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ovs/lib/dpif-netdev.c
Jesse Gross fde05aded2 udatapath: Implement ZERO_TCP_FLAGS option. 
An option to zero the TCP flags when querying flow stats was added
to the kernel datapath to support NetFlow active timeouts.  This
adds that same support to the user datapath.
2009-11-06 14:35:59 -08:00

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/*
* Copyright (c) 2009 Nicira Networks.
*
* 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 "dpif.h"
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <net/if.h>
#include <netinet/in.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <unistd.h>
#include "csum.h"
#include "dpif-provider.h"
#include "flow.h"
#include "hmap.h"
#include "list.h"
#include "netdev.h"
#include "odp-util.h"
#include "ofp-print.h"
#include "ofpbuf.h"
#include "packets.h"
#include "poll-loop.h"
#include "queue.h"
#include "timeval.h"
#include "util.h"
#include "vlog.h"
#define THIS_MODULE VLM_dpif_netdev
/* Configuration parameters. */
enum { N_QUEUES = 2 }; /* Number of queues for dpif_recv(). */
enum { MAX_QUEUE_LEN = 100 }; /* Maximum number of packets per queue. */
enum { N_GROUPS = 16 }; /* Number of port groups. */
enum { MAX_PORTS = 256 }; /* Maximum number of ports. */
enum { MAX_FLOWS = 65536 }; /* Maximum number of flows in flow table. */
/* Enough headroom to add a vlan tag, plus an extra 2 bytes to allow IP
* headers to be aligned on a 4-byte boundary. */
enum { DP_NETDEV_HEADROOM = 2 + VLAN_HEADER_LEN };
/* Datapath based on the network device interface from netdev.h. */
struct dp_netdev {
struct list node;
int dp_idx;
int open_cnt;
bool deleted;
bool drop_frags; /* Drop all IP fragments, if true. */
struct ovs_queue queues[N_QUEUES]; /* Messages queued for dpif_recv(). */
struct hmap flow_table; /* Flow table. */
struct odp_port_group groups[N_GROUPS];
/* Statistics. */
long long int n_frags; /* Number of dropped IP fragments. */
long long int n_hit; /* Number of flow table matches. */
long long int n_missed; /* Number of flow table misses. */
long long int n_lost; /* Number of misses not passed to client. */
/* Ports. */
int n_ports;
struct dp_netdev_port *ports[MAX_PORTS];
struct list port_list;
unsigned int serial;
};
/* A port in a netdev-based datapath. */
struct dp_netdev_port {
int port_no; /* Index into dp_netdev's 'ports'. */
struct list node; /* Element in dp_netdev's 'port_list'. */
struct netdev *netdev;
bool internal; /* Internal port (as ODP_PORT_INTERNAL)? */
};
/* A flow in dp_netdev's 'flow_table'. */
struct dp_netdev_flow {
struct hmap_node node; /* Element in dp_netdev's 'flow_table'. */
flow_t key;
/* Statistics. */
struct timeval used; /* Last used time, in milliseconds. */
long long int packet_count; /* Number of packets matched. */
long long int byte_count; /* Number of bytes matched. */
uint8_t ip_tos; /* IP TOS value. */
uint16_t tcp_ctl; /* Bitwise-OR of seen tcp_ctl values. */
/* Actions. */
union odp_action *actions;
unsigned int n_actions;
};
/* Interface to netdev-based datapath. */
struct dpif_netdev {
struct dpif dpif;
struct dp_netdev *dp;
int listen_mask;
unsigned int dp_serial;
};
/* All netdev-based datapaths. */
static struct dp_netdev *dp_netdevs[256];
struct list dp_netdev_list = LIST_INITIALIZER(&dp_netdev_list);
enum { N_DP_NETDEVS = ARRAY_SIZE(dp_netdevs) };
/* Maximum port MTU seen so far. */
static int max_mtu = ETH_PAYLOAD_MAX;
static int get_port_by_number(struct dp_netdev *, uint16_t port_no,
struct dp_netdev_port **portp);
static int get_port_by_name(struct dp_netdev *, const char *devname,
struct dp_netdev_port **portp);
static void dp_netdev_free(struct dp_netdev *);
static void dp_netdev_flow_flush(struct dp_netdev *);
static int do_add_port(struct dp_netdev *, const char *devname, uint16_t flags,
uint16_t port_no);
static int do_del_port(struct dp_netdev *, uint16_t port_no);
static int dp_netdev_output_control(struct dp_netdev *, const struct ofpbuf *,
