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/*
* Copyright (c) 2015, 2018 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 "dpif-provider.h"
#include <errno.h>
#include "ct-dpif.h"
#include "openvswitch/ofp-ct.h"
#include "openvswitch/ofp-parse.h"
#include "openvswitch/vlog.h"
VLOG_DEFINE_THIS_MODULE(ct_dpif);
/* Declarations for conntrack entry formatting. */
struct flags {
uint32_t flag;
const char *name;
};
static void ct_dpif_format_counters(struct ds *,
const struct ct_dpif_counters *);
static void ct_dpif_format_timestamp(struct ds *,
const struct ct_dpif_timestamp *);
static void ct_dpif_format_protoinfo(struct ds *, const char *title,
const struct ct_dpif_protoinfo *,
bool verbose);
static void ct_dpif_format_helper(struct ds *, const char *title,
const struct ct_dpif_helper *);
�
/* Dumping */
/* Start dumping the entries from the connection tracker used by 'dpif'.
*
* 'dump' must be the address of a pointer to a struct ct_dpif_dump_state,
* which should be passed (unaltered) to ct_dpif_dump_{next,done}().
*
* If 'zone' is not NULL, it should point to an integer identifing a
* conntrack zone to which the dump will be limited. If it is NULL,
* conntrack entries from all zones will be dumped.
*
* If there has been a problem the function returns a non-zero value
* that represents the error. Otherwise it returns zero. */
int
ct_dpif_dump_start(struct dpif *dpif, struct ct_dpif_dump_state **dump,
const uint16_t *zone, int *ptot_bkts)
{
int err;
err = (dpif->dpif_class->ct_dump_start
? dpif->dpif_class->ct_dump_start(dpif, dump, zone, ptot_bkts)
: EOPNOTSUPP);
if (!err) {
(*dump)->dpif = dpif;
}
return err;
}
/* Dump one connection from a tracker, and put it in 'entry'.
*
* 'dump' should have been initialized by ct_dpif_dump_start().
*
* The function returns 0, if an entry has been dumped succesfully.
* Otherwise it returns a non-zero value which can be:
* - EOF: meaning that there are no more entries to dump.
* - an error value.
* In both cases, the user should call ct_dpif_dump_done(). */
int
ct_dpif_dump_next(struct ct_dpif_dump_state *dump, struct ct_dpif_entry *entry)
{
struct dpif *dpif = dump->dpif;
return (dpif->dpif_class->ct_dump_next
? dpif->dpif_class->ct_dump_next(dpif, dump, entry)
: EOPNOTSUPP);
}
/* Free resources used by 'dump' */
int
ct_dpif_dump_done(struct ct_dpif_dump_state *dump)
{
struct dpif *dpif = dump->dpif;
return (dpif->dpif_class->ct_dump_done
? dpif->dpif_class->ct_dump_done(dpif, dump)
: EOPNOTSUPP);
}
�
/* Flushing. */
static void
ct_dpif_tuple_from_ofp_ct_tuple(const struct ofp_ct_tuple *ofp_tuple,
struct ct_dpif_tuple *tuple,
uint16_t l3_type, uint8_t ip_proto)
{
if (l3_type == AF_INET) {
tuple->src.ip = in6_addr_get_mapped_ipv4(&ofp_tuple->src);
tuple->dst.ip = in6_addr_get_mapped_ipv4(&ofp_tuple->dst);
} else {
tuple->src.in6 = ofp_tuple->src;
tuple->dst.in6 = ofp_tuple->dst;
}
tuple->l3_type = l3_type;
tuple->ip_proto = ip_proto;
tuple->src_port = ofp_tuple->src_port;
if (ip_proto == IPPROTO_ICMP || ip_proto == IPPROTO_ICMPV6) {
tuple->icmp_code = ofp_tuple->icmp_code;
tuple->icmp_type = ofp_tuple->icmp_type;
} else {
tuple->dst_port = ofp_tuple->dst_port;
}
}
static inline bool
