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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright 2017 6WIND S.A.
* Copyright 2017 Mellanox Technologies, Ltd
*/
#include <errno.h>
#include <string.h>
#include <unistd.h>
#include <sys/queue.h>
#include <sys/resource.h>
#include <rte_byteorder.h>
#include <rte_jhash.h>
#include <rte_malloc.h>
#include <rte_eth_tap.h>
#include <tap_flow.h>
#include <tap_autoconf.h>
#include <tap_tcmsgs.h>
#include <tap_rss.h>
#ifndef HAVE_TC_FLOWER
/*
* For kernels < 4.2, this enum is not defined. Runtime checks will be made to
* avoid sending TC messages the kernel cannot understand.
*/
enum {
TCA_FLOWER_UNSPEC,
TCA_FLOWER_CLASSID,
TCA_FLOWER_INDEV,
TCA_FLOWER_ACT,
TCA_FLOWER_KEY_ETH_DST, /* ETH_ALEN */
TCA_FLOWER_KEY_ETH_DST_MASK, /* ETH_ALEN */
TCA_FLOWER_KEY_ETH_SRC, /* ETH_ALEN */
TCA_FLOWER_KEY_ETH_SRC_MASK, /* ETH_ALEN */
TCA_FLOWER_KEY_ETH_TYPE, /* be16 */
TCA_FLOWER_KEY_IP_PROTO, /* u8 */
TCA_FLOWER_KEY_IPV4_SRC, /* be32 */
TCA_FLOWER_KEY_IPV4_SRC_MASK, /* be32 */
TCA_FLOWER_KEY_IPV4_DST, /* be32 */
TCA_FLOWER_KEY_IPV4_DST_MASK, /* be32 */
TCA_FLOWER_KEY_IPV6_SRC, /* struct in6_addr */
TCA_FLOWER_KEY_IPV6_SRC_MASK, /* struct in6_addr */
TCA_FLOWER_KEY_IPV6_DST, /* struct in6_addr */
TCA_FLOWER_KEY_IPV6_DST_MASK, /* struct in6_addr */
TCA_FLOWER_KEY_TCP_SRC, /* be16 */
TCA_FLOWER_KEY_TCP_DST, /* be16 */
TCA_FLOWER_KEY_UDP_SRC, /* be16 */
TCA_FLOWER_KEY_UDP_DST, /* be16 */
};
#endif
#ifndef HAVE_TC_VLAN_ID
enum {
/* TCA_FLOWER_FLAGS, */
TCA_FLOWER_KEY_VLAN_ID = TCA_FLOWER_KEY_UDP_DST + 2, /* be16 */
TCA_FLOWER_KEY_VLAN_PRIO, /* u8 */
TCA_FLOWER_KEY_VLAN_ETH_TYPE, /* be16 */
};
#endif
/*
* For kernels < 4.2 BPF related enums may not be defined.
* Runtime checks will be carried out to gracefully report on TC messages that
* are rejected by the kernel. Rejection reasons may be due to:
* 1. enum is not defined
* 2. enum is defined but kernel is not configured to support BPF system calls,
* BPF classifications or BPF actions.
*/
#ifndef HAVE_TC_BPF
enum {
TCA_BPF_UNSPEC,
TCA_BPF_ACT,
TCA_BPF_POLICE,
TCA_BPF_CLASSID,
TCA_BPF_OPS_LEN,
TCA_BPF_OPS,
};
#endif
#ifndef HAVE_TC_BPF_FD
enum {
TCA_BPF_FD = TCA_BPF_OPS + 1,
TCA_BPF_NAME,
};
#endif
#ifndef HAVE_TC_ACT_BPF
#define tc_gen \
__u32 index; \
__u32 capab; \
int action; \
int refcnt; \
int bindcnt
struct tc_act_bpf {
tc_gen;
};
enum {
TCA_ACT_BPF_UNSPEC,
TCA_ACT_BPF_TM,
TCA_ACT_BPF_PARMS,
TCA_ACT_BPF_OPS_LEN,
TCA_ACT_BPF_OPS,
};
#endif
#ifndef HAVE_TC_ACT_BPF_FD
enum {
TCA_ACT_BPF_FD = TCA_ACT_BPF_OPS + 1,
TCA_ACT_BPF_NAME,
};
#endif
/* RSS key management */
enum bpf_rss_key_e {
KEY_CMD_GET = 1,
KEY_CMD_RELEASE,
KEY_CMD_INIT,
KEY_CMD_DEINIT,
};
enum key_status_e {
KEY_STAT_UNSPEC,
KEY_STAT_USED,
KEY_STAT_AVAILABLE,
};
#define ISOLATE_HANDLE 1
#define REMOTE_PROMISCUOUS_HANDLE 2
struct rte_flow {
LIST_ENTRY(rte_flow) next; /* Pointer to the next rte_flow structure */
struct rte_flow *remote_flow; /* associated remote flow */
int bpf_fd[SEC_MAX]; /* list of bfs fds per ELF section */
uint32_t key_idx; /* RSS rule key index into BPF map */
struct nlmsg msg;
};
struct convert_data {
uint16_t eth_type;
uint16_t ip_proto;
uint8_t vlan;
struct rte_flow *flow;
};
struct remote_rule {
struct rte_flow_attr attr;
struct rte_flow_item items[2];
struct rte_flow_action actions[2];
int mirred;
};
struct action_data {
char id[16];
union {
struct tc_gact gact;
struct tc_mirred mirred;
struct skbedit {
struct tc_skbedit skbedit;
uint16_t queue;
} skbedit;
struct bpf {
struct tc_act_bpf bpf;
int bpf_fd;
const char *annotation;
} bpf;
};
};
static int tap_flow_create_eth(const struct rte_flow_item *item, void *data);
static int tap_flow_create_vlan(const struct rte_flow_item *item, void *data);
static int tap_flow_create_ipv4(const struct rte_flow_item *item, void *data);
static int tap_flow_create_ipv6(const struct rte_flow_item *item, void *data);
static int tap_flow_create_udp(const struct rte_flow_item *item, void *data);
static int tap_flow_create_tcp(const struct rte_flow_item *item, void *data);
static int
tap_flow_validate(struct rte_eth_dev *dev,
const struct rte_flow_attr *attr,
const struct rte_flow_item items[],
const struct rte_flow_action actions[],
struct rte_flow_error *error);
static struct rte_flow *
tap_flow_create(struct rte_eth_dev *dev,
const struct rte_flow_attr *attr,
const struct rte_flow_item items[],
const struct rte_flow_action actions[],
struct rte_flow_error *error);
static void
tap_flow_free(struct pmd_internals *pmd,
struct rte_flow *flow);
static int
tap_flow_destroy(struct rte_eth_dev *dev,
struct rte_flow *flow,
struct rte_flow_error *error);
static int
tap_flow_isolate(struct rte_eth_dev *dev,
int set,
struct rte_flow_error *error);
static int bpf_rss_key(enum bpf_rss_key_e cmd, __u32 *key_idx);
static int rss_enable(struct pmd_internals *pmd,
const struct rte_flow_attr *attr,
struct rte_flow_error *error);
static int rss_add_actions(struct rte_flow *flow, struct pmd_internals *pmd,
const struct rte_flow_action_rss *rss,
struct rte_flow_error *error);
static const struct rte_flow_ops tap_flow_ops = {
.validate = tap_flow_validate,
.create = tap_flow_create,
.destroy = tap_flow_destroy,
.flush = tap_flow_flush,
.isolate = tap_flow_isolate,
};
/* Static initializer for items. */
#define ITEMS(...) \
(const enum rte_flow_item_type []){ \
__VA_ARGS__, RTE_FLOW_ITEM_TYPE_END, \
}
/* Structure to generate a simple graph of layers supported by the NIC. */
struct tap_flow_items {
/* Bit-mask corresponding to what is supported for this item. */
const void *mask;
const unsigned int mask_sz; /* Bit-mask size in bytes. */
/*
* Bit-mask corresponding to the default mask, if none is provided
* along with the item.
*/
const void *default_mask;
/**
* Conversion function from rte_flow to netlink attributes.
*
* @param item
* rte_flow item to convert.
* @param data
* Internal structure to store the conversion.
*
* @return
* 0 on success, negative value otherwise.
