{
struct netdev_dpdk *dev;
bool exists = false;
int newnode = 0;
char ifname[IF_NAME_SZ];
rte_vhost_get_ifname(vid, ifname, sizeof ifname);
ovs_mutex_lock(&dpdk_mutex);
/* Add device to the vhost port with the same name as that passed down. */
LIST_FOR_EACH(dev, list_node, &dpdk_list) {
ovs_mutex_lock(&dev->mutex);
if (nullable_string_is_equal(ifname, dev->vhost_id)) {
uint32_t qp_num = rte_vhost_get_vring_num(vid) / VIRTIO_QNUM;
/* Get NUMA information */
newnode = rte_vhost_get_numa_node(vid);
if (newnode == -1) {
#ifdef VHOST_NUMA
VLOG_INFO("Error getting NUMA info for vHost Device '%s'",
ifname);
#endif
newnode = dev->socket_id;
}
if (dev->requested_n_txq < qp_num
|| dev->requested_n_rxq < qp_num
|| dev->requested_socket_id != newnode) {
dev->requested_socket_id = newnode;
dev->requested_n_rxq = qp_num;
dev->requested_n_txq = qp_num;
netdev_request_reconfigure(&dev->up);
} else {
/* Reconfiguration not required. */
dev->vhost_reconfigured = true;
}
ovsrcu_index_set(&dev->vid, vid);
exists = true;
/* Disable notifications. */
set_irq_status(vid);
netdev_change_seq_changed(&dev->up);
ovs_mutex_unlock(&dev->mutex);
break;
}
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
if (!exists) {
VLOG_INFO("vHost Device '%s' can't be added - name not found", ifname);
return -1;
}
VLOG_INFO("vHost Device '%s' has been added on numa node %i",
ifname, newnode);
return 0;
}
/* Clears mapping for all available queues of vhost interface. */
static void
netdev_dpdk_txq_map_clear(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
int i;
for (i = 0; i < dev->up.n_txq; i++) {
dev->tx_q[i].map = OVS_VHOST_QUEUE_MAP_UNKNOWN;
}
}
/*
* Remove a virtio-net device from the specific vhost port. Use dev->remove
* flag to stop any more packets from being sent or received to/from a VM and
* ensure all currently queued packets have been sent/received before removing
* the device.
*/
static void
destroy_device(int vid)
{
struct netdev_dpdk *dev;
bool exists = false;
char ifname[IF_NAME_SZ];
rte_vhost_get_ifname(vid, ifname, sizeof ifname);
ovs_mutex_lock(&dpdk_mutex);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
if (netdev_dpdk_get_vid(dev) == vid) {
ovs_mutex_lock(&dev->mutex);
dev->vhost_reconfigured = false;
ovsrcu_index_set(&dev->vid, -1);
memset(dev->vhost_rxq_enabled, 0,
dev->up.n_rxq * sizeof *dev->vhost_rxq_enabled);
netdev_dpdk_txq_map_clear(dev);
netdev_change_seq_changed(&dev->up);
ovs_mutex_unlock(&dev->mutex);
exists = true;
break;
}
}
ovs_mutex_unlock(&dpdk_mutex);
if (exists) {
/*
* Wait for other threads to quiesce after setting the 'virtio_dev'
* to NULL, before returning.
*/
ovsrcu_synchronize();
/*
* As call to ovsrcu_synchronize() will end the quiescent state,
* put thread back into quiescent state before returning.
*/
ovsrcu_quiesce_start();
VLOG_INFO("vHost Device '%s' has been removed", ifname);
} else {
VLOG_INFO("vHost Device '%s' not found", ifname);
}
}
static int
vring_state_changed(int vid, uint16_t queue_id, int enable)
{
struct netdev_dpdk *dev;
bool exists = false;
int qid = queue_id / VIRTIO_QNUM;
bool is_rx = (queue_id % VIRTIO_QNUM) == VIRTIO_TXQ;
char ifname[IF_NAME_SZ];
rte_vhost_get_ifname(vid, ifname, sizeof ifname);
ovs_mutex_lock(&dpdk_mutex);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
ovs_mutex_lock(&dev->mutex);
if (nullable_string_is_equal(ifname, dev->vhost_id)) {
if (is_rx) {
bool old_state = dev->vhost_rxq_enabled[qid];
dev->vhost_rxq_enabled[qid] = enable != 0;
if (old_state != dev->vhost_rxq_enabled[qid]) {
netdev_change_seq_changed(&dev->up);
}
} else {
if (enable) {
dev->tx_q[qid].map = qid;
} else {
dev->tx_q[qid].map = OVS_VHOST_QUEUE_DISABLED;
}
netdev_dpdk_remap_txqs(dev);
}
exists = true;
ovs_mutex_unlock(&dev->mutex);
break;
}
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
if (exists) {
VLOG_INFO("State of queue %d ( %s_qid %d ) of vhost device '%s' "
"changed to \'%s\'", queue_id, is_rx == true ? "rx" : "tx",
qid, ifname, (enable == 1) ? "enabled" : "disabled");
} else {
VLOG_INFO("vHost Device '%s' not found", ifname);
return -1;
}
return 0;
}
static void
destroy_connection(int vid)
{
struct netdev_dpdk *dev;
char ifname[IF_NAME_SZ];
bool exists = false;
rte_vhost_get_ifname(vid, ifname, sizeof ifname);
ovs_mutex_lock(&dpdk_mutex);
LIST_FOR_EACH (dev, list_node, &dpdk_list) {
ovs_mutex_lock(&dev->mutex);
if (nullable_string_is_equal(ifname, dev->vhost_id)) {
uint32_t qp_num = NR_QUEUE;
if (netdev_dpdk_get_vid(dev) >= 0) {
VLOG_ERR("Connection on socket '%s' destroyed while vhost "
"device still attached.", dev->vhost_id);
}
/* Restore the number of queue pairs to default. */
if (dev->requested_n_txq != qp_num
|| dev->requested_n_rxq != qp_num) {
dev->requested_n_rxq = qp_num;
dev->requested_n_txq = qp_num;
netdev_request_reconfigure(&dev->up);
}
ovs_mutex_unlock(&dev->mutex);
exists = true;
break;
}
ovs_mutex_unlock(&dev->mutex);
}
ovs_mutex_unlock(&dpdk_mutex);
if (exists) {
VLOG_INFO("vHost Device '%s' connection has been destroyed", ifname);
} else {
VLOG_INFO("vHost Device '%s' not found", ifname);
}
}
static
void vhost_guest_notified(int vid OVS_UNUSED)
{
COVERAGE_INC(vhost_notification);
}
/*
* Retrieve the DPDK virtio device ID (vid) associated with a vhostuser
* or vhostuserclient netdev.