ct_dpif_inet_addr_cmp_partial(const union ct_dpif_inet_addr *addr,
const struct in6_addr *partial, uint16_t l3_type)
{
if (ipv6_is_zero(partial)) {
return true;
}
if (l3_type == AF_INET && in6_addr_get_mapped_ipv4(partial) != addr->ip) {
return false;
}
if (l3_type == AF_INET6 && !ipv6_addr_equals(partial, &addr->in6)) {
return false;
}
return true;
}
static inline bool
ct_dpif_tuple_ip_cmp_partial(const struct ct_dpif_tuple *tuple,
const struct ofp_ct_tuple *partial,
uint16_t l3_type, uint8_t ip_proto)
{
if (!ct_dpif_inet_addr_cmp_partial(&tuple->src, &partial->src, l3_type)) {
return false;
}
if (!ct_dpif_inet_addr_cmp_partial(&tuple->dst, &partial->dst, l3_type)) {
return false;
}
if (ip_proto == IPPROTO_ICMP || ip_proto == IPPROTO_ICMPV6) {
if (partial->icmp_id != tuple->icmp_id) {
return false;
}
if (partial->icmp_type != tuple->icmp_type) {
return false;
}
if (partial->icmp_code != tuple->icmp_code) {
return false;
}
} else {
if (partial->src_port && partial->src_port != tuple->src_port) {
return false;
}
if (partial->dst_port && partial->dst_port != tuple->dst_port) {
return false;
}
}
return true;
}
/* Returns 'true' if all non-zero members of 'match' equal to corresponding
* members of 'entry'. */
static bool
ct_dpif_entry_cmp(const struct ct_dpif_entry *entry,
const struct ofp_ct_match *match)
{
if (match->l3_type && match->l3_type != entry->tuple_orig.l3_type) {
return false;
}
if (match->ip_proto && match->ip_proto != entry->tuple_orig.ip_proto) {
return false;
}
if (!ct_dpif_tuple_ip_cmp_partial(&entry->tuple_orig, &match->tuple_orig,
match->l3_type, match->ip_proto)) {
return false;
}
if (!ct_dpif_tuple_ip_cmp_partial(&entry->tuple_reply, &match->tuple_reply,
match->l3_type, match->ip_proto)) {
return false;
}
return true;
}
static int
ct_dpif_flush_tuple(struct dpif *dpif, const uint16_t *zone,
const struct ofp_ct_match *match)
{
struct ct_dpif_dump_state *dump;
struct ct_dpif_entry cte;
int error;
int tot_bkts;
if (!dpif->dpif_class->ct_flush) {
return EOPNOTSUPP;
}
if (VLOG_IS_DBG_ENABLED()) {
struct ds ds = DS_EMPTY_INITIALIZER;
ofp_ct_match_format(&ds, match);
VLOG_DBG("%s: ct_flush: zone=%d %s", dpif_name(dpif), zone ? *zone : 0,
ds_cstr(&ds));
ds_destroy(&ds);
}
/* If we have full five tuple in original and empty reply tuple just
* do the flush over original tuple directly. */
if (ofp_ct_tuple_is_five_tuple(&match->tuple_orig, match->ip_proto) &&
ofp_ct_tuple_is_zero(&match->tuple_reply, match->ip_proto)) {
struct ct_dpif_tuple tuple;
ct_dpif_tuple_from_ofp_ct_tuple(&match->tuple_orig, &tuple,
match->l3_type, match->ip_proto);
return dpif->dpif_class->ct_flush(dpif, zone, &tuple);
}
error = ct_dpif_dump_start(dpif, &dump, zone, &tot_bkts);
if (error) {
return error;
}
while (!(error = ct_dpif_dump_next(dump, &cte))) {
if (zone && *zone != cte.zone) {
continue;
}
if (ct_dpif_entry_cmp(&cte, match)) {
error = dpif->dpif_class->ct_flush(dpif, &cte.zone,
&cte.tuple_orig);
if (error) {
break;
}
}
}
if (error == EOF) {
error = 0;
}
ct_dpif_dump_done(dump);
return error;
}
/* Flush the entries in the connection tracker used by 'dpif'. The
* arguments have the following behavior:
*
* - If both 'zone' is NULL and 'match' is NULL or zero, flush all the
* conntrack entries.