*/
int (*convert)(const struct rte_flow_item *item, void *data);
/** List of possible following items. */
const enum rte_flow_item_type *const items;
};
/* Graph of supported items and associated actions. */
static const struct tap_flow_items tap_flow_items[] = {
[RTE_FLOW_ITEM_TYPE_END] = {
.items = ITEMS(RTE_FLOW_ITEM_TYPE_ETH),
},
[RTE_FLOW_ITEM_TYPE_ETH] = {
.items = ITEMS(
RTE_FLOW_ITEM_TYPE_VLAN,
RTE_FLOW_ITEM_TYPE_IPV4,
RTE_FLOW_ITEM_TYPE_IPV6),
.mask = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.src.addr_bytes = "\xff\xff\xff\xff\xff\xff",
.type = -1,
},
.mask_sz = sizeof(struct rte_flow_item_eth),
.default_mask = &rte_flow_item_eth_mask,
.convert = tap_flow_create_eth,
},
[RTE_FLOW_ITEM_TYPE_VLAN] = {
.items = ITEMS(RTE_FLOW_ITEM_TYPE_IPV4,
RTE_FLOW_ITEM_TYPE_IPV6),
.mask = &(const struct rte_flow_item_vlan){
/* DEI matching is not supported */
#if RTE_BYTE_ORDER == RTE_LITTLE_ENDIAN
.tci = 0xffef,
#else
.tci = 0xefff,
#endif
.inner_type = -1,
},
.mask_sz = sizeof(struct rte_flow_item_vlan),
.default_mask = &rte_flow_item_vlan_mask,
.convert = tap_flow_create_vlan,
},
[RTE_FLOW_ITEM_TYPE_IPV4] = {
.items = ITEMS(RTE_FLOW_ITEM_TYPE_UDP,
RTE_FLOW_ITEM_TYPE_TCP),
.mask = &(const struct rte_flow_item_ipv4){
.hdr = {
.src_addr = -1,
.dst_addr = -1,
.next_proto_id = -1,
},
},
.mask_sz = sizeof(struct rte_flow_item_ipv4),
.default_mask = &rte_flow_item_ipv4_mask,
.convert = tap_flow_create_ipv4,
},
[RTE_FLOW_ITEM_TYPE_IPV6] = {
.items = ITEMS(RTE_FLOW_ITEM_TYPE_UDP,
RTE_FLOW_ITEM_TYPE_TCP),
.mask = &(const struct rte_flow_item_ipv6){
.hdr = {
.src_addr = {
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
},
.dst_addr = {
"\xff\xff\xff\xff\xff\xff\xff\xff"
"\xff\xff\xff\xff\xff\xff\xff\xff",
},
.proto = -1,
},
},
.mask_sz = sizeof(struct rte_flow_item_ipv6),
.default_mask = &rte_flow_item_ipv6_mask,
.convert = tap_flow_create_ipv6,
},
[RTE_FLOW_ITEM_TYPE_UDP] = {
.mask = &(const struct rte_flow_item_udp){
.hdr = {
.src_port = -1,
.dst_port = -1,
},
},
.mask_sz = sizeof(struct rte_flow_item_udp),
.default_mask = &rte_flow_item_udp_mask,
.convert = tap_flow_create_udp,
},
[RTE_FLOW_ITEM_TYPE_TCP] = {
.mask = &(const struct rte_flow_item_tcp){
.hdr = {
.src_port = -1,
.dst_port = -1,
},
},
.mask_sz = sizeof(struct rte_flow_item_tcp),
.default_mask = &rte_flow_item_tcp_mask,
.convert = tap_flow_create_tcp,
},
};
/*
* TC rules, by growing priority
*
* Remote netdevice Tap netdevice
* +-------------+-------------+ +-------------+-------------+
* | Ingress | Egress | | Ingress | Egress |
* |-------------|-------------| |-------------|-------------|
* | | \ / | | | REMOTE TX | prio 1
* | | \ / | | | \ / | prio 2
* | EXPLICIT | \ / | | EXPLICIT | \ / | .
* | | \ / | | | \ / | .
* | RULES | X | | RULES | X | .
* | . | / \ | | . | / \ | .
* | . | / \ | | . | / \ | .
* | . | / \ | | . | / \ | .
* | . | / \ | | . | / \ | .
*
* .... .... .... ....
*
* | . | \ / | | . | \ / | .
* | . | \ / | | . | \ / | .
* | | \ / | | | \ / |
* | LOCAL_MAC | \ / | | \ / | \ / | last prio - 5
* | PROMISC | X | | \ / | X | last prio - 4
* | ALLMULTI | / \ | | X | / \ | last prio - 3
* | BROADCAST | / \ | | / \ | / \ | last prio - 2
* | BROADCASTV6 | / \ | | / \ | / \ | last prio - 1
* | xx | / \ | | ISOLATE | / \ | last prio
* +-------------+-------------+ +-------------+-------------+
*
* The implicit flow rules are stored in a list in with mandatorily the last two
* being the ISOLATE and REMOTE_TX rules. e.g.:
*
* LOCAL_MAC -> BROADCAST -> BROADCASTV6 -> REMOTE_TX -> ISOLATE -> NULL
*
* That enables tap_flow_isolate() to remove implicit rules by popping the list
* head and remove it as long as it applies on the remote netdevice. The
* implicit rule for TX redirection is not removed, as isolate concerns only
* incoming traffic.
*/
static struct remote_rule implicit_rte_flows[TAP_REMOTE_MAX_IDX] = {
[TAP_REMOTE_LOCAL_MAC] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_REMOTE_LOCAL_MAC,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_ETH,
.mask = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\xff\xff\xff\xff\xff\xff",
},
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_REDIR,
},
[TAP_REMOTE_BROADCAST] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_REMOTE_BROADCAST,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_ETH,
.mask = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\xff\xff\xff\xff\xff\xff",
},
.spec = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\xff\xff\xff\xff\xff\xff",
},
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_MIRROR,
},
[TAP_REMOTE_BROADCASTV6] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_REMOTE_BROADCASTV6,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_ETH,
.mask = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\x33\x33\x00\x00\x00\x00",
},
.spec = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\x33\x33\x00\x00\x00\x00",
},
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_MIRROR,
},
[TAP_REMOTE_PROMISC] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_REMOTE_PROMISC,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_VOID,
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_MIRROR,
},
[TAP_REMOTE_ALLMULTI] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_REMOTE_ALLMULTI,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_ETH,
.mask = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\x01\x00\x00\x00\x00\x00",
},
.spec = &(const struct rte_flow_item_eth){
.dst.addr_bytes = "\x01\x00\x00\x00\x00\x00",
},
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_MIRROR,
},
[TAP_REMOTE_TX] = {
.attr = {
.group = 0,
.priority = TAP_REMOTE_TX,
.egress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_VOID,
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
.mirred = TCA_EGRESS_MIRROR,
},
[TAP_ISOLATE] = {
.attr = {
.group = MAX_GROUP,
.priority = PRIORITY_MASK - TAP_ISOLATE,
.ingress = 1,
},
.items[0] = {
.type = RTE_FLOW_ITEM_TYPE_VOID,
},
.items[1] = {
.type = RTE_FLOW_ITEM_TYPE_END,
},
},
};
/**
* Make as much checks as possible on an Ethernet item, and if a flow is
* provided, fill it appropriately with Ethernet info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_eth(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_eth *spec = item->spec;
const struct rte_flow_item_eth *mask = item->mask;
struct rte_flow *flow = info->flow;
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_ETH].default_mask;
/* TC does not support eth_type masking. Only accept if exact match. */
if (mask->type && mask->type != 0xffff)
return -1;
if (!spec)
return 0;
/* store eth_type for consistency if ipv4/6 pattern item comes next */
if (spec->type & mask->type)
info->eth_type = spec->type;
if (!flow)
return 0;
msg = &flow->msg;
if (!is_zero_ether_addr(&mask->dst)) {
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_ETH_DST, ETHER_ADDR_LEN,
&spec->dst.addr_bytes);
tap_nlattr_add(&msg->nh,
TCA_FLOWER_KEY_ETH_DST_MASK, ETHER_ADDR_LEN,
