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|
/* Copyright (c) 2009, 2010, 2011, 2012, 2013, 2014, 2015 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 "ofproto/ofproto-dpif-xlate.h"
#include <errno.h>
#include <arpa/inet.h>
#include <net/if.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include "tnl-arp-cache.h"
#include "bfd.h"
#include "bitmap.h"
#include "bond.h"
#include "bundle.h"
#include "byte-order.h"
#include "cfm.h"
#include "connmgr.h"
#include "coverage.h"
#include "dp-packet.h"
#include "dpif.h"
#include "dynamic-string.h"
#include "in-band.h"
#include "lacp.h"
#include "learn.h"
#include "list.h"
#include "ovs-lldp.h"
#include "mac-learning.h"
#include "mcast-snooping.h"
#include "meta-flow.h"
#include "multipath.h"
#include "netdev-vport.h"
#include "netlink.h"
#include "nx-match.h"
#include "odp-execute.h"
#include "ofp-actions.h"
#include "ofproto/ofproto-dpif-ipfix.h"
#include "ofproto/ofproto-dpif-mirror.h"
#include "ofproto/ofproto-dpif-monitor.h"
#include "ofproto/ofproto-dpif-sflow.h"
#include "ofproto/ofproto-dpif.h"
#include "ofproto/ofproto-provider.h"
#include "ovs-router.h"
#include "tnl-ports.h"
#include "tunnel.h"
#include "openvswitch/vlog.h"
COVERAGE_DEFINE(xlate_actions);
COVERAGE_DEFINE(xlate_actions_oversize);
COVERAGE_DEFINE(xlate_actions_too_many_output);
VLOG_DEFINE_THIS_MODULE(ofproto_dpif_xlate);
/* Maximum depth of flow table recursion (due to resubmit actions) in a
* flow translation. */
#define MAX_RESUBMIT_RECURSION 64
#define MAX_INTERNAL_RESUBMITS 1 /* Max resbmits allowed using rules in
internal table. */
/* Maximum number of resubmit actions in a flow translation, whether they are
* recursive or not. */
#define MAX_RESUBMITS (MAX_RESUBMIT_RECURSION * MAX_RESUBMIT_RECURSION)
struct xbridge {
struct hmap_node hmap_node; /* Node in global 'xbridges' map. */
struct ofproto_dpif *ofproto; /* Key in global 'xbridges' map. */
struct ovs_list xbundles; /* Owned xbundles. */
struct hmap xports; /* Indexed by ofp_port. */
char *name; /* Name used in log messages. */
struct dpif *dpif; /* Datapath interface. */
struct mac_learning *ml; /* Mac learning handle. */
struct mcast_snooping *ms; /* Multicast Snooping handle. */
struct mbridge *mbridge; /* Mirroring. */
struct dpif_sflow *sflow; /* SFlow handle, or null. */
struct dpif_ipfix *ipfix; /* Ipfix handle, or null. */
struct netflow *netflow; /* Netflow handle, or null. */
struct stp *stp; /* STP or null if disabled. */
struct rstp *rstp; /* RSTP or null if disabled. */
bool has_in_band; /* Bridge has in band control? */
bool forward_bpdu; /* Bridge forwards STP BPDUs? */
/* True if the datapath supports recirculation. */
bool enable_recirc;
/* True if the datapath supports variable-length
* OVS_USERSPACE_ATTR_USERDATA in OVS_ACTION_ATTR_USERSPACE actions.
* False if the datapath supports only 8-byte (or shorter) userdata. */
bool variable_length_userdata;
/* Number of MPLS label stack entries that the datapath supports
* in matches. */
size_t max_mpls_depth;
/* True if the datapath supports masked data in OVS_ACTION_ATTR_SET
* actions. */
bool masked_set_action;
};
struct xbundle {
struct hmap_node hmap_node; /* In global 'xbundles' map. */
struct ofbundle *ofbundle; /* Key in global 'xbundles' map. */
struct ovs_list list_node; /* In parent 'xbridges' list. */
struct xbridge *xbridge; /* Parent xbridge. */
struct ovs_list xports; /* Contains "struct xport"s. */
char *name; /* Name used in log messages. */
struct bond *bond; /* Nonnull iff more than one port. */
struct lacp *lacp; /* LACP handle or null. */
enum port_vlan_mode vlan_mode; /* VLAN mode. */
int vlan; /* -1=trunk port, else a 12-bit VLAN ID. */
unsigned long *trunks; /* Bitmap of trunked VLANs, if 'vlan' == -1.
* NULL if all VLANs are trunked. */
bool use_priority_tags; /* Use 802.1p tag for frames in VLAN 0? */
bool floodable; /* No port has OFPUTIL_PC_NO_FLOOD set? */
};
struct xport {
struct hmap_node hmap_node; /* Node in global 'xports' map. */
struct ofport_dpif *ofport; /* Key in global 'xports map. */
struct hmap_node ofp_node; /* Node in parent xbridge 'xports' map. */
ofp_port_t ofp_port; /* Key in parent xbridge 'xports' map. */
odp_port_t odp_port; /* Datapath port number or ODPP_NONE. */
struct ovs_list bundle_node; /* In parent xbundle (if it exists). */
struct xbundle *xbundle; /* Parent xbundle or null. */
struct netdev *netdev; /* 'ofport''s netdev. */
struct xbridge *xbridge; /* Parent bridge. */
struct xport *peer; /* Patch port peer or null. */
enum ofputil_port_config config; /* OpenFlow port configuration. */
enum ofputil_port_state state; /* OpenFlow port state. */
int stp_port_no; /* STP port number or -1 if not in use. */
struct rstp_port *rstp_port; /* RSTP port or null. */
struct hmap skb_priorities; /* Map of 'skb_priority_to_dscp's. */
bool may_enable; /* May be enabled in bonds. */
bool is_tunnel; /* Is a tunnel port. */
struct cfm *cfm; /* CFM handle or null. */
struct bfd *bfd; /* BFD handle or null. */
struct lldp *lldp; /* LLDP handle or null. */
};
struct xlate_ctx {
struct xlate_in *xin;
struct xlate_out *xout;
const struct xbridge *xbridge;
/* Flow at the last commit. */
struct flow base_flow;
/* Tunnel IP destination address as received. This is stored separately
* as the base_flow.tunnel is cleared on init to reflect the datapath
* behavior. Used to make sure not to send tunneled output to ourselves,
* which might lead to an infinite loop. This could happen easily
* if a tunnel is marked as 'ip_remote=flow', and the flow does not
* actually set the tun_dst field. */
ovs_be32 orig_tunnel_ip_dst;
/* Stack for the push and pop actions. Each stack element is of type
* "union mf_subvalue". */
union mf_subvalue init_stack[1024 / sizeof(union mf_subvalue)];
struct ofpbuf stack;
/* The rule that we are currently translating, or NULL. */
struct rule_dpif *rule;
/* Resubmit statistics, via xlate_table_action(). */
int recurse; /* Current resubmit nesting depth. */
int resubmits; /* Total number of resubmits. */
bool in_group; /* Currently translating ofgroup, if true. */
bool in_action_set; /* Currently translating action_set, if true. */
uint8_t table_id; /* OpenFlow table ID where flow was found. */
ovs_be64 rule_cookie; /* Cookie of the rule being translated. */
uint32_t orig_skb_priority; /* Priority when packet arrived. */
uint32_t sflow_n_outputs; /* Number of output ports. */
odp_port_t sflow_odp_port; /* Output port for composing sFlow action. */
uint16_t user_cookie_offset;/* Used for user_action_cookie fixup. */
bool exit; /* No further actions should be processed. */
/* These are used for non-bond recirculation. The recirculation IDs are
* stored in xout and must be associated with a datapath flow (ukey),
* otherwise they will be freed when the xout is uninitialized.
*
*
* Steps in Recirculation Translation
* ==================================
*
* At some point during translation, the code recognizes the need for
* recirculation. For example, recirculation is necessary when, after
* popping the last MPLS label, an action or a match tries to examine or
* modify a field that has been newly revealed following the MPLS label.
*
* The simplest part of the work to be done is to commit existing changes to
* the packet, which produces datapath actions corresponding to the changes,
* and after this, add an OVS_ACTION_ATTR_RECIRC datapath action.
*
* The main problem here is preserving state. When the datapath executes
* OVS_ACTION_ATTR_RECIRC, it will upcall to userspace to get a translation
* for the post-recirculation actions. At this point userspace has to
* resume the translation where it left off, which means that it has to
* execute the following:
*
* - The action that prompted recirculation, and any actions following
* it within the same flow.
*
* - If the action that prompted recirculation was invoked within a
* NXAST_RESUBMIT, then any actions following the resubmit. These
* "resubmit"s can be nested, so this has to go all the way up the
* control stack.
*
* - The OpenFlow 1.1+ action set.
*
* State that actions and flow table lookups can depend on, such as the
* following, must also be preserved:
*
* - Metadata fields (input port, registers, OF1.1+ metadata, ...).
*
* - Action set, stack
*
* - The table ID and cookie of the flow being translated at each level
* of the control stack (since OFPAT_CONTROLLER actions send these to
* the controller).
*
* Translation allows for the control of this state preservation via these
* members. When a need for recirculation is identified, the translation
* process:
*
* 1. Sets 'recirc_action_offset' to the current size of 'action_set'. The
* action set is part of what needs to be preserved, so this allows the
* action set and the additional state to share the 'action_set' buffer.
* Later steps can tell that setup for recirculation is in progress from
* the nonnegative value of 'recirc_action_offset'.
*
* 2. Sets 'exit' to true to tell later steps that we're exiting from the
* translation process.
*
* 3. Adds an OFPACT_UNROLL_XLATE action to 'action_set'. This action
* holds the current table ID and cookie so that they can be restored
* during a post-recirculation upcall translation.
*
* 4. Adds the action that prompted recirculation and any actions following
* it within the same flow to 'action_set', so that they can be executed
* during a post-recirculation upcall translation.
*
* 5. Returns.
*
* 6. The action that prompted recirculation might be nested in a stack of
* nested "resubmit"s that have actions remaining. Each of these notices
* that we're exiting (from 'exit') and that recirculation setup is in
* progress (from 'recirc_action_offset') and responds by adding more
* OFPACT_UNROLL_XLATE actions to 'action_set', as necessary, and any
* actions that were yet unprocessed.
*
* The caller stores all the state produced by this process associated with
* the recirculation ID. For post-recirculation upcall translation, the
* caller passes it back in for the new translation to execute. The
* process yielded a set of ofpacts that can be translated directly, so it
* is not much of a special case at that point.
*/
int recirc_action_offset; /* Offset in 'action_set' to actions to be
* executed after recirculation, or -1. */
int last_unroll_offset; /* Offset in 'action_set' to the latest unroll
* action, or -1. */
/* True if a packet was but is no longer MPLS (due to an MPLS pop action).
* This is a trigger for recirculation in cases where translating an action
* or looking up a flow requires access to the fields of the packet after
* the MPLS label stack that was originally present. */
bool was_mpls;
/* OpenFlow 1.1+ action set.
*
* 'action_set' accumulates "struct ofpact"s added by OFPACT_WRITE_ACTIONS.
* When translation is otherwise complete, ofpacts_execute_action_set()
* converts it to a set of "struct ofpact"s that can be translated into
* datapath actions. */
bool action_set_has_group; /* Action set contains OFPACT_GROUP? */
struct ofpbuf action_set; /* Action set. */
uint64_t action_set_stub[1024 / 8];
};
static void xlate_action_set(struct xlate_ctx *ctx);
static void
ctx_trigger_recirculation(struct xlate_ctx *ctx)
{
ctx->exit = true;
ctx->recirc_action_offset = ctx->action_set.size;
}
static bool
ctx_first_recirculation_action(const struct xlate_ctx *ctx)
{
return ctx->recirc_action_offset == ctx->action_set.size;
}
static inline bool
exit_recirculates(const struct xlate_ctx *ctx)
{
/* When recirculating the 'recirc_action_offset' has a non-negative value.
*/
return ctx->recirc_action_offset >= 0;
}
static void compose_recirculate_action(struct xlate_ctx *ctx);
/* A controller may use OFPP_NONE as the ingress port to indicate that
* it did not arrive on a "real" port. 'ofpp_none_bundle' exists for
* when an input bundle is needed for validation (e.g., mirroring or
* OFPP_NORMAL processing). It is not connected to an 'ofproto' or have
* any 'port' structs, so care must be taken when dealing with it. */
static struct xbundle ofpp_none_bundle = {
.name = "OFPP_NONE",
.vlan_mode = PORT_VLAN_TRUNK
};
/* Node in 'xport''s 'skb_priorities' map. Used to maintain a map from
* 'priority' (the datapath's term for QoS queue) to the dscp bits which all
* traffic egressing the 'ofport' with that priority should be marked with. */
struct skb_priority_to_dscp {
struct hmap_node hmap_node; /* Node in 'ofport_dpif''s 'skb_priorities'. */
uint32_t skb_priority; /* Priority of this queue (see struct flow). */
uint8_t dscp; /* DSCP bits to mark outgoing traffic with. */
};
enum xc_type {
XC_RULE,
XC_BOND,
XC_NETDEV,
XC_NETFLOW,
XC_MIRROR,
XC_LEARN,
XC_NORMAL,
XC_FIN_TIMEOUT,
XC_GROUP,
XC_TNL_ARP,
};
/* xlate_cache entries hold enough information to perform the side effects of
* xlate_actions() for a rule, without needing to perform rule translation
* from scratch. The primary usage of these is to submit statistics to objects
* that a flow relates to, although they may be used for other effects as well
* (for instance, refreshing hard timeouts for learned flows). */
struct xc_entry {
enum xc_type type;
union {
struct rule_dpif *rule;
struct {
struct netdev *tx;
struct netdev *rx;
struct bfd *bfd;
} dev;
struct {
struct netflow *netflow;
struct flow *flow;
ofp_port_t iface;
} nf;
struct {
struct mbridge *mbridge;
mirror_mask_t mirrors;
} mirror;
struct {
struct bond *bond;
struct flow *flow;
uint16_t vid;
} bond;
struct {
struct ofproto_dpif *ofproto;
struct ofputil_flow_mod *fm;
struct ofpbuf *ofpacts;
} learn;
struct {
struct ofproto_dpif *ofproto;
struct flow *flow;
int vlan;
} normal;
struct {
struct rule_dpif *rule;
uint16_t idle;
uint16_t hard;
} fin;
struct {
struct group_dpif *group;
struct ofputil_bucket *bucket;
} group;
struct {
char br_name[IFNAMSIZ];
ovs_be32 d_ip;
} tnl_arp_cache;
} u;
};
#define XC_ENTRY_FOR_EACH(entry, entries, xcache) \
entries = xcache->entries; \
for (entry = ofpbuf_try_pull(&entries, sizeof *entry); \
entry; \
entry = ofpbuf_try_pull(&entries, sizeof *entry))
struct xlate_cache {
struct ofpbuf entries;
};
/* Xlate config contains hash maps of all bridges, bundles and ports.
* Xcfgp contains the pointer to the current xlate configuration.
* When the main thread needs to change the configuration, it copies xcfgp to
* new_xcfg and edits new_xcfg. This enables the use of RCU locking which
* does not block handler and revalidator threads. */
struct xlate_cfg {
struct hmap xbridges;
struct hmap xbundles;
struct hmap xports;
};
static OVSRCU_TYPE(struct xlate_cfg *) xcfgp = OVSRCU_INITIALIZER(NULL);
static struct xlate_cfg *new_xcfg = NULL;
static bool may_receive(const struct xport *, struct xlate_ctx *);
static void do_xlate_actions(const struct ofpact *, size_t ofpacts_len,
struct xlate_ctx *);
static void xlate_normal(struct xlate_ctx *);
static inline void xlate_report(struct xlate_ctx *, const char *);
static void xlate_table_action(struct xlate_ctx *, ofp_port_t in_port,
uint8_t table_id, bool may_packet_in,
bool honor_table_miss);
static bool input_vid_is_valid(uint16_t vid, struct xbundle *, bool warn);
static uint16_t input_vid_to_vlan(const struct xbundle *, uint16_t vid);
static void output_normal(struct xlate_ctx *, const struct xbundle *,
uint16_t vlan);
/* Optional bond recirculation parameter to compose_output_action(). */
struct xlate_bond_recirc {
uint32_t recirc_id; /* !0 Use recirculation instead of output. */
uint8_t hash_alg; /* !0 Compute hash for recirc before. */
uint32_t hash_basis; /* Compute hash for recirc before. */
};
static void compose_output_action(struct xlate_ctx *, ofp_port_t ofp_port,
const struct xlate_bond_recirc *xr);
static struct xbridge *xbridge_lookup(struct xlate_cfg *,
const struct ofproto_dpif *);
static struct xbundle *xbundle_lookup(struct xlate_cfg *,
const struct ofbundle *);
static struct xport *xport_lookup(struct xlate_cfg *,
const struct ofport_dpif *);
static struct xport *get_ofp_port(const struct xbridge *, ofp_port_t ofp_port);
static struct skb_priority_to_dscp *get_skb_priority(const struct xport *,
uint32_t skb_priority);
static void clear_skb_priorities(struct xport *);
static size_t count_skb_priorities(const struct xport *);
static bool dscp_from_skb_priority(const struct xport *, uint32_t skb_priority,
uint8_t *dscp);
static struct xc_entry *xlate_cache_add_entry(struct xlate_cache *xc,
enum xc_type type);
static void xlate_xbridge_init(struct xlate_cfg *, struct xbridge *);
static void xlate_xbundle_init(struct xlate_cfg *, struct xbundle *);
static void xlate_xport_init(struct xlate_cfg *, struct xport *);
static void xlate_xbridge_set(struct xbridge *, struct dpif *,
const struct mac_learning *, struct stp *,
struct rstp *, const struct mcast_snooping *,
const struct mbridge *,
const struct dpif_sflow *,
const struct dpif_ipfix *,
const struct netflow *,
bool forward_bpdu, bool has_in_band,
bool enable_recirc,
bool variable_length_userdata,
size_t max_mpls_depth,
bool masked_set_action);
static void xlate_xbundle_set(struct xbundle *xbundle,
enum port_vlan_mode vlan_mode, int vlan,
unsigned long *trunks, bool use_priority_tags,
const struct bond *bond, const struct lacp *lacp,
bool floodable);
static void xlate_xport_set(struct xport *xport, odp_port_t odp_port,
const struct netdev *netdev, const struct cfm *cfm,
const struct bfd *bfd, const struct lldp *lldp,
int stp_port_no, const struct rstp_port *rstp_port,
enum ofputil_port_config config,
enum ofputil_port_state state, bool is_tunnel,
bool may_enable);
static void xlate_xbridge_remove(struct xlate_cfg *, struct xbridge *);
static void xlate_xbundle_remove(struct xlate_cfg *, struct xbundle *);
static void xlate_xport_remove(struct xlate_cfg *, struct xport *);
static void xlate_xbridge_copy(struct xbridge *);
static void xlate_xbundle_copy(struct xbridge *, struct xbundle *);
static void xlate_xport_copy(struct xbridge *, struct xbundle *,
struct xport *);
static void xlate_xcfg_free(struct xlate_cfg *);
static inline void
xlate_report(struct xlate_ctx *ctx, const char *s)
{
if (OVS_UNLIKELY(ctx->xin->report_hook)) {
ctx->xin->report_hook(ctx->xin, s, ctx->recurse);
}
}
static void
xlate_xbridge_init(struct xlate_cfg *xcfg, struct xbridge *xbridge)
{
list_init(&xbridge->xbundles);
hmap_init(&xbridge->xports);
hmap_insert(&xcfg->xbridges, &xbridge->hmap_node,
hash_pointer(xbridge->ofproto, 0));
}
static void
xlate_xbundle_init(struct xlate_cfg *xcfg, struct xbundle *xbundle)
{
list_init(&xbundle->xports);
list_insert(&xbundle->xbridge->xbundles, &xbundle->list_node);
hmap_insert(&xcfg->xbundles, &xbundle->hmap_node,
hash_pointer(xbundle->ofbundle, 0));
}
static void
xlate_xport_init(struct xlate_cfg *xcfg, struct xport *xport)
{
hmap_init(&xport->skb_priorities);
hmap_insert(&xcfg->xports, &xport->hmap_node,
hash_pointer(xport->ofport, 0));
hmap_insert(&xport->xbridge->xports, &xport->ofp_node,
hash_ofp_port(xport->ofp_port));
}
static void
xlate_xbridge_set(struct xbridge *xbridge,
struct dpif *dpif,
const struct mac_learning *ml, struct stp *stp,
struct rstp *rstp, const struct mcast_snooping *ms,
const struct mbridge *mbridge,
const struct dpif_sflow *sflow,
const struct dpif_ipfix *ipfix,
const struct netflow *netflow,
bool forward_bpdu, bool has_in_band,
bool enable_recirc,
bool variable_length_userdata,
size_t max_mpls_depth,
bool masked_set_action)
{
if (xbridge->ml != ml) {
mac_learning_unref(xbridge->ml);
xbridge->ml = mac_learning_ref(ml);
}
if (xbridge->ms != ms) {
mcast_snooping_unref(xbridge->ms);
xbridge->ms = mcast_snooping_ref(ms);
}
if (xbridge->mbridge != mbridge) {
mbridge_unref(xbridge->mbridge);
xbridge->mbridge = mbridge_ref(mbridge);
}
if (xbridge->sflow != sflow) {
dpif_sflow_unref(xbridge->sflow);
xbridge->sflow = dpif_sflow_ref(sflow);
}
if (xbridge->ipfix != ipfix) {
dpif_ipfix_unref(xbridge->ipfix);
xbridge->ipfix = dpif_ipfix_ref(ipfix);
}
if (xbridge->stp != stp) {
stp_unref(xbridge->stp);
xbridge->stp = stp_ref(stp);
}
if (xbridge->rstp != rstp) {
rstp_unref(xbridge->rstp);
xbridge->rstp = rstp_ref(rstp);
}
if (xbridge->netflow != netflow) {
netflow_unref(xbridge->netflow);
xbridge->netflow = netflow_ref(netflow);
}
xbridge->dpif = dpif;
xbridge->forward_bpdu = forward_bpdu;
xbridge->has_in_band = has_in_band;
xbridge->enable_recirc = enable_recirc;
xbridge->variable_length_userdata = variable_length_userdata;
xbridge->max_mpls_depth = max_mpls_depth;
xbridge->masked_set_action = masked_set_action;
}
static void
xlate_xbundle_set(struct xbundle *xbundle,
enum port_vlan_mode vlan_mode, int vlan,
unsigned long *trunks, bool use_priority_tags,
const struct bond *bond, const struct lacp *lacp,
bool floodable)
{
ovs_assert(xbundle->xbridge);
xbundle->vlan_mode = vlan_mode;
xbundle->vlan = vlan;
xbundle->trunks = trunks;
xbundle->use_priority_tags = use_priority_tags;
xbundle->floodable = floodable;
if (xbundle->bond != bond) {
bond_unref(xbundle->bond);
xbundle->bond = bond_ref(bond);
}
if (xbundle->lacp != lacp) {
lacp_unref(xbundle->lacp);
xbundle->lacp = lacp_ref(lacp);
}
}
static void
xlate_xport_set(struct xport *xport, odp_port_t odp_port,
const struct netdev *netdev, const struct cfm *cfm,
const struct bfd *bfd, const struct lldp *lldp, int stp_port_no,
const struct rstp_port* rstp_port,
enum ofputil_port_config config, enum ofputil_port_state state,
bool is_tunnel, bool may_enable)
{
xport->config = config;
xport->state = state;
xport->stp_port_no = stp_port_no;
xport->is_tunnel = is_tunnel;
xport->may_enable = may_enable;
xport->odp_port = odp_port;
if (xport->rstp_port != rstp_port) {
rstp_port_unref(xport->rstp_port);
xport->rstp_port = rstp_port_ref(rstp_port);
}
if (xport->cfm != cfm) {
cfm_unref(xport->cfm);
xport->cfm = cfm_ref(cfm);
}
if (xport->bfd != bfd) {
bfd_unref(xport->bfd);
xport->bfd = bfd_ref(bfd);
}
if (xport->lldp != lldp) {
lldp_unref(xport->lldp);
xport->lldp = lldp_ref(lldp);
}
if (xport->netdev != netdev) {
netdev_close(xport->netdev);
xport->netdev = netdev_ref(netdev);
}
}
static void
xlate_xbridge_copy(struct xbridge *xbridge)
{
struct xbundle *xbundle;
struct xport *xport;
struct xbridge *new_xbridge = xzalloc(sizeof *xbridge);
new_xbridge->ofproto = xbridge->ofproto;
new_xbridge->name = xstrdup(xbridge->name);
xlate_xbridge_init(new_xcfg, new_xbridge);
xlate_xbridge_set(new_xbridge,
xbridge->dpif, xbridge->ml, xbridge->stp,
xbridge->rstp, xbridge->ms, xbridge->mbridge,
xbridge->sflow, xbridge->ipfix, xbridge->netflow,
xbridge->forward_bpdu,
xbridge->has_in_band, xbridge->enable_recirc,
xbridge->variable_length_userdata,
xbridge->max_mpls_depth, xbridge->masked_set_action);
LIST_FOR_EACH (xbundle, list_node, &xbridge->xbundles) {
xlate_xbundle_copy(new_xbridge, xbundle);
}
/* Copy xports which are not part of a xbundle */
HMAP_FOR_EACH (xport, ofp_node, &xbridge->xports) {
if (!xport->xbundle) {
xlate_xport_copy(new_xbridge, NULL, xport);
}
}
}
static void
xlate_xbundle_copy(struct xbridge *xbridge, struct xbundle *xbundle)
{
struct xport *xport;
struct xbundle *new_xbundle = xzalloc(sizeof *xbundle);
new_xbundle->ofbundle = xbundle->ofbundle;
new_xbundle->xbridge = xbridge;
new_xbundle->name = xstrdup(xbundle->name);
xlate_xbundle_init(new_xcfg, new_xbundle);
xlate_xbundle_set(new_xbundle, xbundle->vlan_mode,
xbundle->vlan, xbundle->trunks,
xbundle->use_priority_tags, xbundle->bond, xbundle->lacp,
xbundle->floodable);
LIST_FOR_EACH (xport, bundle_node, &xbundle->xports) {
xlate_xport_copy(xbridge, new_xbundle, xport);
}
}
static void
xlate_xport_copy(struct xbridge *xbridge, struct xbundle *xbundle,
struct xport *xport)
{
struct skb_priority_to_dscp *pdscp, *new_pdscp;
struct xport *new_xport = xzalloc(sizeof *xport);
new_xport->ofport = xport->ofport;
new_xport->ofp_port = xport->ofp_port;
new_xport->xbridge = xbridge;
xlate_xport_init(new_xcfg, new_xport);
xlate_xport_set(new_xport, xport->odp_port, xport->netdev, xport->cfm,
xport->bfd, xport->lldp, xport->stp_port_no,
xport->rstp_port, xport->config, xport->state,
xport->is_tunnel, xport->may_enable);
if (xport->peer) {
struct xport *peer = xport_lookup(new_xcfg, xport->peer->ofport);
if (peer) {
new_xport->peer = peer;
new_xport->peer->peer = new_xport;
}
}
if (xbundle) {
new_xport->xbundle = xbundle;
list_insert(&new_xport->xbundle->xports, &new_xport->bundle_node);
}
HMAP_FOR_EACH (pdscp, hmap_node, &xport->skb_priorities) {
new_pdscp = xmalloc(sizeof *pdscp);
new_pdscp->skb_priority = pdscp->skb_priority;
new_pdscp->dscp = pdscp->dscp;
hmap_insert(&new_xport->skb_priorities, &new_pdscp->hmap_node,
hash_int(new_pdscp->skb_priority, 0));
}
}
/* Sets the current xlate configuration to new_xcfg and frees the old xlate
* configuration in xcfgp.
