[ovs-dev] [patch v6] conntrack: Add rcu support.
Darrell Ball
dlu998 at gmail.com
Sat May 4 06:18:02 UTC 2019
Ignore this V6; it was sent out accidently in midstream
I resent the intended V6.
On Fri, May 3, 2019 at 10:10 PM Darrell Ball <dlu998 at gmail.com> wrote:
> For performance and code simplification reasons, add rcu support for
> conntrack. The array of hmaps is replaced by a cmap as part of this
> conversion. Using a single map also simplifies the handling of NAT
> and allows the removal of the nat_conn map and friends. Per connection
> entry locks are introduced, which are needed in a few code paths.
>
> Signed-off-by: Darrell Ball <dlu998 at gmail.com>
> ---
>
> v6: Patch 1 was applied.
> Fixed and simplified the expiry list logic; minimal impact on
> performance.
>
> v5: Removed a wayward ovs_list_remove() from conn_update_expiration().
>
> Merged some conn level locking that was missed b4 and adjusted const
> specifier for conn, as a result.
>
> v4: Just include first 2 patches as the other patches are moved to a
> subsequent series.
>
> Reinstated support for running multiple userpace datapaths at the
> same time.
>
> Fixed a bug where 'ovs_list_remove()' was misplaced.
>
> Cleaned up some unneeded code.
>
> v3: Dropped Patch 3 from the series since it was broken/incomplete
> and not worth the fix, since there are some disadvantages in
> terms of maintainability, including treating UDP/ICMP different
> than TCP, while the performance benefit was borderline.
>
> Fixed bug in 'nat_res_exhaustion' exception code.
>
> Cleaned up a few APIs - 'conn_clean*'/'delete_conn*' and
> removed an unneeded one, 'conn_available()'. Added more
> comments.
>
> Removed non-essential 'nat' field from struct conn_lookup_ctx.
>
> Fixed some splicing issues b/w Patch 1 and Patch 2, where some
> aspects of Patch 2 were now moved to Patch 1.
>
> v2: Put back somehow deleted '&' in Patch 1 in call to
> check_orig_tuple() for bucket parameter (which is
> removed in Patch 2).
>
>
> lib/conntrack-icmp.c | 23 +-
> lib/conntrack-other.c | 10 +-
> lib/conntrack-private.h | 205 +++--------
> lib/conntrack-tcp.c | 18 +-
> lib/conntrack.c | 961
> ++++++++++++++++--------------------------------
> lib/conntrack.h | 4 +-
> 6 files changed, 406 insertions(+), 815 deletions(-)
>
> diff --git a/lib/conntrack-icmp.c b/lib/conntrack-icmp.c
> index 40fd1d8..f128d5d 100644
> --- a/lib/conntrack-icmp.c
> +++ b/lib/conntrack-icmp.c
> @@ -1,5 +1,5 @@
> /*
> - * Copyright (c) 2015, 2016 Nicira, Inc.
> + * Copyright (c) 2015-2019 Nicira, Inc.
> *
> * Licensed under the Apache License, Version 2.0 (the "License");
> * you may not use this file except in compliance with the License.
> @@ -46,16 +46,12 @@ conn_icmp_cast(const struct conn *conn)
> }
>
> static enum ct_update_res
> -icmp_conn_update(struct conn *conn_, struct conntrack_bucket *ctb,
> +icmp_conn_update(struct conntrack *ct, struct conn *conn_,
> struct dp_packet *pkt OVS_UNUSED, bool reply, long long
> now)
> {
> struct conn_icmp *conn = conn_icmp_cast(conn_);
> -
> - if (reply && conn->state != ICMPS_REPLY) {
> - conn->state = ICMPS_REPLY;
> - }
> -
> - conn_update_expiration(ctb, &conn->up, icmp_timeouts[conn->state],
> now);
> + conn->state = reply ? ICMPS_REPLY : ICMPS_FIRST;
> + conn_update_expiration(ct, &conn->up, icmp_timeouts[conn->state],
> now);
>
> return CT_UPDATE_VALID;
> }
> @@ -79,15 +75,12 @@ icmp6_valid_new(struct dp_packet *pkt)
> }
>
> static struct conn *
> -icmp_new_conn(struct conntrack_bucket *ctb, struct dp_packet *pkt
> OVS_UNUSED,
> - long long now)
> +icmp_new_conn(struct conntrack *ct, struct dp_packet *pkt OVS_UNUSED,
> + long long now)
> {
> - struct conn_icmp *conn;
> -
> - conn = xzalloc(sizeof *conn);
> + struct conn_icmp *conn = xzalloc(sizeof *conn);
> conn->state = ICMPS_FIRST;
> -
> - conn_init_expiration(ctb, &conn->up, icmp_timeouts[conn->state], now);
> + conn_init_expiration(ct, &conn->up, icmp_timeouts[conn->state], now);
>
> return &conn->up;
> }
> diff --git a/lib/conntrack-other.c b/lib/conntrack-other.c
> index 2920889..a0575fb 100644
> --- a/lib/conntrack-other.c
> +++ b/lib/conntrack-other.c
> @@ -1,5 +1,5 @@
> /*
> - * Copyright (c) 2015, 2016 Nicira, Inc.
> + * Copyright (c) 2015-2019 Nicira, Inc.
> *
> * Licensed under the Apache License, Version 2.0 (the "License");
> * you may not use this file except in compliance with the License.
> @@ -43,7 +43,7 @@ conn_other_cast(const struct conn *conn)
> }
>
> static enum ct_update_res
> -other_conn_update(struct conn *conn_, struct conntrack_bucket *ctb,
> +other_conn_update(struct conntrack *ct, struct conn *conn_,
> struct dp_packet *pkt OVS_UNUSED, bool reply, long long
> now)
> {
> struct conn_other *conn = conn_other_cast(conn_);
> @@ -54,7 +54,7 @@ other_conn_update(struct conn *conn_, struct
> conntrack_bucket *ctb,
> conn->state = OTHERS_MULTIPLE;
> }
>
> - conn_update_expiration(ctb, &conn->up, other_timeouts[conn->state],
> now);
> + conn_update_expiration(ct, &conn->up, other_timeouts[conn->state],
> now);
>
> return CT_UPDATE_VALID;
> }
> @@ -66,7 +66,7 @@ other_valid_new(struct dp_packet *pkt OVS_UNUSED)
> }
>
> static struct conn *
> -other_new_conn(struct conntrack_bucket *ctb, struct dp_packet *pkt
> OVS_UNUSED,
> +other_new_conn(struct conntrack *ct, struct dp_packet *pkt OVS_UNUSED,
> long long now)
> {
> struct conn_other *conn;
> @@ -74,7 +74,7 @@ other_new_conn(struct conntrack_bucket *ctb, struct
> dp_packet *pkt OVS_UNUSED,
> conn = xzalloc(sizeof *conn);
> conn->state = OTHERS_FIRST;
>
> - conn_init_expiration(ctb, &conn->up, other_timeouts[conn->state],
> now);
> + conn_init_expiration(ct, &conn->up, other_timeouts[conn->state], now);
>
> return &conn->up;
> }
> diff --git a/lib/conntrack-private.h b/lib/conntrack-private.h
> index 059af9e..43bacd5 100644
> --- a/lib/conntrack-private.h
> +++ b/lib/conntrack-private.h
> @@ -1,5 +1,5 @@
> /*
> - * Copyright (c) 2015, 2016, 2017 Nicira, Inc.