int queue_no, int port_no, uint32_t arg);
static int dp_netdev_execute_actions(struct dp_netdev *,
struct ofpbuf *, flow_t *,
const union odp_action *, int n);
static struct dpif_netdev *
dpif_netdev_cast(const struct dpif *dpif)
{
dpif_assert_class(dpif, &dpif_netdev_class);
return CONTAINER_OF(dpif, struct dpif_netdev, dpif);
}
static struct dp_netdev *
get_dp_netdev(const struct dpif *dpif)
{
return dpif_netdev_cast(dpif)->dp;
}
static int
name_to_dp_idx(const char *name)
{
if (!strncmp(name, "dp", 2) && isdigit((unsigned char)name[2])) {
int dp_idx = atoi(name + 2);
if (dp_idx >= 0 && dp_idx < N_DP_NETDEVS) {
return dp_idx;
}
}
return -1;
}
static struct dp_netdev *
find_dp_netdev(const char *name)
{
int dp_idx;
size_t i;
dp_idx = name_to_dp_idx(name);
if (dp_idx >= 0) {
return dp_netdevs[dp_idx];
}
for (i = 0; i < N_DP_NETDEVS; i++) {
struct dp_netdev *dp = dp_netdevs[i];
if (dp) {
struct dp_netdev_port *port;
if (!get_port_by_name(dp, name, &port)) {
return dp;
}
}
}
return NULL;
}
static struct dpif *
create_dpif_netdev(struct dp_netdev *dp)
{
struct dpif_netdev *dpif;
char *dpname;
dp->open_cnt++;
dpname = xasprintf("netdev:dp%d", dp->dp_idx);
dpif = xmalloc(sizeof *dpif);
dpif_init(&dpif->dpif, &dpif_netdev_class, dpname, dp->dp_idx, dp->dp_idx);
dpif->dp = dp;
dpif->listen_mask = 0;
dpif->dp_serial = dp->serial;
free(dpname);
return &dpif->dpif;
}
static int
create_dp_netdev(const char *name, int dp_idx, struct dpif **dpifp)
{
struct dp_netdev *dp;
int error;
int i;
if (dp_netdevs[dp_idx]) {
return EBUSY;
}
/* Create datapath. */
dp_netdevs[dp_idx] = dp = xcalloc(1, sizeof *dp);
list_push_back(&dp_netdev_list, &dp->node);
dp->dp_idx = dp_idx;
dp->open_cnt = 0;
dp->drop_frags = false;
for (i = 0; i < N_QUEUES; i++) {
queue_init(&dp->queues[i]);
}
hmap_init(&dp->flow_table);
for (i = 0; i < N_GROUPS; i++) {
dp->groups[i].ports = NULL;
dp->groups[i].n_ports = 0;
dp->groups[i].group = i;
}
list_init(&dp->port_list);
error = do_add_port(dp, name, ODP_PORT_INTERNAL, ODPP_LOCAL);
if (error) {
dp_netdev_free(dp);
return error;
}
*dpifp = create_dpif_netdev(dp);
return 0;
}
static int
dpif_netdev_open(const char *name UNUSED, char *suffix, bool create,
struct dpif **dpifp)
{
if (create) {
if (find_dp_netdev(suffix)) {
return EEXIST;
} else {
int dp_idx = name_to_dp_idx(suffix);
if (dp_idx >= 0) {
return create_dp_netdev(suffix, dp_idx, dpifp);
} else {
/* Scan for unused dp_idx number. */
for (dp_idx = 0; dp_idx < N_DP_NETDEVS; dp_idx++) {
int error = create_dp_netdev(suffix, dp_idx, dpifp);
if (error != EBUSY) {
return error;
}
}
/* All datapath numbers in use. */
return ENOBUFS;
}
}
} else {
struct dp_netdev *dp = find_dp_netdev(suffix);
if (dp) {
*dpifp = create_dpif_netdev(dp);
return 0;
} else {
return ENODEV;
}
}
}
static void
dp_netdev_free(struct dp_netdev *dp)
{
int i;
dp_netdev_flow_flush(dp);
while (dp->n_ports > 0) {
struct dp_netdev_port *port = CONTAINER_OF(
dp->port_list.next, struct dp_netdev_port, node);
do_del_port(dp, port->port_no);
}
for (i = 0; i < N_QUEUES; i++) {
queue_destroy(&dp->queues[i]);
}
hmap_destroy(&dp->flow_table);
for (i = 0; i < N_GROUPS; i++) {
free(dp->groups[i].ports);
}
dp_netdevs[dp->dp_idx] = NULL;
list_remove(&dp->node);
free(dp);
}
static void
dpif_netdev_close(struct dpif *dpif)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
assert(dp->open_cnt > 0);
if (--dp->open_cnt == 0 && dp->deleted) {
dp_netdev_free(dp);
}
free(dpif);
}
static int
dpif_netdev_delete(struct dpif *dpif)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
dp->deleted = true;
return 0;
}
static int
dpif_netdev_get_stats(const struct dpif *dpif, struct odp_stats *stats)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
memset(stats, 0, sizeof *stats);
stats->n_flows = hmap_count(&dp->flow_table);
stats->cur_capacity = hmap_capacity(&dp->flow_table);
stats->max_capacity = MAX_FLOWS;
stats->n_ports = dp->n_ports;
stats->max_ports = MAX_PORTS;