*
* Returns a value greater or equal to zero for a valid vid or '-1' if
* there is no valid vid associated. A vid of '-1' must not be used in
* rte_vhost_ APi calls.
*
* Once obtained and validated, a vid can be used by a PMD for multiple
* subsequent rte_vhost API calls until the PMD quiesces. A PMD should
* not fetch the vid again for each of a series of API calls.
*/
int
netdev_dpdk_get_vid(const struct netdev_dpdk *dev)
{
return ovsrcu_index_get(&dev->vid);
}
struct ingress_policer *
netdev_dpdk_get_ingress_policer(const struct netdev_dpdk *dev)
{
return ovsrcu_get(struct ingress_policer *, &dev->ingress_policer);
}
static int
netdev_dpdk_class_init(void)
{
static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER;
/* This function can be called for different classes. The initialization
* needs to be done only once */
if (ovsthread_once_start(&once)) {
int ret;
ovs_thread_create("dpdk_watchdog", dpdk_watchdog, NULL);
unixctl_command_register("netdev-dpdk/set-admin-state",
"[netdev] up|down", 1, 2,
netdev_dpdk_set_admin_state, NULL);
unixctl_command_register("netdev-dpdk/detach",
"pci address of device", 1, 1,
netdev_dpdk_detach, NULL);
unixctl_command_register("netdev-dpdk/get-mempool-info",
"[netdev]", 0, 1,
netdev_dpdk_get_mempool_info, NULL);
ret = rte_eth_dev_callback_register(RTE_ETH_ALL,
RTE_ETH_EVENT_INTR_RESET,
dpdk_eth_event_callback, NULL);
if (ret != 0) {
VLOG_ERR("Ethernet device callback register error: %s",
rte_strerror(-ret));
}
ovsthread_once_done(&once);
}
return 0;
}
/* Client Rings */
static int
dpdk_ring_create(const char dev_name[], unsigned int port_no,
dpdk_port_t *eth_port_id)
{
struct dpdk_ring *ring_pair;
char *ring_name;
int port_id;
ring_pair = dpdk_rte_mzalloc(sizeof *ring_pair);
if (!ring_pair) {
return ENOMEM;
}
/* XXX: Add support for multiquque ring. */
ring_name = xasprintf("%s_tx", dev_name);
/* Create single producer tx ring, netdev does explicit locking. */
ring_pair->cring_tx = rte_ring_create(ring_name, DPDK_RING_SIZE, SOCKET0,
RING_F_SP_ENQ);
free(ring_name);
if (ring_pair->cring_tx == NULL) {
rte_free(ring_pair);
return ENOMEM;
}
ring_name = xasprintf("%s_rx", dev_name);
/* Create single consumer rx ring, netdev does explicit locking. */
ring_pair->cring_rx = rte_ring_create(ring_name, DPDK_RING_SIZE, SOCKET0,
RING_F_SC_DEQ);
free(ring_name);
if (ring_pair->cring_rx == NULL) {
rte_free(ring_pair);
return ENOMEM;
}
port_id = rte_eth_from_rings(dev_name, &ring_pair->cring_rx, 1,
&ring_pair->cring_tx, 1, SOCKET0);
if (port_id < 0) {
rte_free(ring_pair);
return ENODEV;
}
ring_pair->user_port_id = port_no;
ring_pair->eth_port_id = port_id;
*eth_port_id = port_id;
ovs_list_push_back(&dpdk_ring_list, &ring_pair->list_node);
return 0;
}
static int
dpdk_ring_open(const char dev_name[], dpdk_port_t *eth_port_id)
OVS_REQUIRES(dpdk_mutex)
{
struct dpdk_ring *ring_pair;
unsigned int port_no;
int err = 0;
/* Names always start with "dpdkr" */
err = dpdk_dev_parse_name(dev_name, "dpdkr", &port_no);
if (err) {
return err;
}
/* Look through our list to find the device */
LIST_FOR_EACH (ring_pair, list_node, &dpdk_ring_list) {
if (ring_pair->user_port_id == port_no) {
VLOG_INFO("Found dpdk ring device %s:", dev_name);
/* Really all that is needed */
*eth_port_id = ring_pair->eth_port_id;
return 0;
}
}
/* Need to create the device rings */
return dpdk_ring_create(dev_name, port_no, eth_port_id);
}
static int
netdev_dpdk_ring_send(struct netdev *netdev, int qid,
struct dp_packet_batch *batch, bool concurrent_txq)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct dp_packet *packet;
/* When using 'dpdkr' and sending to a DPDK ring, we want to ensure that
* the offload fields are clear. This is because the same mbuf may be
* modified by the consumer of the ring and return into the datapath
* without recalculating the RSS hash or revalidating the checksums. */
DP_PACKET_BATCH_FOR_EACH (i, packet, batch) {
dp_packet_reset_offload(packet);
}
netdev_dpdk_send__(dev, qid, batch, concurrent_txq);
return 0;
}
static int
netdev_dpdk_ring_construct(struct netdev *netdev)
{
dpdk_port_t port_no = 0;
int err = 0;
VLOG_WARN_ONCE("dpdkr a.k.a. ring ports are considered deprecated. "
"Please migrate to virtio-based interfaces, e.g. "
"dpdkvhostuserclient ports, net_virtio_user DPDK vdev.");
ovs_mutex_lock(&dpdk_mutex);
err = dpdk_ring_open(netdev->name, &port_no);
if (err) {
goto unlock_dpdk;
}
err = common_construct(netdev, port_no, DPDK_DEV_ETH,
rte_eth_dev_socket_id(port_no));
unlock_dpdk:
ovs_mutex_unlock(&dpdk_mutex);
return err;
}
/* QoS Functions */
/*
* Initialize QoS configuration operations.