> + * Copyright (c) 2015-2019 Nicira, Inc.
> *
> * Licensed under the Apache License, Version 2.0 (the "License");
> * you may not use this file except in compliance with the License.
> @@ -21,8 +21,10 @@
> #include <netinet/in.h>
> #include <netinet/ip6.h>
>
> +#include "cmap.h"
> #include "conntrack.h"
> #include "ct-dpif.h"
> +#include "ipf.h"
> #include "openvswitch/hmap.h"
> #include "openvswitch/list.h"
> #include "openvswitch/types.h"
> @@ -57,12 +59,6 @@ struct conn_key {
> uint8_t nw_proto;
> };
>
> -struct nat_conn_key_node {
> - struct hmap_node node;
> - struct conn_key key;
> - struct conn_key value;
> -};
> -
> /* This is used for alg expectations; an expectation is a
> * context created in preparation for establishing a data
> * connection. The expectation is created by the control
> @@ -90,22 +86,26 @@ struct alg_exp_node {
> struct conn {
> struct conn_key key;
> struct conn_key rev_key;
> - /* Only used for orig_tuple support. */
> - struct conn_key master_key;
> + struct conn_key master_key; /* Only used for orig_tuple support. */
> + struct ovs_mutex lock;
> long long expiration;
> struct ovs_list exp_node;
> - struct hmap_node node;
> + struct cmap_node cm_node;
> ovs_u128 label;
> - /* XXX: consider flattening. */
> struct nat_action_info_t *nat_info;
> char *alg;
> + struct conn *nat_conn; /* The NAT 'conn' context, if there is one. */
> int seq_skew;
> uint32_t mark;
> - uint8_t conn_type;
> - /* TCP sequence skew due to NATTing of FTP control messages. */
> - uint8_t seq_skew_dir;
> - /* True if alg data connection. */
> - uint8_t alg_related;
> + uint8_t conn_type; /* See ct_conn_type. */
> + /* Update expiry list id of which there are 'N_CT_TM' possible values.
> + * This field is used to signal an update to the specified list.
> + */
> + uint8_t exp_list_id;
> + /* TCP sequence skew direction due to NATTing of FTP control messages;
> + * true if reply direction. */
> + bool seq_skew_dir;
> + bool alg_related; /* True if alg data connection. */
> };
>
> enum ct_update_res {
> @@ -119,73 +119,6 @@ enum ct_conn_type {
> CT_CONN_TYPE_UN_NAT,
> };
>
> -/* 'struct ct_lock' is a wrapper for an adaptive mutex. It's useful to
> try
> - * different types of locks (e.g. spinlocks) */
> -
> -struct OVS_LOCKABLE ct_lock {
> - struct ovs_mutex lock;
> -};
> -
> -static inline void ct_lock_init(struct ct_lock *lock)
> -{
> - ovs_mutex_init_adaptive(&lock->lock);
> -}
> -
> -static inline void ct_lock_lock(struct ct_lock *lock)
> - OVS_ACQUIRES(lock)
> - OVS_NO_THREAD_SAFETY_ANALYSIS
> -{
> - ovs_mutex_lock(&lock->lock);
> -}
> -
> -static inline void ct_lock_unlock(struct ct_lock *lock)
> - OVS_RELEASES(lock)
> - OVS_NO_THREAD_SAFETY_ANALYSIS
> -{
> - ovs_mutex_unlock(&lock->lock);
> -}
> -
> -static inline void ct_lock_destroy(struct ct_lock *lock)
> -{
> - ovs_mutex_destroy(&lock->lock);
> -}
> -
> -struct OVS_LOCKABLE ct_rwlock {
> - struct ovs_rwlock lock;
> -};
> -
> -static inline void ct_rwlock_init(struct ct_rwlock *lock)
> -{
> - ovs_rwlock_init(&lock->lock);
> -}
> -
> -
> -static inline void ct_rwlock_wrlock(struct ct_rwlock *lock)
> - OVS_ACQ_WRLOCK(lock)
> - OVS_NO_THREAD_SAFETY_ANALYSIS
> -{
> - ovs_rwlock_wrlock(&lock->lock);
> -}
> -
> -static inline void ct_rwlock_rdlock(struct ct_rwlock *lock)
> - OVS_ACQ_RDLOCK(lock)
> - OVS_NO_THREAD_SAFETY_ANALYSIS
> -{
> - ovs_rwlock_rdlock(&lock->lock);
> -}
> -
> -static inline void ct_rwlock_unlock(struct ct_rwlock *lock)
> - OVS_RELEASES(lock)
> - OVS_NO_THREAD_SAFETY_ANALYSIS
> -{
> - ovs_rwlock_unlock(&lock->lock);
> -}
> -
> -static inline void ct_rwlock_destroy(struct ct_rwlock *lock)
> -{
> - ovs_rwlock_destroy(&lock->lock);
> -}
> -
> /* Timeouts: all the possible timeout states passed to update_expiration()
> * are listed here. The name will be prefix by CT_TM_ and the value is in
> * milliseconds */
> @@ -217,42 +150,10 @@ enum ct_timeout {
> N_CT_TM
> };
>
> -
> -/* Locking:
> - *
> - * The connections are kept in different buckets, which are completely
> - * independent. The connection bucket is determined by the hash of its
> key.
> - *
> - * Each bucket has two locks. Acquisition order is, from outermost to
> - * innermost:
> - *
> - * cleanup_mutex
> - * lock
> - *
> - * */
> -struct conntrack_bucket {
> - /* Protects 'connections' and 'exp_lists'. Used in the fast path */
> - struct ct_lock lock;
> - /* Contains the connections in the bucket, indexed by 'struct
> conn_key' */
> - struct hmap connections OVS_GUARDED;
> - /* For each possible timeout we have a list of connections. When the
> - * timeout of a connection is updated, we move it to the back of the
> list.
> - * Since the connection in a list have the same relative timeout, the
> list
> - * will be ordered, with the oldest connections to the front. */
> - struct ovs_list exp_lists[N_CT_TM] OVS_GUARDED;
> -
> - /* Protects 'next_cleanup'. Used to make sure that there's only one
> thread
> - * performing the cleanup. */
> - struct ovs_mutex cleanup_mutex;
> - long long next_cleanup OVS_GUARDED;
> -};
> -
> -#define CONNTRACK_BUCKETS_SHIFT 8
> -#define CONNTRACK_BUCKETS (1 << CONNTRACK_BUCKETS_SHIFT)
> -
> struct conntrack {
> - /* Independent buckets containing the connections */
> - struct conntrack_bucket buckets[CONNTRACK_BUCKETS];
> + struct ovs_mutex ct_lock;
> + struct cmap cm_conns OVS_GUARDED;
> + struct ovs_list cm_exp_lists[N_CT_TM] OVS_GUARDED;
>
> /* Salt for hashing a connection key. */
> uint32_t hash_basis;
> @@ -268,64 +169,74 @@ struct conntrack {
> * will be accepted. */
> atomic_uint n_conn_limit;
>
> - /* The following resources are referenced during nat connection
> - * creation and deletion. */
> - struct hmap nat_conn_keys OVS_GUARDED;
> + /* This lock is used to guard alg_expectations and
> alg_expectation_refs.