*
* This needs to be called after editing the xlate configuration.
*
* Functions that edit the new xlate configuration are
* xlate_<ofport/bundle/ofport>_set and xlate_<ofport/bundle/ofport>_remove.
*
* A sample workflow:
*
* xlate_txn_start();
* ...
* edit_xlate_configuration();
* ...
* xlate_txn_commit(); */
void
xlate_txn_commit(void)
{
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
ovsrcu_set(&xcfgp, new_xcfg);
ovsrcu_synchronize();
xlate_xcfg_free(xcfg);
new_xcfg = NULL;
}
/* Copies the current xlate configuration in xcfgp to new_xcfg.
*
* This needs to be called prior to editing the xlate configuration. */
void
xlate_txn_start(void)
{
struct xbridge *xbridge;
struct xlate_cfg *xcfg;
ovs_assert(!new_xcfg);
new_xcfg = xmalloc(sizeof *new_xcfg);
hmap_init(&new_xcfg->xbridges);
hmap_init(&new_xcfg->xbundles);
hmap_init(&new_xcfg->xports);
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
if (!xcfg) {
return;
}
HMAP_FOR_EACH (xbridge, hmap_node, &xcfg->xbridges) {
xlate_xbridge_copy(xbridge);
}
}
static void
xlate_xcfg_free(struct xlate_cfg *xcfg)
{
struct xbridge *xbridge, *next_xbridge;
if (!xcfg) {
return;
}
HMAP_FOR_EACH_SAFE (xbridge, next_xbridge, hmap_node, &xcfg->xbridges) {
xlate_xbridge_remove(xcfg, xbridge);
}
hmap_destroy(&xcfg->xbridges);
hmap_destroy(&xcfg->xbundles);
hmap_destroy(&xcfg->xports);
free(xcfg);
}
void
xlate_ofproto_set(struct ofproto_dpif *ofproto, const char *name,
struct dpif *dpif,
const struct mac_learning *ml, struct stp *stp,
struct rstp *rstp, const struct mcast_snooping *ms,
const struct mbridge *mbridge,
const struct dpif_sflow *sflow,
const struct dpif_ipfix *ipfix,
const struct netflow *netflow,
bool forward_bpdu, bool has_in_band, bool enable_recirc,
bool variable_length_userdata, size_t max_mpls_depth,
bool masked_set_action)
{
struct xbridge *xbridge;
ovs_assert(new_xcfg);
xbridge = xbridge_lookup(new_xcfg, ofproto);
if (!xbridge) {
xbridge = xzalloc(sizeof *xbridge);
xbridge->ofproto = ofproto;
xlate_xbridge_init(new_xcfg, xbridge);
}
free(xbridge->name);
xbridge->name = xstrdup(name);
xlate_xbridge_set(xbridge, dpif, ml, stp, rstp, ms, mbridge, sflow, ipfix,
netflow, forward_bpdu, has_in_band, enable_recirc,
variable_length_userdata, max_mpls_depth,
masked_set_action);
}
static void
xlate_xbridge_remove(struct xlate_cfg *xcfg, struct xbridge *xbridge)
{
struct xbundle *xbundle, *next_xbundle;
struct xport *xport, *next_xport;
if (!xbridge) {
return;
}
HMAP_FOR_EACH_SAFE (xport, next_xport, ofp_node, &xbridge->xports) {
xlate_xport_remove(xcfg, xport);
}
LIST_FOR_EACH_SAFE (xbundle, next_xbundle, list_node, &xbridge->xbundles) {
xlate_xbundle_remove(xcfg, xbundle);
}
hmap_remove(&xcfg->xbridges, &xbridge->hmap_node);
mac_learning_unref(xbridge->ml);
mcast_snooping_unref(xbridge->ms);
mbridge_unref(xbridge->mbridge);
dpif_sflow_unref(xbridge->sflow);
dpif_ipfix_unref(xbridge->ipfix);
stp_unref(xbridge->stp);
rstp_unref(xbridge->rstp);
hmap_destroy(&xbridge->xports);
free(xbridge->name);
free(xbridge);
}
void
xlate_remove_ofproto(struct ofproto_dpif *ofproto)
{
struct xbridge *xbridge;
ovs_assert(new_xcfg);
xbridge = xbridge_lookup(new_xcfg, ofproto);
xlate_xbridge_remove(new_xcfg, xbridge);
}
void
xlate_bundle_set(struct ofproto_dpif *ofproto, struct ofbundle *ofbundle,
const char *name, enum port_vlan_mode vlan_mode, int vlan,
unsigned long *trunks, bool use_priority_tags,
const struct bond *bond, const struct lacp *lacp,
bool floodable)
{
struct xbundle *xbundle;
ovs_assert(new_xcfg);
xbundle = xbundle_lookup(new_xcfg, ofbundle);
if (!xbundle) {
xbundle = xzalloc(sizeof *xbundle);
xbundle->ofbundle = ofbundle;
xbundle->xbridge = xbridge_lookup(new_xcfg, ofproto);
xlate_xbundle_init(new_xcfg, xbundle);
}
free(xbundle->name);
xbundle->name = xstrdup(name);
xlate_xbundle_set(xbundle, vlan_mode, vlan, trunks,
use_priority_tags, bond, lacp, floodable);
}
static void
xlate_xbundle_remove(struct xlate_cfg *xcfg, struct xbundle *xbundle)
{
struct xport *xport;
if (!xbundle) {
return;
}
LIST_FOR_EACH_POP (xport, bundle_node, &xbundle->xports) {
xport->xbundle = NULL;
}
hmap_remove(&xcfg->xbundles, &xbundle->hmap_node);
list_remove(&xbundle->list_node);
bond_unref(xbundle->bond);
lacp_unref(xbundle->lacp);
free(xbundle->name);
free(xbundle);
}
void
xlate_bundle_remove(struct ofbundle *ofbundle)
{
struct xbundle *xbundle;
ovs_assert(new_xcfg);
xbundle = xbundle_lookup(new_xcfg, ofbundle);
xlate_xbundle_remove(new_xcfg, xbundle);
}
void
xlate_ofport_set(struct ofproto_dpif *ofproto, struct ofbundle *ofbundle,
struct ofport_dpif *ofport, ofp_port_t ofp_port,
odp_port_t odp_port, const struct netdev *netdev,
const struct cfm *cfm, const struct bfd *bfd,
const struct lldp *lldp, struct ofport_dpif *peer,
int stp_port_no, const struct rstp_port *rstp_port,
const struct ofproto_port_queue *qdscp_list, size_t n_qdscp,
enum ofputil_port_config config,
enum ofputil_port_state state, bool is_tunnel,
bool may_enable)
{
size_t i;
struct xport *xport;
ovs_assert(new_xcfg);
xport = xport_lookup(new_xcfg, ofport);
if (!xport) {
xport = xzalloc(sizeof *xport);
xport->ofport = ofport;
xport->xbridge = xbridge_lookup(new_xcfg, ofproto);
xport->ofp_port = ofp_port;
xlate_xport_init(new_xcfg, xport);
}
ovs_assert(xport->ofp_port == ofp_port);
xlate_xport_set(xport, odp_port, netdev, cfm, bfd, lldp,
stp_port_no, rstp_port, config, state, is_tunnel,
may_enable);
if (xport->peer) {
xport->peer->peer = NULL;
}
xport->peer = xport_lookup(new_xcfg, peer);
if (xport->peer) {
xport->peer->peer = xport;
}
if (xport->xbundle) {
list_remove(&xport->bundle_node);
}
xport->xbundle = xbundle_lookup(new_xcfg, ofbundle);
if (xport->xbundle) {
list_insert(&xport->xbundle->xports, &xport->bundle_node);
}
clear_skb_priorities(xport);
for (i = 0; i < n_qdscp; i++) {
struct skb_priority_to_dscp *pdscp;
uint32_t skb_priority;
if (dpif_queue_to_priority(xport->xbridge->dpif, qdscp_list[i].queue,
&skb_priority)) {
continue;
}
pdscp = xmalloc(sizeof *pdscp);
pdscp->skb_priority = skb_priority;
pdscp->dscp = (qdscp_list[i].dscp << 2) & IP_DSCP_MASK;
hmap_insert(&xport->skb_priorities, &pdscp->hmap_node,
hash_int(pdscp->skb_priority, 0));
}
}
static void
xlate_xport_remove(struct xlate_cfg *xcfg, struct xport *xport)
{
if (!xport) {
return;
}
if (xport->peer) {
xport->peer->peer = NULL;
xport->peer = NULL;
}
if (xport->xbundle) {
list_remove(&xport->bundle_node);
}
clear_skb_priorities(xport);
hmap_destroy(&xport->skb_priorities);
hmap_remove(&xcfg->xports, &xport->hmap_node);
hmap_remove(&xport->xbridge->xports, &xport->ofp_node);
netdev_close(xport->netdev);
rstp_port_unref(xport->rstp_port);
cfm_unref(xport->cfm);
bfd_unref(xport->bfd);
lldp_unref(xport->lldp);
free(xport);
}
void
xlate_ofport_remove(struct ofport_dpif *ofport)
{
struct xport *xport;
ovs_assert(new_xcfg);
xport = xport_lookup(new_xcfg, ofport);
xlate_xport_remove(new_xcfg, xport);
}
static struct ofproto_dpif *
xlate_lookup_ofproto_(const struct dpif_backer *backer, const struct flow *flow,
ofp_port_t *ofp_in_port, const struct xport **xportp)
{
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
const struct xport *xport;
xport = xport_lookup(xcfg, tnl_port_should_receive(flow)
? tnl_port_receive(flow)
: odp_port_to_ofport(backer, flow->in_port.odp_port));
if (OVS_UNLIKELY(!xport)) {
return NULL;
}
*xportp = xport;
if (ofp_in_port) {
*ofp_in_port = xport->ofp_port;
}
return xport->xbridge->ofproto;
}
/* Given a datapath and flow metadata ('backer', and 'flow' respectively)
* returns the corresponding struct ofproto_dpif and OpenFlow port number. */
struct ofproto_dpif *
xlate_lookup_ofproto(const struct dpif_backer *backer, const struct flow *flow,
ofp_port_t *ofp_in_port)
{
const struct xport *xport;
return xlate_lookup_ofproto_(backer, flow, ofp_in_port, &xport);
}
/* Given a datapath and flow metadata ('backer', and 'flow' respectively),
* optionally populates 'ofproto' with the ofproto_dpif, 'ofp_in_port' with the
* openflow in_port, and 'ipfix', 'sflow', and 'netflow' with the appropriate
* handles for those protocols if they're enabled. Caller may use the returned
* pointers until quiescing, for longer term use additional references must
* be taken.
*
* Returns 0 if successful, ENODEV if the parsed flow has no associated ofproto.