*/
static void
qos_conf_init(struct qos_conf *conf, const struct dpdk_qos_ops *ops)
{
conf->ops = ops;
rte_spinlock_init(&conf->lock);
}
/*
* Search existing QoS operations in qos_ops and compare each set of
* operations qos_name to name. Return a dpdk_qos_ops pointer to a match,
* else return NULL
*/
static const struct dpdk_qos_ops *
qos_lookup_name(const char *name)
{
const struct dpdk_qos_ops *const *opsp;
for (opsp = qos_confs; *opsp != NULL; opsp++) {
const struct dpdk_qos_ops *ops = *opsp;
if (!strcmp(name, ops->qos_name)) {
return ops;
}
}
return NULL;
}
static int
netdev_dpdk_get_qos_types(const struct netdev *netdev OVS_UNUSED,
struct sset *types)
{
const struct dpdk_qos_ops *const *opsp;
for (opsp = qos_confs; *opsp != NULL; opsp++) {
const struct dpdk_qos_ops *ops = *opsp;
if (ops->qos_construct && ops->qos_name[0] != '\0') {
sset_add(types, ops->qos_name);
}
}
return 0;
}
static int
netdev_dpdk_get_qos(const struct netdev *netdev,
const char **typep, struct smap *details)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct qos_conf *qos_conf;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (qos_conf) {
*typep = qos_conf->ops->qos_name;
error = (qos_conf->ops->qos_get
? qos_conf->ops->qos_get(qos_conf, details): 0);
} else {
/* No QoS configuration set, return an empty string */
*typep = "";
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_set_qos(struct netdev *netdev, const char *type,
const struct smap *details)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
const struct dpdk_qos_ops *new_ops = NULL;
struct qos_conf *qos_conf, *new_qos_conf = NULL;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
new_ops = qos_lookup_name(type);
if (!new_ops || !new_ops->qos_construct) {
new_qos_conf = NULL;
if (type && type[0]) {
error = EOPNOTSUPP;
}
} else if (qos_conf && qos_conf->ops == new_ops
&& qos_conf->ops->qos_is_equal(qos_conf, details)) {
new_qos_conf = qos_conf;
} else {
error = new_ops->qos_construct(details, &new_qos_conf);
}
if (error) {
VLOG_ERR("Failed to set QoS type %s on port %s: %s",
type, netdev->name, rte_strerror(error));
}
if (new_qos_conf != qos_conf) {
ovsrcu_set(&dev->qos_conf, new_qos_conf);
if (qos_conf) {
ovsrcu_postpone(qos_conf->ops->qos_destruct, qos_conf);
}
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_get_queue(const struct netdev *netdev, uint32_t queue_id,
struct smap *details)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct qos_conf *qos_conf;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (!qos_conf || !qos_conf->ops || !qos_conf->ops->qos_queue_get) {
error = EOPNOTSUPP;
} else {
error = qos_conf->ops->qos_queue_get(details, queue_id, qos_conf);
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_set_queue(struct netdev *netdev, uint32_t queue_id,
const struct smap *details)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct qos_conf *qos_conf;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (!qos_conf || !qos_conf->ops || !qos_conf->ops->qos_queue_construct) {
error = EOPNOTSUPP;
} else {
error = qos_conf->ops->qos_queue_construct(details, queue_id,
qos_conf);
}
if (error && error != EOPNOTSUPP) {
VLOG_ERR("Failed to set QoS queue %d on port %s: %s",
queue_id, netdev_get_name(netdev), rte_strerror(error));
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_delete_queue(struct netdev *netdev, uint32_t queue_id)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct qos_conf *qos_conf;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (qos_conf && qos_conf->ops && qos_conf->ops->qos_queue_destruct) {
qos_conf->ops->qos_queue_destruct(qos_conf, queue_id);
} else {
error = EOPNOTSUPP;
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_get_queue_stats(const struct netdev *netdev, uint32_t queue_id,
struct netdev_queue_stats *stats)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct qos_conf *qos_conf;
int error = 0;
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (qos_conf && qos_conf->ops && qos_conf->ops->qos_queue_get_stats) {
qos_conf->ops->qos_queue_get_stats(qos_conf, queue_id, stats);
} else {
error = EOPNOTSUPP;
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_queue_dump_start(const struct netdev *netdev, void **statep)
{
int error = 0;
struct qos_conf *qos_conf;
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (qos_conf && qos_conf->ops
&& qos_conf->ops->qos_queue_dump_state_init) {
struct netdev_dpdk_queue_state *state;
*statep = state = xmalloc(sizeof *state);
error = qos_conf->ops->qos_queue_dump_state_init(qos_conf, state);
} else {
error = EOPNOTSUPP;
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_queue_dump_next(const struct netdev *netdev, void *state_,