&mask->dst.addr_bytes);
}
if (!is_zero_ether_addr(&mask->src)) {
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_ETH_SRC, ETHER_ADDR_LEN,
&spec->src.addr_bytes);
tap_nlattr_add(&msg->nh,
TCA_FLOWER_KEY_ETH_SRC_MASK, ETHER_ADDR_LEN,
&mask->src.addr_bytes);
}
return 0;
}
/**
* Make as much checks as possible on a VLAN item, and if a flow is provided,
* fill it appropriately with VLAN info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_vlan(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_vlan *spec = item->spec;
const struct rte_flow_item_vlan *mask = item->mask;
struct rte_flow *flow = info->flow;
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_VLAN].default_mask;
/* Outer TPID cannot be matched. */
if (info->eth_type)
return -1;
/* Double-tagging not supported. */
if (info->vlan)
return -1;
info->vlan = 1;
if (mask->inner_type) {
/* TC does not support partial eth_type masking */
if (mask->inner_type != RTE_BE16(0xffff))
return -1;
info->eth_type = spec->inner_type;
}
if (!flow)
return 0;
msg = &flow->msg;
msg->t.tcm_info = TC_H_MAKE(msg->t.tcm_info, htons(ETH_P_8021Q));
#define VLAN_PRIO(tci) ((tci) >> 13)
#define VLAN_ID(tci) ((tci) & 0xfff)
if (!spec)
return 0;
if (spec->tci) {
uint16_t tci = ntohs(spec->tci) & mask->tci;
uint16_t prio = VLAN_PRIO(tci);
uint8_t vid = VLAN_ID(tci);
if (prio)
tap_nlattr_add8(&msg->nh,
TCA_FLOWER_KEY_VLAN_PRIO, prio);
if (vid)
tap_nlattr_add16(&msg->nh,
TCA_FLOWER_KEY_VLAN_ID, vid);
}
return 0;
}
/**
* Make as much checks as possible on an IPv4 item, and if a flow is provided,
* fill it appropriately with IPv4 info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_ipv4(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_ipv4 *spec = item->spec;
const struct rte_flow_item_ipv4 *mask = item->mask;
struct rte_flow *flow = info->flow;
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_IPV4].default_mask;
/* check that previous eth type is compatible with ipv4 */
if (info->eth_type && info->eth_type != htons(ETH_P_IP))
return -1;
/* store ip_proto for consistency if udp/tcp pattern item comes next */
if (spec)
info->ip_proto = spec->hdr.next_proto_id;
if (!flow)
return 0;
msg = &flow->msg;
if (!info->eth_type)
info->eth_type = htons(ETH_P_IP);
if (!spec)
return 0;
if (mask->hdr.dst_addr) {
tap_nlattr_add32(&msg->nh, TCA_FLOWER_KEY_IPV4_DST,
spec->hdr.dst_addr);
tap_nlattr_add32(&msg->nh, TCA_FLOWER_KEY_IPV4_DST_MASK,
mask->hdr.dst_addr);
}
if (mask->hdr.src_addr) {
tap_nlattr_add32(&msg->nh, TCA_FLOWER_KEY_IPV4_SRC,
spec->hdr.src_addr);
tap_nlattr_add32(&msg->nh, TCA_FLOWER_KEY_IPV4_SRC_MASK,
mask->hdr.src_addr);
}
if (spec->hdr.next_proto_id)
tap_nlattr_add8(&msg->nh, TCA_FLOWER_KEY_IP_PROTO,
spec->hdr.next_proto_id);
return 0;
}
/**
* Make as much checks as possible on an IPv6 item, and if a flow is provided,
* fill it appropriately with IPv6 info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_ipv6(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_ipv6 *spec = item->spec;
const struct rte_flow_item_ipv6 *mask = item->mask;
struct rte_flow *flow = info->flow;
uint8_t empty_addr[16] = { 0 };
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_IPV6].default_mask;
/* check that previous eth type is compatible with ipv6 */
if (info->eth_type && info->eth_type != htons(ETH_P_IPV6))
return -1;
/* store ip_proto for consistency if udp/tcp pattern item comes next */
if (spec)
info->ip_proto = spec->hdr.proto;
if (!flow)
return 0;
msg = &flow->msg;
if (!info->eth_type)
info->eth_type = htons(ETH_P_IPV6);
if (!spec)
return 0;
if (memcmp(mask->hdr.dst_addr, empty_addr, 16)) {
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_IPV6_DST,
sizeof(spec->hdr.dst_addr), &spec->hdr.dst_addr);
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_IPV6_DST_MASK,
sizeof(mask->hdr.dst_addr), &mask->hdr.dst_addr);
}
if (memcmp(mask->hdr.src_addr, empty_addr, 16)) {
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_IPV6_SRC,
sizeof(spec->hdr.src_addr), &spec->hdr.src_addr);
tap_nlattr_add(&msg->nh, TCA_FLOWER_KEY_IPV6_SRC_MASK,
sizeof(mask->hdr.src_addr), &mask->hdr.src_addr);
}
if (spec->hdr.proto)
tap_nlattr_add8(&msg->nh,
TCA_FLOWER_KEY_IP_PROTO, spec->hdr.proto);
return 0;
}
/**
* Make as much checks as possible on a UDP item, and if a flow is provided,
* fill it appropriately with UDP info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_udp(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_udp *spec = item->spec;
const struct rte_flow_item_udp *mask = item->mask;
struct rte_flow *flow = info->flow;
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_UDP].default_mask;
/* check that previous ip_proto is compatible with udp */
if (info->ip_proto && info->ip_proto != IPPROTO_UDP)
return -1;
/* TC does not support UDP port masking. Only accept if exact match. */
if ((mask->hdr.src_port && mask->hdr.src_port != 0xffff) ||
(mask->hdr.dst_port && mask->hdr.dst_port != 0xffff))
return -1;
if (!flow)
return 0;
msg = &flow->msg;
tap_nlattr_add8(&msg->nh, TCA_FLOWER_KEY_IP_PROTO, IPPROTO_UDP);
if (!spec)
return 0;
if (mask->hdr.dst_port)
tap_nlattr_add16(&msg->nh, TCA_FLOWER_KEY_UDP_DST,
spec->hdr.dst_port);
if (mask->hdr.src_port)
tap_nlattr_add16(&msg->nh, TCA_FLOWER_KEY_UDP_SRC,
spec->hdr.src_port);
return 0;
}
/**
* Make as much checks as possible on a TCP item, and if a flow is provided,
* fill it appropriately with TCP info.
*
* @param[in] item
* Item specification.
* @param[in, out] data
* Additional data structure to tell next layers we've been here.
*
* @return
* 0 if checks are alright, -1 otherwise.
*/
static int
tap_flow_create_tcp(const struct rte_flow_item *item, void *data)
{
struct convert_data *info = (struct convert_data *)data;
const struct rte_flow_item_tcp *spec = item->spec;
const struct rte_flow_item_tcp *mask = item->mask;
struct rte_flow *flow = info->flow;
struct nlmsg *msg;
/* use default mask if none provided */
if (!mask)
mask = tap_flow_items[RTE_FLOW_ITEM_TYPE_TCP].default_mask;
/* check that previous ip_proto is compatible with tcp */
if (info->ip_proto && info->ip_proto != IPPROTO_TCP)
return -1;
/* TC does not support TCP port masking. Only accept if exact match. */
if ((mask->hdr.src_port && mask->hdr.src_port != 0xffff) ||
(mask->hdr.dst_port && mask->hdr.dst_port != 0xffff))
return -1;
if (!flow)
return 0;
msg = &flow->msg;
tap_nlattr_add8(&msg->nh, TCA_FLOWER_KEY_IP_PROTO, IPPROTO_TCP);
if (!spec)
return 0;
if (mask->hdr.dst_port)
tap_nlattr_add16(&msg->nh, TCA_FLOWER_KEY_TCP_DST,
spec->hdr.dst_port);
if (mask->hdr.src_port)
tap_nlattr_add16(&msg->nh, TCA_FLOWER_KEY_TCP_SRC,
spec->hdr.src_port);
return 0;
}
/**
* Check support for a given item.
*
* @param[in] item
* Item specification.
* @param size
* Bit-Mask size in bytes.
* @param[in] supported_mask
* Bit-mask covering supported fields to compare with spec, last and mask in
* \item.
* @param[in] default_mask
* Bit-mask default mask if none is provided in \item.
*
* @return
* 0 on success.