stats->max_groups = N_GROUPS;
stats->n_frags = dp->n_frags;
stats->n_hit = dp->n_hit;
stats->n_missed = dp->n_missed;
stats->n_lost = dp->n_lost;
stats->max_miss_queue = MAX_QUEUE_LEN;
stats->max_action_queue = MAX_QUEUE_LEN;
return 0;
}
static int
dpif_netdev_get_drop_frags(const struct dpif *dpif, bool *drop_fragsp)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
*drop_fragsp = dp->drop_frags;
return 0;
}
static int
dpif_netdev_set_drop_frags(struct dpif *dpif, bool drop_frags)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
dp->drop_frags = drop_frags;
return 0;
}
static int
do_add_port(struct dp_netdev *dp, const char *devname, uint16_t flags,
uint16_t port_no)
{
bool internal = (flags & ODP_PORT_INTERNAL) != 0;
struct dp_netdev_port *port;
struct netdev *netdev;
int mtu;
int error;
/* XXX reject devices already in some dp_netdev. */
/* Open and validate network device. */
if (!internal) {
error = netdev_open(devname, NETDEV_ETH_TYPE_ANY, &netdev);
} else {
char *tapname = xasprintf("tap:%s", devname);
error = netdev_open(tapname, NETDEV_ETH_TYPE_ANY, &netdev);
free(tapname);
}
if (error) {
return error;
}
/* XXX reject loopback devices */
/* XXX reject non-Ethernet devices */
error = netdev_turn_flags_on(netdev, NETDEV_PROMISC, false);
if (error) {
netdev_close(netdev);
return error;
}
port = xmalloc(sizeof *port);
port->port_no = port_no;
port->netdev = netdev;
port->internal = internal;
netdev_get_mtu(netdev, &mtu);
if (mtu > max_mtu) {
max_mtu = mtu;
}
list_push_back(&dp->port_list, &port->node);
dp->ports[port_no] = port;
dp->n_ports++;
dp->serial++;
return 0;
}
static int
dpif_netdev_port_add(struct dpif *dpif, const char *devname, uint16_t flags,
uint16_t *port_nop)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
int port_no;
for (port_no = 0; port_no < MAX_PORTS; port_no++) {
if (!dp->ports[port_no]) {
*port_nop = port_no;
return do_add_port(dp, devname, flags, port_no);
}
}
return EFBIG;
}
static int
dpif_netdev_port_del(struct dpif *dpif, uint16_t port_no)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
return port_no == ODPP_LOCAL ? EINVAL : do_del_port(dp, port_no);
}
static bool
is_valid_port_number(uint16_t port_no)
{
return port_no < MAX_PORTS;
}
static int
get_port_by_number(struct dp_netdev *dp,
uint16_t port_no, struct dp_netdev_port **portp)
{
if (!is_valid_port_number(port_no)) {
*portp = NULL;
return EINVAL;
} else {
*portp = dp->ports[port_no];
return *portp ? 0 : ENOENT;
}
}
static int
get_port_by_name(struct dp_netdev *dp,
const char *devname, struct dp_netdev_port **portp)
{
struct dp_netdev_port *port;
LIST_FOR_EACH (port, struct dp_netdev_port, node, &dp->port_list) {
if (!strcmp(netdev_get_name(port->netdev), devname)) {
*portp = port;
return 0;
}
}
return ENOENT;
}
static int
do_del_port(struct dp_netdev *dp, uint16_t port_no)
{
struct dp_netdev_port *port;
int error;
error = get_port_by_number(dp, port_no, &port);
if (error) {
return error;
}
list_remove(&port->node);
dp->ports[port->port_no] = NULL;
dp->n_ports--;
dp->serial++;
netdev_close(port->netdev);
free(port);
return 0;
}
static void
answer_port_query(const struct dp_netdev_port *port, struct odp_port *odp_port)
{
memset(odp_port, 0, sizeof *odp_port);
ovs_strlcpy(odp_port->devname, netdev_get_name(port->netdev),
sizeof odp_port->devname);
odp_port->port = port->port_no;
odp_port->flags = port->internal ? ODP_PORT_INTERNAL : 0;
}
static int
dpif_netdev_port_query_by_number(const struct dpif *dpif, uint16_t port_no,
struct odp_port *odp_port)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_port *port;
int error;
error = get_port_by_number(dp, port_no, &port);
if (!error) {
answer_port_query(port, odp_port);
}
return error;
}
static int
dpif_netdev_port_query_by_name(const struct dpif *dpif, const char *devname,
struct odp_port *odp_port)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_port *port;
int error;
error = get_port_by_name(dp, devname, &port);
if (!error) {