uint32_t *queue_idp, struct smap *details)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
struct netdev_dpdk_queue_state *state = state_;
struct qos_conf *qos_conf;
int error = EOF;
ovs_mutex_lock(&dev->mutex);
while (state->cur_queue < state->n_queues) {
uint32_t queue_id = state->queues[state->cur_queue++];
qos_conf = ovsrcu_get_protected(struct qos_conf *, &dev->qos_conf);
if (qos_conf && qos_conf->ops && qos_conf->ops->qos_queue_get) {
*queue_idp = queue_id;
error = qos_conf->ops->qos_queue_get(details, queue_id, qos_conf);
break;
}
}
ovs_mutex_unlock(&dev->mutex);
return error;
}
static int
netdev_dpdk_queue_dump_done(const struct netdev *netdev OVS_UNUSED,
void *state_)
{
struct netdev_dpdk_queue_state *state = state_;
free(state->queues);
free(state);
return 0;
}
/* egress-policer details */
struct egress_policer {
struct qos_conf qos_conf;
struct rte_meter_srtcm_params app_srtcm_params;
struct rte_meter_srtcm egress_meter;
struct rte_meter_srtcm_profile egress_prof;
};
static void
egress_policer_details_to_param(const struct smap *details,
struct rte_meter_srtcm_params *params)
{
memset(params, 0, sizeof *params);
params->cir = smap_get_ullong(details, "cir", 0);
params->cbs = smap_get_ullong(details, "cbs", 0);
params->ebs = 0;
}
static int
egress_policer_qos_construct(const struct smap *details,
struct qos_conf **conf)
{
struct egress_policer *policer;
int err = 0;
policer = xmalloc(sizeof *policer);
qos_conf_init(&policer->qos_conf, &egress_policer_ops);
egress_policer_details_to_param(details, &policer->app_srtcm_params);
err = rte_meter_srtcm_profile_config(&policer->egress_prof,
&policer->app_srtcm_params);
if (!err) {
err = rte_meter_srtcm_config(&policer->egress_meter,
&policer->egress_prof);
}
if (!err) {
*conf = &policer->qos_conf;
} else {
VLOG_ERR("Could not create rte meter for egress policer");
free(policer);
*conf = NULL;
err = -err;
}
return err;
}
static void
egress_policer_qos_destruct(struct qos_conf *conf)
{
struct egress_policer *policer = CONTAINER_OF(conf, struct egress_policer,
qos_conf);
free(policer);
}
static int
egress_policer_qos_get(const struct qos_conf *conf, struct smap *details)
{
struct egress_policer *policer =
CONTAINER_OF(conf, struct egress_policer, qos_conf);
smap_add_format(details, "cir", "%"PRIu64, policer->app_srtcm_params.cir);
smap_add_format(details, "cbs", "%"PRIu64, policer->app_srtcm_params.cbs);
return 0;
}
static bool
egress_policer_qos_is_equal(const struct qos_conf *conf,
const struct smap *details)
{
struct egress_policer *policer =
CONTAINER_OF(conf, struct egress_policer, qos_conf);
struct rte_meter_srtcm_params params;
egress_policer_details_to_param(details, ¶ms);
return !memcmp(¶ms, &policer->app_srtcm_params, sizeof params);
}
static int
egress_policer_run(struct qos_conf *conf, struct rte_mbuf **pkts, int pkt_cnt,
bool should_steal)
{
int cnt = 0;
struct egress_policer *policer =
CONTAINER_OF(conf, struct egress_policer, qos_conf);
cnt = srtcm_policer_run_single_packet(&policer->egress_meter,
&policer->egress_prof, pkts,
pkt_cnt, should_steal);
return cnt;
}
static const struct dpdk_qos_ops egress_policer_ops = {
.qos_name = "egress-policer", /* qos_name */
.qos_construct = egress_policer_qos_construct,
.qos_destruct = egress_policer_qos_destruct,
.qos_get = egress_policer_qos_get,
.qos_is_equal = egress_policer_qos_is_equal,
.qos_run = egress_policer_run
};
/* trtcm-policer details */
struct trtcm_policer {
struct qos_conf qos_conf;
struct rte_meter_trtcm_rfc4115_params meter_params;
struct rte_meter_trtcm_rfc4115_profile meter_profile;
struct rte_meter_trtcm_rfc4115 meter;
struct netdev_queue_stats stats;
struct hmap queues;
};
struct trtcm_policer_queue {
struct hmap_node hmap_node;
uint32_t queue_id;
struct rte_meter_trtcm_rfc4115_params meter_params;
struct rte_meter_trtcm_rfc4115_profile meter_profile;
struct rte_meter_trtcm_rfc4115 meter;
struct netdev_queue_stats stats;
};
static void
trtcm_policer_details_to_param(const struct smap *details,
struct rte_meter_trtcm_rfc4115_params *params)
{
memset(params, 0, sizeof *params);
params->cir = smap_get_ullong(details, "cir", 0);
params->eir = smap_get_ullong(details, "eir", 0);
params->cbs = smap_get_ullong(details, "cbs", 0);
params->ebs = smap_get_ullong(details, "ebs", 0);
}
static void
trtcm_policer_param_to_detail(
const struct rte_meter_trtcm_rfc4115_params *params,
struct smap *details)
{
smap_add_format(details, "cir", "%"PRIu64, params->cir);
smap_add_format(details, "eir", "%"PRIu64, params->eir);
smap_add_format(details, "cbs", "%"PRIu64, params->cbs);