*/
static int
tap_flow_item_validate(const struct rte_flow_item *item,
unsigned int size,
const uint8_t *supported_mask,
const uint8_t *default_mask)
{
int ret = 0;
/* An empty layer is allowed, as long as all fields are NULL */
if (!item->spec && (item->mask || item->last))
return -1;
/* Is the item spec compatible with what the NIC supports? */
if (item->spec && !item->mask) {
unsigned int i;
const uint8_t *spec = item->spec;
for (i = 0; i < size; ++i)
if ((spec[i] | supported_mask[i]) != supported_mask[i])
return -1;
/* Is the default mask compatible with what the NIC supports? */
for (i = 0; i < size; i++)
if ((default_mask[i] | supported_mask[i]) !=
supported_mask[i])
return -1;
}
/* Is the item last compatible with what the NIC supports? */
if (item->last && !item->mask) {
unsigned int i;
const uint8_t *spec = item->last;
for (i = 0; i < size; ++i)
if ((spec[i] | supported_mask[i]) != supported_mask[i])
return -1;
}
/* Is the item mask compatible with what the NIC supports? */
if (item->mask) {
unsigned int i;
const uint8_t *spec = item->mask;
for (i = 0; i < size; ++i)
if ((spec[i] | supported_mask[i]) != supported_mask[i])
return -1;
}
/**
* Once masked, Are item spec and item last equal?
* TC does not support range so anything else is invalid.
*/
if (item->spec && item->last) {
uint8_t spec[size];
uint8_t last[size];
const uint8_t *apply = default_mask;
unsigned int i;
if (item->mask)
apply = item->mask;
for (i = 0; i < size; ++i) {
spec[i] = ((const uint8_t *)item->spec)[i] & apply[i];
last[i] = ((const uint8_t *)item->last)[i] & apply[i];
}
ret = memcmp(spec, last, size);
}
return ret;
}
/**
* Configure the kernel with a TC action and its configured parameters
* Handled actions: "gact", "mirred", "skbedit", "bpf"
*
* @param[in] flow
* Pointer to rte flow containing the netlink message
*
* @param[in, out] act_index
* Pointer to action sequence number in the TC command
*
* @param[in] adata
* Pointer to struct holding the action parameters
*
* @return
* -1 on failure, 0 on success
*/
static int
add_action(struct rte_flow *flow, size_t *act_index, struct action_data *adata)
{
struct nlmsg *msg = &flow->msg;
if (tap_nlattr_nested_start(msg, (*act_index)++) < 0)
return -1;
tap_nlattr_add(&msg->nh, TCA_ACT_KIND,
strlen(adata->id) + 1, adata->id);
if (tap_nlattr_nested_start(msg, TCA_ACT_OPTIONS) < 0)
return -1;
if (strcmp("gact", adata->id) == 0) {
tap_nlattr_add(&msg->nh, TCA_GACT_PARMS, sizeof(adata->gact),
&adata->gact);
} else if (strcmp("mirred", adata->id) == 0) {
if (adata->mirred.eaction == TCA_EGRESS_MIRROR)
adata->mirred.action = TC_ACT_PIPE;
else /* REDIRECT */
adata->mirred.action = TC_ACT_STOLEN;
tap_nlattr_add(&msg->nh, TCA_MIRRED_PARMS,
sizeof(adata->mirred),
&adata->mirred);
} else if (strcmp("skbedit", adata->id) == 0) {
tap_nlattr_add(&msg->nh, TCA_SKBEDIT_PARMS,
sizeof(adata->skbedit.skbedit),
&adata->skbedit.skbedit);
tap_nlattr_add16(&msg->nh, TCA_SKBEDIT_QUEUE_MAPPING,
adata->skbedit.queue);
} else if (strcmp("bpf", adata->id) == 0) {
tap_nlattr_add32(&msg->nh, TCA_ACT_BPF_FD, adata->bpf.bpf_fd);
tap_nlattr_add(&msg->nh, TCA_ACT_BPF_NAME,
strlen(adata->bpf.annotation) + 1,
adata->bpf.annotation);
tap_nlattr_add(&msg->nh, TCA_ACT_BPF_PARMS,
sizeof(adata->bpf.bpf),
&adata->bpf.bpf);
} else {
return -1;
}
tap_nlattr_nested_finish(msg); /* nested TCA_ACT_OPTIONS */
tap_nlattr_nested_finish(msg); /* nested act_index */
return 0;
}
/**
* Helper function to send a serie of TC actions to the kernel
*
* @param[in] flow
* Pointer to rte flow containing the netlink message
*
* @param[in] nb_actions
* Number of actions in an array of action structs
*
* @param[in] data
* Pointer to an array of action structs
*
* @param[in] classifier_actions
* The classifier on behave of which the actions are configured
*
* @return
* -1 on failure, 0 on success
*/
static int
add_actions(struct rte_flow *flow, int nb_actions, struct action_data *data,
int classifier_action)
{
struct nlmsg *msg = &flow->msg;
size_t act_index = 1;
int i;
if (tap_nlattr_nested_start(msg, classifier_action) < 0)
return -1;
for (i = 0; i < nb_actions; i++)
if (add_action(flow, &act_index, data + i) < 0)
return -1;
tap_nlattr_nested_finish(msg); /* nested TCA_FLOWER_ACT */
return 0;
}
/**
* Validate a flow supported by TC.
* If flow param is not NULL, then also fill the netlink message inside.
*
* @param pmd
* Pointer to private structure.
* @param[in] attr
* Flow rule attributes.
* @param[in] pattern
* Pattern specification (list terminated by the END pattern item).
* @param[in] actions
* Associated actions (list terminated by the END action).
* @param[out] error
* Perform verbose error reporting if not NULL.
* @param[in, out] flow
* Flow structure to update.
* @param[in] mirred
* If set to TCA_EGRESS_REDIR, provided actions will be replaced with a
* redirection to the tap netdevice, and the TC rule will be configured
* on the remote netdevice in pmd.
* If set to TCA_EGRESS_MIRROR, provided actions will be replaced with a
* mirroring to the tap netdevice, and the TC rule will be configured
* on the remote netdevice in pmd. Matching packets will thus be duplicated.
* If set to 0, the standard behavior is to be used: set correct actions for
* the TC rule, and apply it on the tap netdevice.
*
* @return
* 0 on success, a negative errno value otherwise and rte_errno is set.
*/
static int
priv_flow_process(struct pmd_internals *pmd,
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,
int mirred)
{
const struct tap_flow_items *cur_item = tap_flow_items;
struct convert_data data = {
.eth_type = 0,
.ip_proto = 0,
.flow = flow,
};
int action = 0; /* Only one action authorized for now */
if (attr->transfer) {
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_ATTR_TRANSFER,
NULL, "transfer is not supported");
return -rte_errno;
}
if (attr->group > MAX_GROUP) {
rte_flow_error_set(
error, EINVAL, RTE_FLOW_ERROR_TYPE_ATTR_GROUP,
NULL, "group value too big: cannot exceed 15");
return -rte_errno;
}
if (attr->priority > MAX_PRIORITY) {
rte_flow_error_set(
error, EINVAL, RTE_FLOW_ERROR_TYPE_ATTR_PRIORITY,
NULL, "priority value too big");
return -rte_errno;
} else if (flow) {
uint16_t group = attr->group << GROUP_SHIFT;
uint16_t prio = group | (attr->priority +
RSS_PRIORITY_OFFSET + PRIORITY_OFFSET);
flow->msg.t.tcm_info = TC_H_MAKE(prio << 16,
flow->msg.t.tcm_info);
}
if (flow) {
if (mirred) {
/*
* If attr->ingress, the rule applies on remote ingress
* to match incoming packets
* If attr->egress, the rule applies on tap ingress (as
* seen from the kernel) to deal with packets going out
* from the DPDK app.