answer_port_query(port, odp_port);
}
return error;
}
static void
dp_netdev_free_flow(struct dp_netdev *dp, struct dp_netdev_flow *flow)
{
hmap_remove(&dp->flow_table, &flow->node);
free(flow->actions);
free(flow);
}
static void
dp_netdev_flow_flush(struct dp_netdev *dp)
{
struct dp_netdev_flow *flow, *next;
HMAP_FOR_EACH_SAFE (flow, next, struct dp_netdev_flow, node,
&dp->flow_table) {
dp_netdev_free_flow(dp, flow);
}
}
static int
dpif_netdev_flow_flush(struct dpif *dpif)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
dp_netdev_flow_flush(dp);
return 0;
}
static int
dpif_netdev_port_list(const struct dpif *dpif, struct odp_port *ports, int n)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_port *port;
int i;
i = 0;
LIST_FOR_EACH (port, struct dp_netdev_port, node, &dp->port_list) {
struct odp_port *odp_port = &ports[i];
if (i >= n) {
break;
}
answer_port_query(port, odp_port);
i++;
}
return dp->n_ports;
}
static int
dpif_netdev_port_poll(const struct dpif *dpif_, char **devnamep UNUSED)
{
struct dpif_netdev *dpif = dpif_netdev_cast(dpif_);
if (dpif->dp_serial != dpif->dp->serial) {
dpif->dp_serial = dpif->dp->serial;
return ENOBUFS;
} else {
return EAGAIN;
}
}
static void
dpif_netdev_port_poll_wait(const struct dpif *dpif_)
{
struct dpif_netdev *dpif = dpif_netdev_cast(dpif_);
if (dpif->dp_serial != dpif->dp->serial) {
poll_immediate_wake();
}
}
static int
get_port_group(const struct dpif *dpif, int group_no,
struct odp_port_group **groupp)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
if (group_no >= 0 && group_no < N_GROUPS) {
*groupp = &dp->groups[group_no];
return 0;
} else {
*groupp = NULL;
return EINVAL;
}
}
static int
dpif_netdev_port_group_get(const struct dpif *dpif, int group_no,
uint16_t ports[], int n)
{
struct odp_port_group *group;
int error;
if (n < 0) {
return -EINVAL;
}
error = get_port_group(dpif, group_no, &group);
if (!error) {
memcpy(ports, group->ports, MIN(n, group->n_ports) * sizeof *ports);
return group->n_ports;
} else {
return -error;
}
}
static int
dpif_netdev_port_group_set(struct dpif *dpif, int group_no,
const uint16_t ports[], int n)
{
struct odp_port_group *group;
int error;
if (n < 0 || n > MAX_PORTS) {
return EINVAL;
}
error = get_port_group(dpif, group_no, &group);
if (!error) {
free(group->ports);
group->ports = xmemdup(ports, n * sizeof *group->ports);
group->n_ports = n;
group->group = group_no;
}
return error;
}
static struct dp_netdev_flow *
dp_netdev_lookup_flow(const struct dp_netdev *dp, const flow_t *key)
{
struct dp_netdev_flow *flow;
assert(key->reserved == 0);
HMAP_FOR_EACH_WITH_HASH (flow, struct dp_netdev_flow, node,
flow_hash(key, 0), &dp->flow_table) {
if (flow_equal(&flow->key, key)) {
return flow;
}
}
return NULL;
}
static void
answer_flow_query(struct dp_netdev_flow *flow, uint32_t query_flags,
struct odp_flow *odp_flow)
{
if (flow) {
odp_flow->key = flow->key;
odp_flow->stats.n_packets = flow->packet_count;
odp_flow->stats.n_bytes = flow->byte_count;
odp_flow->stats.used_sec = flow->used.tv_sec;
odp_flow->stats.used_nsec = flow->used.tv_usec * 1000;
odp_flow->stats.tcp_flags = TCP_FLAGS(flow->tcp_ctl);
odp_flow->stats.ip_tos = flow->ip_tos;
odp_flow->stats.error = 0;
if (odp_flow->n_actions > 0) {
unsigned int n = MIN(odp_flow->n_actions, flow->n_actions);
memcpy(odp_flow->actions, flow->actions,
n * sizeof *odp_flow->actions);
odp_flow->n_actions = flow->n_actions;
}
if (query_flags & ODPFF_ZERO_TCP_FLAGS) {
flow->tcp_ctl = 0;
}
} else {
odp_flow->stats.error = ENOENT;
}
}
static int
dpif_netdev_flow_get(const struct dpif *dpif, struct odp_flow flows[], int n)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
int i;
for (i = 0; i < n; i++) {
struct odp_flow *odp_flow = &flows[i];
answer_flow_query(dp_netdev_lookup_flow(dp, &odp_flow->key),
odp_flow->flags, odp_flow);
}
return 0;
}
static int
dpif_netdev_validate_actions(const union odp_action *actions, int n_actions,
bool *mutates)
{
unsigned int i;