smap_add_format(details, "ebs", "%"PRIu64, params->ebs);
}
static int
trtcm_policer_qos_construct(const struct smap *details,
struct qos_conf **conf)
{
struct trtcm_policer *policer;
int err = 0;
policer = xmalloc(sizeof *policer);
qos_conf_init(&policer->qos_conf, &trtcm_policer_ops);
trtcm_policer_details_to_param(details, &policer->meter_params);
err = rte_meter_trtcm_rfc4115_profile_config(&policer->meter_profile,
&policer->meter_params);
if (!err) {
err = rte_meter_trtcm_rfc4115_config(&policer->meter,
&policer->meter_profile);
}
if (!err) {
*conf = &policer->qos_conf;
memset(&policer->stats, 0, sizeof policer->stats);
hmap_init(&policer->queues);
} else {
free(policer);
*conf = NULL;
err = -err;
}
return err;
}
static void
trtcm_policer_qos_destruct(struct qos_conf *conf)
{
struct trtcm_policer_queue *queue, *next_queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
HMAP_FOR_EACH_SAFE (queue, next_queue, hmap_node, &policer->queues) {
hmap_remove(&policer->queues, &queue->hmap_node);
free(queue);
}
hmap_destroy(&policer->queues);
free(policer);
}
static int
trtcm_policer_qos_get(const struct qos_conf *conf, struct smap *details)
{
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
trtcm_policer_param_to_detail(&policer->meter_params, details);
return 0;
}
static bool
trtcm_policer_qos_is_equal(const struct qos_conf *conf,
const struct smap *details)
{
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
struct rte_meter_trtcm_rfc4115_params params;
trtcm_policer_details_to_param(details, ¶ms);
return !memcmp(¶ms, &policer->meter_params, sizeof params);
}
static struct trtcm_policer_queue *
trtcm_policer_qos_find_queue(struct trtcm_policer *policer, uint32_t queue_id)
{
struct trtcm_policer_queue *queue;
HMAP_FOR_EACH_WITH_HASH (queue, hmap_node, hash_2words(queue_id, 0),
&policer->queues) {
if (queue->queue_id == queue_id) {
return queue;
}
}
return NULL;
}
static inline bool
trtcm_policer_run_single_packet(struct trtcm_policer *policer,
struct rte_mbuf *pkt, uint64_t time)
{
enum rte_color pkt_color;
struct trtcm_policer_queue *queue;
uint32_t pkt_len = rte_pktmbuf_pkt_len(pkt) - sizeof(struct rte_ether_hdr);
struct dp_packet *dpkt = CONTAINER_OF(pkt, struct dp_packet, mbuf);
queue = trtcm_policer_qos_find_queue(policer, dpkt->md.skb_priority);
if (!queue) {
/* If no queue is found, use the default queue, which MUST exist. */
queue = trtcm_policer_qos_find_queue(policer, 0);
if (!queue) {
return false;
}
}
pkt_color = rte_meter_trtcm_rfc4115_color_blind_check(&queue->meter,
&queue->meter_profile,
time,
pkt_len);
if (pkt_color == RTE_COLOR_RED) {
queue->stats.tx_errors++;
} else {
queue->stats.tx_bytes += pkt_len;
queue->stats.tx_packets++;
}
pkt_color = rte_meter_trtcm_rfc4115_color_aware_check(&policer->meter,
&policer->meter_profile,
time, pkt_len,
pkt_color);
if (pkt_color == RTE_COLOR_RED) {
policer->stats.tx_errors++;
return false;
}
policer->stats.tx_bytes += pkt_len;
policer->stats.tx_packets++;
return true;
}
static int
trtcm_policer_run(struct qos_conf *conf, struct rte_mbuf **pkts, int pkt_cnt,
bool should_steal)
{
int i = 0;
int cnt = 0;
struct rte_mbuf *pkt = NULL;
uint64_t current_time = rte_rdtsc();
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
for (i = 0; i < pkt_cnt; i++) {
pkt = pkts[i];
if (trtcm_policer_run_single_packet(policer, pkt, current_time)) {
if (cnt != i) {
pkts[cnt] = pkt;
}
cnt++;
} else {
if (should_steal) {
rte_pktmbuf_free(pkt);
}
}
}
return cnt;
}
static int
trtcm_policer_qos_queue_construct(const struct smap *details,
uint32_t queue_id, struct qos_conf *conf)
{
int err = 0;
struct trtcm_policer_queue *queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
queue = trtcm_policer_qos_find_queue(policer, queue_id);
if (!queue) {
queue = xmalloc(sizeof *queue);
queue->queue_id = queue_id;
memset(&queue->stats, 0, sizeof queue->stats);
queue->stats.created = time_msec();
hmap_insert(&policer->queues, &queue->hmap_node,
hash_2words(queue_id, 0));
}
if (queue_id == 0 && smap_is_empty(details)) {
/* No default queue configured, use port values */
memcpy(&queue->meter_params, &policer->meter_params,
sizeof queue->meter_params);
} else {
trtcm_policer_details_to_param(details, &queue->meter_params);
}
err = rte_meter_trtcm_rfc4115_profile_config(&queue->meter_profile,
&queue->meter_params);
if (!err) {
err = rte_meter_trtcm_rfc4115_config(&queue->meter,
&queue->meter_profile);
}
if (err) {
hmap_remove(&policer->queues, &queue->hmap_node);
free(queue);
err = -err;
}
return err;
}
static void
trtcm_policer_qos_queue_destruct(struct qos_conf *conf, uint32_t queue_id)
{