> + */
> + struct ovs_rwlock resources_lock;
> /* Hash table for alg expectations. Expectations are created
> * by control connections to help create data connections. */
> struct hmap alg_expectations OVS_GUARDED;
> /* Used to lookup alg expectations from the control context. */
> struct hindex alg_expectation_refs OVS_GUARDED;
> - /* Expiry list for alg expectations. */
> - struct ovs_list alg_exp_list OVS_GUARDED;
> - /* This lock is used during NAT connection creation and deletion;
> - * it is taken after a bucket lock and given back before that
> - * bucket unlock.
> - * This lock is similarly used to guard alg_expectations and
> - * alg_expectation_refs. If a bucket lock is also held during
> - * the normal code flow, then is must be taken first and released
> - * last.
> - */
> - struct ct_rwlock resources_lock;
>
> /* Fragmentation handling context. */
> struct ipf *ipf;
> -
> };
>
> +extern struct ct_l4_proto ct_proto_tcp;
> +extern struct ct_l4_proto ct_proto_other;
> +extern struct ct_l4_proto ct_proto_icmp4;
> +extern struct ct_l4_proto ct_proto_icmp6;
> +
> struct ct_l4_proto {
> - struct conn *(*new_conn)(struct conntrack_bucket *, struct dp_packet
> *pkt,
> + struct conn *(*new_conn)(struct conntrack *ct, struct dp_packet *pkt,
> long long now);
> bool (*valid_new)(struct dp_packet *pkt);
> - enum ct_update_res (*conn_update)(struct conn *conn,
> - struct conntrack_bucket *,
> + enum ct_update_res (*conn_update)(struct conntrack *ct, struct conn
> *conn,
> struct dp_packet *pkt, bool reply,
> long long now);
> void (*conn_get_protoinfo)(const struct conn *,
> struct ct_dpif_protoinfo *);
> };
>
> -extern struct ct_l4_proto ct_proto_tcp;
> -extern struct ct_l4_proto ct_proto_other;
> -extern struct ct_l4_proto ct_proto_icmp4;
> -extern struct ct_l4_proto ct_proto_icmp6;
> -
> extern long long ct_timeout_val[];
>
> +
> +/* ct_lock must be held. */
> static inline void
> -conn_init_expiration(struct conntrack_bucket *ctb, struct conn *conn,
> - enum ct_timeout tm, long long now)
> +conn_init_expiration(struct conntrack *ct, struct conn *conn,
> + enum ct_timeout tm, long long now)
> {
> conn->expiration = now + ct_timeout_val[tm];
> - ovs_list_push_back(&ctb->exp_lists[tm], &conn->exp_node);
> + conn->exp_list_id = tm;
> + ovs_list_push_back(&ct->cm_exp_lists[tm], &conn->exp_node);
> }
>
> +/* The conn entry lock must be held. */
> static inline void
> -conn_update_expiration(struct conntrack_bucket *ctb, struct conn *conn,
> +conn_update_expiration(struct conntrack *ct, struct conn *conn,
> enum ct_timeout tm, long long now)
> + OVS_NO_THREAD_SAFETY_ANALYSIS
> {
> - ovs_list_remove(&conn->exp_node);
> - conn_init_expiration(ctb, conn, tm, now);
> +
> + conn->expiration = now + ct_timeout_val[tm];
> + bool list_change = conn->exp_list_id != tm ? true : false;
> + conn->exp_list_id = tm;
> +
> + /* Very few packets hit this condition. */
> + if (list_change) {
> + ovs_mutex_unlock(&conn->lock);
> +
> + ovs_mutex_lock(&ct->ct_lock);
> + ovs_mutex_lock(&conn->lock);
> + conn->expiration = now + ct_timeout_val[tm];
> + conn->exp_list_id = tm;
> + ovs_list_remove(&conn->exp_node);
> + ovs_list_push_back(&ct->cm_exp_lists[tm], &conn->exp_node);
> + ovs_mutex_unlock(&conn->lock);
> + ovs_mutex_unlock(&ct->ct_lock);
> +
> + ovs_mutex_lock(&conn->lock);
> + }
> }
>
> static inline uint32_t
> diff --git a/lib/conntrack-tcp.c b/lib/conntrack-tcp.c
> index 86d313d..4ac58ba 100644
> --- a/lib/conntrack-tcp.c
> +++ b/lib/conntrack-tcp.c
> @@ -145,7 +145,7 @@ tcp_get_wscale(const struct tcp_header *tcp)
> }
>
> static enum ct_update_res
> -tcp_conn_update(struct conn *conn_, struct conntrack_bucket *ctb,
> +tcp_conn_update(struct conntrack *ct, struct conn *conn_,
> struct dp_packet *pkt, bool reply, long long now)
> {
> struct conn_tcp *conn = conn_tcp_cast(conn_);
> @@ -317,18 +317,18 @@ tcp_conn_update(struct conn *conn_, struct
> conntrack_bucket *ctb,
>
> if (src->state >= CT_DPIF_TCPS_FIN_WAIT_2
> && dst->state >= CT_DPIF_TCPS_FIN_WAIT_2) {
> - conn_update_expiration(ctb, &conn->up, CT_TM_TCP_CLOSED, now);
> + conn_update_expiration(ct, &conn->up, CT_TM_TCP_CLOSED, now);
> } else if (src->state >= CT_DPIF_TCPS_CLOSING
> && dst->state >= CT_DPIF_TCPS_CLOSING) {
> - conn_update_expiration(ctb, &conn->up, CT_TM_TCP_FIN_WAIT,
> now);
> + conn_update_expiration(ct, &conn->up, CT_TM_TCP_FIN_WAIT,
> now);
> } else if (src->state < CT_DPIF_TCPS_ESTABLISHED
> || dst->state < CT_DPIF_TCPS_ESTABLISHED) {
> - conn_update_expiration(ctb, &conn->up, CT_TM_TCP_OPENING,
> now);
> + conn_update_expiration(ct, &conn->up, CT_TM_TCP_OPENING, now);
> } else if (src->state >= CT_DPIF_TCPS_CLOSING
> || dst->state >= CT_DPIF_TCPS_CLOSING) {
> - conn_update_expiration(ctb, &conn->up, CT_TM_TCP_CLOSING,
> now);
> + conn_update_expiration(ct, &conn->up, CT_TM_TCP_CLOSING, now);
> } else {
> - conn_update_expiration(ctb, &conn->up, CT_TM_TCP_ESTABLISHED,
> now);
> + conn_update_expiration(ct, &conn->up, CT_TM_TCP_ESTABLISHED,
> now);
> }
> } else if ((dst->state < CT_DPIF_TCPS_SYN_SENT
> || dst->state >= CT_DPIF_TCPS_FIN_WAIT_2
> @@ -412,8 +412,7 @@ tcp_valid_new(struct dp_packet *pkt)
> }
>