* - If 'zone' is not NULL, and 'match' is NULL, flush all the conntrack
* entries in '*zone'.
* - If 'match' is not NULL or zero, flush the conntrack entry specified
* by 'match' in '*zone'. If 'zone' is NULL, use the default zone
* (zone 0). */
int
ct_dpif_flush(struct dpif *dpif, const uint16_t *zone,
const struct ofp_ct_match *match)
{
if (match && !ofp_ct_match_is_zero(match)) {
return ct_dpif_flush_tuple(dpif, zone, match);
} else if (zone) {
VLOG_DBG("%s: ct_flush: zone %"PRIu16, dpif_name(dpif), *zone);
} else {
VLOG_DBG("%s: ct_flush: <all>", dpif_name(dpif));
}
return (dpif->dpif_class->ct_flush
? dpif->dpif_class->ct_flush(dpif, zone, NULL)
: EOPNOTSUPP);
}
int
ct_dpif_set_maxconns(struct dpif *dpif, uint32_t maxconns)
{
return (dpif->dpif_class->ct_set_maxconns
? dpif->dpif_class->ct_set_maxconns(dpif, maxconns)
: EOPNOTSUPP);
}
int
ct_dpif_get_maxconns(struct dpif *dpif, uint32_t *maxconns)
{
return (dpif->dpif_class->ct_get_maxconns
? dpif->dpif_class->ct_get_maxconns(dpif, maxconns)
: EOPNOTSUPP);
}
int
ct_dpif_get_nconns(struct dpif *dpif, uint32_t *nconns)
{
return (dpif->dpif_class->ct_get_nconns
? dpif->dpif_class->ct_get_nconns(dpif, nconns)
: EOPNOTSUPP);
}
int
ct_dpif_set_tcp_seq_chk(struct dpif *dpif, bool enabled)
{
return (dpif->dpif_class->ct_set_tcp_seq_chk
? dpif->dpif_class->ct_set_tcp_seq_chk(dpif, enabled)
: EOPNOTSUPP);
}
int
ct_dpif_get_tcp_seq_chk(struct dpif *dpif, bool *enabled)
{
return (dpif->dpif_class->ct_get_tcp_seq_chk
? dpif->dpif_class->ct_get_tcp_seq_chk(dpif, enabled)
: EOPNOTSUPP);
}
int
ct_dpif_set_limits(struct dpif *dpif, const uint32_t *default_limit,
const struct ovs_list *zone_limits)
{
return (dpif->dpif_class->ct_set_limits
? dpif->dpif_class->ct_set_limits(dpif, default_limit,
zone_limits)
: EOPNOTSUPP);
}
int
ct_dpif_get_limits(struct dpif *dpif, uint32_t *default_limit,
const struct ovs_list *zone_limits_in,
struct ovs_list *zone_limits_out)
{
return (dpif->dpif_class->ct_get_limits
? dpif->dpif_class->ct_get_limits(dpif, default_limit,
zone_limits_in,
zone_limits_out)
: EOPNOTSUPP);
}
int
ct_dpif_del_limits(struct dpif *dpif, const struct ovs_list *zone_limits)
{
return (dpif->dpif_class->ct_del_limits
? dpif->dpif_class->ct_del_limits(dpif, zone_limits)
: EOPNOTSUPP);
}
int
ct_dpif_sweep(struct dpif *dpif, uint32_t *ms)
{
if (*ms) {
return (dpif->dpif_class->ct_set_sweep_interval
? dpif->dpif_class->ct_set_sweep_interval(dpif, *ms)
: EOPNOTSUPP);
} else {
return (dpif->dpif_class->ct_get_sweep_interval
? dpif->dpif_class->ct_get_sweep_interval(dpif, ms)
: EOPNOTSUPP);
}
}
int
ct_dpif_ipf_set_enabled(struct dpif *dpif, bool v6, bool enable)
{
return (dpif->dpif_class->ipf_set_enabled
? dpif->dpif_class->ipf_set_enabled(dpif, v6, enable)
: EOPNOTSUPP);
}
int
ct_dpif_ipf_set_min_frag(struct dpif *dpif, bool v6, uint32_t min_frag)
{
return (dpif->dpif_class->ipf_set_min_frag
? dpif->dpif_class->ipf_set_min_frag(dpif, v6, min_frag)