*mutates = false;
for (i = 0; i < n_actions; i++) {
const union odp_action *a = &actions[i];
switch (a->type) {
case ODPAT_OUTPUT:
if (a->output.port >= MAX_PORTS) {
return EINVAL;
}
break;
case ODPAT_OUTPUT_GROUP:
*mutates = true;
if (a->output_group.group >= N_GROUPS) {
return EINVAL;
}
break;
case ODPAT_CONTROLLER:
break;
case ODPAT_SET_VLAN_VID:
*mutates = true;
if (a->vlan_vid.vlan_vid & htons(~VLAN_VID_MASK)) {
return EINVAL;
}
break;
case ODPAT_SET_VLAN_PCP:
*mutates = true;
if (a->vlan_pcp.vlan_pcp & ~VLAN_PCP_MASK) {
return EINVAL;
}
break;
case ODPAT_STRIP_VLAN:
case ODPAT_SET_DL_SRC:
case ODPAT_SET_DL_DST:
case ODPAT_SET_NW_SRC:
case ODPAT_SET_NW_DST:
case ODPAT_SET_TP_SRC:
case ODPAT_SET_TP_DST:
*mutates = true;
break;
default:
return EOPNOTSUPP;
}
}
return 0;
}
static int
set_flow_actions(struct dp_netdev_flow *flow, struct odp_flow *odp_flow)
{
size_t n_bytes;
bool mutates;
int error;
if (odp_flow->n_actions >= 4096 / sizeof *odp_flow->actions) {
return EINVAL;
}
error = dpif_netdev_validate_actions(odp_flow->actions,
odp_flow->n_actions, &mutates);
if (error) {
return error;
}
n_bytes = odp_flow->n_actions * sizeof *flow->actions;
flow->actions = xrealloc(flow->actions, n_bytes);
flow->n_actions = odp_flow->n_actions;
memcpy(flow->actions, odp_flow->actions, n_bytes);
return 0;
}
static int
add_flow(struct dpif *dpif, struct odp_flow *odp_flow)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_flow *flow;
int error;
flow = xcalloc(1, sizeof *flow);
flow->key = odp_flow->key;
flow->key.reserved = 0;
error = set_flow_actions(flow, odp_flow);
if (error) {
free(flow);
return error;
}
hmap_insert(&dp->flow_table, &flow->node, flow_hash(&flow->key, 0));
return 0;
}
static void
clear_stats(struct dp_netdev_flow *flow)
{
flow->used.tv_sec = 0;
flow->used.tv_usec = 0;
flow->packet_count = 0;
flow->byte_count = 0;
flow->ip_tos = 0;
flow->tcp_ctl = 0;
}
static int
dpif_netdev_flow_put(struct dpif *dpif, struct odp_flow_put *put)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_flow *flow;
flow = dp_netdev_lookup_flow(dp, &put->flow.key);
if (!flow) {
if (put->flags & ODPPF_CREATE) {
if (hmap_count(&dp->flow_table) < MAX_FLOWS) {
return add_flow(dpif, &put->flow);
} else {
return EFBIG;
}
} else {
return ENOENT;
}
} else {
if (put->flags & ODPPF_MODIFY) {
int error = set_flow_actions(flow, &put->flow);
if (!error && put->flags & ODPPF_ZERO_STATS) {
clear_stats(flow);
}
return error;
} else {
return EEXIST;
}
}
}
static int
dpif_netdev_flow_del(struct dpif *dpif, struct odp_flow *odp_flow)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_flow *flow;
flow = dp_netdev_lookup_flow(dp, &odp_flow->key);
if (flow) {
answer_flow_query(flow, 0, odp_flow);
dp_netdev_free_flow(dp, flow);
return 0;
} else {
return ENOENT;
}
}
static int
dpif_netdev_flow_list(const struct dpif *dpif, struct odp_flow flows[], int n)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct dp_netdev_flow *flow;
int i;
i = 0;
HMAP_FOR_EACH (flow, struct dp_netdev_flow, node, &dp->flow_table) {
if (i >= n) {
break;
}
answer_flow_query(flow, 0, &flows[i++]);
}
return hmap_count(&dp->flow_table);
}
static int
dpif_netdev_execute(struct dpif *dpif, uint16_t in_port,
const union odp_action actions[], int n_actions,
const struct ofpbuf *packet)
{
struct dp_netdev *dp = get_dp_netdev(dpif);
struct ofpbuf copy;
bool mutates;
flow_t flow;
int error;
if (packet->size < ETH_HEADER_LEN || packet->size > UINT16_MAX) {
return EINVAL;
}
error = dpif_netdev_validate_actions(actions, n_actions, &mutates);
if (error) {
return error;
}
if (mutates) {
/* We need a deep copy of 'packet' since we're going to modify its
* data. */
ofpbuf_init(&copy, DP_NETDEV_HEADROOM + packet->size);
copy.data = (char*)copy.base + DP_NETDEV_HEADROOM;
ofpbuf_put(&copy, packet->data, packet->size);
} else {
/* We still need a shallow copy of 'packet', even though we won't
* modify its data, because flow_extract() modifies packet->l2, etc.