*/
int
xlate_lookup(const struct dpif_backer *backer, const struct flow *flow,
struct ofproto_dpif **ofprotop, struct dpif_ipfix **ipfix,
struct dpif_sflow **sflow, struct netflow **netflow,
ofp_port_t *ofp_in_port)
{
struct ofproto_dpif *ofproto;
const struct xport *xport;
ofproto = xlate_lookup_ofproto_(backer, flow, ofp_in_port, &xport);
if (!ofproto) {
return ENODEV;
}
if (ofprotop) {
*ofprotop = ofproto;
}
if (ipfix) {
*ipfix = xport ? xport->xbridge->ipfix : NULL;
}
if (sflow) {
*sflow = xport ? xport->xbridge->sflow : NULL;
}
if (netflow) {
*netflow = xport ? xport->xbridge->netflow : NULL;
}
return 0;
}
static struct xbridge *
xbridge_lookup(struct xlate_cfg *xcfg, const struct ofproto_dpif *ofproto)
{
struct hmap *xbridges;
struct xbridge *xbridge;
if (!ofproto || !xcfg) {
return NULL;
}
xbridges = &xcfg->xbridges;
HMAP_FOR_EACH_IN_BUCKET (xbridge, hmap_node, hash_pointer(ofproto, 0),
xbridges) {
if (xbridge->ofproto == ofproto) {
return xbridge;
}
}
return NULL;
}
static struct xbundle *
xbundle_lookup(struct xlate_cfg *xcfg, const struct ofbundle *ofbundle)
{
struct hmap *xbundles;
struct xbundle *xbundle;
if (!ofbundle || !xcfg) {
return NULL;
}
xbundles = &xcfg->xbundles;
HMAP_FOR_EACH_IN_BUCKET (xbundle, hmap_node, hash_pointer(ofbundle, 0),
xbundles) {
if (xbundle->ofbundle == ofbundle) {
return xbundle;
}
}
return NULL;
}
static struct xport *
xport_lookup(struct xlate_cfg *xcfg, const struct ofport_dpif *ofport)
{
struct hmap *xports;
struct xport *xport;
if (!ofport || !xcfg) {
return NULL;
}
xports = &xcfg->xports;
HMAP_FOR_EACH_IN_BUCKET (xport, hmap_node, hash_pointer(ofport, 0),
xports) {
if (xport->ofport == ofport) {
return xport;
}
}
return NULL;
}
static struct stp_port *
xport_get_stp_port(const struct xport *xport)
{
return xport->xbridge->stp && xport->stp_port_no != -1
? stp_get_port(xport->xbridge->stp, xport->stp_port_no)
: NULL;
}
static bool
xport_stp_learn_state(const struct xport *xport)
{
struct stp_port *sp = xport_get_stp_port(xport);
return sp
? stp_learn_in_state(stp_port_get_state(sp))
: true;
}
static bool
xport_stp_forward_state(const struct xport *xport)
{
struct stp_port *sp = xport_get_stp_port(xport);
return sp
? stp_forward_in_state(stp_port_get_state(sp))
: true;
}
static bool
xport_stp_should_forward_bpdu(const struct xport *xport)
{
struct stp_port *sp = xport_get_stp_port(xport);
return stp_should_forward_bpdu(sp ? stp_port_get_state(sp) : STP_DISABLED);
}
/* Returns true if STP should process 'flow'. Sets fields in 'wc' that
* were used to make the determination.*/
static bool
stp_should_process_flow(const struct flow *flow, struct flow_wildcards *wc)
{
/* is_stp() also checks dl_type, but dl_type is always set in 'wc'. */
memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
return is_stp(flow);
}
static void
stp_process_packet(const struct xport *xport, const struct dp_packet *packet)
{
struct stp_port *sp = xport_get_stp_port(xport);
struct dp_packet payload = *packet;
struct eth_header *eth = dp_packet_data(&payload);
/* Sink packets on ports that have STP disabled when the bridge has
* STP enabled. */
if (!sp || stp_port_get_state(sp) == STP_DISABLED) {
return;
}
/* Trim off padding on payload. */
if (dp_packet_size(&payload) > ntohs(eth->eth_type) + ETH_HEADER_LEN) {
dp_packet_set_size(&payload, ntohs(eth->eth_type) + ETH_HEADER_LEN);
}
if (dp_packet_try_pull(&payload, ETH_HEADER_LEN + LLC_HEADER_LEN)) {
stp_received_bpdu(sp, dp_packet_data(&payload), dp_packet_size(&payload));
}
}
static enum rstp_state
xport_get_rstp_port_state(const struct xport *xport)
{
return xport->rstp_port
? rstp_port_get_state(xport->rstp_port)
: RSTP_DISABLED;
}
static bool
xport_rstp_learn_state(const struct xport *xport)
{
return xport->xbridge->rstp && xport->rstp_port
? rstp_learn_in_state(xport_get_rstp_port_state(xport))
: true;
}
static bool
xport_rstp_forward_state(const struct xport *xport)
{
return xport->xbridge->rstp && xport->rstp_port
? rstp_forward_in_state(xport_get_rstp_port_state(xport))
: true;
}
static bool
xport_rstp_should_manage_bpdu(const struct xport *xport)
{
return rstp_should_manage_bpdu(xport_get_rstp_port_state(xport));
}
static void
rstp_process_packet(const struct xport *xport, const struct dp_packet *packet)
{
struct dp_packet payload = *packet;
struct eth_header *eth = dp_packet_data(&payload);
/* Sink packets on ports that have no RSTP. */
if (!xport->rstp_port) {
return;
}
/* Trim off padding on payload. */
if (dp_packet_size(&payload) > ntohs(eth->eth_type) + ETH_HEADER_LEN) {
dp_packet_set_size(&payload, ntohs(eth->eth_type) + ETH_HEADER_LEN);
}
if (dp_packet_try_pull(&payload, ETH_HEADER_LEN + LLC_HEADER_LEN)) {
rstp_port_received_bpdu(xport->rstp_port, dp_packet_data(&payload),
dp_packet_size(&payload));
}
}
static struct xport *
get_ofp_port(const struct xbridge *xbridge, ofp_port_t ofp_port)
{
struct xport *xport;
HMAP_FOR_EACH_IN_BUCKET (xport, ofp_node, hash_ofp_port(ofp_port),
&xbridge->xports) {
if (xport->ofp_port == ofp_port) {
return xport;
}
}
return NULL;
}
static odp_port_t
ofp_port_to_odp_port(const struct xbridge *xbridge, ofp_port_t ofp_port)
{
const struct xport *xport = get_ofp_port(xbridge, ofp_port);
return xport ? xport->odp_port : ODPP_NONE;
}
static bool
odp_port_is_alive(const struct xlate_ctx *ctx, ofp_port_t ofp_port)
{
struct xport *xport = get_ofp_port(ctx->xbridge, ofp_port);
return xport && xport->may_enable;
}
static struct ofputil_bucket *
group_first_live_bucket(const struct xlate_ctx *, const struct group_dpif *,
int depth);
static bool
group_is_alive(const struct xlate_ctx *ctx, uint32_t group_id, int depth)
{
struct group_dpif *group;
if (group_dpif_lookup(ctx->xbridge->ofproto, group_id, &group)) {
struct ofputil_bucket *bucket;
bucket = group_first_live_bucket(ctx, group, depth);
group_dpif_unref(group);
return bucket == NULL;
}
return false;
}
#define MAX_LIVENESS_RECURSION 128 /* Arbitrary limit */
static bool
bucket_is_alive(const struct xlate_ctx *ctx,
struct ofputil_bucket *bucket, int depth)
{
if (depth >= MAX_LIVENESS_RECURSION) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_WARN_RL(&rl, "bucket chaining exceeded %d links",
MAX_LIVENESS_RECURSION);
return false;
}
return (!ofputil_bucket_has_liveness(bucket)
|| (bucket->watch_port != OFPP_ANY
&& odp_port_is_alive(ctx, bucket->watch_port))
|| (bucket->watch_group != OFPG_ANY
&& group_is_alive(ctx, bucket->watch_group, depth + 1)));
}
static struct ofputil_bucket *
group_first_live_bucket(const struct xlate_ctx *ctx,
const struct group_dpif *group, int depth)
{
struct ofputil_bucket *bucket;
const struct ovs_list *buckets;
group_dpif_get_buckets(group, &buckets);
LIST_FOR_EACH (bucket, list_node, buckets) {
if (bucket_is_alive(ctx, bucket, depth)) {
return bucket;
}
}
return NULL;
}
static struct ofputil_bucket *
group_best_live_bucket(const struct xlate_ctx *ctx,
const struct group_dpif *group,
uint32_t basis)
{
struct ofputil_bucket *best_bucket = NULL;
uint32_t best_score = 0;
int i = 0;
struct ofputil_bucket *bucket;
const struct ovs_list *buckets;
group_dpif_get_buckets(group, &buckets);
LIST_FOR_EACH (bucket, list_node, buckets) {
if (bucket_is_alive(ctx, bucket, 0)) {
uint32_t score = (hash_int(i, basis) & 0xffff) * bucket->weight;
if (score >= best_score) {
best_bucket = bucket;
best_score = score;
}
}
i++;
}
return best_bucket;
}
static bool
xbundle_trunks_vlan(const struct xbundle *bundle, uint16_t vlan)
{
return (bundle->vlan_mode != PORT_VLAN_ACCESS
&& (!bundle->trunks || bitmap_is_set(bundle->trunks, vlan)));
}
static bool
xbundle_includes_vlan(const struct xbundle *xbundle, uint16_t vlan)
{
return vlan == xbundle->vlan || xbundle_trunks_vlan(xbundle, vlan);
}
static mirror_mask_t
xbundle_mirror_out(const struct xbridge *xbridge, struct xbundle *xbundle)
{
return xbundle != &ofpp_none_bundle
? mirror_bundle_out(xbridge->mbridge, xbundle->ofbundle)
: 0;
}
static mirror_mask_t
xbundle_mirror_src(const struct xbridge *xbridge, struct xbundle *xbundle)
{
return xbundle != &ofpp_none_bundle
? mirror_bundle_src(xbridge->mbridge, xbundle->ofbundle)
: 0;
}
static mirror_mask_t
xbundle_mirror_dst(const struct xbridge *xbridge, struct xbundle *xbundle)
{
return xbundle != &ofpp_none_bundle
? mirror_bundle_dst(xbridge->mbridge, xbundle->ofbundle)
: 0;
}
static struct xbundle *
lookup_input_bundle(const struct xbridge *xbridge, ofp_port_t in_port,
bool warn, struct xport **in_xportp)
{
struct xport *xport;
/* Find the port and bundle for the received packet. */
xport = get_ofp_port(xbridge, in_port);
if (in_xportp) {
*in_xportp = xport;
}
if (xport && xport->xbundle) {
return xport->xbundle;
}
/* Special-case OFPP_NONE (OF1.0) and OFPP_CONTROLLER (OF1.1+),
* which a controller may use as the ingress port for traffic that
* it is sourcing. */
if (in_port == OFPP_CONTROLLER || in_port == OFPP_NONE) {
return &ofpp_none_bundle;
}
/* Odd. A few possible reasons here:
*
* - We deleted a port but there are still a few packets queued up
* from it.
*
* - Someone externally added a port (e.g. "ovs-dpctl add-if") that
* we don't know about.
*
* - The ofproto client didn't configure the port as part of a bundle.
* This is particularly likely to happen if a packet was received on the
* port after it was created, but before the client had a chance to
* configure its bundle.
*/
if (warn) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: received packet on unknown "
"port %"PRIu16, xbridge->name, in_port);
}
return NULL;
}
static void
add_mirror_actions(struct xlate_ctx *ctx, const struct flow *orig_flow)
{
const struct xbridge *xbridge = ctx->xbridge;
mirror_mask_t mirrors;
struct xbundle *in_xbundle;
uint16_t vlan;
uint16_t vid;
mirrors = ctx->xout->mirrors;
ctx->xout->mirrors = 0;
in_xbundle = lookup_input_bundle(xbridge, orig_flow->in_port.ofp_port,
ctx->xin->packet != NULL, NULL);
if (!in_xbundle) {
return;
}
mirrors |= xbundle_mirror_src(xbridge, in_xbundle);
/* Drop frames on bundles reserved for mirroring. */
if (xbundle_mirror_out(xbridge, in_xbundle)) {
if (ctx->xin->packet != NULL) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: dropping packet received on port "
"%s, which is reserved exclusively for mirroring",
ctx->xbridge->name, in_xbundle->name);
}
ofpbuf_clear(ctx->xout->odp_actions);
return;
}
/* Check VLAN. */
vid = vlan_tci_to_vid(orig_flow->vlan_tci);
if (!input_vid_is_valid(vid, in_xbundle, ctx->xin->packet != NULL)) {
return;
}
vlan = input_vid_to_vlan(in_xbundle, vid);
if (!mirrors) {
return;
}
/* Restore the original packet before adding the mirror actions. */
ctx->xin->flow = *orig_flow;
while (mirrors) {
mirror_mask_t dup_mirrors;
struct ofbundle *out;
unsigned long *vlans;
bool vlan_mirrored;
bool has_mirror;
int out_vlan;
has_mirror = mirror_get(xbridge->mbridge, raw_ctz(mirrors),
&vlans, &dup_mirrors, &out, &out_vlan);
ovs_assert(has_mirror);
if (vlans) {
ctx->xout->wc.masks.vlan_tci |= htons(VLAN_CFI | VLAN_VID_MASK);
}
vlan_mirrored = !vlans || bitmap_is_set(vlans, vlan);
free(vlans);
if (!vlan_mirrored) {
mirrors = zero_rightmost_1bit(mirrors);
continue;
}
mirrors &= ~dup_mirrors;
ctx->xout->mirrors |= dup_mirrors;
if (out) {
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct xbundle *out_xbundle = xbundle_lookup(xcfg, out);
if (out_xbundle) {
output_normal(ctx, out_xbundle, vlan);
}
} else if (vlan != out_vlan
&& !eth_addr_is_reserved(orig_flow->dl_dst)) {
struct xbundle *xbundle;
LIST_FOR_EACH (xbundle, list_node, &xbridge->xbundles) {
if (xbundle_includes_vlan(xbundle, out_vlan)
&& !xbundle_mirror_out(xbridge, xbundle)) {
output_normal(ctx, xbundle, out_vlan);
}
}
}
}
}
/* Given 'vid', the VID obtained from the 802.1Q header that was received as
* part of a packet (specify 0 if there was no 802.1Q header), and 'in_xbundle',
* the bundle on which the packet was received, returns the VLAN to which the
* packet belongs.
*
* Both 'vid' and the return value are in the range 0...4095. */
static uint16_t
input_vid_to_vlan(const struct xbundle *in_xbundle, uint16_t vid)
{
switch (in_xbundle->vlan_mode) {
case PORT_VLAN_ACCESS:
return in_xbundle->vlan;
break;
case PORT_VLAN_TRUNK:
return vid;
case PORT_VLAN_NATIVE_UNTAGGED:
case PORT_VLAN_NATIVE_TAGGED:
return vid ? vid : in_xbundle->vlan;
default:
OVS_NOT_REACHED();
}
}
/* Checks whether a packet with the given 'vid' may ingress on 'in_xbundle'.
* If so, returns true. Otherwise, returns false and, if 'warn' is true, logs
* a warning.
*
* 'vid' should be the VID obtained from the 802.1Q header that was received as
* part of a packet (specify 0 if there was no 802.1Q header), in the range
* 0...4095. */
static bool
input_vid_is_valid(uint16_t vid, struct xbundle *in_xbundle, bool warn)
{
/* Allow any VID on the OFPP_NONE port. */
if (in_xbundle == &ofpp_none_bundle) {
return true;
}
switch (in_xbundle->vlan_mode) {
case PORT_VLAN_ACCESS:
if (vid) {
if (warn) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "dropping VLAN %"PRIu16" tagged "
"packet received on port %s configured as VLAN "
"%"PRIu16" access port", vid, in_xbundle->name,
in_xbundle->vlan);
}
return false;
}
return true;
case PORT_VLAN_NATIVE_UNTAGGED:
case PORT_VLAN_NATIVE_TAGGED:
if (!vid) {
/* Port must always carry its native VLAN. */
return true;
}
/* Fall through. */
case PORT_VLAN_TRUNK:
if (!xbundle_includes_vlan(in_xbundle, vid)) {
if (warn) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "dropping VLAN %"PRIu16" packet "
"received on port %s not configured for trunking "
"VLAN %"PRIu16, vid, in_xbundle->name, vid);
}
return false;
}
return true;
default:
OVS_NOT_REACHED();
}
}
/* Given 'vlan', the VLAN that a packet belongs to, and
* 'out_xbundle', a bundle on which the packet is to be output, returns the VID
* that should be included in the 802.1Q header. (If the return value is 0,
* then the 802.1Q header should only be included in the packet if there is a
* nonzero PCP.)
*
* Both 'vlan' and the return value are in the range 0...4095. */
static uint16_t
output_vlan_to_vid(const struct xbundle *out_xbundle, uint16_t vlan)
{
switch (out_xbundle->vlan_mode) {
case PORT_VLAN_ACCESS:
return 0;
case PORT_VLAN_TRUNK:
case PORT_VLAN_NATIVE_TAGGED:
return vlan;
case PORT_VLAN_NATIVE_UNTAGGED:
return vlan == out_xbundle->vlan ? 0 : vlan;
default:
OVS_NOT_REACHED();
}
}
static void
output_normal(struct xlate_ctx *ctx, const struct xbundle *out_xbundle,
uint16_t vlan)
{
ovs_be16 *flow_tci = &ctx->xin->flow.vlan_tci;
uint16_t vid;
ovs_be16 tci, old_tci;
struct xport *xport;
struct xlate_bond_recirc xr;
bool use_recirc = false;
vid = output_vlan_to_vid(out_xbundle, vlan);
if (list_is_empty(&out_xbundle->xports)) {
/* Partially configured bundle with no slaves. Drop the packet. */
return;
} else if (!out_xbundle->bond) {
xport = CONTAINER_OF(list_front(&out_xbundle->xports), struct xport,
bundle_node);
} else {
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct flow_wildcards *wc = &ctx->xout->wc;
struct ofport_dpif *ofport;
if (ctx->xbridge->enable_recirc) {
use_recirc = bond_may_recirc(
out_xbundle->bond, &xr.recirc_id, &xr.hash_basis);
if (use_recirc) {
/* Only TCP mode uses recirculation. */
xr.hash_alg = OVS_HASH_ALG_L4;
bond_update_post_recirc_rules(out_xbundle->bond, false);
/* Recirculation does not require unmasking hash fields. */
wc = NULL;
}
}
ofport = bond_choose_output_slave(out_xbundle->bond,
&ctx->xin->flow, wc, vid);
xport = xport_lookup(xcfg, ofport);
if (!xport) {
/* No slaves enabled, so drop packet. */
return;
}
/* If use_recirc is set, the main thread will handle stats
* accounting for this bond. */
if (!use_recirc) {
if (ctx->xin->resubmit_stats) {
bond_account(out_xbundle->bond, &ctx->xin->flow, vid,
ctx->xin->resubmit_stats->n_bytes);
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
struct flow *flow;
flow = &ctx->xin->flow;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_BOND);
entry->u.bond.bond = bond_ref(out_xbundle->bond);
entry->u.bond.flow = xmemdup(flow, sizeof *flow);
entry->u.bond.vid = vid;
}
}
}
old_tci = *flow_tci;
tci = htons(vid);
if (tci || out_xbundle->use_priority_tags) {
tci |= *flow_tci & htons(VLAN_PCP_MASK);
if (tci) {
tci |= htons(VLAN_CFI);
}
}
*flow_tci = tci;
compose_output_action(ctx, xport->ofp_port, use_recirc ? &xr : NULL);
*flow_tci = old_tci;
}
/* A VM broadcasts a gratuitous ARP to indicate that it has resumed after
* migration. Older Citrix-patched Linux DomU used gratuitous ARP replies to
* indicate this; newer upstream kernels use gratuitous ARP requests. */
static bool
is_gratuitous_arp(const struct flow *flow, struct flow_wildcards *wc)
{
if (flow->dl_type != htons(ETH_TYPE_ARP)) {
return false;
}
memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
if (!eth_addr_is_broadcast(flow->dl_dst)) {
return false;
}
memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
if (flow->nw_proto == ARP_OP_REPLY) {
return true;
} else if (flow->nw_proto == ARP_OP_REQUEST) {
memset(&wc->masks.nw_src, 0xff, sizeof wc->masks.nw_src);
memset(&wc->masks.nw_dst, 0xff, sizeof wc->masks.nw_dst);
return flow->nw_src == flow->nw_dst;
} else {
return false;
}
}
/* Determines whether packets in 'flow' within 'xbridge' should be forwarded or
* dropped. Returns true if they may be forwarded, false if they should be
* dropped.
*
* 'in_port' must be the xport that corresponds to flow->in_port.
* 'in_port' must be part of a bundle (e.g. in_port->bundle must be nonnull).
*
* 'vlan' must be the VLAN that corresponds to flow->vlan_tci on 'in_port', as
* returned by input_vid_to_vlan(). It must be a valid VLAN for 'in_port', as
* checked by input_vid_is_valid().
*
* May also add tags to '*tags', although the current implementation only does
* so in one special case.
*/
static bool
is_admissible(struct xlate_ctx *ctx, struct xport *in_port,
uint16_t vlan)
{
struct xbundle *in_xbundle = in_port->xbundle;
const struct xbridge *xbridge = ctx->xbridge;
struct flow *flow = &ctx->xin->flow;
/* Drop frames for reserved multicast addresses
* only if forward_bpdu option is absent. */
if (!xbridge->forward_bpdu && eth_addr_is_reserved(flow->dl_dst)) {
xlate_report(ctx, "packet has reserved destination MAC, dropping");
return false;
}
if (in_xbundle->bond) {
struct mac_entry *mac;
switch (bond_check_admissibility(in_xbundle->bond, in_port->ofport,
flow->dl_dst)) {
case BV_ACCEPT:
break;
case BV_DROP:
xlate_report(ctx, "bonding refused admissibility, dropping");
return false;
case BV_DROP_IF_MOVED:
ovs_rwlock_rdlock(&xbridge->ml->rwlock);
mac = mac_learning_lookup(xbridge->ml, flow->dl_src, vlan);
if (mac
&& mac_entry_get_port(xbridge->ml, mac) != in_xbundle->ofbundle
&& (!is_gratuitous_arp(flow, &ctx->xout->wc)
|| mac_entry_is_grat_arp_locked(mac))) {
ovs_rwlock_unlock(&xbridge->ml->rwlock);
xlate_report(ctx, "SLB bond thinks this packet looped back, "
"dropping");
return false;
}
ovs_rwlock_unlock(&xbridge->ml->rwlock);
break;
}
}
return true;
}
/* Checks whether a MAC learning update is necessary for MAC learning table
* 'ml' given that a packet matching 'flow' was received on 'in_xbundle' in
* 'vlan'.
*
* Most packets processed through the MAC learning table do not actually
* change it in any way. This function requires only a read lock on the MAC
* learning table, so it is much cheaper in this common case.
*
* Keep the code here synchronized with that in update_learning_table__()
* below. */
static bool
is_mac_learning_update_needed(const struct mac_learning *ml,
const struct flow *flow,
struct flow_wildcards *wc,
int vlan, struct xbundle *in_xbundle)
OVS_REQ_RDLOCK(ml->rwlock)
{
struct mac_entry *mac;
if (!mac_learning_may_learn(ml, flow->dl_src, vlan)) {
return false;
}
mac = mac_learning_lookup(ml, flow->dl_src, vlan);
if (!mac || mac_entry_age(ml, mac)) {
return true;
}
if (is_gratuitous_arp(flow, wc)) {
/* We don't want to learn from gratuitous ARP packets that are
* reflected back over bond slaves so we lock the learning table. */
if (!in_xbundle->bond) {
return true;
} else if (mac_entry_is_grat_arp_locked(mac)) {
return false;
}
}
return mac_entry_get_port(ml, mac) != in_xbundle->ofbundle;
}
/* Updates MAC learning table 'ml' given that a packet matching 'flow' was
* received on 'in_xbundle' in 'vlan'.
*
* This code repeats all the checks in is_mac_learning_update_needed() because
* the lock was released between there and here and thus the MAC learning state
* could have changed.