: EOPNOTSUPP);
}
int
ct_dpif_ipf_set_max_nfrags(struct dpif *dpif, uint32_t max_frags)
{
return (dpif->dpif_class->ipf_set_max_nfrags
? dpif->dpif_class->ipf_set_max_nfrags(dpif, max_frags)
: EOPNOTSUPP);
}
int ct_dpif_ipf_get_status(struct dpif *dpif,
struct dpif_ipf_status *dpif_ipf_status)
{
return (dpif->dpif_class->ipf_get_status
? dpif->dpif_class->ipf_get_status(dpif, dpif_ipf_status)
: EOPNOTSUPP);
}
int
ct_dpif_ipf_dump_start(struct dpif *dpif, struct ipf_dump_ctx **dump_ctx)
{
return (dpif->dpif_class->ipf_dump_start
? dpif->dpif_class->ipf_dump_start(dpif, dump_ctx)
: EOPNOTSUPP);
}
int
ct_dpif_ipf_dump_next(struct dpif *dpif, void *dump_ctx, char **dump)
{
return (dpif->dpif_class->ipf_dump_next
? dpif->dpif_class->ipf_dump_next(dpif, dump_ctx, dump)
: EOPNOTSUPP);
}
int
ct_dpif_ipf_dump_done(struct dpif *dpif, void *dump_ctx)
{
return (dpif->dpif_class->ipf_dump_done
? dpif->dpif_class->ipf_dump_done(dpif, dump_ctx)
: EOPNOTSUPP);
}
void
ct_dpif_entry_uninit(struct ct_dpif_entry *entry)
{
if (entry) {
if (entry->helper.name) {
free(entry->helper.name);
}
}
}
�
static const char *
ct_dpif_status_flags(uint32_t flags)
{
switch (flags) {
#define CT_DPIF_STATUS_FLAG(FLAG) \
case CT_DPIF_STATUS_##FLAG: \
return #FLAG;
CT_DPIF_STATUS_FLAGS
#undef CT_DPIF_TCP_FLAG
default:
return NULL;
}
}
void
ct_dpif_format_entry(const struct ct_dpif_entry *entry, struct ds *ds,
bool verbose, bool print_stats)
{
ct_dpif_format_ipproto(ds, entry->tuple_orig.ip_proto);
ds_put_cstr(ds, ",orig=(");
ct_dpif_format_tuple(ds, &entry->tuple_orig);
if (print_stats) {
ct_dpif_format_counters(ds, &entry->counters_orig);
}
ds_put_cstr(ds, ")");
ds_put_cstr(ds, ",reply=(");
ct_dpif_format_tuple(ds, &entry->tuple_reply);
if (print_stats) {
ct_dpif_format_counters(ds, &entry->counters_reply);
}
ds_put_cstr(ds, ")");
if (print_stats) {
ct_dpif_format_timestamp(ds, &entry->timestamp);
}
if (verbose) {
ds_put_format(ds, ",id=%"PRIu32, entry->id);
}
if (entry->zone) {
ds_put_format(ds, ",zone=%"PRIu16, entry->zone);
}
if (verbose) {
format_flags_masked(ds, ",status", ct_dpif_status_flags,
entry->status, CT_DPIF_STATUS_MASK,
CT_DPIF_STATUS_MASK);
}
if (print_stats) {
ds_put_format(ds, ",timeout=%"PRIu32, entry->timeout);
}
if (entry->mark) {
ds_put_format(ds, ",mark=%"PRIu32, entry->mark);
}
if (!ovs_u128_is_zero(entry->labels)) {
ovs_be128 value;
ds_put_cstr(ds, ",labels=");
value = hton128(entry->labels);
ds_put_hex(ds, &value, sizeof value);
}
ct_dpif_format_protoinfo(ds, ",protoinfo=", &entry->protoinfo, verbose);
ct_dpif_format_helper(ds, ",helper=", &entry->helper);
if (verbose && entry->tuple_parent.l3_type != 0) {
ds_put_cstr(ds, ",parent=(");
ct_dpif_format_tuple(ds, &entry->tuple_parent);
ds_put_cstr(ds, ")");
}
}
void
ct_dpif_format_ipproto(struct ds *ds, uint16_t ipproto)
{
const char *name;
name = (ipproto == IPPROTO_ICMP) ? "icmp"
: (ipproto == IPPROTO_ICMPV6) ? "icmpv6"