* We could probably get away with modifying those but it's more polite
* if we don't. */
copy = *packet;
}
flow_extract(&copy, in_port, &flow);
error = dp_netdev_execute_actions(dp, &copy, &flow, actions, n_actions);
if (mutates) {
ofpbuf_uninit(&copy);
}
return error;
}
static int
dpif_netdev_recv_get_mask(const struct dpif *dpif, int *listen_mask)
{
struct dpif_netdev *dpif_netdev = dpif_netdev_cast(dpif);
*listen_mask = dpif_netdev->listen_mask;
return 0;
}
static int
dpif_netdev_recv_set_mask(struct dpif *dpif, int listen_mask)
{
struct dpif_netdev *dpif_netdev = dpif_netdev_cast(dpif);
if (!(listen_mask & ~ODPL_ALL)) {
dpif_netdev->listen_mask = listen_mask;
return 0;
} else {
return EINVAL;
}
}
static struct ovs_queue *
find_nonempty_queue(struct dpif *dpif)
{
struct dpif_netdev *dpif_netdev = dpif_netdev_cast(dpif);
struct dp_netdev *dp = get_dp_netdev(dpif);
int mask = dpif_netdev->listen_mask;
int i;
for (i = 0; i < N_QUEUES; i++) {
struct ovs_queue *q = &dp->queues[i];
if (q->n && mask & (1u << i)) {
return q;
}
}
return NULL;
}
static int
dpif_netdev_recv(struct dpif *dpif, struct ofpbuf **bufp)
{
struct ovs_queue *q = find_nonempty_queue(dpif);
if (q) {
*bufp = queue_pop_head(q);
return 0;
} else {
return EAGAIN;
}
}
static void
dpif_netdev_recv_wait(struct dpif *dpif)
{
struct ovs_queue *q = find_nonempty_queue(dpif);
if (q) {
poll_immediate_wake();
} else {
/* No messages ready to be received, and dp_wait() will ensure that we
* wake up to queue new messages, so there is nothing to do. */
}
}
static void
dp_netdev_flow_used(struct dp_netdev_flow *flow, const flow_t *key,
const struct ofpbuf *packet)
{
time_timeval(&flow->used);
flow->packet_count++;
flow->byte_count += packet->size;
if (key->dl_type == htons(ETH_TYPE_IP)) {
struct ip_header *nh = packet->l3;
flow->ip_tos = nh->ip_tos;
if (key->nw_proto == IPPROTO_TCP) {
struct tcp_header *th = packet->l4;
flow->tcp_ctl |= th->tcp_ctl;
}
}
}
static void
dp_netdev_port_input(struct dp_netdev *dp, struct dp_netdev_port *port,
struct ofpbuf *packet)
{
struct dp_netdev_flow *flow;
flow_t key;
if (flow_extract(packet, port->port_no, &key) && dp->drop_frags) {
dp->n_frags++;
return;
}
flow = dp_netdev_lookup_flow(dp, &key);
if (flow) {
dp_netdev_flow_used(flow, &key, packet);
dp_netdev_execute_actions(dp, packet, &key,
flow->actions, flow->n_actions);
dp->n_hit++;
} else {
dp->n_missed++;
dp_netdev_output_control(dp, packet, _ODPL_MISS_NR, port->port_no, 0);
}
}
static void
dp_netdev_run(void)
{
struct ofpbuf packet;
struct dp_netdev *dp;
ofpbuf_init(&packet, DP_NETDEV_HEADROOM + max_mtu);
LIST_FOR_EACH (dp, struct dp_netdev, node, &dp_netdev_list) {
struct dp_netdev_port *port;
LIST_FOR_EACH (port, struct dp_netdev_port, node, &dp->port_list) {
int error;
/* Reset packet contents. */
packet.data = (char*)packet.base + DP_NETDEV_HEADROOM;
packet.size = 0;
error = netdev_recv(port->netdev, &packet);
if (!error) {
dp_netdev_port_input(dp, port, &packet);
} else if (error != EAGAIN) {
struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_ERR_RL(&rl, "error receiving data from %s: %s",
netdev_get_name(port->netdev), strerror(error));
}
}
}
ofpbuf_uninit(&packet);
}
static void