*
* Keep the code here synchronized with that in is_mac_learning_update_needed()
* above. */
static void
update_learning_table__(const struct xbridge *xbridge,
const struct flow *flow, struct flow_wildcards *wc,
int vlan, struct xbundle *in_xbundle)
OVS_REQ_WRLOCK(xbridge->ml->rwlock)
{
struct mac_entry *mac;
if (!mac_learning_may_learn(xbridge->ml, flow->dl_src, vlan)) {
return;
}
mac = mac_learning_insert(xbridge->ml, flow->dl_src, vlan);
if (is_gratuitous_arp(flow, wc)) {
/* We don't want to learn from gratuitous ARP packets that are
* reflected back over bond slaves so we lock the learning table. */
if (!in_xbundle->bond) {
mac_entry_set_grat_arp_lock(mac);
} else if (mac_entry_is_grat_arp_locked(mac)) {
return;
}
}
if (mac_entry_get_port(xbridge->ml, mac) != in_xbundle->ofbundle) {
/* The log messages here could actually be useful in debugging,
* so keep the rate limit relatively high. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(30, 300);
VLOG_DBG_RL(&rl, "bridge %s: learned that "ETH_ADDR_FMT" is "
"on port %s in VLAN %d",
xbridge->name, ETH_ADDR_ARGS(flow->dl_src),
in_xbundle->name, vlan);
mac_entry_set_port(xbridge->ml, mac, in_xbundle->ofbundle);
}
}
static void
update_learning_table(const struct xbridge *xbridge,
const struct flow *flow, struct flow_wildcards *wc,
int vlan, struct xbundle *in_xbundle)
{
bool need_update;
/* Don't learn the OFPP_NONE port. */
if (in_xbundle == &ofpp_none_bundle) {
return;
}
/* First try the common case: no change to MAC learning table. */
ovs_rwlock_rdlock(&xbridge->ml->rwlock);
need_update = is_mac_learning_update_needed(xbridge->ml, flow, wc, vlan,
in_xbundle);
ovs_rwlock_unlock(&xbridge->ml->rwlock);
if (need_update) {
/* Slow path: MAC learning table might need an update. */
ovs_rwlock_wrlock(&xbridge->ml->rwlock);
update_learning_table__(xbridge, flow, wc, vlan, in_xbundle);
ovs_rwlock_unlock(&xbridge->ml->rwlock);
}
}
/* Updates multicast snooping table 'ms' given that a packet matching 'flow'
* was received on 'in_xbundle' in 'vlan' and is either Report or Query. */
static void
update_mcast_snooping_table__(const struct xbridge *xbridge,
const struct flow *flow,
struct mcast_snooping *ms,
ovs_be32 ip4, int vlan,
struct xbundle *in_xbundle)
OVS_REQ_WRLOCK(ms->rwlock)
{
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(60, 30);
switch (ntohs(flow->tp_src)) {
case IGMP_HOST_MEMBERSHIP_REPORT:
case IGMPV2_HOST_MEMBERSHIP_REPORT:
if (mcast_snooping_add_group(ms, ip4, vlan, in_xbundle->ofbundle)) {
VLOG_DBG_RL(&rl, "bridge %s: multicast snooping learned that "
IP_FMT" is on port %s in VLAN %d",
xbridge->name, IP_ARGS(ip4), in_xbundle->name, vlan);
}
break;
case IGMP_HOST_LEAVE_MESSAGE:
if (mcast_snooping_leave_group(ms, ip4, vlan, in_xbundle->ofbundle)) {
VLOG_DBG_RL(&rl, "bridge %s: multicast snooping leaving "
IP_FMT" is on port %s in VLAN %d",
xbridge->name, IP_ARGS(ip4), in_xbundle->name, vlan);
}
break;
case IGMP_HOST_MEMBERSHIP_QUERY:
if (flow->nw_src && mcast_snooping_add_mrouter(ms, vlan,
in_xbundle->ofbundle)) {
VLOG_DBG_RL(&rl, "bridge %s: multicast snooping query from "
IP_FMT" is on port %s in VLAN %d",
xbridge->name, IP_ARGS(flow->nw_src),
in_xbundle->name, vlan);
}
break;
}
}
/* Updates multicast snooping table 'ms' given that a packet matching 'flow'
* was received on 'in_xbundle' in 'vlan'. */
static void
update_mcast_snooping_table(const struct xbridge *xbridge,
const struct flow *flow, int vlan,
struct xbundle *in_xbundle)
{
struct mcast_snooping *ms = xbridge->ms;
struct xlate_cfg *xcfg;
struct xbundle *mcast_xbundle;
struct mcast_port_bundle *fport;
/* Don't learn the OFPP_NONE port. */
if (in_xbundle == &ofpp_none_bundle) {
return;
}
/* Don't learn from flood ports */
mcast_xbundle = NULL;
ovs_rwlock_wrlock(&ms->rwlock);
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
LIST_FOR_EACH(fport, node, &ms->fport_list) {
mcast_xbundle = xbundle_lookup(xcfg, fport->port);
if (mcast_xbundle == in_xbundle) {
break;
}
}
if (!mcast_xbundle || mcast_xbundle != in_xbundle) {
update_mcast_snooping_table__(xbridge, flow, ms, flow->igmp_group_ip4,
vlan, in_xbundle);
}
ovs_rwlock_unlock(&ms->rwlock);
}
/* send the packet to ports having the multicast group learned */
static void
xlate_normal_mcast_send_group(struct xlate_ctx *ctx,
struct mcast_snooping *ms OVS_UNUSED,
struct mcast_group *grp,
struct xbundle *in_xbundle, uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct xlate_cfg *xcfg;
struct mcast_group_bundle *b;
struct xbundle *mcast_xbundle;
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
LIST_FOR_EACH(b, bundle_node, &grp->bundle_lru) {
mcast_xbundle = xbundle_lookup(xcfg, b->port);
if (mcast_xbundle && mcast_xbundle != in_xbundle) {
xlate_report(ctx, "forwarding to mcast group port");
output_normal(ctx, mcast_xbundle, vlan);
} else if (!mcast_xbundle) {
xlate_report(ctx, "mcast group port is unknown, dropping");
} else {
xlate_report(ctx, "mcast group port is input port, dropping");
}
}
}
/* send the packet to ports connected to multicast routers */
static void
xlate_normal_mcast_send_mrouters(struct xlate_ctx *ctx,
struct mcast_snooping *ms,
struct xbundle *in_xbundle, uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct xlate_cfg *xcfg;
struct mcast_mrouter_bundle *mrouter;
struct xbundle *mcast_xbundle;
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
LIST_FOR_EACH(mrouter, mrouter_node, &ms->mrouter_lru) {
mcast_xbundle = xbundle_lookup(xcfg, mrouter->port);
if (mcast_xbundle && mcast_xbundle != in_xbundle) {
xlate_report(ctx, "forwarding to mcast router port");
output_normal(ctx, mcast_xbundle, vlan);
} else if (!mcast_xbundle) {
xlate_report(ctx, "mcast router port is unknown, dropping");
} else {
xlate_report(ctx, "mcast router port is input port, dropping");
}
}
}
/* send the packet to ports flagged to be flooded */
static void
xlate_normal_mcast_send_fports(struct xlate_ctx *ctx,
struct mcast_snooping *ms,
struct xbundle *in_xbundle, uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct xlate_cfg *xcfg;
struct mcast_port_bundle *fport;
struct xbundle *mcast_xbundle;
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
LIST_FOR_EACH(fport, node, &ms->fport_list) {
mcast_xbundle = xbundle_lookup(xcfg, fport->port);
if (mcast_xbundle && mcast_xbundle != in_xbundle) {
xlate_report(ctx, "forwarding to mcast flood port");
output_normal(ctx, mcast_xbundle, vlan);
} else if (!mcast_xbundle) {
xlate_report(ctx, "mcast flood port is unknown, dropping");
} else {
xlate_report(ctx, "mcast flood port is input port, dropping");
}
}
}
/* forward the Reports to configured ports */
static void
xlate_normal_mcast_send_rports(struct xlate_ctx *ctx,
struct mcast_snooping *ms,
struct xbundle *in_xbundle, uint16_t vlan)
OVS_REQ_RDLOCK(ms->rwlock)
{
struct xlate_cfg *xcfg;
struct mcast_port_bundle *rport;
struct xbundle *mcast_xbundle;
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
LIST_FOR_EACH(rport, node, &ms->rport_list) {
mcast_xbundle = xbundle_lookup(xcfg, rport->port);
if (mcast_xbundle && mcast_xbundle != in_xbundle) {
xlate_report(ctx, "forwarding Report to mcast flagged port");
output_normal(ctx, mcast_xbundle, vlan);
} else if (!mcast_xbundle) {
xlate_report(ctx, "mcast port is unknown, dropping the Report");
} else {
xlate_report(ctx, "mcast port is input port, dropping the Report");
}
}
}
static void
xlate_normal_flood(struct xlate_ctx *ctx, struct xbundle *in_xbundle,
uint16_t vlan)
{
struct xbundle *xbundle;
LIST_FOR_EACH (xbundle, list_node, &ctx->xbridge->xbundles) {
if (xbundle != in_xbundle
&& xbundle_includes_vlan(xbundle, vlan)
&& xbundle->floodable
&& !xbundle_mirror_out(ctx->xbridge, xbundle)) {
output_normal(ctx, xbundle, vlan);
}
}
ctx->xout->nf_output_iface = NF_OUT_FLOOD;
}
static void
xlate_normal(struct xlate_ctx *ctx)
{
struct flow_wildcards *wc = &ctx->xout->wc;
struct flow *flow = &ctx->xin->flow;
struct xbundle *in_xbundle;
struct xport *in_port;
struct mac_entry *mac;
void *mac_port;
uint16_t vlan;
uint16_t vid;
ctx->xout->has_normal = true;
memset(&wc->masks.dl_src, 0xff, sizeof wc->masks.dl_src);
memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
in_xbundle = lookup_input_bundle(ctx->xbridge, flow->in_port.ofp_port,
ctx->xin->packet != NULL, &in_port);
if (!in_xbundle) {
xlate_report(ctx, "no input bundle, dropping");
return;
}
/* Drop malformed frames. */
if (flow->dl_type == htons(ETH_TYPE_VLAN) &&
!(flow->vlan_tci & htons(VLAN_CFI))) {
if (ctx->xin->packet != NULL) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: dropping packet with partial "
"VLAN tag received on port %s",
ctx->xbridge->name, in_xbundle->name);
}
xlate_report(ctx, "partial VLAN tag, dropping");
return;
}
/* Drop frames on bundles reserved for mirroring. */
if (xbundle_mirror_out(ctx->xbridge, in_xbundle)) {
if (ctx->xin->packet != NULL) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: dropping packet received on port "
"%s, which is reserved exclusively for mirroring",
ctx->xbridge->name, in_xbundle->name);
}
xlate_report(ctx, "input port is mirror output port, dropping");
return;
}
/* Check VLAN. */
vid = vlan_tci_to_vid(flow->vlan_tci);
if (!input_vid_is_valid(vid, in_xbundle, ctx->xin->packet != NULL)) {
xlate_report(ctx, "disallowed VLAN VID for this input port, dropping");
return;
}
vlan = input_vid_to_vlan(in_xbundle, vid);
/* Check other admissibility requirements. */
if (in_port && !is_admissible(ctx, in_port, vlan)) {
return;
}
/* Learn source MAC. */
if (ctx->xin->may_learn) {
update_learning_table(ctx->xbridge, flow, wc, vlan, in_xbundle);
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
/* Save enough info to update mac learning table later. */
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_NORMAL);
entry->u.normal.ofproto = ctx->xbridge->ofproto;
entry->u.normal.flow = xmemdup(flow, sizeof *flow);
entry->u.normal.vlan = vlan;
}
/* Determine output bundle. */
if (mcast_snooping_enabled(ctx->xbridge->ms)
&& !eth_addr_is_broadcast(flow->dl_dst)
&& eth_addr_is_multicast(flow->dl_dst)
&& flow->dl_type == htons(ETH_TYPE_IP)) {
struct mcast_snooping *ms = ctx->xbridge->ms;
struct mcast_group *grp;
if (flow->nw_proto == IPPROTO_IGMP) {
if (ctx->xin->may_learn) {
if (mcast_snooping_is_membership(flow->tp_src) ||
mcast_snooping_is_query(flow->tp_src)) {
update_mcast_snooping_table(ctx->xbridge, flow, vlan,
in_xbundle);
}
}
if (mcast_snooping_is_membership(flow->tp_src)) {
ovs_rwlock_rdlock(&ms->rwlock);
xlate_normal_mcast_send_mrouters(ctx, ms, in_xbundle, vlan);
/* RFC4541: section 2.1.1, item 1: A snooping switch should
* forward IGMP Membership Reports only to those ports where
* multicast routers are attached. Alternatively stated: a
* snooping switch should not forward IGMP Membership Reports
* to ports on which only hosts are attached.
* An administrative control may be provided to override this
* restriction, allowing the report messages to be flooded to
* other ports. */
xlate_normal_mcast_send_rports(ctx, ms, in_xbundle, vlan);
ovs_rwlock_unlock(&ms->rwlock);
} else {
xlate_report(ctx, "multicast traffic, flooding");
xlate_normal_flood(ctx, in_xbundle, vlan);
}
return;
} else {
if (ip_is_local_multicast(flow->nw_dst)) {
/* RFC4541: section 2.1.2, item 2: Packets with a dst IP
* address in the 224.0.0.x range which are not IGMP must
* be forwarded on all ports */
xlate_report(ctx, "RFC4541: section 2.1.2, item 2, flooding");
xlate_normal_flood(ctx, in_xbundle, vlan);
return;
}
}
/* forwarding to group base ports */
ovs_rwlock_rdlock(&ms->rwlock);
grp = mcast_snooping_lookup(ms, flow->nw_dst, vlan);
if (grp) {
xlate_normal_mcast_send_group(ctx, ms, grp, in_xbundle, vlan);
xlate_normal_mcast_send_fports(ctx, ms, in_xbundle, vlan);
xlate_normal_mcast_send_mrouters(ctx, ms, in_xbundle, vlan);
} else {
if (mcast_snooping_flood_unreg(ms)) {
xlate_report(ctx, "unregistered multicast, flooding");
xlate_normal_flood(ctx, in_xbundle, vlan);
} else {
xlate_normal_mcast_send_mrouters(ctx, ms, in_xbundle, vlan);
xlate_normal_mcast_send_fports(ctx, ms, in_xbundle, vlan);
}
}
ovs_rwlock_unlock(&ms->rwlock);
} else {
ovs_rwlock_rdlock(&ctx->xbridge->ml->rwlock);
mac = mac_learning_lookup(ctx->xbridge->ml, flow->dl_dst, vlan);
mac_port = mac ? mac_entry_get_port(ctx->xbridge->ml, mac) : NULL;
ovs_rwlock_unlock(&ctx->xbridge->ml->rwlock);
if (mac_port) {
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct xbundle *mac_xbundle = xbundle_lookup(xcfg, mac_port);
if (mac_xbundle && mac_xbundle != in_xbundle) {
xlate_report(ctx, "forwarding to learned port");
output_normal(ctx, mac_xbundle, vlan);
} else if (!mac_xbundle) {
xlate_report(ctx, "learned port is unknown, dropping");
} else {
xlate_report(ctx, "learned port is input port, dropping");
}
} else {
xlate_report(ctx, "no learned MAC for destination, flooding");
xlate_normal_flood(ctx, in_xbundle, vlan);
}
}
}
/* Compose SAMPLE action for sFlow or IPFIX. The given probability is
* the number of packets out of UINT32_MAX to sample. The given
* cookie is passed back in the callback for each sampled packet.
*/
static size_t
compose_sample_action(const struct xbridge *xbridge,
struct ofpbuf *odp_actions,
const struct flow *flow,
const uint32_t probability,
const union user_action_cookie *cookie,
const size_t cookie_size,
const odp_port_t tunnel_out_port)
{
size_t sample_offset, actions_offset;
odp_port_t odp_port;
int cookie_offset;
uint32_t pid;
sample_offset = nl_msg_start_nested(odp_actions, OVS_ACTION_ATTR_SAMPLE);
nl_msg_put_u32(odp_actions, OVS_SAMPLE_ATTR_PROBABILITY, probability);
actions_offset = nl_msg_start_nested(odp_actions, OVS_SAMPLE_ATTR_ACTIONS);
odp_port = ofp_port_to_odp_port(xbridge, flow->in_port.ofp_port);
pid = dpif_port_get_pid(xbridge->dpif, odp_port,
flow_hash_5tuple(flow, 0));
cookie_offset = odp_put_userspace_action(pid, cookie, cookie_size,
tunnel_out_port, odp_actions);
nl_msg_end_nested(odp_actions, actions_offset);
nl_msg_end_nested(odp_actions, sample_offset);
return cookie_offset;
}
static void
compose_sflow_cookie(const struct xbridge *xbridge, ovs_be16 vlan_tci,
odp_port_t odp_port, unsigned int n_outputs,
union user_action_cookie *cookie)
{
int ifindex;
cookie->type = USER_ACTION_COOKIE_SFLOW;
cookie->sflow.vlan_tci = vlan_tci;
/* See http://www.sflow.org/sflow_version_5.txt (search for "Input/output
* port information") for the interpretation of cookie->output. */
switch (n_outputs) {
case 0:
/* 0x40000000 | 256 means "packet dropped for unknown reason". */
cookie->sflow.output = 0x40000000 | 256;
break;
case 1:
ifindex = dpif_sflow_odp_port_to_ifindex(xbridge->sflow, odp_port);
if (ifindex) {
cookie->sflow.output = ifindex;
break;
}
/* Fall through. */
default:
/* 0x80000000 means "multiple output ports. */
cookie->sflow.output = 0x80000000 | n_outputs;
break;
}
}
/* Compose SAMPLE action for sFlow bridge sampling. */
static size_t
compose_sflow_action(const struct xbridge *xbridge,
struct ofpbuf *odp_actions,
const struct flow *flow,
odp_port_t odp_port)
{
uint32_t probability;
union user_action_cookie cookie;
if (!xbridge->sflow || flow->in_port.ofp_port == OFPP_NONE) {
return 0;
}
probability = dpif_sflow_get_probability(xbridge->sflow);
compose_sflow_cookie(xbridge, htons(0), odp_port,
odp_port == ODPP_NONE ? 0 : 1, &cookie);
return compose_sample_action(xbridge, odp_actions, flow, probability,
&cookie, sizeof cookie.sflow, ODPP_NONE);
}
static void
compose_flow_sample_cookie(uint16_t probability, uint32_t collector_set_id,
uint32_t obs_domain_id, uint32_t obs_point_id,
union user_action_cookie *cookie)
{
cookie->type = USER_ACTION_COOKIE_FLOW_SAMPLE;
cookie->flow_sample.probability = probability;
cookie->flow_sample.collector_set_id = collector_set_id;
cookie->flow_sample.obs_domain_id = obs_domain_id;
cookie->flow_sample.obs_point_id = obs_point_id;
}
static void
compose_ipfix_cookie(union user_action_cookie *cookie,
odp_port_t output_odp_port)
{
cookie->type = USER_ACTION_COOKIE_IPFIX;
cookie->ipfix.output_odp_port = output_odp_port;
}
/* Compose SAMPLE action for IPFIX bridge sampling. */
static void
compose_ipfix_action(const struct xbridge *xbridge,
struct ofpbuf *odp_actions,
const struct flow *flow,
odp_port_t output_odp_port)
{
uint32_t probability;
union user_action_cookie cookie;
odp_port_t tunnel_out_port = ODPP_NONE;
if (!xbridge->ipfix || flow->in_port.ofp_port == OFPP_NONE) {
return;
}
/* For input case, output_odp_port is ODPP_NONE, which is an invalid port
* number. */
if (output_odp_port == ODPP_NONE &&
!dpif_ipfix_get_bridge_exporter_input_sampling(xbridge->ipfix)) {
return;
}
/* For output case, output_odp_port is valid*/
if (output_odp_port != ODPP_NONE) {
if (!dpif_ipfix_get_bridge_exporter_output_sampling(xbridge->ipfix)) {
return;
}
/* If tunnel sampling is enabled, put an additional option attribute:
* OVS_USERSPACE_ATTR_TUNNEL_OUT_PORT
*/
if (dpif_ipfix_get_bridge_exporter_tunnel_sampling(xbridge->ipfix) &&
dpif_ipfix_get_tunnel_port(xbridge->ipfix, output_odp_port) ) {
tunnel_out_port = output_odp_port;
}
}
probability = dpif_ipfix_get_bridge_exporter_probability(xbridge->ipfix);
compose_ipfix_cookie(&cookie, output_odp_port);
compose_sample_action(xbridge, odp_actions, flow, probability,
&cookie, sizeof cookie.ipfix, tunnel_out_port);
}
/* SAMPLE action for sFlow must be first action in any given list of
* actions. At this point we do not have all information required to
* build it. So try to build sample action as complete as possible. */
static void
add_sflow_action(struct xlate_ctx *ctx)
{
ctx->user_cookie_offset = compose_sflow_action(ctx->xbridge,
ctx->xout->odp_actions,
&ctx->xin->flow, ODPP_NONE);
ctx->sflow_odp_port = 0;
ctx->sflow_n_outputs = 0;
}
/* SAMPLE action for IPFIX must be 1st or 2nd action in any given list
* of actions, eventually after the SAMPLE action for sFlow. */
static void
add_ipfix_action(struct xlate_ctx *ctx)
{
compose_ipfix_action(ctx->xbridge, ctx->xout->odp_actions,
&ctx->xin->flow, ODPP_NONE);
}
static void
add_ipfix_output_action(struct xlate_ctx *ctx, odp_port_t port)
{
compose_ipfix_action(ctx->xbridge, ctx->xout->odp_actions,
&ctx->xin->flow, port);
}
/* Fix SAMPLE action according to data collected while composing ODP actions.