struct trtcm_policer_queue *queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
queue = trtcm_policer_qos_find_queue(policer, queue_id);
if (queue) {
hmap_remove(&policer->queues, &queue->hmap_node);
free(queue);
}
}
static int
trtcm_policer_qos_queue_get(struct smap *details, uint32_t queue_id,
const struct qos_conf *conf)
{
struct trtcm_policer_queue *queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
queue = trtcm_policer_qos_find_queue(policer, queue_id);
if (!queue) {
return EINVAL;
}
trtcm_policer_param_to_detail(&queue->meter_params, details);
return 0;
}
static int
trtcm_policer_qos_queue_get_stats(const struct qos_conf *conf,
uint32_t queue_id,
struct netdev_queue_stats *stats)
{
struct trtcm_policer_queue *queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
queue = trtcm_policer_qos_find_queue(policer, queue_id);
if (!queue) {
return EINVAL;
}
memcpy(stats, &queue->stats, sizeof *stats);
return 0;
}
static int
trtcm_policer_qos_queue_dump_state_init(const struct qos_conf *conf,
struct netdev_dpdk_queue_state *state)
{
uint32_t i = 0;
struct trtcm_policer_queue *queue;
struct trtcm_policer *policer = CONTAINER_OF(conf, struct trtcm_policer,
qos_conf);
state->n_queues = hmap_count(&policer->queues);
state->cur_queue = 0;
state->queues = xmalloc(state->n_queues * sizeof *state->queues);
HMAP_FOR_EACH (queue, hmap_node, &policer->queues) {
state->queues[i++] = queue->queue_id;
}
return 0;
}
static const struct dpdk_qos_ops trtcm_policer_ops = {
.qos_name = "trtcm-policer",
.qos_construct = trtcm_policer_qos_construct,
.qos_destruct = trtcm_policer_qos_destruct,
.qos_get = trtcm_policer_qos_get,
.qos_is_equal = trtcm_policer_qos_is_equal,
.qos_run = trtcm_policer_run,
.qos_queue_construct = trtcm_policer_qos_queue_construct,
.qos_queue_destruct = trtcm_policer_qos_queue_destruct,
.qos_queue_get = trtcm_policer_qos_queue_get,
.qos_queue_get_stats = trtcm_policer_qos_queue_get_stats,
.qos_queue_dump_state_init = trtcm_policer_qos_queue_dump_state_init
};
static int
netdev_dpdk_reconfigure(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int err = 0;
ovs_mutex_lock(&dev->mutex);
if (netdev->n_txq == dev->requested_n_txq
&& netdev->n_rxq == dev->requested_n_rxq
&& dev->mtu == dev->requested_mtu
&& dev->lsc_interrupt_mode == dev->requested_lsc_interrupt_mode
&& dev->rxq_size == dev->requested_rxq_size
&& dev->txq_size == dev->requested_txq_size
&& dev->socket_id == dev->requested_socket_id
&& dev->started && !dev->reset_needed) {
/* Reconfiguration is unnecessary */
goto out;
}
if (dev->reset_needed) {
rte_eth_dev_reset(dev->port_id);
if_notifier_manual_report();
dev->reset_needed = false;
} else {
rte_eth_dev_stop(dev->port_id);
}
dev->started = false;
err = netdev_dpdk_mempool_configure(dev);
if (err && err != EEXIST) {
goto out;
}
dev->lsc_interrupt_mode = dev->requested_lsc_interrupt_mode;
netdev->n_txq = dev->requested_n_txq;
netdev->n_rxq = dev->requested_n_rxq;
dev->rxq_size = dev->requested_rxq_size;
dev->txq_size = dev->requested_txq_size;
rte_free(dev->tx_q);
err = dpdk_eth_dev_init(dev);
dev->tx_q = netdev_dpdk_alloc_txq(netdev->n_txq);
if (!dev->tx_q) {
err = ENOMEM;
}
netdev_change_seq_changed(netdev);
out:
ovs_mutex_unlock(&dev->mutex);
return err;
}
static int
dpdk_vhost_reconfigure_helper(struct netdev_dpdk *dev)
OVS_REQUIRES(dev->mutex)
{
dev->up.n_txq = dev->requested_n_txq;
dev->up.n_rxq = dev->requested_n_rxq;
int err;
/* Always keep RX queue 0 enabled for implementations that won't
* report vring states. */
dev->vhost_rxq_enabled[0] = true;
/* Enable TX queue 0 by default if it wasn't disabled. */
if (dev->tx_q[0].map == OVS_VHOST_QUEUE_MAP_UNKNOWN) {
dev->tx_q[0].map = 0;
}
netdev_dpdk_remap_txqs(dev);
err = netdev_dpdk_mempool_configure(dev);
if (!err) {
/* A new mempool was created or re-used. */
netdev_change_seq_changed(&dev->up);
} else if (err != EEXIST) {
return err;
}
if (netdev_dpdk_get_vid(dev) >= 0) {
if (dev->vhost_reconfigured == false) {
dev->vhost_reconfigured = true;
/* Carrier status may need updating. */
netdev_change_seq_changed(&dev->up);
}
}
return 0;
}
static int
netdev_dpdk_vhost_reconfigure(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int err;
ovs_mutex_lock(&dev->mutex);
err = dpdk_vhost_reconfigure_helper(dev);
ovs_mutex_unlock(&dev->mutex);
return err;
}
static int
netdev_dpdk_vhost_client_reconfigure(struct netdev *netdev)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int err;
uint64_t vhost_flags = 0;
bool zc_enabled;
ovs_mutex_lock(&dev->mutex);
/* Configure vHost client mode if requested and if the following criteria
* are met:
* 1. Device hasn't been registered yet.