> static struct conn *
> -tcp_new_conn(struct conntrack_bucket *ctb, struct dp_packet *pkt,
> - long long now)
> +tcp_new_conn(struct conntrack *ct, struct dp_packet *pkt, long long now)
> {
> struct conn_tcp* newconn = NULL;
> struct tcp_header *tcp = dp_packet_l4(pkt);
> @@ -449,8 +448,7 @@ tcp_new_conn(struct conntrack_bucket *ctb, struct
> dp_packet *pkt,
> src->state = CT_DPIF_TCPS_SYN_SENT;
> dst->state = CT_DPIF_TCPS_CLOSED;
>
> - conn_init_expiration(ctb, &newconn->up, CT_TM_TCP_FIRST_PACKET,
> - now);
> + conn_init_expiration(ct, &newconn->up, CT_TM_TCP_FIRST_PACKET, now);
>
> return &newconn->up;
> }
> diff --git a/lib/conntrack.c b/lib/conntrack.c
> index 83fc8f2..8a470ee 100644
> --- a/lib/conntrack.c
> +++ b/lib/conntrack.c
> @@ -30,7 +30,6 @@
> #include "ct-dpif.h"
> #include "dp-packet.h"
> #include "flow.h"
> -#include "ipf.h"
> #include "netdev.h"
> #include "odp-netlink.h"
> #include "openvswitch/hmap.h"
> @@ -77,21 +76,23 @@ enum ct_alg_ctl_type {
> CT_ALG_CTL_SIP,
> };
>
> +/* Lock acquisition order: If multiple locks are taken, then the order is
> + * 'ct_lock', then conn entry lock and then 'resources_lock'. */
> +
> static bool conn_key_extract(struct conntrack *, struct dp_packet *,
> ovs_be16 dl_type, struct conn_lookup_ctx *,
> uint16_t zone);
> static uint32_t conn_key_hash(const struct conn_key *, uint32_t basis);
> static void conn_key_reverse(struct conn_key *);
> -static void conn_key_lookup(struct conntrack_bucket *ctb,
> - struct conn_lookup_ctx *ctx,
> - long long now);
> static bool valid_new(struct dp_packet *pkt, struct conn_key *);
> -static struct conn *new_conn(struct conntrack_bucket *, struct dp_packet
> *pkt,
> +static struct conn *new_conn(struct conntrack *ct, struct dp_packet *pkt,
> struct conn_key *, long long now);
> +static void delete_conn_cmn(struct conn *);
> static void delete_conn(struct conn *);
> -static enum ct_update_res conn_update(struct conn *,
> - struct conntrack_bucket *ctb,
> - struct dp_packet *, bool reply,
> +static void delete_conn_one(struct conn *conn);
> +static enum ct_update_res conn_update(struct conntrack *ct, struct conn
> *conn,
> + struct dp_packet *pkt,
> + struct conn_lookup_ctx *ctx,
> long long now);
> static bool conn_expired(struct conn *, long long now);
> static void set_mark(struct dp_packet *, struct conn *,
> @@ -101,21 +102,6 @@ static void set_label(struct dp_packet *, struct conn
> *,
> const struct ovs_key_ct_labels *mask);
> static void *clean_thread_main(void *f_);
>
> -static struct nat_conn_key_node *
> -nat_conn_keys_lookup(struct hmap *nat_conn_keys,
> - const struct conn_key *key,
> - uint32_t basis);
> -
> -static bool
> -nat_conn_keys_insert(struct hmap *nat_conn_keys,
> - const struct conn *nat_conn,
> - uint32_t hash_basis);
> -
> -static void
> -nat_conn_keys_remove(struct hmap *nat_conn_keys,
> - const struct conn_key *key,
> - uint32_t basis);
> -
> static bool
> nat_select_range_tuple(struct conntrack *ct, const struct conn *conn,
> struct conn *nat_conn);
> @@ -153,8 +139,7 @@ detect_ftp_ctl_type(const struct conn_lookup_ctx *ctx,
> struct dp_packet *pkt);
>
> static void
> -expectation_clean(struct conntrack *ct, const struct conn_key *master_key,
> - uint32_t basis);
> +expectation_clean(struct conntrack *ct, const struct conn_key
> *master_key);
>
> static struct ct_l4_proto *l4_protos[] = {
> [IPPROTO_TCP] = &ct_proto_tcp,
> @@ -165,22 +150,20 @@ static struct ct_l4_proto *l4_protos[] = {
>
> static void
> handle_ftp_ctl(struct conntrack *ct, const struct conn_lookup_ctx *ctx,
> - struct dp_packet *pkt,
> - const struct conn *conn_for_expectation,
> - long long now, enum ftp_ctl_pkt ftp_ctl, bool nat);
> + struct dp_packet *pkt, struct conn *ec, long long now,
> + enum ftp_ctl_pkt ftp_ctl, bool nat);
>
> static void
> handle_tftp_ctl(struct conntrack *ct,
> const struct conn_lookup_ctx *ctx OVS_UNUSED,
> - struct dp_packet *pkt,
> - const struct conn *conn_for_expectation,
> - long long now OVS_UNUSED,
> - enum ftp_ctl_pkt ftp_ctl OVS_UNUSED, bool nat OVS_UNUSED);
> + struct dp_packet *pkt, struct conn *conn_for_expectation,
> + long long now OVS_UNUSED, enum ftp_ctl_pkt ftp_ctl
> OVS_UNUSED,
> + bool nat OVS_UNUSED);
>
> typedef void (*alg_helper)(struct conntrack *ct,
> const struct conn_lookup_ctx *ctx,
> struct dp_packet *pkt,
> - const struct conn *conn_for_expectation,
> + struct conn *conn_for_expectation,
> long long now, enum ftp_ctl_pkt ftp_ctl,
> bool nat);
>
> @@ -311,33 +294,22 @@ ct_print_conn_info(const struct conn *c, const char
> *log_msg,
> struct conntrack *
> conntrack_init(void)
> {
> - long long now = time_msec();
> -
> struct conntrack *ct = xzalloc(sizeof *ct);
>
> - ct_rwlock_init(&ct->resources_lock);
> - ct_rwlock_wrlock(&ct->resources_lock);
> - hmap_init(&ct->nat_conn_keys);
> + ovs_rwlock_init(&ct->resources_lock);
> + ovs_rwlock_wrlock(&ct->resources_lock);
> hmap_init(&ct->alg_expectations);
> hindex_init(&ct->alg_expectation_refs);
> - ovs_list_init(&ct->alg_exp_list);
> - ct_rwlock_unlock(&ct->resources_lock);
> -
> - for (unsigned i = 0; i < CONNTRACK_BUCKETS; i++) {
> - struct conntrack_bucket *ctb = &ct->buckets[i];