* We need to fix SAMPLE actions OVS_SAMPLE_ATTR_ACTIONS attribute, i.e. nested
* USERSPACE action's user-cookie which is required for sflow. */
static void
fix_sflow_action(struct xlate_ctx *ctx)
{
const struct flow *base = &ctx->base_flow;
union user_action_cookie *cookie;
if (!ctx->user_cookie_offset) {
return;
}
cookie = ofpbuf_at(ctx->xout->odp_actions, ctx->user_cookie_offset,
sizeof cookie->sflow);
ovs_assert(cookie->type == USER_ACTION_COOKIE_SFLOW);
compose_sflow_cookie(ctx->xbridge, base->vlan_tci,
ctx->sflow_odp_port, ctx->sflow_n_outputs, cookie);
}
static enum slow_path_reason
process_special(struct xlate_ctx *ctx, const struct flow *flow,
const struct xport *xport, const struct dp_packet *packet)
{
struct flow_wildcards *wc = &ctx->xout->wc;
const struct xbridge *xbridge = ctx->xbridge;
if (!xport) {
return 0;
} else if (xport->cfm && cfm_should_process_flow(xport->cfm, flow, wc)) {
if (packet) {
cfm_process_heartbeat(xport->cfm, packet);
}
return SLOW_CFM;
} else if (xport->bfd && bfd_should_process_flow(xport->bfd, flow, wc)) {
if (packet) {
bfd_process_packet(xport->bfd, flow, packet);
/* If POLL received, immediately sends FINAL back. */
if (bfd_should_send_packet(xport->bfd)) {
ofproto_dpif_monitor_port_send_soon(xport->ofport);
}
}
return SLOW_BFD;
} else if (xport->xbundle && xport->xbundle->lacp
&& flow->dl_type == htons(ETH_TYPE_LACP)) {
if (packet) {
lacp_process_packet(xport->xbundle->lacp, xport->ofport, packet);
}
return SLOW_LACP;
} else if ((xbridge->stp || xbridge->rstp) &&
stp_should_process_flow(flow, wc)) {
if (packet) {
xbridge->stp
? stp_process_packet(xport, packet)
: rstp_process_packet(xport, packet);
}
return SLOW_STP;
} else if (xport->lldp && lldp_should_process_flow(flow)) {
if (packet) {
lldp_process_packet(xport->lldp, packet);
}
return SLOW_LLDP;
} else {
return 0;
}
}
static int
tnl_route_lookup_flow(const struct flow *oflow,
ovs_be32 *ip, struct xport **out_port)
{
char out_dev[IFNAMSIZ];
struct xbridge *xbridge;
struct xlate_cfg *xcfg;
ovs_be32 gw;
if (!ovs_router_lookup(oflow->tunnel.ip_dst, out_dev, &gw)) {
return -ENOENT;
}
if (gw) {
*ip = gw;
} else {
*ip = oflow->tunnel.ip_dst;
}
xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
ovs_assert(xcfg);
HMAP_FOR_EACH (xbridge, hmap_node, &xcfg->xbridges) {
if (!strncmp(xbridge->name, out_dev, IFNAMSIZ)) {
struct xport *port;
HMAP_FOR_EACH (port, ofp_node, &xbridge->xports) {
if (!strncmp(netdev_get_name(port->netdev), out_dev, IFNAMSIZ)) {
*out_port = port;
return 0;
}
}
}
}
return -ENOENT;
}
static int
xlate_flood_packet(struct xbridge *xbridge, struct dp_packet *packet)
{
struct ofpact_output output;
struct flow flow;
ofpact_init(&output.ofpact, OFPACT_OUTPUT, sizeof output);
/* Use OFPP_NONE as the in_port to avoid special packet processing. */
flow_extract(packet, &flow);
flow.in_port.ofp_port = OFPP_NONE;
output.port = OFPP_FLOOD;
output.max_len = 0;
return ofproto_dpif_execute_actions(xbridge->ofproto, &flow, NULL,
&output.ofpact, sizeof output,
packet);
}
static void
tnl_send_arp_request(const struct xport *out_dev, const uint8_t eth_src[ETH_ADDR_LEN],
ovs_be32 ip_src, ovs_be32 ip_dst)
{
struct xbridge *xbridge = out_dev->xbridge;
struct dp_packet packet;
dp_packet_init(&packet, 0);
compose_arp(&packet, eth_src, ip_src, ip_dst);
xlate_flood_packet(xbridge, &packet);
dp_packet_uninit(&packet);
}
static int
build_tunnel_send(const struct xlate_ctx *ctx, const struct xport *xport,
const struct flow *flow, odp_port_t tunnel_odp_port)
{
struct ovs_action_push_tnl tnl_push_data;
struct xport *out_dev = NULL;
ovs_be32 s_ip, d_ip = 0;
uint8_t smac[ETH_ADDR_LEN];
uint8_t dmac[ETH_ADDR_LEN];
int err;
err = tnl_route_lookup_flow(flow, &d_ip, &out_dev);
if (err) {
return err;
}
/* Use mac addr of bridge port of the peer. */
err = netdev_get_etheraddr(out_dev->netdev, smac);
if (err) {
return err;
}
err = netdev_get_in4(out_dev->netdev, (struct in_addr *) &s_ip, NULL);
if (err) {
return err;
}
err = tnl_arp_lookup(out_dev->xbridge->name, d_ip, dmac);
if (err) {
tnl_send_arp_request(out_dev, smac, s_ip, d_ip);
return err;
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_TNL_ARP);
ovs_strlcpy(entry->u.tnl_arp_cache.br_name, out_dev->xbridge->name,
sizeof entry->u.tnl_arp_cache.br_name);
entry->u.tnl_arp_cache.d_ip = d_ip;
}
err = tnl_port_build_header(xport->ofport, flow,
dmac, smac, s_ip, &tnl_push_data);
if (err) {
return err;
}
tnl_push_data.tnl_port = odp_to_u32(tunnel_odp_port);
tnl_push_data.out_port = odp_to_u32(out_dev->odp_port);
odp_put_tnl_push_action(ctx->xout->odp_actions, &tnl_push_data);
return 0;
}
static void
compose_output_action__(struct xlate_ctx *ctx, ofp_port_t ofp_port,
const struct xlate_bond_recirc *xr, bool check_stp)
{
const struct xport *xport = get_ofp_port(ctx->xbridge, ofp_port);
struct flow_wildcards *wc = &ctx->xout->wc;
struct flow *flow = &ctx->xin->flow;
struct flow_tnl flow_tnl;
ovs_be16 flow_vlan_tci;
uint32_t flow_pkt_mark;
uint8_t flow_nw_tos;
odp_port_t out_port, odp_port;
bool tnl_push_pop_send = false;
uint8_t dscp;
/* If 'struct flow' gets additional metadata, we'll need to zero it out
* before traversing a patch port. */
BUILD_ASSERT_DECL(FLOW_WC_SEQ == 31);
memset(&flow_tnl, 0, sizeof flow_tnl);
if (!xport) {
xlate_report(ctx, "Nonexistent output port");
return;
} else if (xport->config & OFPUTIL_PC_NO_FWD) {
xlate_report(ctx, "OFPPC_NO_FWD set, skipping output");
return;
} else if (check_stp) {
if (is_stp(&ctx->base_flow)) {
if (!xport_stp_should_forward_bpdu(xport) &&
!xport_rstp_should_manage_bpdu(xport)) {
if (ctx->xbridge->stp != NULL) {
xlate_report(ctx, "STP not in listening state, "
"skipping bpdu output");
} else if (ctx->xbridge->rstp != NULL) {
xlate_report(ctx, "RSTP not managing BPDU in this state, "
"skipping bpdu output");
}
return;
}
} else if (!xport_stp_forward_state(xport) ||
!xport_rstp_forward_state(xport)) {
if (ctx->xbridge->stp != NULL) {
xlate_report(ctx, "STP not in forwarding state, "
"skipping output");
} else if (ctx->xbridge->rstp != NULL) {
xlate_report(ctx, "RSTP not in forwarding state, "
"skipping output");
}
return;
}
}
if (mbridge_has_mirrors(ctx->xbridge->mbridge) && xport->xbundle) {
ctx->xout->mirrors |= xbundle_mirror_dst(xport->xbundle->xbridge,
xport->xbundle);
}
if (xport->peer) {
const struct xport *peer = xport->peer;
struct flow old_flow = ctx->xin->flow;
bool old_was_mpls = ctx->was_mpls;
enum slow_path_reason special;
struct ofpbuf old_stack = ctx->stack;
union mf_subvalue new_stack[1024 / sizeof(union mf_subvalue)];
struct ofpbuf old_action_set = ctx->action_set;
uint64_t actset_stub[1024 / 8];
ofpbuf_use_stub(&ctx->stack, new_stack, sizeof new_stack);
ofpbuf_use_stub(&ctx->action_set, actset_stub, sizeof actset_stub);
ctx->xbridge = peer->xbridge;
flow->in_port.ofp_port = peer->ofp_port;
flow->metadata = htonll(0);
memset(&flow->tunnel, 0, sizeof flow->tunnel);
memset(flow->regs, 0, sizeof flow->regs);
flow->actset_output = OFPP_UNSET;
special = process_special(ctx, &ctx->xin->flow, peer,
ctx->xin->packet);
if (special) {
ctx->xout->slow |= special;
} else if (may_receive(peer, ctx)) {
if (xport_stp_forward_state(peer) && xport_rstp_forward_state(peer)) {
xlate_table_action(ctx, flow->in_port.ofp_port, 0, true, true);
if (ctx->action_set.size) {
/* Translate action set only if not dropping the packet and
* not recirculating. */
if (!exit_recirculates(ctx)) {
xlate_action_set(ctx);
}
}
/* Check if need to recirculate. */
if (exit_recirculates(ctx)) {
compose_recirculate_action(ctx);
}
} else {
/* Forwarding is disabled by STP and RSTP. Let OFPP_NORMAL and
* the learning action look at the packet, then drop it. */
struct flow old_base_flow = ctx->base_flow;
size_t old_size = ctx->xout->odp_actions->size;
mirror_mask_t old_mirrors = ctx->xout->mirrors;
xlate_table_action(ctx, flow->in_port.ofp_port, 0, true, true);
ctx->xout->mirrors = old_mirrors;
ctx->base_flow = old_base_flow;
ctx->xout->odp_actions->size = old_size;
/* Undo changes that may have been done for recirculation. */
if (exit_recirculates(ctx)) {
ctx->action_set.size = ctx->recirc_action_offset;
ctx->recirc_action_offset = -1;
ctx->last_unroll_offset = -1;
}
}
}
ctx->xin->flow = old_flow;
ctx->xbridge = xport->xbridge;
ofpbuf_uninit(&ctx->action_set);
ctx->action_set = old_action_set;
ofpbuf_uninit(&ctx->stack);
ctx->stack = old_stack;
/* The peer bridge popping MPLS should have no effect on the original
* bridge. */
ctx->was_mpls = old_was_mpls;
/* The fact that the peer bridge exits (for any reason) does not mean
* that the original bridge should exit. Specifically, if the peer
* bridge recirculates (which typically modifies the packet), the
* original bridge must continue processing with the original, not the
* recirculated packet! */
ctx->exit = false;
if (ctx->xin->resubmit_stats) {
netdev_vport_inc_tx(xport->netdev, ctx->xin->resubmit_stats);
netdev_vport_inc_rx(peer->netdev, ctx->xin->resubmit_stats);
if (peer->bfd) {
bfd_account_rx(peer->bfd, ctx->xin->resubmit_stats);
}
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_NETDEV);
entry->u.dev.tx = netdev_ref(xport->netdev);
entry->u.dev.rx = netdev_ref(peer->netdev);
entry->u.dev.bfd = bfd_ref(peer->bfd);
}
return;
}
flow_vlan_tci = flow->vlan_tci;
flow_pkt_mark = flow->pkt_mark;
flow_nw_tos = flow->nw_tos;
if (count_skb_priorities(xport)) {
memset(&wc->masks.skb_priority, 0xff, sizeof wc->masks.skb_priority);
if (dscp_from_skb_priority(xport, flow->skb_priority, &dscp)) {
wc->masks.nw_tos |= IP_DSCP_MASK;
flow->nw_tos &= ~IP_DSCP_MASK;
flow->nw_tos |= dscp;
}
}
if (xport->is_tunnel) {
/* Save tunnel metadata so that changes made due to
* the Logical (tunnel) Port are not visible for any further
* matches, while explicit set actions on tunnel metadata are.
*/
flow_tnl = flow->tunnel;
odp_port = tnl_port_send(xport->ofport, flow, &ctx->xout->wc);
if (odp_port == ODPP_NONE) {
xlate_report(ctx, "Tunneling decided against output");
goto out; /* restore flow_nw_tos */
}
if (flow->tunnel.ip_dst == ctx->orig_tunnel_ip_dst) {
xlate_report(ctx, "Not tunneling to our own address");
goto out; /* restore flow_nw_tos */
}
if (ctx->xin->resubmit_stats) {
netdev_vport_inc_tx(xport->netdev, ctx->xin->resubmit_stats);
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_NETDEV);
entry->u.dev.tx = netdev_ref(xport->netdev);
}
out_port = odp_port;
if (ovs_native_tunneling_is_on(ctx->xbridge->ofproto)) {
tnl_push_pop_send = true;
} else {
commit_odp_tunnel_action(flow, &ctx->base_flow,
ctx->xout->odp_actions);
flow->tunnel = flow_tnl; /* Restore tunnel metadata */
}
} else {
odp_port = xport->odp_port;
out_port = odp_port;
if (ofproto_has_vlan_splinters(ctx->xbridge->ofproto)) {
ofp_port_t vlandev_port;
wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
vlandev_port = vsp_realdev_to_vlandev(ctx->xbridge->ofproto,
ofp_port, flow->vlan_tci);
if (vlandev_port != ofp_port) {
out_port = ofp_port_to_odp_port(ctx->xbridge, vlandev_port);
flow->vlan_tci = htons(0);
}
}
}
if (out_port != ODPP_NONE) {
ctx->xout->slow |= commit_odp_actions(flow, &ctx->base_flow,
ctx->xout->odp_actions,
wc,
ctx->xbridge->masked_set_action);
if (xr) {
struct ovs_action_hash *act_hash;
/* Hash action. */
act_hash = nl_msg_put_unspec_uninit(ctx->xout->odp_actions,
OVS_ACTION_ATTR_HASH,
sizeof *act_hash);
act_hash->hash_alg = xr->hash_alg;
act_hash->hash_basis = xr->hash_basis;
/* Recirc action. */
nl_msg_put_u32(ctx->xout->odp_actions, OVS_ACTION_ATTR_RECIRC,
xr->recirc_id);
} else {
if (tnl_push_pop_send) {
build_tunnel_send(ctx, xport, flow, odp_port);
flow->tunnel = flow_tnl; /* Restore tunnel metadata */
} else {
odp_port_t odp_tnl_port = ODPP_NONE;
/* XXX: Write better Filter for tunnel port. We can use inport
* int tunnel-port flow to avoid these checks completely. */
if (ofp_port == OFPP_LOCAL &&
ovs_native_tunneling_is_on(ctx->xbridge->ofproto)) {
odp_tnl_port = tnl_port_map_lookup(flow, wc);
}
if (odp_tnl_port != ODPP_NONE) {
nl_msg_put_odp_port(ctx->xout->odp_actions,
OVS_ACTION_ATTR_TUNNEL_POP,
odp_tnl_port);
} else {
/* Tunnel push-pop action is not compatible with
* IPFIX action. */
add_ipfix_output_action(ctx, out_port);
nl_msg_put_odp_port(ctx->xout->odp_actions,
OVS_ACTION_ATTR_OUTPUT,
out_port);
}
}
}
ctx->sflow_odp_port = odp_port;
ctx->sflow_n_outputs++;
ctx->xout->nf_output_iface = ofp_port;
}
out:
/* Restore flow */
flow->vlan_tci = flow_vlan_tci;
flow->pkt_mark = flow_pkt_mark;
flow->nw_tos = flow_nw_tos;
}
static void
compose_output_action(struct xlate_ctx *ctx, ofp_port_t ofp_port,
const struct xlate_bond_recirc *xr)
{
compose_output_action__(ctx, ofp_port, xr, true);
}
static void
xlate_recursively(struct xlate_ctx *ctx, struct rule_dpif *rule)
{
struct rule_dpif *old_rule = ctx->rule;
ovs_be64 old_cookie = ctx->rule_cookie;
const struct rule_actions *actions;
if (ctx->xin->resubmit_stats) {
rule_dpif_credit_stats(rule, ctx->xin->resubmit_stats);
}
ctx->resubmits++;
ctx->recurse++;
ctx->rule = rule;
ctx->rule_cookie = rule_dpif_get_flow_cookie(rule);
actions = rule_dpif_get_actions(rule);
do_xlate_actions(actions->ofpacts, actions->ofpacts_len, ctx);
ctx->rule_cookie = old_cookie;
ctx->rule = old_rule;
ctx->recurse--;
}
static bool
xlate_resubmit_resource_check(struct xlate_ctx *ctx)
{
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
if (ctx->recurse >= MAX_RESUBMIT_RECURSION + MAX_INTERNAL_RESUBMITS) {
VLOG_ERR_RL(&rl, "resubmit actions recursed over %d times",
MAX_RESUBMIT_RECURSION);
} else if (ctx->resubmits >= MAX_RESUBMITS + MAX_INTERNAL_RESUBMITS) {
VLOG_ERR_RL(&rl, "over %d resubmit actions", MAX_RESUBMITS);
} else if (ctx->xout->odp_actions->size > UINT16_MAX) {
VLOG_ERR_RL(&rl, "resubmits yielded over 64 kB of actions");
} else if (ctx->stack.size >= 65536) {
VLOG_ERR_RL(&rl, "resubmits yielded over 64 kB of stack");
} else {
return true;
}
return false;
}
static void
xlate_table_action(struct xlate_ctx *ctx, ofp_port_t in_port, uint8_t table_id,
bool may_packet_in, bool honor_table_miss)
{
/* Check if we need to recirculate before matching in a table. */
if (ctx->was_mpls) {
ctx_trigger_recirculation(ctx);
return;
}
if (xlate_resubmit_resource_check(ctx)) {
struct flow_wildcards *wc;
uint8_t old_table_id = ctx->table_id;
struct rule_dpif *rule;
ctx->table_id = table_id;
wc = (ctx->xin->skip_wildcards) ? NULL : &ctx->xout->wc;
rule = rule_dpif_lookup_from_table(ctx->xbridge->ofproto,
&ctx->xin->flow, wc,
ctx->xin->xcache != NULL,
ctx->xin->resubmit_stats,
&ctx->table_id, in_port,
may_packet_in, honor_table_miss);
if (OVS_UNLIKELY(ctx->xin->resubmit_hook)) {
ctx->xin->resubmit_hook(ctx->xin, rule, ctx->recurse + 1);
}
if (rule) {
/* Fill in the cache entry here instead of xlate_recursively
* to make the reference counting more explicit. We take a
* reference in the lookups above if we are going to cache the
* rule. */
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_RULE);
entry->u.rule = rule;
}
xlate_recursively(ctx, rule);
}
ctx->table_id = old_table_id;
return;
}
ctx->exit = true;
}
static void
xlate_group_stats(struct xlate_ctx *ctx, struct group_dpif *group,
struct ofputil_bucket *bucket)
{
if (ctx->xin->resubmit_stats) {
group_dpif_credit_stats(group, bucket, ctx->xin->resubmit_stats);
}
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_GROUP);
entry->u.group.group = group_dpif_ref(group);
entry->u.group.bucket = bucket;
}
}
static void
xlate_group_bucket(struct xlate_ctx *ctx, struct ofputil_bucket *bucket)
{
uint64_t action_list_stub[1024 / 8];
struct ofpbuf action_list, action_set;
struct flow old_flow = ctx->xin->flow;
bool old_was_mpls = ctx->was_mpls;
ofpbuf_use_const(&action_set, bucket->ofpacts, bucket->ofpacts_len);
ofpbuf_use_stub(&action_list, action_list_stub, sizeof action_list_stub);
ofpacts_execute_action_set(&action_list, &action_set);
ctx->recurse++;
do_xlate_actions(action_list.data, action_list.size, ctx);
ctx->recurse--;
ofpbuf_uninit(&action_set);
ofpbuf_uninit(&action_list);
/* Check if need to recirculate. */
if (exit_recirculates(ctx)) {
compose_recirculate_action(ctx);
}
/* Roll back flow to previous state.
* This is equivalent to cloning the packet for each bucket.
*
* As a side effect any subsequently applied actions will
* also effectively be applied to a clone of the packet taken
* just before applying the all or indirect group.
*
* Note that group buckets are action sets, hence they cannot modify the
* main action set. Also any stack actions are ignored when executing an
* action set, so group buckets cannot change the stack either.
* However, we do allow resubmit actions in group buckets, which could
* break the above assumptions. It is up to the controller to not mess up
* with the action_set and stack in the tables resubmitted to from
* group buckets. */
ctx->xin->flow = old_flow;
/* The group bucket popping MPLS should have no effect after bucket
* execution. */
ctx->was_mpls = old_was_mpls;
/* The fact that the group bucket exits (for any reason) does not mean that
* the translation after the group action should exit. Specifically, if
* the group bucket recirculates (which typically modifies the packet), the
* actions after the group action must continue processing with the
* original, not the recirculated packet! */
ctx->exit = false;
}
static void
xlate_all_group(struct xlate_ctx *ctx, struct group_dpif *group)
{
struct ofputil_bucket *bucket;
const struct ovs_list *buckets;
group_dpif_get_buckets(group, &buckets);
LIST_FOR_EACH (bucket, list_node, buckets) {
xlate_group_bucket(ctx, bucket);
}
xlate_group_stats(ctx, group, NULL);
}
static void
xlate_ff_group(struct xlate_ctx *ctx, struct group_dpif *group)
{
struct ofputil_bucket *bucket;
bucket = group_first_live_bucket(ctx, group, 0);
if (bucket) {
xlate_group_bucket(ctx, bucket);
xlate_group_stats(ctx, group, bucket);
}
}
static void
xlate_default_select_group(struct xlate_ctx *ctx, struct group_dpif *group)
{
struct flow_wildcards *wc = &ctx->xout->wc;
struct ofputil_bucket *bucket;
uint32_t basis;
basis = flow_hash_symmetric_l4(&ctx->xin->flow, 0);
flow_mask_hash_fields(&ctx->xin->flow, wc, NX_HASH_FIELDS_SYMMETRIC_L4);
bucket = group_best_live_bucket(ctx, group, basis);
if (bucket) {
xlate_group_bucket(ctx, bucket);
xlate_group_stats(ctx, group, bucket);
}
}
static void
xlate_hash_fields_select_group(struct xlate_ctx *ctx, struct group_dpif *group)
{
struct mf_bitmap hash_fields = MF_BITMAP_INITIALIZER;
struct flow_wildcards *wc = &ctx->xout->wc;
const struct field_array *fields;
struct ofputil_bucket *bucket;
uint32_t basis;
int i;
fields = group_dpif_get_fields(group);
basis = hash_uint64(group_dpif_get_selection_method_param(group));
/* Determine which fields to hash */
for (i = 0; i < MFF_N_IDS; i++) {
if (bitmap_is_set(fields->used.bm, i)) {
const struct mf_field *mf;
/* If the field is already present in 'hash_fields' then
* this loop has already checked that it and its pre-requisites
* are present in the flow and its pre-requisites have
* already been added to 'hash_fields'. There is nothing more
* to do here and as an optimisation the loop can continue. */
if (bitmap_is_set(hash_fields.bm, i)) {
continue;
}
mf = mf_from_id(i);
/* Only hash a field if it and its pre-requisites are present
* in the flow. */
if (!mf_are_prereqs_ok(mf, &ctx->xin->flow)) {
continue;
}
/* Hash both the field and its pre-requisites */
mf_bitmap_set_field_and_prereqs(mf, &hash_fields);
}
}
/* Hash the fields */
for (i = 0; i < MFF_N_IDS; i++) {
if (bitmap_is_set(hash_fields.bm, i)) {
const struct mf_field *mf = mf_from_id(i);
union mf_value value;
int j;
mf_get_value(mf, &ctx->xin->flow, &value);
/* This seems inefficient but so does apply_mask() */
for (j = 0; j < mf->n_bytes; j++) {
((uint8_t *) &value)[j] &= ((uint8_t *) &fields->value[i])[j];
}
basis = hash_bytes(&value, mf->n_bytes, basis);
mf_mask_field(mf, &wc->masks);
}
}
bucket = group_best_live_bucket(ctx, group, basis);
if (bucket) {
xlate_group_bucket(ctx, bucket);
xlate_group_stats(ctx, group, bucket);
}
}
static void
xlate_select_group(struct xlate_ctx *ctx, struct group_dpif *group)
{
const char *selection_method = group_dpif_get_selection_method(group);
if (selection_method[0] == '\0') {
xlate_default_select_group(ctx, group);
} else if (!strcasecmp("hash", selection_method)) {
xlate_hash_fields_select_group(ctx, group);
} else {
/* Parsing of groups should ensure this never happens */
OVS_NOT_REACHED();
}
}
static void
xlate_group_action__(struct xlate_ctx *ctx, struct group_dpif *group)
{
ctx->in_group = true;
switch (group_dpif_get_type(group)) {
case OFPGT11_ALL:
case OFPGT11_INDIRECT:
xlate_all_group(ctx, group);
break;
case OFPGT11_SELECT:
xlate_select_group(ctx, group);
break;
case OFPGT11_FF:
xlate_ff_group(ctx, group);
break;
default:
OVS_NOT_REACHED();
}
group_dpif_unref(group);
ctx->in_group = false;
}
static bool
xlate_group_resource_check(struct xlate_ctx *ctx)
{
if (!xlate_resubmit_resource_check(ctx)) {
return false;
} else if (ctx->in_group) {
/* Prevent nested translation of OpenFlow groups.