: (ipproto == IPPROTO_TCP) ? "tcp"
: (ipproto == IPPROTO_UDP) ? "udp"
: (ipproto == IPPROTO_SCTP) ? "sctp"
: (ipproto == IPPROTO_UDPLITE) ? "udplite"
: (ipproto == IPPROTO_DCCP) ? "dccp"
: (ipproto == IPPROTO_IGMP) ? "igmp"
: NULL;
if (name) {
ds_put_cstr(ds, name);
} else {
ds_put_format(ds, "%u", ipproto);
}
}
static void
ct_dpif_format_counters(struct ds *ds, const struct ct_dpif_counters *counters)
{
if (counters->packets || counters->bytes) {
ds_put_format(ds, ",packets=%"PRIu64",bytes=%"PRIu64,
counters->packets, counters->bytes);
}
}
static void
ct_dpif_format_timestamp(struct ds *ds,
const struct ct_dpif_timestamp *timestamp)
{
if (timestamp->start || timestamp->stop) {
ds_put_strftime_msec(ds, ",start=%Y-%m-%dT%H:%M:%S.###",
timestamp->start / UINT64_C(1000000), false);
if (timestamp->stop) {
ds_put_strftime_msec(ds, ",stop=%Y-%m-%dT%H:%M:%S.###",
timestamp->stop / UINT64_C(1000000), false);
}
}
}
static void
ct_dpif_format_tuple_icmp(struct ds *ds, const struct ct_dpif_tuple *tuple)
{
ds_put_format(ds, ",id=%u,type=%u,code=%u", ntohs(tuple->icmp_id),
tuple->icmp_type, tuple->icmp_code);
}
static void
ct_dpif_format_tuple_tp(struct ds *ds, const struct ct_dpif_tuple *tuple)
{
ds_put_format(ds, ",sport=%u,dport=%u",
ntohs(tuple->src_port), ntohs(tuple->dst_port));
}
void
ct_dpif_format_tuple(struct ds *ds, const struct ct_dpif_tuple *tuple)
{
if (tuple->l3_type == AF_INET) {
ds_put_format(ds, "src="IP_FMT",dst="IP_FMT,
IP_ARGS(tuple->src.ip), IP_ARGS(tuple->dst.ip));
} else if (tuple->l3_type == AF_INET6) {
ds_put_cstr(ds, "src=");
ipv6_format_addr(&tuple->src.in6, ds);
ds_put_cstr(ds, ",dst=");
ipv6_format_addr(&tuple->dst.in6, ds);
} else {
ds_put_format(ds, "Unsupported address family: %u. HEX:\n",
tuple->l3_type);
ds_put_hex_dump(ds, tuple, sizeof *tuple, 0, false);
return;
}
if (tuple->ip_proto == IPPROTO_ICMP
|| tuple->ip_proto == IPPROTO_ICMPV6) {
ct_dpif_format_tuple_icmp(ds, tuple);
} else {
ct_dpif_format_tuple_tp(ds, tuple);
}
}
const char *ct_dpif_tcp_state_string[] = {
#define CT_DPIF_TCP_STATE(STATE) [CT_DPIF_TCPS_##STATE] = #STATE,
CT_DPIF_TCP_STATES
#undef CT_DPIF_TCP_STATE
};
const char *ct_dpif_sctp_state_string[] = {
#define CT_DPIF_SCTP_STATE(STATE) [CT_DPIF_SCTP_STATE_##STATE] = #STATE,
CT_DPIF_SCTP_STATES
#undef CT_DPIF_SCTP_STATE
};
static void
ct_dpif_format_enum__(struct ds *ds, const char *title, unsigned int state,
const char *names[], unsigned int max)
{
if (title) {
ds_put_cstr(ds, title);
}
if (state < max) {
ds_put_cstr(ds, names[state]);
} else {
ds_put_format(ds, "[%u]", state);
}
}
#define ct_dpif_format_enum(DS, TITLE, STATE, NAMES) \
ct_dpif_format_enum__((DS), (TITLE), (STATE), (NAMES), ARRAY_SIZE(NAMES))
static uint8_t
coalesce_tcp_state(uint8_t state)
{
/* The Linux kernel connection tracker and the userspace view the
* tcp states differently in some situations. If we're formatting
* the entry without being verbose, it is worth to adjust the