> + ovs_rwlock_unlock(&ct->resources_lock);
>
> - ct_lock_init(&ctb->lock);
> - ct_lock_lock(&ctb->lock);
> - hmap_init(&ctb->connections);
> - for (unsigned j = 0; j < ARRAY_SIZE(ctb->exp_lists); j++) {
> - ovs_list_init(&ctb->exp_lists[j]);
> - }
> - ct_lock_unlock(&ctb->lock);
> - ovs_mutex_init(&ctb->cleanup_mutex);
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - ctb->next_cleanup = now + CT_TM_MIN;
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> + ovs_mutex_init_adaptive(&ct->ct_lock);
> + ovs_mutex_lock(&ct->ct_lock);
> + cmap_init(&ct->cm_conns);
> + for (unsigned i = 0; i < ARRAY_SIZE(ct->cm_exp_lists); i++) {
> + ovs_list_init(&ct->cm_exp_lists[i]);
> }
> + ovs_mutex_unlock(&ct->ct_lock);
> +
> ct->hash_basis = random_uint32();
> atomic_count_init(&ct->n_conn, 0);
> atomic_init(&ct->n_conn_limit, DEFAULT_N_CONN_LIMIT);
> @@ -348,58 +320,110 @@ conntrack_init(void)
> return ct;
> }
>
> +static void
> +conn_clean_cmn(struct conntrack *ct, struct conn *conn)
> +{
> + if (conn->alg) {
> + expectation_clean(ct, &conn->key);
> + }
> +
> + uint32_t hash = conn_key_hash(&conn->key, ct->hash_basis);
> + cmap_remove(&ct->cm_conns, &conn->cm_node, hash);
> +}
> +
> +/* Must be called with 'conn' of 'conn_type' CT_CONN_TYPE_DEFAULT. Also
> + * removes the associated nat 'conn' from the lookup datastructures. */
> +static void
> +conn_clean(struct conntrack *ct, struct conn *conn)
> +{
> + ovs_assert(conn->conn_type == CT_CONN_TYPE_DEFAULT);
> +
> + conn_clean_cmn(ct, conn);
> + if (conn->nat_conn) {
> + uint32_t hash = conn_key_hash(&conn->nat_conn->key,
> ct->hash_basis);
> + cmap_remove(&ct->cm_conns, &conn->nat_conn->cm_node, hash);
> + }
> + ovs_list_remove(&conn->exp_node);
> + ovsrcu_postpone(delete_conn, conn);
> + atomic_count_dec(&ct->n_conn);
> +}
> +
> +/* Needed because of usage in CMAP_FOR_EACH. */
> +static void
> +conn_clean_one(struct conntrack *ct, struct conn *conn)
> +{
> + conn_clean_cmn(ct, conn);
> + if (conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> + ovs_list_remove(&conn->exp_node);
> + atomic_count_dec(&ct->n_conn);
> + }
> + ovsrcu_postpone(delete_conn_one, conn);
> +}
> +
> /* Destroys the connection tracker 'ct' and frees all the allocated
> memory. */
> void
> conntrack_destroy(struct conntrack *ct)
> + OVS_NO_THREAD_SAFETY_ANALYSIS
> {
> + struct conn *conn;
> latch_set(&ct->clean_thread_exit);
> pthread_join(ct->clean_thread, NULL);
> latch_destroy(&ct->clean_thread_exit);
> - for (unsigned i = 0; i < CONNTRACK_BUCKETS; i++) {
> - struct conntrack_bucket *ctb = &ct->buckets[i];
> - struct conn *conn;
>
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - ct_lock_lock(&ctb->lock);
> - HMAP_FOR_EACH_POP (conn, node, &ctb->connections) {
> - if (conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> - atomic_count_dec(&ct->n_conn);
> - }
> - delete_conn(conn);
> - }
> - hmap_destroy(&ctb->connections);
> - ct_lock_unlock(&ctb->lock);
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> - ct_lock_destroy(&ctb->lock);
> - ovs_mutex_destroy(&ctb->cleanup_mutex);
> + ovs_mutex_lock(&ct->ct_lock);
> + CMAP_FOR_EACH (conn, cm_node, &ct->cm_conns) {
> + conn_clean_one(ct, conn);
> }
> - ct_rwlock_wrlock(&ct->resources_lock);
> - struct nat_conn_key_node *nat_conn_key_node;
> - HMAP_FOR_EACH_POP (nat_conn_key_node, node, &ct->nat_conn_keys) {
> - free(nat_conn_key_node);
> - }
> - hmap_destroy(&ct->nat_conn_keys);
> + cmap_destroy(&ct->cm_conns);
> + ovs_mutex_unlock(&ct->ct_lock);
> + ovs_mutex_destroy(&ct->ct_lock);
> +
> + ovs_rwlock_wrlock(&ct->resources_lock);
>
> struct alg_exp_node *alg_exp_node;
> HMAP_FOR_EACH_POP (alg_exp_node, node, &ct->alg_expectations) {
> free(alg_exp_node);
> }
>
> - ovs_list_poison(&ct->alg_exp_list);
> hmap_destroy(&ct->alg_expectations);
> hindex_destroy(&ct->alg_expectation_refs);
> - ct_rwlock_unlock(&ct->resources_lock);
> - ct_rwlock_destroy(&ct->resources_lock);
> + ovs_rwlock_unlock(&ct->resources_lock);
> + ovs_rwlock_destroy(&ct->resources_lock);
> ipf_destroy(ct->ipf);
> }
>
> -static unsigned hash_to_bucket(uint32_t hash)
> +
> +static bool
> +conn_key_lookup(struct conntrack *ct, const struct conn_key *key,
> + uint32_t hash, long long now, struct conn **conn_out,
> + bool *reply)
> {
> - /* Extracts the most significant bits in hash. The least significant
> bits
> - * are already used internally by the hmap implementation. */
> - BUILD_ASSERT(CONNTRACK_BUCKETS_SHIFT < 32 && CONNTRACK_BUCKETS_SHIFT
> >= 1);
> + struct conn *conn;
> + bool found = false;
>
> - return (hash >> (32 - CONNTRACK_BUCKETS_SHIFT)) % CONNTRACK_BUCKETS;
> + CMAP_FOR_EACH_WITH_HASH (conn, cm_node, hash, &ct->cm_conns) {
> + if (!conn_key_cmp(&conn->key, key) && !conn_expired(conn, now)) {
> + found = true;
> + if (reply) {
> + *reply = false;
> + }
> + break;
> + }
> + if (!conn_key_cmp(&conn->rev_key, key) && !conn_expired(conn,
> now)) {
> + found = true;
> + if (reply) {
> + *reply = true;
> + }
> + break;
> + }
> + }
> +
> + if (found && conn_out) {
> + *conn_out = conn;
> + } else if (conn_out) {
> + *conn_out = NULL;
> + }
> + return found;
> }
>
> static void
> @@ -525,13 +549,14 @@ alg_src_ip_wc(enum ct_alg_ctl_type alg_ctl_type)