*/
flow->msg.t.tcm_parent = TC_H_MAKE(TC_H_INGRESS, 0);
} else {
/* Standard rule on tap egress (kernel standpoint). */
flow->msg.t.tcm_parent =
TC_H_MAKE(MULTIQ_MAJOR_HANDLE, 0);
}
/* use flower filter type */
tap_nlattr_add(&flow->msg.nh, TCA_KIND, sizeof("flower"), "flower");
if (tap_nlattr_nested_start(&flow->msg, TCA_OPTIONS) < 0)
goto exit_item_not_supported;
}
for (; items->type != RTE_FLOW_ITEM_TYPE_END; ++items) {
const struct tap_flow_items *token = NULL;
unsigned int i;
int err = 0;
if (items->type == RTE_FLOW_ITEM_TYPE_VOID)
continue;
for (i = 0;
cur_item->items &&
cur_item->items[i] != RTE_FLOW_ITEM_TYPE_END;
++i) {
if (cur_item->items[i] == items->type) {
token = &tap_flow_items[items->type];
break;
}
}
if (!token)
goto exit_item_not_supported;
cur_item = token;
err = tap_flow_item_validate(
items, cur_item->mask_sz,
(const uint8_t *)cur_item->mask,
(const uint8_t *)cur_item->default_mask);
if (err)
goto exit_item_not_supported;
if (flow && cur_item->convert) {
err = cur_item->convert(items, &data);
if (err)
goto exit_item_not_supported;
}
}
if (flow) {
if (data.vlan) {
tap_nlattr_add16(&flow->msg.nh, TCA_FLOWER_KEY_ETH_TYPE,
htons(ETH_P_8021Q));
tap_nlattr_add16(&flow->msg.nh,
TCA_FLOWER_KEY_VLAN_ETH_TYPE,
data.eth_type ?
data.eth_type : htons(ETH_P_ALL));
} else if (data.eth_type) {
tap_nlattr_add16(&flow->msg.nh, TCA_FLOWER_KEY_ETH_TYPE,
data.eth_type);
}
}
if (mirred && flow) {
struct action_data adata = {
.id = "mirred",
.mirred = {
.eaction = mirred,
},
};
/*
* If attr->egress && mirred, then this is a special
* case where the rule must be applied on the tap, to
* redirect packets coming from the DPDK App, out
* through the remote netdevice.
*/
adata.mirred.ifindex = attr->ingress ? pmd->if_index :
pmd->remote_if_index;
if (mirred == TCA_EGRESS_MIRROR)
adata.mirred.action = TC_ACT_PIPE;
else
adata.mirred.action = TC_ACT_STOLEN;
if (add_actions(flow, 1, &adata, TCA_FLOWER_ACT) < 0)
goto exit_action_not_supported;
else
goto end;
}
actions:
for (; actions->type != RTE_FLOW_ACTION_TYPE_END; ++actions) {
int err = 0;
if (actions->type == RTE_FLOW_ACTION_TYPE_VOID) {
continue;
} else if (actions->type == RTE_FLOW_ACTION_TYPE_DROP) {
if (action)
goto exit_action_not_supported;
action = 1;
if (flow) {
struct action_data adata = {
.id = "gact",
.gact = {
.action = TC_ACT_SHOT,
},
};
err = add_actions(flow, 1, &adata,
TCA_FLOWER_ACT);
}
} else if (actions->type == RTE_FLOW_ACTION_TYPE_PASSTHRU) {
if (action)
goto exit_action_not_supported;
action = 1;
if (flow) {
struct action_data adata = {
.id = "gact",
.gact = {
/* continue */
.action = TC_ACT_UNSPEC,
},
};
err = add_actions(flow, 1, &adata,
TCA_FLOWER_ACT);
}
} else if (actions->type == RTE_FLOW_ACTION_TYPE_QUEUE) {
const struct rte_flow_action_queue *queue =
(const struct rte_flow_action_queue *)
actions->conf;
if (action)
goto exit_action_not_supported;
action = 1;
if (!queue ||
(queue->index > pmd->dev->data->nb_rx_queues - 1))
goto exit_action_not_supported;
if (flow) {
struct action_data adata = {
.id = "skbedit",
.skbedit = {
.skbedit = {
.action = TC_ACT_PIPE,
},
.queue = queue->index,
},
};
err = add_actions(flow, 1, &adata,
TCA_FLOWER_ACT);
}
} else if (actions->type == RTE_FLOW_ACTION_TYPE_RSS) {
const struct rte_flow_action_rss *rss =
(const struct rte_flow_action_rss *)
actions->conf;
if (action++)
goto exit_action_not_supported;
if (!pmd->rss_enabled) {
err = rss_enable(pmd, attr, error);
if (err)
goto exit_action_not_supported;
}
if (flow)
err = rss_add_actions(flow, pmd, rss, error);
} else {
goto exit_action_not_supported;
}
if (err)
goto exit_action_not_supported;
}
/* When fate is unknown, drop traffic. */
if (!action) {
static const struct rte_flow_action drop[] = {
{ .type = RTE_FLOW_ACTION_TYPE_DROP, },
{ .type = RTE_FLOW_ACTION_TYPE_END, },
};
actions = drop;
goto actions;
}
end:
if (flow)
tap_nlattr_nested_finish(&flow->msg); /* nested TCA_OPTIONS */
return 0;
exit_item_not_supported:
rte_flow_error_set(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_ITEM,
items, "item not supported");
return -rte_errno;
exit_action_not_supported:
rte_flow_error_set(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_ACTION,
actions, "action not supported");
return -rte_errno;
}
/**
* Validate a flow.
*
* @see rte_flow_validate()
* @see rte_flow_ops
*/
static int
tap_flow_validate(struct rte_eth_dev *dev,
const struct rte_flow_attr *attr,
const struct rte_flow_item items[],
const struct rte_flow_action actions[],
struct rte_flow_error *error)
{
struct pmd_internals *pmd = dev->data->dev_private;
return priv_flow_process(pmd, attr, items, actions, error, NULL, 0);
}
/**
* Set a unique handle in a flow.
*
* The kernel supports TC rules with equal priority, as long as they use the
* same matching fields (e.g.: dst mac and ipv4) with different values (and
* full mask to ensure no collision is possible).
* In those rules, the handle (uint32_t) is the part that would identify
* specifically each rule.
*
* On 32-bit architectures, the handle can simply be the flow's pointer address.
* On 64-bit architectures, we rely on jhash(flow) to find a (sufficiently)
* unique handle.
*
* @param[in, out] flow
* The flow that needs its handle set.
*/
static void
tap_flow_set_handle(struct rte_flow *flow)
{
uint32_t handle = 0;
if (sizeof(flow) > 4)
handle = rte_jhash(&flow, sizeof(flow), 1);
else
handle = (uintptr_t)flow;
/* must be at least 1 to avoid letting the kernel choose one for us */
if (!handle)
handle = 1;
flow->msg.t.tcm_handle = handle;
}
/**
* Free the flow opened file descriptors and allocated memory
*
* @param[in] flow
* Pointer to the flow to free
*
*/
static void
tap_flow_free(struct pmd_internals *pmd, struct rte_flow *flow)
{
int i;
if (!flow)
return;
if (pmd->rss_enabled) {
/* Close flow BPF file descriptors */
for (i = 0; i < SEC_MAX; i++)
if (flow->bpf_fd[i] != 0) {
close(flow->bpf_fd[i]);
flow->bpf_fd[i] = 0;
}
/* Release the map key for this RSS rule */
bpf_rss_key(KEY_CMD_RELEASE, &flow->key_idx);
flow->key_idx = 0;
}
/* Free flow allocated memory */
rte_free(flow);
}
/**
* Create a flow.
*
* @see rte_flow_create()
* @see rte_flow_ops
*/
static struct rte_flow *
tap_flow_create(struct rte_eth_dev *dev,
const struct rte_flow_attr *attr,
const struct rte_flow_item items[],
const struct rte_flow_action actions[],
struct rte_flow_error *error)
{
struct pmd_internals *pmd = dev->data->dev_private;
struct rte_flow *remote_flow = NULL;
struct rte_flow *flow = NULL;
struct nlmsg *msg = NULL;
int err;
if (!pmd->if_index) {
rte_flow_error_set(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL,
"can't create rule, ifindex not found");
goto fail;
}
/*
* No rules configured through standard rte_flow should be set on the
* priorities used by implicit rules.