*
* OpenFlow allows this restriction. We enforce this restriction only
* because, with the current architecture, we would otherwise have to
* take a possibly recursive read lock on the ofgroup rwlock, which is
* unsafe given that POSIX allows taking a read lock to block if there
* is a thread blocked on taking the write lock. Other solutions
* without this restriction are also possible, but seem unwarranted
* given the current limited use of groups. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_ERR_RL(&rl, "cannot recursively translate OpenFlow group");
return false;
} else {
return true;
}
}
static bool
xlate_group_action(struct xlate_ctx *ctx, uint32_t group_id)
{
if (xlate_group_resource_check(ctx)) {
struct group_dpif *group;
bool got_group;
got_group = group_dpif_lookup(ctx->xbridge->ofproto, group_id, &group);
if (got_group) {
xlate_group_action__(ctx, group);
} else {
return true;
}
}
return false;
}
static void
xlate_ofpact_resubmit(struct xlate_ctx *ctx,
const struct ofpact_resubmit *resubmit)
{
ofp_port_t in_port;
uint8_t table_id;
bool may_packet_in = false;
bool honor_table_miss = false;
if (ctx->rule && rule_dpif_is_internal(ctx->rule)) {
/* Still allow missed packets to be sent to the controller
* if resubmitting from an internal table. */
may_packet_in = true;
honor_table_miss = true;
}
in_port = resubmit->in_port;
if (in_port == OFPP_IN_PORT) {
in_port = ctx->xin->flow.in_port.ofp_port;
}
table_id = resubmit->table_id;
if (table_id == 255) {
table_id = ctx->table_id;
}
xlate_table_action(ctx, in_port, table_id, may_packet_in,
honor_table_miss);
}
static void
flood_packets(struct xlate_ctx *ctx, bool all)
{
const struct xport *xport;
HMAP_FOR_EACH (xport, ofp_node, &ctx->xbridge->xports) {
if (xport->ofp_port == ctx->xin->flow.in_port.ofp_port) {
continue;
}
if (all) {
compose_output_action__(ctx, xport->ofp_port, NULL, false);
} else if (!(xport->config & OFPUTIL_PC_NO_FLOOD)) {
compose_output_action(ctx, xport->ofp_port, NULL);
}
}
ctx->xout->nf_output_iface = NF_OUT_FLOOD;
}
static void
execute_controller_action(struct xlate_ctx *ctx, int len,
enum ofp_packet_in_reason reason,
uint16_t controller_id)
{
struct ofproto_packet_in *pin;
struct dp_packet *packet;
ctx->xout->slow |= SLOW_CONTROLLER;
if (!ctx->xin->packet) {
return;
}
packet = dp_packet_clone(ctx->xin->packet);
ctx->xout->slow |= commit_odp_actions(&ctx->xin->flow, &ctx->base_flow,
ctx->xout->odp_actions,
&ctx->xout->wc,
ctx->xbridge->masked_set_action);
odp_execute_actions(NULL, &packet, 1, false,
ctx->xout->odp_actions->data,
ctx->xout->odp_actions->size, NULL);
pin = xmalloc(sizeof *pin);
pin->up.packet_len = dp_packet_size(packet);
pin->up.packet = dp_packet_steal_data(packet);
pin->up.reason = reason;
pin->up.table_id = ctx->table_id;
pin->up.cookie = ctx->rule_cookie;
flow_get_metadata(&ctx->xin->flow, &pin->up.fmd);
pin->controller_id = controller_id;
pin->send_len = len;
/* If a rule is a table-miss rule then this is
* a table-miss handled by a table-miss rule.
*
* Else, if rule is internal and has a controller action,
* the later being implied by the rule being processed here,
* then this is a table-miss handled without a table-miss rule.
*
* Otherwise this is not a table-miss. */
pin->miss_type = OFPROTO_PACKET_IN_NO_MISS;
if (ctx->rule) {
if (rule_dpif_is_table_miss(ctx->rule)) {
pin->miss_type = OFPROTO_PACKET_IN_MISS_FLOW;
} else if (rule_dpif_is_internal(ctx->rule)) {
pin->miss_type = OFPROTO_PACKET_IN_MISS_WITHOUT_FLOW;
}
}
ofproto_dpif_send_packet_in(ctx->xbridge->ofproto, pin);
dp_packet_delete(packet);
}
/* Called only when ctx->recirc_action_offset is set. */
static void
compose_recirculate_action(struct xlate_ctx *ctx)
{
struct recirc_metadata md;
uint32_t id;
ctx->xout->slow |= commit_odp_actions(&ctx->xin->flow, &ctx->base_flow,
ctx->xout->odp_actions,
&ctx->xout->wc,
ctx->xbridge->masked_set_action);
recirc_metadata_from_flow(&md, &ctx->xin->flow);
ovs_assert(ctx->recirc_action_offset >= 0);
/* Only allocate recirculation ID if we have a packet. */
if (ctx->xin->packet) {
/* Allocate a unique recirc id for the given metadata state in the
* flow. The life-cycle of this recirc id is managed by associating it
* with the udpif key ('ukey') created for each new datapath flow. */
id = recirc_alloc_id_ctx(ctx->xbridge->ofproto, 0, &md, &ctx->stack,
ctx->recirc_action_offset,
ctx->action_set.size, ctx->action_set.data);
if (!id) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_ERR_RL(&rl, "Failed to allocate recirculation id");
return;
}
xlate_out_add_recirc(ctx->xout, id);
} else {
/* Look up an existing recirc id for the given metadata state in the
* flow. No new reference is taken, as the ID is RCU protected and is
* only required temporarily for verification. */
id = recirc_find_id(ctx->xbridge->ofproto, 0, &md, &ctx->stack,
ctx->recirc_action_offset,
ctx->action_set.size, ctx->action_set.data);
/* We let zero 'id' to be used in the RECIRC action below, which will
* fail all revalidations as zero is not a valid recirculation ID. */
}
nl_msg_put_u32(ctx->xout->odp_actions, OVS_ACTION_ATTR_RECIRC, id);
/* Undo changes done by recirculation. */
ctx->action_set.size = ctx->recirc_action_offset;
ctx->recirc_action_offset = -1;
ctx->last_unroll_offset = -1;
}
static void
compose_mpls_push_action(struct xlate_ctx *ctx, struct ofpact_push_mpls *mpls)
{
struct flow_wildcards *wc = &ctx->xout->wc;
struct flow *flow = &ctx->xin->flow;
int n;
ovs_assert(eth_type_mpls(mpls->ethertype));
n = flow_count_mpls_labels(flow, wc);
if (!n) {
ctx->xout->slow |= commit_odp_actions(flow, &ctx->base_flow,
ctx->xout->odp_actions,
&ctx->xout->wc,
ctx->xbridge->masked_set_action);
} else if (n >= FLOW_MAX_MPLS_LABELS) {
if (ctx->xin->packet != NULL) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: dropping packet on which an "
"MPLS push action can't be performed as it would "
"have more MPLS LSEs than the %d supported.",
ctx->xbridge->name, FLOW_MAX_MPLS_LABELS);
}
ctx->exit = true;
return;
}
flow_push_mpls(flow, n, mpls->ethertype, wc);
}
static void
compose_mpls_pop_action(struct xlate_ctx *ctx, ovs_be16 eth_type)
{
struct flow_wildcards *wc = &ctx->xout->wc;
struct flow *flow = &ctx->xin->flow;
int n = flow_count_mpls_labels(flow, wc);
if (flow_pop_mpls(flow, n, eth_type, wc)) {
if (ctx->xbridge->enable_recirc) {
ctx->was_mpls = true;
}
} else if (n >= FLOW_MAX_MPLS_LABELS) {
if (ctx->xin->packet != NULL) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 5);
VLOG_WARN_RL(&rl, "bridge %s: dropping packet on which an "
"MPLS pop action can't be performed as it has "
"more MPLS LSEs than the %d supported.",
ctx->xbridge->name, FLOW_MAX_MPLS_LABELS);
}
ctx->exit = true;
ofpbuf_clear(ctx->xout->odp_actions);
}
}
static bool
compose_dec_ttl(struct xlate_ctx *ctx, struct ofpact_cnt_ids *ids)
{
struct flow *flow = &ctx->xin->flow;
if (!is_ip_any(flow)) {
return false;
}
ctx->xout->wc.masks.nw_ttl = 0xff;
if (flow->nw_ttl > 1) {
flow->nw_ttl--;
return false;
} else {
size_t i;
for (i = 0; i < ids->n_controllers; i++) {
execute_controller_action(ctx, UINT16_MAX, OFPR_INVALID_TTL,
ids->cnt_ids[i]);
}
/* Stop processing for current table. */
return true;
}
}
static void
compose_set_mpls_label_action(struct xlate_ctx *ctx, ovs_be32 label)
{
if (eth_type_mpls(ctx->xin->flow.dl_type)) {
ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_LABEL_MASK);
set_mpls_lse_label(&ctx->xin->flow.mpls_lse[0], label);
}
}
static void
compose_set_mpls_tc_action(struct xlate_ctx *ctx, uint8_t tc)
{
if (eth_type_mpls(ctx->xin->flow.dl_type)) {
ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_TC_MASK);
set_mpls_lse_tc(&ctx->xin->flow.mpls_lse[0], tc);
}
}
static void
compose_set_mpls_ttl_action(struct xlate_ctx *ctx, uint8_t ttl)
{
if (eth_type_mpls(ctx->xin->flow.dl_type)) {
ctx->xout->wc.masks.mpls_lse[0] |= htonl(MPLS_TTL_MASK);
set_mpls_lse_ttl(&ctx->xin->flow.mpls_lse[0], ttl);
}
}
static bool
compose_dec_mpls_ttl_action(struct xlate_ctx *ctx)
{
struct flow *flow = &ctx->xin->flow;
struct flow_wildcards *wc = &ctx->xout->wc;
if (eth_type_mpls(flow->dl_type)) {
uint8_t ttl = mpls_lse_to_ttl(flow->mpls_lse[0]);
wc->masks.mpls_lse[0] |= htonl(MPLS_TTL_MASK);
if (ttl > 1) {
ttl--;
set_mpls_lse_ttl(&flow->mpls_lse[0], ttl);
return false;
} else {
execute_controller_action(ctx, UINT16_MAX, OFPR_INVALID_TTL, 0);
}
}
/* Stop processing for current table. */
return true;
}
static void
xlate_output_action(struct xlate_ctx *ctx,
ofp_port_t port, uint16_t max_len, bool may_packet_in)
{
ofp_port_t prev_nf_output_iface = ctx->xout->nf_output_iface;
ctx->xout->nf_output_iface = NF_OUT_DROP;
switch (port) {
case OFPP_IN_PORT:
compose_output_action(ctx, ctx->xin->flow.in_port.ofp_port, NULL);
break;
case OFPP_TABLE:
xlate_table_action(ctx, ctx->xin->flow.in_port.ofp_port,
0, may_packet_in, true);
break;
case OFPP_NORMAL:
xlate_normal(ctx);
break;
case OFPP_FLOOD:
flood_packets(ctx, false);
break;
case OFPP_ALL:
flood_packets(ctx, true);
break;
case OFPP_CONTROLLER:
execute_controller_action(ctx, max_len,
(ctx->in_group ? OFPR_GROUP
: ctx->in_action_set ? OFPR_ACTION_SET
: OFPR_ACTION),
0);
break;
case OFPP_NONE:
break;
case OFPP_LOCAL:
default:
if (port != ctx->xin->flow.in_port.ofp_port) {
compose_output_action(ctx, port, NULL);
} else {
xlate_report(ctx, "skipping output to input port");
}
break;
}
if (prev_nf_output_iface == NF_OUT_FLOOD) {
ctx->xout->nf_output_iface = NF_OUT_FLOOD;
} else if (ctx->xout->nf_output_iface == NF_OUT_DROP) {
ctx->xout->nf_output_iface = prev_nf_output_iface;
} else if (prev_nf_output_iface != NF_OUT_DROP &&
ctx->xout->nf_output_iface != NF_OUT_FLOOD) {
ctx->xout->nf_output_iface = NF_OUT_MULTI;
}
}
static void
xlate_output_reg_action(struct xlate_ctx *ctx,
const struct ofpact_output_reg *or)
{
uint64_t port = mf_get_subfield(&or->src, &ctx->xin->flow);
if (port <= UINT16_MAX) {
union mf_subvalue value;
memset(&value, 0xff, sizeof value);
mf_write_subfield_flow(&or->src, &value, &ctx->xout->wc.masks);
xlate_output_action(ctx, u16_to_ofp(port),
or->max_len, false);
}
}
static void
xlate_enqueue_action(struct xlate_ctx *ctx,
const struct ofpact_enqueue *enqueue)
{
ofp_port_t ofp_port = enqueue->port;
uint32_t queue_id = enqueue->queue;
uint32_t flow_priority, priority;
int error;
/* Translate queue to priority. */
error = dpif_queue_to_priority(ctx->xbridge->dpif, queue_id, &priority);
if (error) {
/* Fall back to ordinary output action. */
xlate_output_action(ctx, enqueue->port, 0, false);
return;
}
/* Check output port. */
if (ofp_port == OFPP_IN_PORT) {
ofp_port = ctx->xin->flow.in_port.ofp_port;
} else if (ofp_port == ctx->xin->flow.in_port.ofp_port) {
return;
}
/* Add datapath actions. */
flow_priority = ctx->xin->flow.skb_priority;
ctx->xin->flow.skb_priority = priority;
compose_output_action(ctx, ofp_port, NULL);
ctx->xin->flow.skb_priority = flow_priority;
/* Update NetFlow output port. */
if (ctx->xout->nf_output_iface == NF_OUT_DROP) {
ctx->xout->nf_output_iface = ofp_port;
} else if (ctx->xout->nf_output_iface != NF_OUT_FLOOD) {
ctx->xout->nf_output_iface = NF_OUT_MULTI;
}
}
static void
xlate_set_queue_action(struct xlate_ctx *ctx, uint32_t queue_id)
{
uint32_t skb_priority;
if (!dpif_queue_to_priority(ctx->xbridge->dpif, queue_id, &skb_priority)) {
ctx->xin->flow.skb_priority = skb_priority;
} else {
/* Couldn't translate queue to a priority. Nothing to do. A warning
* has already been logged. */
}
}
static bool
slave_enabled_cb(ofp_port_t ofp_port, void *xbridge_)
{
const struct xbridge *xbridge = xbridge_;
struct xport *port;
switch (ofp_port) {
case OFPP_IN_PORT:
case OFPP_TABLE:
case OFPP_NORMAL:
case OFPP_FLOOD:
case OFPP_ALL:
case OFPP_NONE:
return true;
case OFPP_CONTROLLER: /* Not supported by the bundle action. */
return false;
default:
port = get_ofp_port(xbridge, ofp_port);
return port ? port->may_enable : false;
}
}
static void
xlate_bundle_action(struct xlate_ctx *ctx,
const struct ofpact_bundle *bundle)
{
ofp_port_t port;
port = bundle_execute(bundle, &ctx->xin->flow, &ctx->xout->wc,
slave_enabled_cb,
CONST_CAST(struct xbridge *, ctx->xbridge));
if (bundle->dst.field) {
nxm_reg_load(&bundle->dst, ofp_to_u16(port), &ctx->xin->flow,
&ctx->xout->wc);
} else {
xlate_output_action(ctx, port, 0, false);
}
}
static void
xlate_learn_action__(struct xlate_ctx *ctx, const struct ofpact_learn *learn,
struct ofputil_flow_mod *fm, struct ofpbuf *ofpacts)
{
learn_execute(learn, &ctx->xin->flow, fm, ofpacts);
if (ctx->xin->may_learn) {
ofproto_dpif_flow_mod(ctx->xbridge->ofproto, fm);
}
}
static void
xlate_learn_action(struct xlate_ctx *ctx, const struct ofpact_learn *learn)
{
ctx->xout->has_learn = true;
learn_mask(learn, &ctx->xout->wc);
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_LEARN);
entry->u.learn.ofproto = ctx->xbridge->ofproto;
entry->u.learn.fm = xmalloc(sizeof *entry->u.learn.fm);
entry->u.learn.ofpacts = ofpbuf_new(64);
xlate_learn_action__(ctx, learn, entry->u.learn.fm,
entry->u.learn.ofpacts);
} else if (ctx->xin->may_learn) {
uint64_t ofpacts_stub[1024 / 8];
struct ofputil_flow_mod fm;
struct ofpbuf ofpacts;
ofpbuf_use_stub(&ofpacts, ofpacts_stub, sizeof ofpacts_stub);
xlate_learn_action__(ctx, learn, &fm, &ofpacts);
ofpbuf_uninit(&ofpacts);
}
}
static void
xlate_fin_timeout__(struct rule_dpif *rule, uint16_t tcp_flags,
uint16_t idle_timeout, uint16_t hard_timeout)
{
if (tcp_flags & (TCP_FIN | TCP_RST)) {
rule_dpif_reduce_timeouts(rule, idle_timeout, hard_timeout);
}
}
static void
xlate_fin_timeout(struct xlate_ctx *ctx,
const struct ofpact_fin_timeout *oft)
{
if (ctx->rule) {
xlate_fin_timeout__(ctx->rule, ctx->xin->tcp_flags,
oft->fin_idle_timeout, oft->fin_hard_timeout);
if (ctx->xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx->xin->xcache, XC_FIN_TIMEOUT);
/* XC_RULE already holds a reference on the rule, none is taken
* here. */
entry->u.fin.rule = ctx->rule;
entry->u.fin.idle = oft->fin_idle_timeout;
entry->u.fin.hard = oft->fin_hard_timeout;
}
}
}
static void
xlate_sample_action(struct xlate_ctx *ctx,
const struct ofpact_sample *os)
{
union user_action_cookie cookie;
/* Scale the probability from 16-bit to 32-bit while representing
* the same percentage. */
uint32_t probability = (os->probability << 16) | os->probability;
if (!ctx->xbridge->variable_length_userdata) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_ERR_RL(&rl, "ignoring NXAST_SAMPLE action because datapath "
"lacks support (needs Linux 3.10+ or kernel module from "
"OVS 1.11+)");
return;
}
ctx->xout->slow |= commit_odp_actions(&ctx->xin->flow, &ctx->base_flow,
ctx->xout->odp_actions,
&ctx->xout->wc,
ctx->xbridge->masked_set_action);
compose_flow_sample_cookie(os->probability, os->collector_set_id,
os->obs_domain_id, os->obs_point_id, &cookie);
compose_sample_action(ctx->xbridge, ctx->xout->odp_actions,
&ctx->xin->flow, probability, &cookie,
sizeof cookie.flow_sample, ODPP_NONE);
}
static bool
may_receive(const struct xport *xport, struct xlate_ctx *ctx)
{
if (xport->config & (is_stp(&ctx->xin->flow)
? OFPUTIL_PC_NO_RECV_STP
: OFPUTIL_PC_NO_RECV)) {
return false;
}
/* Only drop packets here if both forwarding and learning are
* disabled. If just learning is enabled, we need to have
* OFPP_NORMAL and the learning action have a look at the packet
* before we can drop it. */
if ((!xport_stp_forward_state(xport) && !xport_stp_learn_state(xport)) ||
(!xport_rstp_forward_state(xport) && !xport_rstp_learn_state(xport))) {
return false;
}
return true;
}
static void
xlate_write_actions(struct xlate_ctx *ctx, const struct ofpact *a)
{
const struct ofpact_nest *on = ofpact_get_WRITE_ACTIONS(a);
size_t on_len = ofpact_nest_get_action_len(on);
const struct ofpact *inner;
/* Maintain actset_output depending on the contents of the action set:
*
* - OFPP_UNSET, if there is no "output" action.
*
* - The output port, if there is an "output" action and no "group"
* action.
*
* - OFPP_UNSET, if there is a "group" action.
*/
if (!ctx->action_set_has_group) {
OFPACT_FOR_EACH (inner, on->actions, on_len) {
if (inner->type == OFPACT_OUTPUT) {
ctx->xin->flow.actset_output = ofpact_get_OUTPUT(inner)->port;
} else if (inner->type == OFPACT_GROUP) {
ctx->xin->flow.actset_output = OFPP_UNSET;
ctx->action_set_has_group = true;
}
}
}
ofpbuf_put(&ctx->action_set, on->actions, on_len);
ofpact_pad(&ctx->action_set);
}
static void
xlate_action_set(struct xlate_ctx *ctx)
{
uint64_t action_list_stub[1024 / 64];
struct ofpbuf action_list;
ctx->in_action_set = true;
ofpbuf_use_stub(&action_list, action_list_stub, sizeof action_list_stub);
ofpacts_execute_action_set(&action_list, &ctx->action_set);
/* Clear the action set, as it is not needed any more. */
ofpbuf_clear(&ctx->action_set);
do_xlate_actions(action_list.data, action_list.size, ctx);
ctx->in_action_set = false;
ofpbuf_uninit(&action_list);
}
static void
recirc_put_unroll_xlate(struct xlate_ctx *ctx)
{
struct ofpact_unroll_xlate *unroll;
unroll = ctx->last_unroll_offset < 0
? NULL
: ALIGNED_CAST(struct ofpact_unroll_xlate *,
(char *)ctx->action_set.data + ctx->last_unroll_offset);
/* Restore the table_id and rule cookie for a potential PACKET
* IN if needed. */
if (!unroll ||
(ctx->table_id != unroll->rule_table_id
|| ctx->rule_cookie != unroll->rule_cookie)) {
ctx->last_unroll_offset = ctx->action_set.size;
unroll = ofpact_put_UNROLL_XLATE(&ctx->action_set);
unroll->rule_table_id = ctx->table_id;
unroll->rule_cookie = ctx->rule_cookie;
}
}
/* Copy remaining actions to the action_set to be executed after recirculation.