> static void
> handle_alg_ctl(struct conntrack *ct, const struct conn_lookup_ctx *ctx,
> struct dp_packet *pkt, enum ct_alg_ctl_type ct_alg_ctl,
> - const struct conn *conn, long long now, bool nat,
> - const struct conn *conn_for_expectation)
> + struct conn *conn, long long now, bool nat)
> {
> /* ALG control packet handling with expectation creation. */
> if (OVS_UNLIKELY(alg_helpers[ct_alg_ctl] && conn && conn->alg)) {
> - alg_helpers[ct_alg_ctl](ct, ctx, pkt, conn_for_expectation, now,
> - CT_FTP_CTL_INTEREST, nat);
> + ovs_mutex_lock(&conn->lock);
> + alg_helpers[ct_alg_ctl](ct, ctx, pkt, conn, now,
> CT_FTP_CTL_INTEREST,
> + nat);
> + ovs_mutex_unlock(&conn->lock);
> }
> }
>
> @@ -743,144 +768,22 @@ un_nat_packet(struct dp_packet *pkt, const struct
> conn *conn,
> }
> }
>
> -/* Typical usage of this helper is in non per-packet code;
> - * this is because the bucket lock needs to be held for lookup
> - * and a hash would have already been needed. Hence, this function
> - * is just intended for code clarity. */
> -static struct conn *
> -conn_lookup(struct conntrack *ct, const struct conn_key *key, long long
> now)
> -{
> - struct conn_lookup_ctx ctx;
> - ctx.conn = NULL;
> - memcpy(&ctx.key, key, sizeof ctx.key);
> - ctx.hash = conn_key_hash(key, ct->hash_basis);
> - unsigned bucket = hash_to_bucket(ctx.hash);
> - conn_key_lookup(&ct->buckets[bucket], &ctx, now);
> - return ctx.conn;
> -}
> -
> -/* Only used when looking up 'CT_CONN_TYPE_DEFAULT' conns. */
> -static struct conn *
> -conn_lookup_def(const struct conn_key *key,
> - const struct conntrack_bucket *ctb, uint32_t hash)
> - OVS_REQUIRES(ctb->lock)
> -{
> - struct conn *conn = NULL;
> -
> - HMAP_FOR_EACH_WITH_HASH (conn, node, hash, &ctb->connections) {
> - if (!conn_key_cmp(&conn->key, key)
> - && conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> - break;
> - }
> - if (!conn_key_cmp(&conn->rev_key, key)
> - && conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> - break;
> - }
> - }
> - return conn;
> -}
> -
> -static struct conn *
> -conn_lookup_unnat(const struct conn_key *key,
> - const struct conntrack_bucket *ctb, uint32_t hash)
> - OVS_REQUIRES(ctb->lock)
> -{
> - struct conn *conn = NULL;
> -
> - HMAP_FOR_EACH_WITH_HASH (conn, node, hash, &ctb->connections) {
> - if (!conn_key_cmp(&conn->key, key)
> - && conn->conn_type == CT_CONN_TYPE_UN_NAT) {
> - break;
> - }
> - }
> - return conn;
> -}
> -
> static void
> -conn_seq_skew_set(struct conntrack *ct, const struct conn_key *key,
> +conn_seq_skew_set(struct conntrack *ct, const struct conn *conn_in,
> long long now, int seq_skew, bool seq_skew_dir)
> + OVS_NO_THREAD_SAFETY_ANALYSIS
> {
> - unsigned bucket = hash_to_bucket(conn_key_hash(key, ct->hash_basis));
> - ct_lock_lock(&ct->buckets[bucket].lock);
> - struct conn *conn = conn_lookup(ct, key, now);
> + struct conn *conn;
> + bool reply;
> + uint32_t hash = conn_key_hash(&conn_in->key, ct->hash_basis);
> + ovs_mutex_unlock(&conn_in->lock);
> + conn_key_lookup(ct, &conn_in->key, hash, now, &conn, &reply);
> + ovs_mutex_lock(&conn_in->lock);
> +
> if (conn && seq_skew) {
> conn->seq_skew = seq_skew;
> conn->seq_skew_dir = seq_skew_dir;
> }
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> -}
> -
> -static void
> -nat_clean(struct conntrack *ct, struct conn *conn,
> - struct conntrack_bucket *ctb)
> - OVS_REQUIRES(ctb->lock)
> -{
> - ct_rwlock_wrlock(&ct->resources_lock);
> - nat_conn_keys_remove(&ct->nat_conn_keys, &conn->rev_key,
> ct->hash_basis);
> - ct_rwlock_unlock(&ct->resources_lock);
> - ct_lock_unlock(&ctb->lock);
> - uint32_t hash = conn_key_hash(&conn->rev_key, ct->hash_basis);
> - unsigned bucket_rev_conn = hash_to_bucket(hash);
> - ct_lock_lock(&ct->buckets[bucket_rev_conn].lock);
> - ct_rwlock_wrlock(&ct->resources_lock);
> - struct conn *rev_conn = conn_lookup_unnat(&conn->rev_key,
> -
> &ct->buckets[bucket_rev_conn],
> - hash);
> - struct nat_conn_key_node *nat_conn_key_node =
> - nat_conn_keys_lookup(&ct->nat_conn_keys, &conn->rev_key,
> - ct->hash_basis);
> -
> - /* In the unlikely event, rev conn was recreated, then skip
> - * rev_conn cleanup. */
> - if (rev_conn && (!nat_conn_key_node ||
> - conn_key_cmp(&nat_conn_key_node->value,
> - &rev_conn->rev_key))) {
> - hmap_remove(&ct->buckets[bucket_rev_conn].connections,
> - &rev_conn->node);
> - free(rev_conn);
> - }
> -
> - delete_conn(conn);
> - ct_rwlock_unlock(&ct->resources_lock);
> - ct_lock_unlock(&ct->buckets[bucket_rev_conn].lock);
> - ct_lock_lock(&ctb->lock);
> -}
> -
> -/* Must be called with 'CT_CONN_TYPE_DEFAULT' 'conn_type'. */
> -static void
> -conn_clean(struct conntrack *ct, struct conn *conn,
> - struct conntrack_bucket *ctb)
> - OVS_REQUIRES(ctb->lock)
> -{
> - ovs_assert(conn->conn_type == CT_CONN_TYPE_DEFAULT);
> -
> - if (conn->alg) {
> - expectation_clean(ct, &conn->key, ct->hash_basis);
> - }
> - ovs_list_remove(&conn->exp_node);
> - hmap_remove(&ctb->connections, &conn->node);
> - atomic_count_dec(&ct->n_conn);
> - if (conn->nat_info) {
> - nat_clean(ct, conn, ctb);
> - } else {
> - delete_conn(conn);
> - }
> -}
> -
> -/* Only called for 'CT_CONN_TYPE_DEFAULT' conns; must be called with no