*/
if ((attr->group == MAX_GROUP) &&
attr->priority > (MAX_PRIORITY - TAP_REMOTE_MAX_IDX)) {
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_ATTR_PRIORITY,
NULL, "priority value too big");
goto fail;
}
flow = rte_malloc(__func__, sizeof(struct rte_flow), 0);
if (!flow) {
rte_flow_error_set(error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "cannot allocate memory for rte_flow");
goto fail;
}
msg = &flow->msg;
tc_init_msg(msg, pmd->if_index, RTM_NEWTFILTER,
NLM_F_REQUEST | NLM_F_ACK | NLM_F_EXCL | NLM_F_CREATE);
msg->t.tcm_info = TC_H_MAKE(0, htons(ETH_P_ALL));
tap_flow_set_handle(flow);
if (priv_flow_process(pmd, attr, items, actions, error, flow, 0))
goto fail;
err = tap_nl_send(pmd->nlsk_fd, &msg->nh);
if (err < 0) {
rte_flow_error_set(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "couldn't send request to kernel");
goto fail;
}
err = tap_nl_recv_ack(pmd->nlsk_fd);
if (err < 0) {
TAP_LOG(ERR,
"Kernel refused TC filter rule creation (%d): %s",
errno, strerror(errno));
rte_flow_error_set(error, EEXIST, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL,
"overlapping rules or Kernel too old for flower support");
goto fail;
}
LIST_INSERT_HEAD(&pmd->flows, flow, next);
/**
* If a remote device is configured, a TC rule with identical items for
* matching must be set on that device, with a single action: redirect
* to the local pmd->if_index.
*/
if (pmd->remote_if_index) {
remote_flow = rte_malloc(__func__, sizeof(struct rte_flow), 0);
if (!remote_flow) {
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"cannot allocate memory for rte_flow");
goto fail;
}
msg = &remote_flow->msg;
/* set the rule if_index for the remote netdevice */
tc_init_msg(
msg, pmd->remote_if_index, RTM_NEWTFILTER,
NLM_F_REQUEST | NLM_F_ACK | NLM_F_EXCL | NLM_F_CREATE);
msg->t.tcm_info = TC_H_MAKE(0, htons(ETH_P_ALL));
tap_flow_set_handle(remote_flow);
if (priv_flow_process(pmd, attr, items, NULL,
error, remote_flow, TCA_EGRESS_REDIR)) {
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "rte flow rule validation failed");
goto fail;
}
err = tap_nl_send(pmd->nlsk_fd, &msg->nh);
if (err < 0) {
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "Failure sending nl request");
goto fail;
}
err = tap_nl_recv_ack(pmd->nlsk_fd);
if (err < 0) {
TAP_LOG(ERR,
"Kernel refused TC filter rule creation (%d): %s",
errno, strerror(errno));
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL,
"overlapping rules or Kernel too old for flower support");
goto fail;
}
flow->remote_flow = remote_flow;
}
return flow;
fail:
if (remote_flow)
rte_free(remote_flow);
if (flow)
tap_flow_free(pmd, flow);
return NULL;
}
/**
* Destroy a flow using pointer to pmd_internal.
*
* @param[in, out] pmd
* Pointer to private structure.
* @param[in] flow
* Pointer to the flow to destroy.
* @param[in, out] error
* Pointer to the flow error handler
*
* @return 0 if the flow could be destroyed, -1 otherwise.
*/
static int
tap_flow_destroy_pmd(struct pmd_internals *pmd,
struct rte_flow *flow,
struct rte_flow_error *error)
{
struct rte_flow *remote_flow = flow->remote_flow;
int ret = 0;
LIST_REMOVE(flow, next);
flow->msg.nh.nlmsg_flags = NLM_F_REQUEST | NLM_F_ACK;
flow->msg.nh.nlmsg_type = RTM_DELTFILTER;
ret = tap_nl_send(pmd->nlsk_fd, &flow->msg.nh);
if (ret < 0) {
rte_flow_error_set(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "couldn't send request to kernel");
goto end;
}
ret = tap_nl_recv_ack(pmd->nlsk_fd);
/* If errno is ENOENT, the rule is already no longer in the kernel. */
if (ret < 0 && errno == ENOENT)
ret = 0;
if (ret < 0) {
TAP_LOG(ERR,
"Kernel refused TC filter rule deletion (%d): %s",
errno, strerror(errno));
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"couldn't receive kernel ack to our request");
goto end;
}
if (remote_flow) {
remote_flow->msg.nh.nlmsg_flags = NLM_F_REQUEST | NLM_F_ACK;
remote_flow->msg.nh.nlmsg_type = RTM_DELTFILTER;
ret = tap_nl_send(pmd->nlsk_fd, &remote_flow->msg.nh);
if (ret < 0) {
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "Failure sending nl request");
goto end;
}
ret = tap_nl_recv_ack(pmd->nlsk_fd);
if (ret < 0 && errno == ENOENT)
ret = 0;
if (ret < 0) {
TAP_LOG(ERR,
"Kernel refused TC filter rule deletion (%d): %s",
errno, strerror(errno));
rte_flow_error_set(
error, ENOMEM, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL, "Failure trying to receive nl ack");
goto end;
}
}
end:
if (remote_flow)
rte_free(remote_flow);
tap_flow_free(pmd, flow);
return ret;
}
/**
* Destroy a flow.
*
* @see rte_flow_destroy()
* @see rte_flow_ops
*/
static int
tap_flow_destroy(struct rte_eth_dev *dev,
struct rte_flow *flow,
struct rte_flow_error *error)
{
struct pmd_internals *pmd = dev->data->dev_private;
return tap_flow_destroy_pmd(pmd, flow, error);
}
/**
* Enable/disable flow isolation.
*
* @see rte_flow_isolate()
* @see rte_flow_ops
*/
static int
tap_flow_isolate(struct rte_eth_dev *dev,
int set,
struct rte_flow_error *error __rte_unused)
{
struct pmd_internals *pmd = dev->data->dev_private;
/* normalize 'set' variable to contain 0 or 1 values */
if (set)
set = 1;
/* if already in the right isolation mode - nothing to do */
if ((set ^ pmd->flow_isolate) == 0)
return 0;
/* mark the isolation mode for tap_flow_implicit_create() */
pmd->flow_isolate = set;
/*
* If netdevice is there, setup appropriate flow rules immediately.
* Otherwise it will be set when bringing up the netdevice (tun_alloc).
*/
if (!pmd->rxq[0].fd)
return 0;
if (set) {
struct rte_flow *remote_flow;
while (1) {
remote_flow = LIST_FIRST(&pmd->implicit_flows);
if (!remote_flow)
break;
/*
* Remove all implicit rules on the remote.
* Keep the local rule to redirect packets on TX.
* Keep also the last implicit local rule: ISOLATE.
*/
if (remote_flow->msg.t.tcm_ifindex == pmd->if_index)
break;
if (tap_flow_destroy_pmd(pmd, remote_flow, NULL) < 0)
goto error;
}
/* Switch the TC rule according to pmd->flow_isolate */
if (tap_flow_implicit_create(pmd, TAP_ISOLATE) == -1)
goto error;
} else {
/* Switch the TC rule according to pmd->flow_isolate */
if (tap_flow_implicit_create(pmd, TAP_ISOLATE) == -1)
goto error;
if (!pmd->remote_if_index)
return 0;
if (tap_flow_implicit_create(pmd, TAP_REMOTE_TX) < 0)
goto error;
if (tap_flow_implicit_create(pmd, TAP_REMOTE_LOCAL_MAC) < 0)
goto error;
if (tap_flow_implicit_create(pmd, TAP_REMOTE_BROADCAST) < 0)
goto error;
if (tap_flow_implicit_create(pmd, TAP_REMOTE_BROADCASTV6) < 0)
goto error;
if (dev->data->promiscuous &&
tap_flow_implicit_create(pmd, TAP_REMOTE_PROMISC) < 0)
goto error;
if (dev->data->all_multicast &&
tap_flow_implicit_create(pmd, TAP_REMOTE_ALLMULTI) < 0)
goto error;
}
return 0;
error:
pmd->flow_isolate = 0;
return rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_UNSPECIFIED, NULL,
"TC rule creation failed");
}
/**
* Destroy all flows.
*
* @see rte_flow_flush()
* @see rte_flow_ops
*/
int
tap_flow_flush(struct rte_eth_dev *dev, struct rte_flow_error *error)
{
struct pmd_internals *pmd = dev->data->dev_private;
struct rte_flow *flow;
while (!LIST_EMPTY(&pmd->flows)) {
flow = LIST_FIRST(&pmd->flows);
if (tap_flow_destroy(dev, flow, error) < 0)
return -1;
}
return 0;
}
/**
* Add an implicit flow rule on the remote device to make sure traffic gets to
* the tap netdevice from there.
*
* @param pmd
* Pointer to private structure.
* @param[in] idx
* The idx in the implicit_rte_flows array specifying which rule to apply.
*
* @return -1 if the rule couldn't be applied, 0 otherwise.