* differences, to ease writing testcases. */
switch (state) {
case CT_DPIF_TCPS_FIN_WAIT_2:
return CT_DPIF_TCPS_TIME_WAIT;
case CT_DPIF_TCPS_SYN_RECV:
return CT_DPIF_TCPS_ESTABLISHED;
default:
return state;
}
}
static void
ct_dpif_format_protoinfo_tcp(struct ds *ds,
const struct ct_dpif_protoinfo *protoinfo)
{
uint8_t tcp_state;
/* We keep two separate tcp states, but we print just one. The Linux
* kernel connection tracker internally keeps only one state, so
* 'state_orig' and 'state_reply', will be the same. */
tcp_state = MAX(protoinfo->tcp.state_orig, protoinfo->tcp.state_reply);
tcp_state = coalesce_tcp_state(tcp_state);
ct_dpif_format_enum(ds, "state=", tcp_state, ct_dpif_tcp_state_string);
}
static const char *
ct_dpif_tcp_flags(uint32_t flags)
{
switch (flags) {
#define CT_DPIF_TCP_FLAG(FLAG) \
case CT_DPIF_TCPF_##FLAG: \
return #FLAG;
CT_DPIF_TCP_FLAGS
#undef CT_DPIF_TCP_FLAG
default:
return NULL;
}
}
static void
ct_dpif_format_protoinfo_tcp_verbose(struct ds *ds,
const struct ct_dpif_protoinfo *protoinfo)
{
ct_dpif_format_enum(ds, "state_orig=", protoinfo->tcp.state_orig,
ct_dpif_tcp_state_string);
ct_dpif_format_enum(ds, ",state_reply=", protoinfo->tcp.state_reply,
ct_dpif_tcp_state_string);
if (protoinfo->tcp.wscale_orig || protoinfo->tcp.wscale_reply) {
ds_put_format(ds, ",wscale_orig=%u,wscale_reply=%u",
protoinfo->tcp.wscale_orig,
protoinfo->tcp.wscale_reply);
}
format_flags_masked(ds, ",flags_orig", ct_dpif_tcp_flags,
protoinfo->tcp.flags_orig, CT_DPIF_TCPF_MASK,
CT_DPIF_TCPF_MASK);
format_flags_masked(ds, ",flags_reply", ct_dpif_tcp_flags,
protoinfo->tcp.flags_reply, CT_DPIF_TCPF_MASK,
CT_DPIF_TCPF_MASK);
}
static void
ct_dpif_format_protoinfo_sctp(struct ds *ds,
const struct ct_dpif_protoinfo *protoinfo)
{
ct_dpif_format_enum(ds, "state=", protoinfo->sctp.state,
ct_dpif_sctp_state_string);
ds_put_format(ds, ",vtag_orig=%" PRIu32 ",vtag_reply=%" PRIu32,
protoinfo->sctp.vtag_orig, protoinfo->sctp.vtag_reply);
}
static void
ct_dpif_format_protoinfo(struct ds *ds, const char *title,
const struct ct_dpif_protoinfo *protoinfo,
bool verbose)
{
if (protoinfo->proto != 0) {
if (title) {
ds_put_format(ds, "%s(", title);
}
switch (protoinfo->proto) {
case IPPROTO_TCP:
if (verbose) {
ct_dpif_format_protoinfo_tcp_verbose(ds, protoinfo);
} else {
ct_dpif_format_protoinfo_tcp(ds, protoinfo);
}
break;
case IPPROTO_SCTP:
ct_dpif_format_protoinfo_sctp(ds, protoinfo);
break;
}
if (title) {
ds_put_cstr(ds, ")");
}
}
}
static void
ct_dpif_format_helper(struct ds *ds, const char *title,
const struct ct_dpif_helper *helper)
{
if (helper->name) {
if (title) {
ds_put_cstr(ds, title);
}
ds_put_cstr(ds, helper->name);
}
}
uint8_t
ct_dpif_coalesce_tcp_state(uint8_t state)
{
return coalesce_tcp_state(state);
}
void
ct_dpif_format_tcp_stat(struct ds * ds, int tcp_state, int conn_per_state)
{
ct_dpif_format_enum(ds, "\t [", tcp_state, ct_dpif_tcp_state_string);
ds_put_cstr(ds, "]");