* UNROLL_XLATE action is inserted, if not already done so, before actions that
* may generate PACKET_INs from the current table and without matching another
* rule. */
static void
recirc_unroll_actions(const struct ofpact *ofpacts, size_t ofpacts_len,
struct xlate_ctx *ctx)
{
const struct ofpact *a;
OFPACT_FOR_EACH (a, ofpacts, ofpacts_len) {
switch (a->type) {
/* May generate PACKET INs. */
case OFPACT_OUTPUT_REG:
case OFPACT_GROUP:
case OFPACT_OUTPUT:
case OFPACT_CONTROLLER:
case OFPACT_DEC_MPLS_TTL:
case OFPACT_DEC_TTL:
recirc_put_unroll_xlate(ctx);
break;
/* These may not generate PACKET INs. */
case OFPACT_SET_TUNNEL:
case OFPACT_REG_MOVE:
case OFPACT_SET_FIELD:
case OFPACT_STACK_PUSH:
case OFPACT_STACK_POP:
case OFPACT_LEARN:
case OFPACT_WRITE_METADATA:
case OFPACT_RESUBMIT: /* May indirectly generate PACKET INs, */
case OFPACT_GOTO_TABLE: /* but from a different table and rule. */
case OFPACT_ENQUEUE:
case OFPACT_SET_VLAN_VID:
case OFPACT_SET_VLAN_PCP:
case OFPACT_STRIP_VLAN:
case OFPACT_PUSH_VLAN:
case OFPACT_SET_ETH_SRC:
case OFPACT_SET_ETH_DST:
case OFPACT_SET_IPV4_SRC:
case OFPACT_SET_IPV4_DST:
case OFPACT_SET_IP_DSCP:
case OFPACT_SET_IP_ECN:
case OFPACT_SET_IP_TTL:
case OFPACT_SET_L4_SRC_PORT:
case OFPACT_SET_L4_DST_PORT:
case OFPACT_SET_QUEUE:
case OFPACT_POP_QUEUE:
case OFPACT_PUSH_MPLS:
case OFPACT_POP_MPLS:
case OFPACT_SET_MPLS_LABEL:
case OFPACT_SET_MPLS_TC:
case OFPACT_SET_MPLS_TTL:
case OFPACT_MULTIPATH:
case OFPACT_BUNDLE:
case OFPACT_EXIT:
case OFPACT_UNROLL_XLATE:
case OFPACT_FIN_TIMEOUT:
case OFPACT_CLEAR_ACTIONS:
case OFPACT_WRITE_ACTIONS:
case OFPACT_METER:
case OFPACT_SAMPLE:
break;
/* These need not be copied for restoration. */
case OFPACT_NOTE:
case OFPACT_CONJUNCTION:
continue;
}
/* Copy the action over. */
ofpbuf_put(&ctx->action_set, a, OFPACT_ALIGN(a->len));
}
}
#define CHECK_MPLS_RECIRCULATION() \
if (ctx->was_mpls) { \
ctx_trigger_recirculation(ctx); \
break; \
}
#define CHECK_MPLS_RECIRCULATION_IF(COND) \
if (COND) { \
CHECK_MPLS_RECIRCULATION(); \
}
static void
do_xlate_actions(const struct ofpact *ofpacts, size_t ofpacts_len,
struct xlate_ctx *ctx)
{
struct flow_wildcards *wc = &ctx->xout->wc;
struct flow *flow = &ctx->xin->flow;
const struct ofpact *a;
if (ovs_native_tunneling_is_on(ctx->xbridge->ofproto)) {
tnl_arp_snoop(flow, wc, ctx->xbridge->name);
}
/* dl_type already in the mask, not set below. */
OFPACT_FOR_EACH (a, ofpacts, ofpacts_len) {
struct ofpact_controller *controller;
const struct ofpact_metadata *metadata;
const struct ofpact_set_field *set_field;
const struct mf_field *mf;
if (ctx->exit) {
/* Check if need to store the remaining actions for later
* execution. */
if (exit_recirculates(ctx)) {
recirc_unroll_actions(a, OFPACT_ALIGN(ofpacts_len -
((uint8_t *)a -
(uint8_t *)ofpacts)),
ctx);
}
break;
}
switch (a->type) {
case OFPACT_OUTPUT:
xlate_output_action(ctx, ofpact_get_OUTPUT(a)->port,
ofpact_get_OUTPUT(a)->max_len, true);
break;
case OFPACT_GROUP:
if (xlate_group_action(ctx, ofpact_get_GROUP(a)->group_id)) {
/* Group could not be found. */
return;
}
break;
case OFPACT_CONTROLLER:
controller = ofpact_get_CONTROLLER(a);
execute_controller_action(ctx, controller->max_len,
controller->reason,
controller->controller_id);
break;
case OFPACT_ENQUEUE:
memset(&wc->masks.skb_priority, 0xff,
sizeof wc->masks.skb_priority);
xlate_enqueue_action(ctx, ofpact_get_ENQUEUE(a));
break;
case OFPACT_SET_VLAN_VID:
wc->masks.vlan_tci |= htons(VLAN_VID_MASK | VLAN_CFI);
if (flow->vlan_tci & htons(VLAN_CFI) ||
ofpact_get_SET_VLAN_VID(a)->push_vlan_if_needed) {
flow->vlan_tci &= ~htons(VLAN_VID_MASK);
flow->vlan_tci |= (htons(ofpact_get_SET_VLAN_VID(a)->vlan_vid)
| htons(VLAN_CFI));
}
break;
case OFPACT_SET_VLAN_PCP:
wc->masks.vlan_tci |= htons(VLAN_PCP_MASK | VLAN_CFI);
if (flow->vlan_tci & htons(VLAN_CFI) ||
ofpact_get_SET_VLAN_PCP(a)->push_vlan_if_needed) {
flow->vlan_tci &= ~htons(VLAN_PCP_MASK);
flow->vlan_tci |= htons((ofpact_get_SET_VLAN_PCP(a)->vlan_pcp
<< VLAN_PCP_SHIFT) | VLAN_CFI);
}
break;
case OFPACT_STRIP_VLAN:
memset(&wc->masks.vlan_tci, 0xff, sizeof wc->masks.vlan_tci);
flow->vlan_tci = htons(0);
break;
case OFPACT_PUSH_VLAN:
/* XXX 802.1AD(QinQ) */
memset(&wc->masks.vlan_tci, 0xff, sizeof wc->masks.vlan_tci);
flow->vlan_tci = htons(VLAN_CFI);
break;
case OFPACT_SET_ETH_SRC:
memset(&wc->masks.dl_src, 0xff, sizeof wc->masks.dl_src);
memcpy(flow->dl_src, ofpact_get_SET_ETH_SRC(a)->mac, ETH_ADDR_LEN);
break;
case OFPACT_SET_ETH_DST:
memset(&wc->masks.dl_dst, 0xff, sizeof wc->masks.dl_dst);
memcpy(flow->dl_dst, ofpact_get_SET_ETH_DST(a)->mac, ETH_ADDR_LEN);
break;
case OFPACT_SET_IPV4_SRC:
CHECK_MPLS_RECIRCULATION();
if (flow->dl_type == htons(ETH_TYPE_IP)) {
memset(&wc->masks.nw_src, 0xff, sizeof wc->masks.nw_src);
flow->nw_src = ofpact_get_SET_IPV4_SRC(a)->ipv4;
}
break;
case OFPACT_SET_IPV4_DST:
CHECK_MPLS_RECIRCULATION();
if (flow->dl_type == htons(ETH_TYPE_IP)) {
memset(&wc->masks.nw_dst, 0xff, sizeof wc->masks.nw_dst);
flow->nw_dst = ofpact_get_SET_IPV4_DST(a)->ipv4;
}
break;
case OFPACT_SET_IP_DSCP:
CHECK_MPLS_RECIRCULATION();
if (is_ip_any(flow)) {
wc->masks.nw_tos |= IP_DSCP_MASK;
flow->nw_tos &= ~IP_DSCP_MASK;
flow->nw_tos |= ofpact_get_SET_IP_DSCP(a)->dscp;
}
break;
case OFPACT_SET_IP_ECN:
CHECK_MPLS_RECIRCULATION();
if (is_ip_any(flow)) {
wc->masks.nw_tos |= IP_ECN_MASK;
flow->nw_tos &= ~IP_ECN_MASK;
flow->nw_tos |= ofpact_get_SET_IP_ECN(a)->ecn;
}
break;
case OFPACT_SET_IP_TTL:
CHECK_MPLS_RECIRCULATION();
if (is_ip_any(flow)) {
wc->masks.nw_ttl = 0xff;
flow->nw_ttl = ofpact_get_SET_IP_TTL(a)->ttl;
}
break;
case OFPACT_SET_L4_SRC_PORT:
CHECK_MPLS_RECIRCULATION();
if (is_ip_any(flow) && !(flow->nw_frag & FLOW_NW_FRAG_LATER)) {
memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
memset(&wc->masks.tp_src, 0xff, sizeof wc->masks.tp_src);
flow->tp_src = htons(ofpact_get_SET_L4_SRC_PORT(a)->port);
}
break;
case OFPACT_SET_L4_DST_PORT:
CHECK_MPLS_RECIRCULATION();
if (is_ip_any(flow) && !(flow->nw_frag & FLOW_NW_FRAG_LATER)) {
memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
memset(&wc->masks.tp_dst, 0xff, sizeof wc->masks.tp_dst);
flow->tp_dst = htons(ofpact_get_SET_L4_DST_PORT(a)->port);
}
break;
case OFPACT_RESUBMIT:
xlate_ofpact_resubmit(ctx, ofpact_get_RESUBMIT(a));
break;
case OFPACT_SET_TUNNEL:
flow->tunnel.tun_id = htonll(ofpact_get_SET_TUNNEL(a)->tun_id);
break;
case OFPACT_SET_QUEUE:
memset(&wc->masks.skb_priority, 0xff,
sizeof wc->masks.skb_priority);
xlate_set_queue_action(ctx, ofpact_get_SET_QUEUE(a)->queue_id);
break;
case OFPACT_POP_QUEUE:
memset(&wc->masks.skb_priority, 0xff,
sizeof wc->masks.skb_priority);
flow->skb_priority = ctx->orig_skb_priority;
break;
case OFPACT_REG_MOVE:
CHECK_MPLS_RECIRCULATION_IF(
mf_is_l3_or_higher(ofpact_get_REG_MOVE(a)->dst.field) ||
mf_is_l3_or_higher(ofpact_get_REG_MOVE(a)->src.field));
nxm_execute_reg_move(ofpact_get_REG_MOVE(a), flow, wc);
break;
case OFPACT_SET_FIELD:
CHECK_MPLS_RECIRCULATION_IF(
mf_is_l3_or_higher(ofpact_get_SET_FIELD(a)->field));
set_field = ofpact_get_SET_FIELD(a);
mf = set_field->field;
/* Set field action only ever overwrites packet's outermost
* applicable header fields. Do nothing if no header exists. */
if (mf->id == MFF_VLAN_VID) {
wc->masks.vlan_tci |= htons(VLAN_CFI);
if (!(flow->vlan_tci & htons(VLAN_CFI))) {
break;
}
} else if ((mf->id == MFF_MPLS_LABEL || mf->id == MFF_MPLS_TC)
/* 'dl_type' is already unwildcarded. */
&& !eth_type_mpls(flow->dl_type)) {
break;
}
/* A flow may wildcard nw_frag. Do nothing if setting a trasport
* header field on a packet that does not have them. */
mf_mask_field_and_prereqs(mf, &wc->masks);
if (mf_are_prereqs_ok(mf, flow)) {
mf_set_flow_value_masked(mf, &set_field->value,
&set_field->mask, flow);
}
break;
case OFPACT_STACK_PUSH:
CHECK_MPLS_RECIRCULATION_IF(
mf_is_l3_or_higher(ofpact_get_STACK_PUSH(a)->subfield.field));
nxm_execute_stack_push(ofpact_get_STACK_PUSH(a), flow, wc,
&ctx->stack);
break;
case OFPACT_STACK_POP:
CHECK_MPLS_RECIRCULATION_IF(
mf_is_l3_or_higher(ofpact_get_STACK_POP(a)->subfield.field));
nxm_execute_stack_pop(ofpact_get_STACK_POP(a), flow, wc,
&ctx->stack);
break;
case OFPACT_PUSH_MPLS:
/* Recirculate if it is an IP packet with a zero ttl. This may
* indicate that the packet was previously MPLS and an MPLS pop
* action converted it to IP. In this case recirculating should
* reveal the IP TTL which is used as the basis for a new MPLS
* LSE. */
CHECK_MPLS_RECIRCULATION_IF(
!flow_count_mpls_labels(flow, wc)
&& flow->nw_ttl == 0
&& is_ip_any(flow));
compose_mpls_push_action(ctx, ofpact_get_PUSH_MPLS(a));
break;
case OFPACT_POP_MPLS:
CHECK_MPLS_RECIRCULATION();
compose_mpls_pop_action(ctx, ofpact_get_POP_MPLS(a)->ethertype);
break;
case OFPACT_SET_MPLS_LABEL:
CHECK_MPLS_RECIRCULATION();
compose_set_mpls_label_action(
ctx, ofpact_get_SET_MPLS_LABEL(a)->label);
break;
case OFPACT_SET_MPLS_TC:
CHECK_MPLS_RECIRCULATION();
compose_set_mpls_tc_action(ctx, ofpact_get_SET_MPLS_TC(a)->tc);
break;
case OFPACT_SET_MPLS_TTL:
CHECK_MPLS_RECIRCULATION();
compose_set_mpls_ttl_action(ctx, ofpact_get_SET_MPLS_TTL(a)->ttl);
break;
case OFPACT_DEC_MPLS_TTL:
CHECK_MPLS_RECIRCULATION();
if (compose_dec_mpls_ttl_action(ctx)) {
return;
}
break;
case OFPACT_DEC_TTL:
CHECK_MPLS_RECIRCULATION();
wc->masks.nw_ttl = 0xff;
if (compose_dec_ttl(ctx, ofpact_get_DEC_TTL(a))) {
return;
}
break;
case OFPACT_NOTE:
/* Nothing to do. */
break;
case OFPACT_MULTIPATH:
CHECK_MPLS_RECIRCULATION();
multipath_execute(ofpact_get_MULTIPATH(a), flow, wc);
break;
case OFPACT_BUNDLE:
CHECK_MPLS_RECIRCULATION();
xlate_bundle_action(ctx, ofpact_get_BUNDLE(a));
break;
case OFPACT_OUTPUT_REG:
xlate_output_reg_action(ctx, ofpact_get_OUTPUT_REG(a));
break;
case OFPACT_LEARN:
CHECK_MPLS_RECIRCULATION();
xlate_learn_action(ctx, ofpact_get_LEARN(a));
break;
case OFPACT_CONJUNCTION: {
/* A flow with a "conjunction" action represents part of a special
* kind of "set membership match". Such a flow should not actually
* get executed, but it could via, say, a "packet-out", even though
* that wouldn't be useful. Log it to help debugging. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_INFO_RL(&rl, "executing no-op conjunction action");
break;
}
case OFPACT_EXIT:
ctx->exit = true;
break;
case OFPACT_UNROLL_XLATE: {
struct ofpact_unroll_xlate *unroll = ofpact_get_UNROLL_XLATE(a);
/* Restore translation context data that was stored earlier. */
ctx->table_id = unroll->rule_table_id;
ctx->rule_cookie = unroll->rule_cookie;
break;
}
case OFPACT_FIN_TIMEOUT:
CHECK_MPLS_RECIRCULATION();
memset(&wc->masks.nw_proto, 0xff, sizeof wc->masks.nw_proto);
ctx->xout->has_fin_timeout = true;
xlate_fin_timeout(ctx, ofpact_get_FIN_TIMEOUT(a));
break;
case OFPACT_CLEAR_ACTIONS:
ofpbuf_clear(&ctx->action_set);
ctx->xin->flow.actset_output = OFPP_UNSET;
ctx->action_set_has_group = false;
break;
case OFPACT_WRITE_ACTIONS:
xlate_write_actions(ctx, a);
break;
case OFPACT_WRITE_METADATA:
metadata = ofpact_get_WRITE_METADATA(a);
flow->metadata &= ~metadata->mask;
flow->metadata |= metadata->metadata & metadata->mask;
break;
case OFPACT_METER:
/* Not implemented yet. */
break;
case OFPACT_GOTO_TABLE: {
struct ofpact_goto_table *ogt = ofpact_get_GOTO_TABLE(a);
/* Allow ctx->table_id == TBL_INTERNAL, which will be greater
* than ogt->table_id. This is to allow goto_table actions that
* triggered recirculation: ctx->table_id will be TBL_INTERNAL
* after recirculation. */
ovs_assert(ctx->table_id == TBL_INTERNAL
|| ctx->table_id < ogt->table_id);
xlate_table_action(ctx, ctx->xin->flow.in_port.ofp_port,
ogt->table_id, true, true);
break;
}
case OFPACT_SAMPLE:
xlate_sample_action(ctx, ofpact_get_SAMPLE(a));
break;
}
/* Check if need to store this and the remaining actions for later
* execution. */
if (ctx->exit && ctx_first_recirculation_action(ctx)) {
recirc_unroll_actions(a, OFPACT_ALIGN(ofpacts_len -
((uint8_t *)a -
(uint8_t *)ofpacts)),
ctx);
break;
}
}
}
void
xlate_in_init(struct xlate_in *xin, struct ofproto_dpif *ofproto,
const struct flow *flow, ofp_port_t in_port,
struct rule_dpif *rule, uint16_t tcp_flags,
const struct dp_packet *packet)
{
xin->ofproto = ofproto;
xin->flow = *flow;
xin->flow.in_port.ofp_port = in_port;
xin->flow.actset_output = OFPP_UNSET;
xin->packet = packet;
xin->may_learn = packet != NULL;
xin->rule = rule;
xin->xcache = NULL;
xin->ofpacts = NULL;
xin->ofpacts_len = 0;
xin->tcp_flags = tcp_flags;
xin->resubmit_hook = NULL;
xin->report_hook = NULL;
xin->resubmit_stats = NULL;
xin->skip_wildcards = false;
xin->odp_actions = NULL;
/* Do recirc lookup. */
xin->recirc = flow->recirc_id
? recirc_id_node_find(flow->recirc_id)
: NULL;
}
void
xlate_out_uninit(struct xlate_out *xout)
{
if (xout) {
if (xout->odp_actions == &xout->odp_actions_buf) {
ofpbuf_uninit(xout->odp_actions);
}
xlate_out_free_recircs(xout);
}
}
/* Translates the 'ofpacts_len' bytes of "struct ofpact"s starting at 'ofpacts'
* into datapath actions, using 'ctx', and discards the datapath actions. */
void
xlate_actions_for_side_effects(struct xlate_in *xin)
{
struct xlate_out xout;
xlate_actions(xin, &xout);
xlate_out_uninit(&xout);
}
void
xlate_out_copy(struct xlate_out *dst, const struct xlate_out *src)
{
dst->wc = src->wc;
dst->slow = src->slow;
dst->has_learn = src->has_learn;
dst->has_normal = src->has_normal;
dst->has_fin_timeout = src->has_fin_timeout;
dst->nf_output_iface = src->nf_output_iface;
dst->mirrors = src->mirrors;
dst->odp_actions = &dst->odp_actions_buf;
ofpbuf_use_stub(dst->odp_actions, dst->odp_actions_stub,
sizeof dst->odp_actions_stub);
ofpbuf_put(dst->odp_actions, src->odp_actions->data, src->odp_actions->size);
}
static struct skb_priority_to_dscp *
get_skb_priority(const struct xport *xport, uint32_t skb_priority)
{
struct skb_priority_to_dscp *pdscp;
uint32_t hash;
hash = hash_int(skb_priority, 0);
HMAP_FOR_EACH_IN_BUCKET (pdscp, hmap_node, hash, &xport->skb_priorities) {
if (pdscp->skb_priority == skb_priority) {
return pdscp;
}
}
return NULL;
}
static bool
dscp_from_skb_priority(const struct xport *xport, uint32_t skb_priority,
uint8_t *dscp)
{
struct skb_priority_to_dscp *pdscp = get_skb_priority(xport, skb_priority);
*dscp = pdscp ? pdscp->dscp : 0;
return pdscp != NULL;
}
static size_t
count_skb_priorities(const struct xport *xport)
{
return hmap_count(&xport->skb_priorities);
}
static void
clear_skb_priorities(struct xport *xport)
{
struct skb_priority_to_dscp *pdscp, *next;
HMAP_FOR_EACH_SAFE (pdscp, next, hmap_node, &xport->skb_priorities) {
hmap_remove(&xport->skb_priorities, &pdscp->hmap_node);
free(pdscp);
}
}
static bool
actions_output_to_local_port(const struct xlate_ctx *ctx)
{
odp_port_t local_odp_port = ofp_port_to_odp_port(ctx->xbridge, OFPP_LOCAL);
const struct nlattr *a;
unsigned int left;
NL_ATTR_FOR_EACH_UNSAFE (a, left, ctx->xout->odp_actions->data,
ctx->xout->odp_actions->size) {
if (nl_attr_type(a) == OVS_ACTION_ATTR_OUTPUT
&& nl_attr_get_odp_port(a) == local_odp_port) {
return true;
}
}
return false;
}
#if defined(__linux__)
/* Returns the maximum number of packets that the Linux kernel is willing to
* queue up internally to certain kinds of software-implemented ports, or the
* default (and rarely modified) value if it cannot be determined. */
static int
netdev_max_backlog(void)
{
static struct ovsthread_once once = OVSTHREAD_ONCE_INITIALIZER;
static int max_backlog = 1000; /* The normal default value. */
if (ovsthread_once_start(&once)) {
static const char filename[] = "/proc/sys/net/core/netdev_max_backlog";
FILE *stream;
int n;
stream = fopen(filename, "r");
if (!stream) {
VLOG_WARN("%s: open failed (%s)", filename, ovs_strerror(errno));
} else {
if (fscanf(stream, "%d", &n) != 1) {
VLOG_WARN("%s: read error", filename);
} else if (n <= 100) {
VLOG_WARN("%s: unexpectedly small value %d", filename, n);
} else {
max_backlog = n;
}
fclose(stream);
}
ovsthread_once_done(&once);
VLOG_DBG("%s: using %d max_backlog", filename, max_backlog);
}
return max_backlog;
}
/* Counts and returns the number of OVS_ACTION_ATTR_OUTPUT actions in
* 'odp_actions'. */
static int
count_output_actions(const struct ofpbuf *odp_actions)
{
const struct nlattr *a;
size_t left;
int n = 0;
NL_ATTR_FOR_EACH_UNSAFE (a, left, odp_actions->data, odp_actions->size) {
if (a->nla_type == OVS_ACTION_ATTR_OUTPUT) {
n++;
}
}
return n;
}
#endif /* defined(__linux__) */
/* Returns true if 'odp_actions' contains more output actions than the datapath
* can reliably handle in one go. On Linux, this is the value of the
* net.core.netdev_max_backlog sysctl, which limits the maximum number of
* packets that the kernel is willing to queue up for processing while the
* datapath is processing a set of actions. */
static bool
too_many_output_actions(const struct ofpbuf *odp_actions OVS_UNUSED)
{
#ifdef __linux__
return (odp_actions->size / NL_A_U32_SIZE > netdev_max_backlog()
&& count_output_actions(odp_actions) > netdev_max_backlog());
#else
/* OSes other than Linux might have similar limits, but we don't know how
* to determine them.*/
return false;
#endif
}
/* Translates the flow, actions, or rule in 'xin' into datapath actions in
* 'xout'.