> - * locks held and upon return no locks are held. */
> -static void
> -conn_clean_safe(struct conntrack *ct, struct conn *conn,
> - struct conntrack_bucket *ctb, uint32_t hash)
> -{
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - ct_lock_lock(&ctb->lock);
> - conn = conn_lookup_def(&conn->key, ctb, hash);
> - if (conn) {
> - conn_clean(ct, conn, ctb);
> - }
> - ct_lock_unlock(&ctb->lock);
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> }
>
> static bool
> @@ -903,18 +806,16 @@ ct_verify_helper(const char *helper, enum
> ct_alg_ctl_type ct_alg_ctl)
> }
> }
>
> -/* This function is called with the bucket lock held. */
> +/* This function is called with the ct_lock held. */
> static struct conn *
> conn_not_found(struct conntrack *ct, struct dp_packet *pkt,
> struct conn_lookup_ctx *ctx, bool commit, long long now,
> const struct nat_action_info_t *nat_action_info,
> - struct conn *conn_for_un_nat_copy,
> - const char *helper,
> - const struct alg_exp_node *alg_exp,
> + const char *helper, const struct alg_exp_node *alg_exp,
> enum ct_alg_ctl_type ct_alg_ctl)
> {
> struct conn *nc = NULL;
> - struct conn connl;
> + struct conn *nat_conn = NULL;
>
> if (!valid_new(pkt, &ctx->key)) {
> pkt->md.ct_state = CS_INVALID;
> @@ -930,15 +831,12 @@ conn_not_found(struct conntrack *ct, struct
> dp_packet *pkt,
> if (commit) {
> unsigned int n_conn_limit;
> atomic_read_relaxed(&ct->n_conn_limit, &n_conn_limit);
> -
> if (atomic_count_get(&ct->n_conn) >= n_conn_limit) {
> COVERAGE_INC(conntrack_full);
> return nc;
> }
>
> - unsigned bucket = hash_to_bucket(ctx->hash);
> - nc = &connl;
> - memset(nc, 0, sizeof *nc);
> + nc = new_conn(ct, pkt, &ctx->key, now);
> memcpy(&nc->key, &ctx->key, sizeof nc->key);
> memcpy(&nc->rev_key, &nc->key, sizeof nc->rev_key);
> conn_key_reverse(&nc->rev_key);
> @@ -956,6 +854,7 @@ conn_not_found(struct conntrack *ct, struct dp_packet
> *pkt,
>
> if (nat_action_info) {
> nc->nat_info = xmemdup(nat_action_info, sizeof *nc->nat_info);
> + nat_conn = xzalloc(sizeof *nat_conn);
>
> if (alg_exp) {
> if (alg_exp->nat_rpl_dst) {
> @@ -965,65 +864,49 @@ conn_not_found(struct conntrack *ct, struct
> dp_packet *pkt,
> nc->rev_key.src.addr = alg_exp->alg_nat_repl_addr;
> nc->nat_info->nat_action = NAT_ACTION_DST;
> }
> - memcpy(conn_for_un_nat_copy, nc, sizeof
> *conn_for_un_nat_copy);
> - ct_rwlock_wrlock(&ct->resources_lock);
> - bool new_insert = nat_conn_keys_insert(&ct->nat_conn_keys,
> -
> conn_for_un_nat_copy,
> - ct->hash_basis);
> - ct_rwlock_unlock(&ct->resources_lock);
> - if (!new_insert) {
> - char *log_msg = xasprintf("Pre-existing alg "
> - "nat_conn_key");
> - ct_print_conn_info(conn_for_un_nat_copy, log_msg,
> VLL_INFO,
> - true, false);
> - free(log_msg);
> - }
> } else {
> - memcpy(conn_for_un_nat_copy, nc, sizeof
> *conn_for_un_nat_copy);
> - ct_rwlock_wrlock(&ct->resources_lock);
> - bool nat_res = nat_select_range_tuple(ct, nc,
> -
> conn_for_un_nat_copy);
> - ct_rwlock_unlock(&ct->resources_lock);
> + memcpy(nat_conn, nc, sizeof *nat_conn);
> + bool nat_res = nat_select_range_tuple(ct, nc, nat_conn);
>
> if (!nat_res) {
> goto nat_res_exhaustion;
> }
>
> - /* Update nc with nat adjustments made to
> - * conn_for_un_nat_copy by nat_select_range_tuple(). */
> - memcpy(nc, conn_for_un_nat_copy, sizeof *nc);
> + /* Update nc with nat adjustments made to nat_conn by
> + * nat_select_range_tuple(). */
> + memcpy(nc, nat_conn, sizeof *nc);
> }
> - conn_for_un_nat_copy->conn_type = CT_CONN_TYPE_UN_NAT;
> - conn_for_un_nat_copy->nat_info = NULL;
> - conn_for_un_nat_copy->alg = NULL;
> +
> nat_packet(pkt, nc, ctx->icmp_related);
> - }
> - struct conn *nconn = new_conn(&ct->buckets[bucket], pkt,
> &ctx->key,
> - now);
> - memcpy(&nconn->key, &nc->key, sizeof nconn->key);
> - memcpy(&nconn->rev_key, &nc->rev_key, sizeof nconn->rev_key);
> - memcpy(&nconn->master_key, &nc->master_key, sizeof
> nconn->master_key);
> - nconn->alg_related = nc->alg_related;
> - nconn->alg = nc->alg;
> - nconn->mark = nc->mark;
> - nconn->label = nc->label;
> - nconn->nat_info = nc->nat_info;
> - ctx->conn = nc = nconn;
> - hmap_insert(&ct->buckets[bucket].connections, &nconn->node,
> ctx->hash);
> + memcpy(&nat_conn->key, &nc->rev_key, sizeof nat_conn->key);
> + memcpy(&nat_conn->rev_key, &nc->key, sizeof
> nat_conn->rev_key);
> + nat_conn->conn_type = CT_CONN_TYPE_UN_NAT;
> + nat_conn->nat_info = NULL;
> + nat_conn->alg = NULL;
> + nat_conn->nat_conn = NULL;
> + uint32_t nat_hash = conn_key_hash(&nat_conn->key,
> ct->hash_basis);
> + cmap_insert(&ct->cm_conns, &nat_conn->cm_node, nat_hash);
> + }
> +
> + nc->nat_conn = nat_conn;
> + ovs_mutex_init_adaptive(&nc->lock);
> + nc->conn_type = CT_CONN_TYPE_DEFAULT;
> + cmap_insert(&ct->cm_conns, &nc->cm_node, ctx->hash);
> atomic_count_inc(&ct->n_conn);
> + ctx->conn = nc; /* For completeness. */
> }
>
> return nc;
>
> - /* This would be a user error or a DOS attack.
> - * A user error is prevented by allocating enough
> - * combinations of NAT addresses when combined with
> - * ephemeral ports. A DOS attack should be protected
> - * against with firewall rules or a separate firewall.