dp_netdev_wait(void)
{
struct dp_netdev *dp;
LIST_FOR_EACH (dp, struct dp_netdev, node, &dp_netdev_list) {
struct dp_netdev_port *port;
LIST_FOR_EACH (port, struct dp_netdev_port, node, &dp->port_list) {
netdev_recv_wait(port->netdev);
}
}
}
static void
dp_netdev_modify_vlan_tci(struct ofpbuf *packet, flow_t *key,
uint16_t tci, uint16_t mask)
{
struct vlan_eth_header *veh;
if (key->dl_vlan != htons(ODP_VLAN_NONE)) {
/* Modify 'mask' bits, but maintain other TCI bits. */
veh = packet->l2;
veh->veth_tci &= ~htons(mask);
veh->veth_tci |= htons(tci);
} else {
/* Insert new 802.1Q header. */
struct eth_header *eh = packet->l2;
struct vlan_eth_header tmp;
memcpy(tmp.veth_dst, eh->eth_dst, ETH_ADDR_LEN);
memcpy(tmp.veth_src, eh->eth_src, ETH_ADDR_LEN);
tmp.veth_type = htons(ETH_TYPE_VLAN);
tmp.veth_tci = htons(tci);
tmp.veth_next_type = eh->eth_type;
veh = ofpbuf_push_uninit(packet, VLAN_HEADER_LEN);
memcpy(veh, &tmp, sizeof tmp);
packet->l2 = (char*)packet->l2 - VLAN_HEADER_LEN;
}
key->dl_vlan = veh->veth_tci & htons(VLAN_VID_MASK);
}
static void
dp_netdev_strip_vlan(struct ofpbuf *packet, flow_t *key)
{
struct vlan_eth_header *veh = packet->l2;
if (veh->veth_type == htons(ETH_TYPE_VLAN)) {
struct eth_header tmp;
memcpy(tmp.eth_dst, veh->veth_dst, ETH_ADDR_LEN);
memcpy(tmp.eth_src, veh->veth_src, ETH_ADDR_LEN);
tmp.eth_type = veh->veth_next_type;
packet->size -= VLAN_HEADER_LEN;
packet->data = (char*)packet->data + VLAN_HEADER_LEN;
packet->l2 = (char*)packet->l2 + VLAN_HEADER_LEN;
memcpy(packet->data, &tmp, sizeof tmp);
key->dl_vlan = htons(ODP_VLAN_NONE);
}
}
static void
dp_netdev_set_dl_src(struct ofpbuf *packet,
const uint8_t dl_addr[ETH_ADDR_LEN])
{
struct eth_header *eh = packet->l2;
memcpy(eh->eth_src, dl_addr, sizeof eh->eth_src);
}
static void
dp_netdev_set_dl_dst(struct ofpbuf *packet,
const uint8_t dl_addr[ETH_ADDR_LEN])
{
struct eth_header *eh = packet->l2;
memcpy(eh->eth_dst, dl_addr, sizeof eh->eth_dst);
}
static void
dp_netdev_set_nw_addr(struct ofpbuf *packet, flow_t *key,
const struct odp_action_nw_addr *a)
{
if (key->dl_type == htons(ETH_TYPE_IP)) {
struct ip_header *nh = packet->l3;
uint32_t *field;
field = a->type == ODPAT_SET_NW_SRC ? &nh->ip_src : &nh->ip_dst;
if (key->nw_proto == IP_TYPE_TCP) {
struct tcp_header *th = packet->l4;
th->tcp_csum = recalc_csum32(th->tcp_csum, *field, a->nw_addr);
} else if (key->nw_proto == IP_TYPE_UDP) {
struct udp_header *uh = packet->l4;
if (uh->udp_csum) {
uh->udp_csum = recalc_csum32(uh->udp_csum, *field, a->nw_addr);
if (!uh->udp_csum) {
uh->udp_csum = 0xffff;
}
}
}
nh->ip_csum = recalc_csum32(nh->ip_csum, *field, a->nw_addr);
*field = a->nw_addr;
}
}
static void
dp_netdev_set_tp_port(struct ofpbuf *packet, flow_t *key,
const struct odp_action_tp_port *a)
{
if (key->dl_type == htons(ETH_TYPE_IP)) {
uint16_t *field;
if (key->nw_proto == IPPROTO_TCP) {
struct tcp_header *th = packet->l4;
field = a->type == ODPAT_SET_TP_SRC ? &th->tcp_src : &th->tcp_dst;
th->tcp_csum = recalc_csum16(th->tcp_csum, *field, a->tp_port);
*field = a->tp_port;
} else if (key->nw_proto == IPPROTO_UDP) {
struct udp_header *uh = packet->l4;
field = a->type == ODPAT_SET_TP_SRC ? &uh->udp_src : &uh->udp_dst;