* 2. A path has been specified.
*/
if (!(dev->vhost_driver_flags & RTE_VHOST_USER_CLIENT) && dev->vhost_id) {
/* Register client-mode device. */
vhost_flags |= RTE_VHOST_USER_CLIENT;
/* There is no support for multi-segments buffers. */
vhost_flags |= RTE_VHOST_USER_LINEARBUF_SUPPORT;
/* Enable IOMMU support, if explicitly requested. */
if (dpdk_vhost_iommu_enabled()) {
vhost_flags |= RTE_VHOST_USER_IOMMU_SUPPORT;
}
/* Enable POSTCOPY support, if explicitly requested. */
if (dpdk_vhost_postcopy_enabled()) {
vhost_flags |= RTE_VHOST_USER_POSTCOPY_SUPPORT;
}
zc_enabled = dev->vhost_driver_flags
& RTE_VHOST_USER_DEQUEUE_ZERO_COPY;
/* Enable zero copy flag, if requested */
if (zc_enabled) {
vhost_flags |= RTE_VHOST_USER_DEQUEUE_ZERO_COPY;
}
err = rte_vhost_driver_register(dev->vhost_id, vhost_flags);
if (err) {
VLOG_ERR("vhost-user device setup failure for device %s\n",
dev->vhost_id);
goto unlock;
} else {
/* Configuration successful */
dev->vhost_driver_flags |= vhost_flags;
VLOG_INFO("vHost User device '%s' created in 'client' mode, "
"using client socket '%s'",
dev->up.name, dev->vhost_id);
if (zc_enabled) {
VLOG_INFO("Zero copy enabled for vHost port %s", dev->up.name);
}
}
err = rte_vhost_driver_callback_register(dev->vhost_id,
&virtio_net_device_ops);
if (err) {
VLOG_ERR("rte_vhost_driver_callback_register failed for "
"vhost user client port: %s\n", dev->up.name);
goto unlock;
}
err = rte_vhost_driver_disable_features(dev->vhost_id,
1ULL << VIRTIO_NET_F_HOST_TSO4
| 1ULL << VIRTIO_NET_F_HOST_TSO6
| 1ULL << VIRTIO_NET_F_CSUM);
if (err) {
VLOG_ERR("rte_vhost_driver_disable_features failed for vhost user "
"client port: %s\n", dev->up.name);
goto unlock;
}
err = rte_vhost_driver_start(dev->vhost_id);
if (err) {
VLOG_ERR("rte_vhost_driver_start failed for vhost user "
"client port: %s\n", dev->up.name);
goto unlock;
}
}
err = dpdk_vhost_reconfigure_helper(dev);
unlock:
ovs_mutex_unlock(&dev->mutex);
return err;
}
int
netdev_dpdk_get_port_id(struct netdev *netdev)
{
struct netdev_dpdk *dev;
int ret = -1;
if (!is_dpdk_class(netdev->netdev_class)) {
goto out;
}
dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
ret = dev->port_id;
ovs_mutex_unlock(&dev->mutex);
out:
return ret;
}
bool
netdev_dpdk_flow_api_supported(struct netdev *netdev)
{
struct netdev_dpdk *dev;
bool ret = false;
if (!is_dpdk_class(netdev->netdev_class)) {
goto out;
}
dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
if (dev->type == DPDK_DEV_ETH) {
/* TODO: Check if we able to offload some minimal flow. */
ret = true;
}
ovs_mutex_unlock(&dev->mutex);
out:
return ret;
}
int
netdev_dpdk_rte_flow_destroy(struct netdev *netdev,
struct rte_flow *rte_flow,
struct rte_flow_error *error)
{
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
int ret;
ovs_mutex_lock(&dev->mutex);
ret = rte_flow_destroy(dev->port_id, rte_flow, error);
ovs_mutex_unlock(&dev->mutex);
return ret;
}
struct rte_flow *
netdev_dpdk_rte_flow_create(struct netdev *netdev,
const struct rte_flow_attr *attr,
const struct rte_flow_item *items,
const struct rte_flow_action *actions,
struct rte_flow_error *error)
{
struct rte_flow *flow;
struct netdev_dpdk *dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
flow = rte_flow_create(dev->port_id, attr, items, actions, error);
ovs_mutex_unlock(&dev->mutex);
return flow;
}
int
netdev_dpdk_rte_flow_query_count(struct netdev *netdev,
struct rte_flow *rte_flow,
struct rte_flow_query_count *query,
struct rte_flow_error *error)
{
struct rte_flow_action_count count = { .shared = 0, .id = 0 };
const struct rte_flow_action actions[] = {
{
.type = RTE_FLOW_ACTION_TYPE_COUNT,
.conf = &count,
},
{
.type = RTE_FLOW_ACTION_TYPE_END,
},
};
struct netdev_dpdk *dev;
int ret;