*/
int tap_flow_implicit_create(struct pmd_internals *pmd,
enum implicit_rule_index idx)
{
uint16_t flags = NLM_F_REQUEST | NLM_F_ACK | NLM_F_EXCL | NLM_F_CREATE;
struct rte_flow_action *actions = implicit_rte_flows[idx].actions;
struct rte_flow_action isolate_actions[2] = {
[1] = {
.type = RTE_FLOW_ACTION_TYPE_END,
},
};
struct rte_flow_item *items = implicit_rte_flows[idx].items;
struct rte_flow_attr *attr = &implicit_rte_flows[idx].attr;
struct rte_flow_item_eth eth_local = { .type = 0 };
uint16_t if_index = pmd->remote_if_index;
struct rte_flow *remote_flow = NULL;
struct nlmsg *msg = NULL;
int err = 0;
struct rte_flow_item items_local[2] = {
[0] = {
.type = items[0].type,
.spec = ð_local,
.mask = items[0].mask,
},
[1] = {
.type = items[1].type,
}
};
remote_flow = rte_malloc(__func__, sizeof(struct rte_flow), 0);
if (!remote_flow) {
TAP_LOG(ERR, "Cannot allocate memory for rte_flow");
goto fail;
}
msg = &remote_flow->msg;
if (idx == TAP_REMOTE_TX) {
if_index = pmd->if_index;
} else if (idx == TAP_ISOLATE) {
if_index = pmd->if_index;
/* Don't be exclusive for this rule, it can be changed later. */
flags = NLM_F_REQUEST | NLM_F_ACK | NLM_F_CREATE;
isolate_actions[0].type = pmd->flow_isolate ?
RTE_FLOW_ACTION_TYPE_DROP :
RTE_FLOW_ACTION_TYPE_PASSTHRU;
actions = isolate_actions;
} else if (idx == TAP_REMOTE_LOCAL_MAC) {
/*
* eth addr couldn't be set in implicit_rte_flows[] as it is not
* known at compile time.
*/
memcpy(ð_local.dst, &pmd->eth_addr, sizeof(pmd->eth_addr));
items = items_local;
}
tc_init_msg(msg, if_index, RTM_NEWTFILTER, flags);
msg->t.tcm_info = TC_H_MAKE(0, htons(ETH_P_ALL));
/*
* The ISOLATE rule is always present and must have a static handle, as
* the action is changed whether the feature is enabled (DROP) or
* disabled (PASSTHRU).
* There is just one REMOTE_PROMISCUOUS rule in all cases. It should
* have a static handle such that adding it twice will fail with EEXIST
* with any kernel version. Remark: old kernels may falsely accept the
* same REMOTE_PROMISCUOUS rules if they had different handles.
*/
if (idx == TAP_ISOLATE)
remote_flow->msg.t.tcm_handle = ISOLATE_HANDLE;
else if (idx == TAP_REMOTE_PROMISC)
remote_flow->msg.t.tcm_handle = REMOTE_PROMISCUOUS_HANDLE;
else
tap_flow_set_handle(remote_flow);
if (priv_flow_process(pmd, attr, items, actions, NULL,
remote_flow, implicit_rte_flows[idx].mirred)) {
TAP_LOG(ERR, "rte flow rule validation failed");
goto fail;
}
err = tap_nl_send(pmd->nlsk_fd, &msg->nh);
if (err < 0) {
TAP_LOG(ERR, "Failure sending nl request");
goto fail;
}
err = tap_nl_recv_ack(pmd->nlsk_fd);
if (err < 0) {
/* Silently ignore re-entering existing rule */
if (errno == EEXIST)
goto success;
TAP_LOG(ERR,
"Kernel refused TC filter rule creation (%d): %s",
errno, strerror(errno));
goto fail;
}
LIST_INSERT_HEAD(&pmd->implicit_flows, remote_flow, next);
success:
return 0;
fail:
if (remote_flow)
rte_free(remote_flow);
return -1;
}
/**
* Remove specific implicit flow rule on the remote device.
*
* @param[in, out] pmd
* Pointer to private structure.
* @param[in] idx
* The idx in the implicit_rte_flows array specifying which rule to remove.
*
* @return -1 if one of the implicit rules couldn't be created, 0 otherwise.
*/
int tap_flow_implicit_destroy(struct pmd_internals *pmd,
enum implicit_rule_index idx)
{
struct rte_flow *remote_flow;
int cur_prio = -1;
int idx_prio = implicit_rte_flows[idx].attr.priority + PRIORITY_OFFSET;
for (remote_flow = LIST_FIRST(&pmd->implicit_flows);
remote_flow;
remote_flow = LIST_NEXT(remote_flow, next)) {
cur_prio = (remote_flow->msg.t.tcm_info >> 16) & PRIORITY_MASK;
if (cur_prio != idx_prio)
continue;
return tap_flow_destroy_pmd(pmd, remote_flow, NULL);
}
return 0;
}
/**
* Destroy all implicit flows.
*
* @see rte_flow_flush()
*/
int
tap_flow_implicit_flush(struct pmd_internals *pmd, struct rte_flow_error *error)
{
struct rte_flow *remote_flow;
while (!LIST_EMPTY(&pmd->implicit_flows)) {
remote_flow = LIST_FIRST(&pmd->implicit_flows);
if (tap_flow_destroy_pmd(pmd, remote_flow, error) < 0)
return -1;
}
return 0;
}
#define MAX_RSS_KEYS 256
#define KEY_IDX_OFFSET (3 * MAX_RSS_KEYS)
#define SEC_NAME_CLS_Q "cls_q"
const char *sec_name[SEC_MAX] = {
[SEC_L3_L4] = "l3_l4",
};
/**
* Enable RSS on tap: create TC rules for queuing.
*
* @param[in, out] pmd
* Pointer to private structure.
*
* @param[in] attr
* Pointer to rte_flow to get flow group
*
* @param[out] error
* Pointer to error reporting if not NULL.
*
* @return 0 on success, negative value on failure.
*/
static int rss_enable(struct pmd_internals *pmd,
const struct rte_flow_attr *attr,
struct rte_flow_error *error)
{
struct rte_flow *rss_flow = NULL;
struct nlmsg *msg = NULL;
/* 4096 is the maximum number of instructions for a BPF program */
char annotation[64];
int i;
int err = 0;
/* unlimit locked memory */
struct rlimit memlock_limit = {
.rlim_cur = RLIM_INFINITY,
.rlim_max = RLIM_INFINITY,
};
setrlimit(RLIMIT_MEMLOCK, &memlock_limit);
/* Get a new map key for a new RSS rule */
err = bpf_rss_key(KEY_CMD_INIT, NULL);
if (err < 0) {
rte_flow_error_set(
error, EINVAL, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"Failed to initialize BPF RSS keys");
return -1;
}
/*
* Create BPF RSS MAP
*/
pmd->map_fd = tap_flow_bpf_rss_map_create(sizeof(__u32), /* key size */
sizeof(struct rss_key),
MAX_RSS_KEYS);
if (pmd->map_fd < 0) {
TAP_LOG(ERR,
"Failed to create BPF map (%d): %s",
errno, strerror(errno));
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"Kernel too old or not configured "
"to support BPF maps");
return -ENOTSUP;
}
/*
* Add a rule per queue to match reclassified packets and direct them to
* the correct queue.