ds_put_format(ds, "=%u", conn_per_state);
}
void
ct_dpif_push_zone_limit(struct ovs_list *zone_limits, uint16_t zone,
uint32_t limit, uint32_t count)
{
struct ct_dpif_zone_limit *zone_limit = xmalloc(sizeof *zone_limit);
zone_limit->zone = zone;
zone_limit->limit = limit;
zone_limit->count = count;
ovs_list_push_back(zone_limits, &zone_limit->node);
}
void
ct_dpif_free_zone_limits(struct ovs_list *zone_limits)
{
while (!ovs_list_is_empty(zone_limits)) {
struct ovs_list *entry = ovs_list_pop_front(zone_limits);
struct ct_dpif_zone_limit *cdzl;
cdzl = CONTAINER_OF(entry, struct ct_dpif_zone_limit, node);
free(cdzl);
}
}
/* Parses a specification of a conntrack zone limit from 's' into '*pzone'
* and '*plimit'. Returns true on success. Otherwise, returns false and
* and puts the error message in 'ds'. */
bool
ct_dpif_parse_zone_limit_tuple(const char *s, uint16_t *pzone,
uint32_t *plimit, struct ds *ds)
{
char *pos, *key, *value, *copy, *err;
bool parsed_limit = false, parsed_zone = false;
pos = copy = xstrdup(s);
while (ofputil_parse_key_value(&pos, &key, &value)) {
if (!*value) {
ds_put_format(ds, "field %s missing value", key);
goto error;
}
if (!strcmp(key, "zone")) {
err = str_to_u16(value, key, pzone);
if (err) {
free(err);
goto error_with_msg;
}
parsed_zone = true;
} else if (!strcmp(key, "limit")) {
err = str_to_u32(value, plimit);
if (err) {
free(err);
goto error_with_msg;
}
parsed_limit = true;
} else {
ds_put_format(ds, "invalid zone limit field: %s", key);
goto error;
}
}
if (!parsed_zone || !parsed_limit) {
ds_put_format(ds, "failed to parse zone limit");
goto error;
}
free(copy);
return true;
error_with_msg:
ds_put_format(ds, "failed to parse field %s", key);
error:
free(copy);
return false;
}
void
ct_dpif_format_zone_limits(uint32_t default_limit,
const struct ovs_list *zone_limits, struct ds *ds)
{
struct ct_dpif_zone_limit *zone_limit;
ds_put_format(ds, "default limit=%"PRIu32, default_limit);
LIST_FOR_EACH (zone_limit, node, zone_limits) {
ds_put_format(ds, "\nzone=%"PRIu16, zone_limit->zone);
ds_put_format(ds, ",limit=%"PRIu32, zone_limit->limit);
ds_put_format(ds, ",count=%"PRIu32, zone_limit->count);
}
}
static const char *const ct_dpif_tp_attr_string[] = {
#define CT_DPIF_TP_TCP_ATTR(ATTR) \
[CT_DPIF_TP_ATTR_TCP_##ATTR] = "TCP_"#ATTR,
CT_DPIF_TP_TCP_ATTRS
#undef CT_DPIF_TP_TCP_ATTR
#define CT_DPIF_TP_UDP_ATTR(ATTR) \
[CT_DPIF_TP_ATTR_UDP_##ATTR] = "UDP_"#ATTR,
CT_DPIF_TP_UDP_ATTRS
#undef CT_DPIF_TP_UDP_ATTR
#define CT_DPIF_TP_ICMP_ATTR(ATTR) \
[CT_DPIF_TP_ATTR_ICMP_##ATTR] = "ICMP_"#ATTR,
CT_DPIF_TP_ICMP_ATTRS
#undef CT_DPIF_TP_ICMP_ATTR
};
static bool
ct_dpif_set_timeout_policy_attr(struct ct_dpif_timeout_policy *tp,
uint32_t attr, uint32_t value)
{
if (tp->present & (1 << attr) && tp->attrs[attr] == value) {
return false;
}
tp->attrs[attr] = value;
tp->present |= 1 << attr;
return true;
}
/* Sets a timeout value identified by '*name' to 'value'.