* The caller must take responsibility for eventually freeing 'xout', with
* xlate_out_uninit(). */
void
xlate_actions(struct xlate_in *xin, struct xlate_out *xout)
{
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct flow_wildcards *wc = NULL;
struct flow *flow = &xin->flow;
struct rule_dpif *rule = NULL;
enum slow_path_reason special;
const struct ofpact *ofpacts;
struct xbridge *xbridge;
struct xport *in_port;
struct flow orig_flow;
struct xlate_ctx ctx;
size_t ofpacts_len;
bool tnl_may_send;
bool is_icmp;
COVERAGE_INC(xlate_actions);
/* Flow initialization rules:
* - 'base_flow' must match the kernel's view of the packet at the
* time that action processing starts. 'flow' represents any
* transformations we wish to make through actions.
* - By default 'base_flow' and 'flow' are the same since the input
* packet matches the output before any actions are applied.
* - When using VLAN splinters, 'base_flow''s VLAN is set to the value
* of the received packet as seen by the kernel. If we later output
* to another device without any modifications this will cause us to
* insert a new tag since the original one was stripped off by the
* VLAN device.
* - Tunnel metadata as received is retained in 'flow'. This allows
* tunnel metadata matching also in later tables.
* Since a kernel action for setting the tunnel metadata will only be
* generated with actual tunnel output, changing the tunnel metadata
* values in 'flow' (such as tun_id) will only have effect with a later
* tunnel output action.
* - Tunnel 'base_flow' is completely cleared since that is what the
* kernel does. If we wish to maintain the original values an action
* needs to be generated. */
ctx.xin = xin;
ctx.xout = xout;
ctx.xout->slow = 0;
ctx.xout->has_learn = false;
ctx.xout->has_normal = false;
ctx.xout->has_fin_timeout = false;
ctx.xout->nf_output_iface = NF_OUT_DROP;
ctx.xout->mirrors = 0;
ctx.xout->n_recircs = 0;
xout->odp_actions = xin->odp_actions;
if (!xout->odp_actions) {
xout->odp_actions = &xout->odp_actions_buf;
ofpbuf_use_stub(xout->odp_actions, xout->odp_actions_stub,
sizeof xout->odp_actions_stub);
}
ofpbuf_reserve(xout->odp_actions, NL_A_U32_SIZE);
xbridge = xbridge_lookup(xcfg, xin->ofproto);
if (!xbridge) {
return;
}
/* 'ctx.xbridge' may be changed by action processing, whereas 'xbridge'
* will remain set on the original input bridge. */
ctx.xbridge = xbridge;
ctx.rule = xin->rule;
ctx.base_flow = *flow;
memset(&ctx.base_flow.tunnel, 0, sizeof ctx.base_flow.tunnel);
ctx.orig_tunnel_ip_dst = flow->tunnel.ip_dst;
if (!xin->skip_wildcards) {
wc = &xout->wc;
flow_wildcards_init_catchall(wc);
memset(&wc->masks.in_port, 0xff, sizeof wc->masks.in_port);
memset(&wc->masks.dl_type, 0xff, sizeof wc->masks.dl_type);
if (is_ip_any(flow)) {
wc->masks.nw_frag |= FLOW_NW_FRAG_MASK;
}
if (xbridge->enable_recirc) {
/* Always exactly match recirc_id when datapath supports
* recirculation. */
wc->masks.recirc_id = UINT32_MAX;
}
if (xbridge->netflow) {
netflow_mask_wc(flow, wc);
}
}
is_icmp = is_icmpv4(flow) || is_icmpv6(flow);
tnl_may_send = tnl_xlate_init(&ctx.base_flow, flow, wc);
ctx.recurse = 0;
ctx.resubmits = 0;
ctx.in_group = false;
ctx.in_action_set = false;
ctx.orig_skb_priority = flow->skb_priority;
ctx.table_id = 0;
ctx.rule_cookie = OVS_BE64_MAX;
ctx.exit = false;
ctx.was_mpls = false;
ctx.recirc_action_offset = -1;
ctx.last_unroll_offset = -1;
ctx.action_set_has_group = false;
ofpbuf_use_stub(&ctx.action_set,
ctx.action_set_stub, sizeof ctx.action_set_stub);
ofpbuf_use_stub(&ctx.stack, ctx.init_stack, sizeof ctx.init_stack);
/* The in_port of the original packet before recirculation. */
in_port = get_ofp_port(xbridge, flow->in_port.ofp_port);
if (xin->recirc) {
const struct recirc_id_node *recirc = xin->recirc;
if (xin->ofpacts_len > 0 || ctx.rule) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_WARN_RL(&rl, "Recirculation conflict (%s)!",
xin->ofpacts_len > 0
? "actions"
: "rule");
return;
}
/* Set the bridge for post-recirculation processing if needed. */
if (ctx.xbridge->ofproto != recirc->ofproto) {
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
const struct xbridge *new_bridge = xbridge_lookup(xcfg,
recirc->ofproto);
if (OVS_UNLIKELY(!new_bridge)) {
/* Drop the packet if the bridge cannot be found. */
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_WARN_RL(&rl, "Recirculation bridge no longer exists.");
return;
}
ctx.xbridge = new_bridge;
}
/* Set the post-recirculation table id. Note: A table lookup is done
* only if there are no post-recirculation actions. */
ctx.table_id = recirc->table_id;
/* Restore pipeline metadata. May change flow's in_port and other
* metadata to the values that existed when recirculation was
* triggered. */
recirc_metadata_to_flow(&recirc->metadata, flow);
/* Restore stack, if any. */
if (recirc->stack) {
ofpbuf_put(&ctx.stack, recirc->stack->data, recirc->stack->size);
}
/* Restore action set, if any. */
if (recirc->action_set_len) {
const struct ofpact *a;
ofpbuf_put(&ctx.action_set, recirc->ofpacts,
recirc->action_set_len);
OFPACT_FOR_EACH(a, recirc->ofpacts, recirc->action_set_len) {
if (a->type == OFPACT_GROUP) {
ctx.action_set_has_group = true;
break;
}
}
}
/* Restore recirculation actions. If there are no actions, processing
* will start with a lookup in the table set above. */
if (recirc->ofpacts_len > recirc->action_set_len) {
xin->ofpacts_len = recirc->ofpacts_len - recirc->action_set_len;
xin->ofpacts = recirc->ofpacts +
recirc->action_set_len / sizeof *recirc->ofpacts;
}
} else if (OVS_UNLIKELY(flow->recirc_id)) {
static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(1, 1);
VLOG_WARN_RL(&rl, "Recirculation context not found for ID %"PRIx32,
flow->recirc_id);
return;
}
if (!xin->ofpacts && !ctx.rule) {
rule = rule_dpif_lookup_from_table(ctx.xbridge->ofproto, flow, wc,
ctx.xin->xcache != NULL,
ctx.xin->resubmit_stats,
&ctx.table_id,
flow->in_port.ofp_port, true, true);
if (ctx.xin->resubmit_stats) {
rule_dpif_credit_stats(rule, ctx.xin->resubmit_stats);
}
if (ctx.xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx.xin->xcache, XC_RULE);
entry->u.rule = rule;
}
ctx.rule = rule;
if (OVS_UNLIKELY(ctx.xin->resubmit_hook)) {
ctx.xin->resubmit_hook(ctx.xin, rule, 0);
}
}
xout->fail_open = ctx.rule && rule_dpif_is_fail_open(ctx.rule);
if (xin->ofpacts) {
ofpacts = xin->ofpacts;
ofpacts_len = xin->ofpacts_len;
} else if (ctx.rule) {
const struct rule_actions *actions = rule_dpif_get_actions(ctx.rule);
ofpacts = actions->ofpacts;
ofpacts_len = actions->ofpacts_len;
ctx.rule_cookie = rule_dpif_get_flow_cookie(ctx.rule);
} else {
OVS_NOT_REACHED();
}
if (mbridge_has_mirrors(xbridge->mbridge)) {
/* Do this conditionally because the copy is expensive enough that it
* shows up in profiles. */
orig_flow = *flow;
}
/* Tunnel stats only for non-recirculated packets. */
if (!xin->recirc && in_port && in_port->is_tunnel) {
if (ctx.xin->resubmit_stats) {
netdev_vport_inc_rx(in_port->netdev, ctx.xin->resubmit_stats);
if (in_port->bfd) {
bfd_account_rx(in_port->bfd, ctx.xin->resubmit_stats);
}
}
if (ctx.xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx.xin->xcache, XC_NETDEV);
entry->u.dev.rx = netdev_ref(in_port->netdev);
entry->u.dev.bfd = bfd_ref(in_port->bfd);
}
}
/* Do not perform special processing on recirculated packets,
* as recirculated packets are not really received by the bridge. */
if (!xin->recirc &&
(special = process_special(&ctx, flow, in_port, ctx.xin->packet))) {
ctx.xout->slow |= special;
} else {
size_t sample_actions_len;
if (flow->in_port.ofp_port
!= vsp_realdev_to_vlandev(xbridge->ofproto,
flow->in_port.ofp_port,
flow->vlan_tci)) {
ctx.base_flow.vlan_tci = 0;
}
/* Sampling is done only for packets really received by the bridge. */
if (!xin->recirc) {
add_sflow_action(&ctx);
add_ipfix_action(&ctx);
sample_actions_len = ctx.xout->odp_actions->size;
} else {
sample_actions_len = 0;
}
if (tnl_may_send && (!in_port || may_receive(in_port, &ctx))) {
do_xlate_actions(ofpacts, ofpacts_len, &ctx);
/* We've let OFPP_NORMAL and the learning action look at the
* packet, so drop it now if forwarding is disabled. */
if (in_port && (!xport_stp_forward_state(in_port) ||
!xport_rstp_forward_state(in_port))) {
/* Drop all actions added by do_xlate_actions() above. */
ctx.xout->odp_actions->size = sample_actions_len;
/* Undo changes that may have been done for recirculation. */
if (exit_recirculates(&ctx)) {
ctx.action_set.size = ctx.recirc_action_offset;
ctx.recirc_action_offset = -1;
ctx.last_unroll_offset = -1;
}
} else if (ctx.action_set.size) {
/* Translate action set only if not dropping the packet and
* not recirculating. */
if (!exit_recirculates(&ctx)) {
xlate_action_set(&ctx);
}
}
/* Check if need to recirculate. */
if (exit_recirculates(&ctx)) {
compose_recirculate_action(&ctx);
}
}
/* Output only fully processed packets. */
if (!exit_recirculates(&ctx)
&& xbridge->has_in_band
&& in_band_must_output_to_local_port(flow)
&& !actions_output_to_local_port(&ctx)) {
compose_output_action(&ctx, OFPP_LOCAL, NULL);
}
if (!xin->recirc) {
fix_sflow_action(&ctx);
}
/* Only mirror fully processed packets. */
if (!exit_recirculates(&ctx)
&& mbridge_has_mirrors(xbridge->mbridge)) {
add_mirror_actions(&ctx, &orig_flow);
}
}
if (nl_attr_oversized(ctx.xout->odp_actions->size)) {
/* These datapath actions are too big for a Netlink attribute, so we
* can't hand them to the kernel directly. dpif_execute() can execute
* them one by one with help, so just mark the result as SLOW_ACTION to
* prevent the flow from being installed. */
COVERAGE_INC(xlate_actions_oversize);
ctx.xout->slow |= SLOW_ACTION;
} else if (too_many_output_actions(ctx.xout->odp_actions)) {
COVERAGE_INC(xlate_actions_too_many_output);
ctx.xout->slow |= SLOW_ACTION;
}
/* Update mirror stats only for packets really received by the bridge. */
if (!xin->recirc && mbridge_has_mirrors(xbridge->mbridge)) {
if (ctx.xin->resubmit_stats) {
mirror_update_stats(xbridge->mbridge, xout->mirrors,
ctx.xin->resubmit_stats->n_packets,
ctx.xin->resubmit_stats->n_bytes);
}
if (ctx.xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx.xin->xcache, XC_MIRROR);
entry->u.mirror.mbridge = mbridge_ref(xbridge->mbridge);
entry->u.mirror.mirrors = xout->mirrors;
}
}
/* Do netflow only for packets really received by the bridge. */
if (!xin->recirc && xbridge->netflow) {
/* Only update netflow if we don't have controller flow. We don't
* report NetFlow expiration messages for such facets because they
* are just part of the control logic for the network, not real
* traffic. */
if (ofpacts_len == 0
|| ofpacts->type != OFPACT_CONTROLLER
|| ofpact_next(ofpacts) < ofpact_end(ofpacts, ofpacts_len)) {
if (ctx.xin->resubmit_stats) {
netflow_flow_update(xbridge->netflow, flow,
xout->nf_output_iface,
ctx.xin->resubmit_stats);
}
if (ctx.xin->xcache) {
struct xc_entry *entry;
entry = xlate_cache_add_entry(ctx.xin->xcache, XC_NETFLOW);
entry->u.nf.netflow = netflow_ref(xbridge->netflow);
entry->u.nf.flow = xmemdup(flow, sizeof *flow);
entry->u.nf.iface = xout->nf_output_iface;
}
}
}
ofpbuf_uninit(&ctx.stack);
ofpbuf_uninit(&ctx.action_set);
if (wc) {
/* Clear the metadata and register wildcard masks, because we won't
* use non-header fields as part of the cache. */
flow_wildcards_clear_non_packet_fields(wc);
/* ICMPv4 and ICMPv6 have 8-bit "type" and "code" fields. struct flow
* uses the low 8 bits of the 16-bit tp_src and tp_dst members to
* represent these fields. The datapath interface, on the other hand,
* represents them with just 8 bits each. This means that if the high
* 8 bits of the masks for these fields somehow become set, then they
* will get chopped off by a round trip through the datapath, and
* revalidation will spot that as an inconsistency and delete the flow.
* Avoid the problem here by making sure that only the low 8 bits of
* either field can be unwildcarded for ICMP.
*/
if (is_icmp) {
wc->masks.tp_src &= htons(UINT8_MAX);
wc->masks.tp_dst &= htons(UINT8_MAX);
}
}
}
/* Sends 'packet' out 'ofport'.
* May modify 'packet'.
* Returns 0 if successful, otherwise a positive errno value. */
int
xlate_send_packet(const struct ofport_dpif *ofport, struct dp_packet *packet)
{
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct xport *xport;
struct ofpact_output output;
struct flow flow;
ofpact_init(&output.ofpact, OFPACT_OUTPUT, sizeof output);
/* Use OFPP_NONE as the in_port to avoid special packet processing. */
flow_extract(packet, &flow);
flow.in_port.ofp_port = OFPP_NONE;
xport = xport_lookup(xcfg, ofport);
if (!xport) {
return EINVAL;
}
output.port = xport->ofp_port;
output.max_len = 0;
return ofproto_dpif_execute_actions(xport->xbridge->ofproto, &flow, NULL,
&output.ofpact, sizeof output,
packet);
}
struct xlate_cache *
xlate_cache_new(void)
{
struct xlate_cache *xcache = xmalloc(sizeof *xcache);
ofpbuf_init(&xcache->entries, 512);
return xcache;
}
static struct xc_entry *
xlate_cache_add_entry(struct xlate_cache *xcache, enum xc_type type)
{
struct xc_entry *entry;
entry = ofpbuf_put_zeros(&xcache->entries, sizeof *entry);
entry->type = type;
return entry;
}
static void
xlate_cache_netdev(struct xc_entry *entry, const struct dpif_flow_stats *stats)
{
if (entry->u.dev.tx) {
netdev_vport_inc_tx(entry->u.dev.tx, stats);
}
if (entry->u.dev.rx) {
netdev_vport_inc_rx(entry->u.dev.rx, stats);
}
if (entry->u.dev.bfd) {
bfd_account_rx(entry->u.dev.bfd, stats);
}
}
static void
xlate_cache_normal(struct ofproto_dpif *ofproto, struct flow *flow, int vlan)
{
struct xlate_cfg *xcfg = ovsrcu_get(struct xlate_cfg *, &xcfgp);
struct xbridge *xbridge;
struct xbundle *xbundle;
struct flow_wildcards wc;
xbridge = xbridge_lookup(xcfg, ofproto);
if (!xbridge) {
return;
}
xbundle = lookup_input_bundle(xbridge, flow->in_port.ofp_port, false,
NULL);
if (!xbundle) {
return;
}
update_learning_table(xbridge, flow, &wc, vlan, xbundle);
}
/* Push stats and perform side effects of flow translation. */
void
xlate_push_stats(struct xlate_cache *xcache,
const struct dpif_flow_stats *stats)
{
struct xc_entry *entry;
struct ofpbuf entries = xcache->entries;
uint8_t dmac[ETH_ADDR_LEN];
if (!stats->n_packets) {
return;
}
XC_ENTRY_FOR_EACH (entry, entries, xcache) {
switch (entry->type) {
case XC_RULE:
rule_dpif_credit_stats(entry->u.rule, stats);
break;
case XC_BOND:
bond_account(entry->u.bond.bond, entry->u.bond.flow,
entry->u.bond.vid, stats->n_bytes);
break;
case XC_NETDEV:
xlate_cache_netdev(entry, stats);
break;
case XC_NETFLOW:
netflow_flow_update(entry->u.nf.netflow, entry->u.nf.flow,
entry->u.nf.iface, stats);
break;
case XC_MIRROR:
mirror_update_stats(entry->u.mirror.mbridge,
entry->u.mirror.mirrors,
stats->n_packets, stats->n_bytes);
break;
case XC_LEARN:
ofproto_dpif_flow_mod(entry->u.learn.ofproto, entry->u.learn.fm);
break;
case XC_NORMAL:
xlate_cache_normal(entry->u.normal.ofproto, entry->u.normal.flow,
entry->u.normal.vlan);
break;
case XC_FIN_TIMEOUT:
xlate_fin_timeout__(entry->u.fin.rule, stats->tcp_flags,
entry->u.fin.idle, entry->u.fin.hard);
break;
case XC_GROUP:
group_dpif_credit_stats(entry->u.group.group, entry->u.group.bucket,
stats);
break;
case XC_TNL_ARP:
/* Lookup arp to avoid arp timeout. */
tnl_arp_lookup(entry->u.tnl_arp_cache.br_name, entry->u.tnl_arp_cache.d_ip, dmac);
break;
default:
OVS_NOT_REACHED();
}
}
}
static void
xlate_dev_unref(struct xc_entry *entry)
{
if (entry->u.dev.tx) {
netdev_close(entry->u.dev.tx);
}
if (entry->u.dev.rx) {
netdev_close(entry->u.dev.rx);
}
if (entry->u.dev.bfd) {
bfd_unref(entry->u.dev.bfd);
}
}
static void
xlate_cache_clear_netflow(struct netflow *netflow, struct flow *flow)
{
netflow_flow_clear(netflow, flow);
netflow_unref(netflow);
free(flow);
}
void
xlate_cache_clear(struct xlate_cache *xcache)
{
struct xc_entry *entry;
struct ofpbuf entries;
if (!xcache) {
return;
}
XC_ENTRY_FOR_EACH (entry, entries, xcache) {
switch (entry->type) {
case XC_RULE:
rule_dpif_unref(entry->u.rule);
break;
case XC_BOND:
free(entry->u.bond.flow);
bond_unref(entry->u.bond.bond);
break;
case XC_NETDEV:
xlate_dev_unref(entry);
break;
case XC_NETFLOW:
xlate_cache_clear_netflow(entry->u.nf.netflow, entry->u.nf.flow);
break;
case XC_MIRROR:
mbridge_unref(entry->u.mirror.mbridge);
break;
case XC_LEARN:
free(entry->u.learn.fm);
ofpbuf_delete(entry->u.learn.ofpacts);
break;
case XC_NORMAL:
free(entry->u.normal.flow);
break;
case XC_FIN_TIMEOUT:
/* 'u.fin.rule' is always already held as a XC_RULE, which
* has already released it's reference above. */
break;
case XC_GROUP:
group_dpif_unref(entry->u.group.group);
break;
case XC_TNL_ARP:
break;
default:
OVS_NOT_REACHED();
}
}
ofpbuf_clear(&xcache->entries);
}
void
xlate_cache_delete(struct xlate_cache *xcache)
{
xlate_cache_clear(xcache);
ofpbuf_uninit(&xcache->entries);
free(xcache);
}
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