*/
for (i = 0; i < pmd->dev->data->nb_rx_queues; i++) {
pmd->bpf_fd[i] = tap_flow_bpf_cls_q(i);
if (pmd->bpf_fd[i] < 0) {
TAP_LOG(ERR,
"Failed to load BPF section %s for queue %d",
SEC_NAME_CLS_Q, i);
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE,
NULL,
"Kernel too old or not configured "
"to support BPF programs loading");
return -ENOTSUP;
}
rss_flow = rte_malloc(__func__, sizeof(struct rte_flow), 0);
if (!rss_flow) {
TAP_LOG(ERR,
"Cannot allocate memory for rte_flow");
return -1;
}
msg = &rss_flow->msg;
tc_init_msg(msg, pmd->if_index, RTM_NEWTFILTER, NLM_F_REQUEST |
NLM_F_ACK | NLM_F_EXCL | NLM_F_CREATE);
msg->t.tcm_info = TC_H_MAKE(0, htons(ETH_P_ALL));
tap_flow_set_handle(rss_flow);
uint16_t group = attr->group << GROUP_SHIFT;
uint16_t prio = group | (i + PRIORITY_OFFSET);
msg->t.tcm_info = TC_H_MAKE(prio << 16, msg->t.tcm_info);
msg->t.tcm_parent = TC_H_MAKE(MULTIQ_MAJOR_HANDLE, 0);
tap_nlattr_add(&msg->nh, TCA_KIND, sizeof("bpf"), "bpf");
if (tap_nlattr_nested_start(msg, TCA_OPTIONS) < 0)
return -1;
tap_nlattr_add32(&msg->nh, TCA_BPF_FD, pmd->bpf_fd[i]);
snprintf(annotation, sizeof(annotation), "[%s%d]",
SEC_NAME_CLS_Q, i);
tap_nlattr_add(&msg->nh, TCA_BPF_NAME, strlen(annotation) + 1,
annotation);
/* Actions */
{
struct action_data adata = {
.id = "skbedit",
.skbedit = {
.skbedit = {
.action = TC_ACT_PIPE,
},
.queue = i,
},
};
if (add_actions(rss_flow, 1, &adata, TCA_BPF_ACT) < 0)
return -1;
}
tap_nlattr_nested_finish(msg); /* nested TCA_OPTIONS */
/* Netlink message is now ready to be sent */
if (tap_nl_send(pmd->nlsk_fd, &msg->nh) < 0)
return -1;
err = tap_nl_recv_ack(pmd->nlsk_fd);
if (err < 0) {
TAP_LOG(ERR,
"Kernel refused TC filter rule creation (%d): %s",
errno, strerror(errno));
return err;
}
LIST_INSERT_HEAD(&pmd->rss_flows, rss_flow, next);
}
pmd->rss_enabled = 1;
return err;
}
/**
* Manage bpf RSS keys repository with operations: init, get, release
*
* @param[in] cmd
* Command on RSS keys: init, get, release
*
* @param[in, out] key_idx
* Pointer to RSS Key index (out for get command, in for release command)
*
* @return -1 if couldn't get, release or init the RSS keys, 0 otherwise.
*/
static int bpf_rss_key(enum bpf_rss_key_e cmd, __u32 *key_idx)
{
__u32 i;
int err = 0;
static __u32 num_used_keys;
static __u32 rss_keys[MAX_RSS_KEYS] = {KEY_STAT_UNSPEC};
static __u32 rss_keys_initialized;
__u32 key;
switch (cmd) {
case KEY_CMD_GET:
if (!rss_keys_initialized) {
err = -1;
break;
}
if (num_used_keys == RTE_DIM(rss_keys)) {
err = -1;
break;
}
*key_idx = num_used_keys % RTE_DIM(rss_keys);
while (rss_keys[*key_idx] == KEY_STAT_USED)
*key_idx = (*key_idx + 1) % RTE_DIM(rss_keys);
rss_keys[*key_idx] = KEY_STAT_USED;
/*
* Add an offset to key_idx in order to handle a case of
* RSS and non RSS flows mixture.
* If a non RSS flow is destroyed it has an eBPF map
* index 0 (initialized on flow creation) and might
* unintentionally remove RSS entry 0 from eBPF map.
* To avoid this issue, add an offset to the real index
* during a KEY_CMD_GET operation and subtract this offset
* during a KEY_CMD_RELEASE operation in order to restore
* the real index.
*/
*key_idx += KEY_IDX_OFFSET;
num_used_keys++;
break;
case KEY_CMD_RELEASE:
if (!rss_keys_initialized)
break;
/*
* Subtract offest to restore real key index
* If a non RSS flow is falsely trying to release map
* entry 0 - the offset subtraction will calculate the real
* map index as an out-of-range value and the release operation
* will be silently ignored.
*/
key = *key_idx - KEY_IDX_OFFSET;
if (key >= RTE_DIM(rss_keys))
break;
if (rss_keys[key] == KEY_STAT_USED) {
rss_keys[key] = KEY_STAT_AVAILABLE;
num_used_keys--;
}
break;
case KEY_CMD_INIT:
for (i = 0; i < RTE_DIM(rss_keys); i++)
rss_keys[i] = KEY_STAT_AVAILABLE;
rss_keys_initialized = 1;
num_used_keys = 0;
break;
case KEY_CMD_DEINIT:
for (i = 0; i < RTE_DIM(rss_keys); i++)
rss_keys[i] = KEY_STAT_UNSPEC;
rss_keys_initialized = 0;
num_used_keys = 0;
break;
default:
break;
}
return err;
}
/**
* Add RSS hash calculations and queue selection
*
* @param[in, out] pmd
* Pointer to internal structure. Used to set/get RSS map fd
*
* @param[in] rss
* Pointer to RSS flow actions
*
* @param[out] error
* Pointer to error reporting if not NULL.
*
* @return 0 on success, negative value on failure
*/
static int rss_add_actions(struct rte_flow *flow, struct pmd_internals *pmd,
const struct rte_flow_action_rss *rss,
struct rte_flow_error *error)
{
/* 4096 is the maximum number of instructions for a BPF program */
unsigned int i;
int err;
struct rss_key rss_entry = { .hash_fields = 0,
.key_size = 0 };
/* Check supported RSS features */
if (rss->func != RTE_ETH_HASH_FUNCTION_DEFAULT)
return rte_flow_error_set
(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_UNSPECIFIED, NULL,
"non-default RSS hash functions are not supported");
if (rss->level)
return rte_flow_error_set
(error, ENOTSUP, RTE_FLOW_ERROR_TYPE_UNSPECIFIED, NULL,
"a nonzero RSS encapsulation level is not supported");
/* Get a new map key for a new RSS rule */
err = bpf_rss_key(KEY_CMD_GET, &flow->key_idx);
if (err < 0) {
rte_flow_error_set(
error, EINVAL, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"Failed to get BPF RSS key");
return -1;
}
/* Update RSS map entry with queues */
rss_entry.nb_queues = rss->queue_num;
for (i = 0; i < rss->queue_num; i++)
rss_entry.queues[i] = rss->queue[i];
rss_entry.hash_fields =
(1 << HASH_FIELD_IPV4_L3_L4) | (1 << HASH_FIELD_IPV6_L3_L4);
/* Add this RSS entry to map */
err = tap_flow_bpf_update_rss_elem(pmd->map_fd,
&flow->key_idx, &rss_entry);
if (err) {
TAP_LOG(ERR,
"Failed to update BPF map entry #%u (%d): %s",
flow->key_idx, errno, strerror(errno));
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"Kernel too old or not configured "
"to support BPF maps updates");
return -ENOTSUP;
}
/*
* Load bpf rules to calculate hash for this key_idx
*/
flow->bpf_fd[SEC_L3_L4] =
tap_flow_bpf_calc_l3_l4_hash(flow->key_idx, pmd->map_fd);
if (flow->bpf_fd[SEC_L3_L4] < 0) {
TAP_LOG(ERR,
"Failed to load BPF section %s (%d): %s",
sec_name[SEC_L3_L4], errno, strerror(errno));
rte_flow_error_set(
error, ENOTSUP, RTE_FLOW_ERROR_TYPE_HANDLE, NULL,
"Kernel too old or not configured "
"to support BPF program loading");
return -ENOTSUP;
}
/* Actions */
{
struct action_data adata[] = {
{
.id = "bpf",
.bpf = {
.bpf_fd = flow->bpf_fd[SEC_L3_L4],
.annotation = sec_name[SEC_L3_L4],
.bpf = {
.action = TC_ACT_PIPE,
},
},
},
};
if (add_actions(flow, RTE_DIM(adata), adata,
TCA_FLOWER_ACT) < 0)
return -1;
}
return 0;
}
/**
* Manage filter operations.
*
* @param dev
* Pointer to Ethernet device structure.
* @param filter_type
* Filter type.
* @param filter_op
* Operation to perform.
* @param arg
* Pointer to operation-specific structure.
*
* @return
* 0 on success, negative errno value on failure.
*/
int
tap_dev_filter_ctrl(struct rte_eth_dev *dev,
enum rte_filter_type filter_type,
enum rte_filter_op filter_op,
void *arg)
{
switch (filter_type) {
case RTE_ETH_FILTER_GENERIC:
if (filter_op != RTE_ETH_FILTER_GET)
return -EINVAL;
*(const void **)arg = &tap_flow_ops;
return 0;
default:
TAP_LOG(ERR, "%p: filter type (%d) not supported",
dev, filter_type);
}
return -EINVAL;
}
|