* Returns true if the attribute is changed */
bool
ct_dpif_set_timeout_policy_attr_by_name(struct ct_dpif_timeout_policy *tp,
const char *name, uint32_t value)
{
for (uint32_t i = 0; i < CT_DPIF_TP_ATTR_MAX; ++i) {
if (!strcasecmp(name, ct_dpif_tp_attr_string[i])) {
return ct_dpif_set_timeout_policy_attr(tp, i, value);
}
}
return false;
}
bool
ct_dpif_timeout_policy_support_ipproto(uint8_t ipproto)
{
if (ipproto == IPPROTO_TCP || ipproto == IPPROTO_UDP ||
ipproto == IPPROTO_ICMP || ipproto == IPPROTO_ICMPV6) {
return true;
}
return false;
}
int
ct_dpif_set_timeout_policy(struct dpif *dpif,
const struct ct_dpif_timeout_policy *tp)
{
return (dpif->dpif_class->ct_set_timeout_policy
? dpif->dpif_class->ct_set_timeout_policy(dpif, tp)
: EOPNOTSUPP);
}
int
ct_dpif_del_timeout_policy(struct dpif *dpif, uint32_t tp_id)
{
return (dpif->dpif_class->ct_del_timeout_policy
? dpif->dpif_class->ct_del_timeout_policy(dpif, tp_id)
: EOPNOTSUPP);
}
int
ct_dpif_get_timeout_policy(struct dpif *dpif, uint32_t tp_id,
struct ct_dpif_timeout_policy *tp)
{
return (dpif->dpif_class->ct_get_timeout_policy
? dpif->dpif_class->ct_get_timeout_policy(
dpif, tp_id, tp) : EOPNOTSUPP);
}
int
ct_dpif_timeout_policy_dump_start(struct dpif *dpif, void **statep)
{
return (dpif->dpif_class->ct_timeout_policy_dump_start
? dpif->dpif_class->ct_timeout_policy_dump_start(dpif, statep)
: EOPNOTSUPP);
}
int
ct_dpif_timeout_policy_dump_next(struct dpif *dpif, void *state,
struct ct_dpif_timeout_policy *tp)
{
return (dpif->dpif_class->ct_timeout_policy_dump_next
? dpif->dpif_class->ct_timeout_policy_dump_next(dpif, state, tp)
: EOPNOTSUPP);
}
int
ct_dpif_timeout_policy_dump_done(struct dpif *dpif, void *state)
{
return (dpif->dpif_class->ct_timeout_policy_dump_done
? dpif->dpif_class->ct_timeout_policy_dump_done(dpif, state)
: EOPNOTSUPP);
}
int
ct_dpif_get_timeout_policy_name(struct dpif *dpif, uint32_t tp_id,
uint16_t dl_type, uint8_t nw_proto,
char **tp_name, bool *is_generic)
{
return (dpif->dpif_class->ct_get_timeout_policy_name
? dpif->dpif_class->ct_get_timeout_policy_name(
dpif, tp_id, dl_type, nw_proto, tp_name, is_generic)
: EOPNOTSUPP);
}
int
ct_dpif_get_features(struct dpif *dpif, enum ct_features *features)
{
return (dpif->dpif_class->ct_get_features
? dpif->dpif_class->ct_get_features(dpif, features)
: EOPNOTSUPP);
}
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