uh->udp_csum = recalc_csum16(uh->udp_csum, *field, a->tp_port);
*field = a->tp_port;
}
}
}
static void
dp_netdev_output_port(struct dp_netdev *dp, struct ofpbuf *packet,
uint16_t out_port)
{
struct dp_netdev_port *p = dp->ports[out_port];
if (p) {
netdev_send(p->netdev, packet);
}
}
static void
dp_netdev_output_group(struct dp_netdev *dp, uint16_t group, uint16_t in_port,
struct ofpbuf *packet)
{
struct odp_port_group *g = &dp->groups[group];
int i;
for (i = 0; i < g->n_ports; i++) {
uint16_t out_port = g->ports[i];
if (out_port != in_port) {
dp_netdev_output_port(dp, packet, out_port);
}
}
}
static int
dp_netdev_output_control(struct dp_netdev *dp, const struct ofpbuf *packet,
int queue_no, int port_no, uint32_t arg)
{
struct ovs_queue *q = &dp->queues[queue_no];
struct odp_msg *header;
struct ofpbuf *msg;
size_t msg_size;
if (q->n >= MAX_QUEUE_LEN) {
dp->n_lost++;
return ENOBUFS;
}
msg_size = sizeof *header + packet->size;
msg = ofpbuf_new(msg_size);
header = ofpbuf_put_uninit(msg, sizeof *header);
header->type = queue_no;
header->length = msg_size;
header->port = port_no;
header->arg = arg;
ofpbuf_put(msg, packet->data, packet->size);
queue_push_tail(q, msg);
return 0;
}
static int
dp_netdev_execute_actions(struct dp_netdev *dp,
struct ofpbuf *packet, flow_t *key,
const union odp_action *actions, int n_actions)
{
int i;
for (i = 0; i < n_actions; i++) {
const union odp_action *a = &actions[i];
switch (a->type) {
case ODPAT_OUTPUT:
dp_netdev_output_port(dp, packet, a->output.port);
break;
case ODPAT_OUTPUT_GROUP:
dp_netdev_output_group(dp, a->output_group.group, key->in_port,
packet);
break;
case ODPAT_CONTROLLER:
dp_netdev_output_control(dp, packet, _ODPL_ACTION_NR,
key->in_port, a->controller.arg);
break;
case ODPAT_SET_VLAN_VID:
dp_netdev_modify_vlan_tci(packet, key, ntohs(a->vlan_vid.vlan_vid),
VLAN_VID_MASK);
break;
case ODPAT_SET_VLAN_PCP:
dp_netdev_modify_vlan_tci(packet, key, a->vlan_pcp.vlan_pcp << 13,
VLAN_PCP_MASK);
break;
case ODPAT_STRIP_VLAN:
dp_netdev_strip_vlan(packet, key);
break;
case ODPAT_SET_DL_SRC:
dp_netdev_set_dl_src(packet, a->dl_addr.dl_addr);
break;
case ODPAT_SET_DL_DST:
dp_netdev_set_dl_dst(packet, a->dl_addr.dl_addr);
break;
case ODPAT_SET_NW_SRC:
case ODPAT_SET_NW_DST:
dp_netdev_set_nw_addr(packet, key, &a->nw_addr);
break;
case ODPAT_SET_TP_SRC:
case ODPAT_SET_TP_DST:
dp_netdev_set_tp_port(packet, key, &a->tp_port);
break;
}
}
return 0;
}
const struct dpif_class dpif_netdev_class = {
"netdev",
"netdev",
dp_netdev_run,
dp_netdev_wait,
NULL, /* enumerate */
dpif_netdev_open,
dpif_netdev_close,
NULL, /* get_all_names */
dpif_netdev_delete,
dpif_netdev_get_stats,
dpif_netdev_get_drop_frags,
dpif_netdev_set_drop_frags,
dpif_netdev_port_add,
dpif_netdev_port_del,
dpif_netdev_port_query_by_number,
dpif_netdev_port_query_by_name,
dpif_netdev_port_list,
dpif_netdev_port_poll,
dpif_netdev_port_poll_wait,
dpif_netdev_port_group_get,
dpif_netdev_port_group_set,
dpif_netdev_flow_get,
dpif_netdev_flow_put,
dpif_netdev_flow_del,
dpif_netdev_flow_flush,
dpif_netdev_flow_list,
dpif_netdev_execute,
dpif_netdev_recv_get_mask,
dpif_netdev_recv_set_mask,
dpif_netdev_recv,
dpif_netdev_recv_wait,
};
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