if (!is_dpdk_class(netdev->netdev_class)) {
return -1;
}
dev = netdev_dpdk_cast(netdev);
ovs_mutex_lock(&dev->mutex);
ret = rte_flow_query(dev->port_id, rte_flow, actions, query, error);
ovs_mutex_unlock(&dev->mutex);
return ret;
}
#define NETDEV_DPDK_CLASS_COMMON \
.is_pmd = true, \
.alloc = netdev_dpdk_alloc, \
.dealloc = netdev_dpdk_dealloc, \
.get_config = netdev_dpdk_get_config, \
.get_numa_id = netdev_dpdk_get_numa_id, \
.set_etheraddr = netdev_dpdk_set_etheraddr, \
.get_etheraddr = netdev_dpdk_get_etheraddr, \
.get_mtu = netdev_dpdk_get_mtu, \
.set_mtu = netdev_dpdk_set_mtu, \
.get_ifindex = netdev_dpdk_get_ifindex, \
.get_carrier_resets = netdev_dpdk_get_carrier_resets, \
.set_miimon_interval = netdev_dpdk_set_miimon, \
.set_policing = netdev_dpdk_set_policing, \
.get_qos_types = netdev_dpdk_get_qos_types, \
.get_qos = netdev_dpdk_get_qos, \
.set_qos = netdev_dpdk_set_qos, \
.get_queue = netdev_dpdk_get_queue, \
.set_queue = netdev_dpdk_set_queue, \
.delete_queue = netdev_dpdk_delete_queue, \
.get_queue_stats = netdev_dpdk_get_queue_stats, \
.queue_dump_start = netdev_dpdk_queue_dump_start, \
.queue_dump_next = netdev_dpdk_queue_dump_next, \
.queue_dump_done = netdev_dpdk_queue_dump_done, \
.update_flags = netdev_dpdk_update_flags, \
.rxq_alloc = netdev_dpdk_rxq_alloc, \
.rxq_construct = netdev_dpdk_rxq_construct, \
.rxq_destruct = netdev_dpdk_rxq_destruct, \
.rxq_dealloc = netdev_dpdk_rxq_dealloc
#define NETDEV_DPDK_CLASS_BASE \
NETDEV_DPDK_CLASS_COMMON, \
.init = netdev_dpdk_class_init, \
.destruct = netdev_dpdk_destruct, \
.set_tx_multiq = netdev_dpdk_set_tx_multiq, \
.get_carrier = netdev_dpdk_get_carrier, \
.get_stats = netdev_dpdk_get_stats, \
.get_custom_stats = netdev_dpdk_get_custom_stats, \
.get_features = netdev_dpdk_get_features, \
.get_status = netdev_dpdk_get_status, \
.reconfigure = netdev_dpdk_reconfigure, \
.rxq_recv = netdev_dpdk_rxq_recv
static const struct netdev_class dpdk_class = {
.type = "dpdk",
NETDEV_DPDK_CLASS_BASE,
.construct = netdev_dpdk_construct,
.set_config = netdev_dpdk_set_config,
.send = netdev_dpdk_eth_send,
};
static const struct netdev_class dpdk_ring_class = {
.type = "dpdkr",
NETDEV_DPDK_CLASS_BASE,
.construct = netdev_dpdk_ring_construct,
.set_config = netdev_dpdk_ring_set_config,
.send = netdev_dpdk_ring_send,
};
static const struct netdev_class dpdk_vhost_class = {
.type = "dpdkvhostuser",
NETDEV_DPDK_CLASS_COMMON,
.construct = netdev_dpdk_vhost_construct,
.destruct = netdev_dpdk_vhost_destruct,
.send = netdev_dpdk_vhost_send,
.get_carrier = netdev_dpdk_vhost_get_carrier,
.get_stats = netdev_dpdk_vhost_get_stats,
.get_custom_stats = netdev_dpdk_get_sw_custom_stats,
.get_status = netdev_dpdk_vhost_user_get_status,
.reconfigure = netdev_dpdk_vhost_reconfigure,
.rxq_recv = netdev_dpdk_vhost_rxq_recv,
.rxq_enabled = netdev_dpdk_vhost_rxq_enabled,
};
static const struct netdev_class dpdk_vhost_client_class = {
.type = "dpdkvhostuserclient",
NETDEV_DPDK_CLASS_COMMON,
.construct = netdev_dpdk_vhost_client_construct,
.destruct = netdev_dpdk_vhost_destruct,
.set_config = netdev_dpdk_vhost_client_set_config,
.send = netdev_dpdk_vhost_send,
.get_carrier = netdev_dpdk_vhost_get_carrier,
.get_stats = netdev_dpdk_vhost_get_stats,
.get_custom_stats = netdev_dpdk_get_sw_custom_stats,
.get_status = netdev_dpdk_vhost_user_get_status,
.reconfigure = netdev_dpdk_vhost_client_reconfigure,
.rxq_recv = netdev_dpdk_vhost_rxq_recv,
.rxq_enabled = netdev_dpdk_vhost_rxq_enabled,
};
void
netdev_dpdk_register(void)
{
netdev_register_provider(&dpdk_class);
netdev_register_provider(&dpdk_ring_class);
netdev_register_provider(&dpdk_vhost_class);
netdev_register_provider(&dpdk_vhost_client_class);
}
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