> - * Also using zone partitioning can limit DoS impact. */
> + /* This would be a user error or a DOS attack. A user error is
> prevented
> + * by allocating enough combinations of NAT addresses when combined
> with
> + * ephemeral ports. A DOS attack should be protected against with
> + * firewall rules or a separate firewall. Also using zone
> partitioning
> + * can limit DoS impact. */
> nat_res_exhaustion:
> - free(nc->alg);
> - free(nc->nat_info);
> + free(nat_conn);
> + ovs_list_remove(&nc->exp_node);
> + delete_conn_cmn(nc);
> static struct vlog_rate_limit rl = VLOG_RATE_LIMIT_INIT(5, 5);
> VLOG_WARN_RL(&rl, "Unable to NAT due to tuple space exhaustion - "
> "if DoS attack, use firewalling and/or zone
> partitioning.");
> @@ -1032,12 +915,11 @@ nat_res_exhaustion:
>
> static bool
> conn_update_state(struct conntrack *ct, struct dp_packet *pkt,
> - struct conn_lookup_ctx *ctx, struct conn **conn,
> - long long now, unsigned bucket)
> - OVS_REQUIRES(ct->buckets[bucket].lock)
> + struct conn_lookup_ctx *ctx, struct conn *conn,
> + long long now)
> {
> + ovs_assert(conn->conn_type == CT_CONN_TYPE_DEFAULT);
> bool create_new_conn = false;
> - struct conn lconn;
>
> if (ctx->icmp_related) {
> pkt->md.ct_state |= CS_RELATED;
> @@ -1045,12 +927,11 @@ conn_update_state(struct conntrack *ct, struct
> dp_packet *pkt,
> pkt->md.ct_state |= CS_REPLY_DIR;
> }
> } else {
> - if ((*conn)->alg_related) {
> + if (conn->alg_related) {
> pkt->md.ct_state |= CS_RELATED;
> }
>
> - enum ct_update_res res = conn_update(*conn, &ct->buckets[bucket],
> - pkt, ctx->reply, now);
> + enum ct_update_res res = conn_update(ct, conn, pkt, ctx, now);
>
> switch (res) {
> case CT_UPDATE_VALID:
> @@ -1064,10 +945,9 @@ conn_update_state(struct conntrack *ct, struct
> dp_packet *pkt,
> pkt->md.ct_state = CS_INVALID;
> break;
> case CT_UPDATE_NEW:
> - memcpy(&lconn, *conn, sizeof lconn);
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> - conn_clean_safe(ct, &lconn, &ct->buckets[bucket], ctx->hash);
> - ct_lock_lock(&ct->buckets[bucket].lock);
> + ovs_mutex_lock(&ct->ct_lock);
> + conn_clean(ct, conn);
> + ovs_mutex_unlock(&ct->ct_lock);
> create_new_conn = true;
> break;
> default:
> @@ -1078,51 +958,6 @@ conn_update_state(struct conntrack *ct, struct
> dp_packet *pkt,
> }
>
> static void
> -create_un_nat_conn(struct conntrack *ct, struct conn
> *conn_for_un_nat_copy,
> - long long now, bool alg_un_nat)
> -{
> - struct conn *nc = xmemdup(conn_for_un_nat_copy, sizeof *nc);
> - memcpy(&nc->key, &conn_for_un_nat_copy->rev_key, sizeof nc->key);
> - memcpy(&nc->rev_key, &conn_for_un_nat_copy->key, sizeof nc->rev_key);
> - uint32_t un_nat_hash = conn_key_hash(&nc->key, ct->hash_basis);
> - unsigned un_nat_conn_bucket = hash_to_bucket(un_nat_hash);
> - ct_lock_lock(&ct->buckets[un_nat_conn_bucket].lock);
> - struct conn *rev_conn = conn_lookup(ct, &nc->key, now);
> -
> - if (alg_un_nat) {
> - if (!rev_conn) {
> - hmap_insert(&ct->buckets[un_nat_conn_bucket].connections,
> - &nc->node, un_nat_hash);
> - } else {
> - char *log_msg = xasprintf("Unusual condition for un_nat conn "
> - "create for alg: rev_conn %p",
> rev_conn);
> - ct_print_conn_info(nc, log_msg, VLL_INFO, true, false);
> - free(log_msg);
> - free(nc);
> - }
> - } else {
> - ct_rwlock_rdlock(&ct->resources_lock);
> -
> - struct nat_conn_key_node *nat_conn_key_node =
> - nat_conn_keys_lookup(&ct->nat_conn_keys, &nc->key,
> ct->hash_basis);
> - if (nat_conn_key_node && !conn_key_cmp(&nat_conn_key_node->value,
> - &nc->rev_key) && !rev_conn) {
> - hmap_insert(&ct->buckets[un_nat_conn_bucket].connections,
> - &nc->node, un_nat_hash);
> - } else {
> - char *log_msg = xasprintf("Unusual condition for un_nat conn "
> - "create: nat_conn_key_node/rev_conn
> "
> - "%p/%p", nat_conn_key_node,
> rev_conn);
> - ct_print_conn_info(nc, log_msg, VLL_INFO, true, false);
> - free(log_msg);
> - free(nc);
> - }
> - ct_rwlock_unlock(&ct->resources_lock);
> - }
> - ct_lock_unlock(&ct->buckets[un_nat_conn_bucket].lock);
> -}
> -
> -static void
> handle_nat(struct dp_packet *pkt, struct conn *conn,
> uint16_t zone, bool reply, bool related)
> {
> @@ -1145,9 +980,8 @@ handle_nat(struct dp_packet *pkt, struct conn *conn,
> static bool
> check_orig_tuple(struct conntrack *ct, struct dp_packet *pkt,
> struct conn_lookup_ctx *ctx_in, long long now,
> - unsigned *bucket, struct conn **conn,
> + struct conn **conn,
> const struct nat_action_info_t *nat_action_info)
> - OVS_REQUIRES(ct->buckets[*bucket].lock)
> {
> if ((ctx_in->key.dl_type == htons(ETH_TYPE_IP) &&
> !pkt->md.ct_orig_tuple.ipv4.ipv4_proto) ||
> @@ -1158,83 +992,76 @@ check_orig_tuple(struct conntrack *ct, struct
> dp_packet *pkt,
> return false;
> }
>
> - ct_lock_unlock(&ct->buckets[*bucket].lock);
> - struct conn_lookup_ctx ctx;
> - memset(&ctx, 0 , sizeof ctx);
> - ctx.conn = NULL;
> + struct conn_key key;
> + memset(&key, 0 , sizeof key);
>
> if (ctx_in->key.dl_type == htons(ETH_TYPE_IP)) {
> - ctx.key.src.addr.ipv4 = pkt->md.ct_orig_tuple.ipv4.ipv4_src;
> - ctx.key.dst.addr.ipv4 = pkt->md.ct_orig_tuple.ipv4.ipv4_dst;
> + key.src.addr.ipv4 = pkt->md.ct_orig_tuple.ipv4.ipv4_src;
> + key.dst.addr.ipv4 = pkt->md.ct_orig_tuple.ipv4.ipv4_dst;
>
> if (ctx_in->key.nw_proto == IPPROTO_ICMP) {
> - ctx.key.src.icmp_id = ctx_in->key.src.icmp_id;
> - ctx.key.dst.icmp_id = ctx_in->key.dst.icmp_id;
> + key.src.icmp_id = ctx_in->key.src.icmp_id;
> + key.dst.icmp_id = ctx_in->key.dst.icmp_id;
> uint16_t src_port =
> ntohs(pkt->md.ct_orig_tuple.ipv4.src_port);
> - ctx.key.src.icmp_type = (uint8_t) src_port;
> - ctx.key.dst.icmp_type =
> reverse_icmp_type(ctx.key.src.icmp_type);
> + key.src.icmp_type = (uint8_t) src_port;
> + key.dst.icmp_type = reverse_icmp_type(key.src.icmp_type);
> } else {
> - ctx.key.src.port = pkt->md.ct_orig_tuple.ipv4.src_port;
> - ctx.key.dst.port = pkt->md.ct_orig_tuple.ipv4.dst_port;
> + key.src.port = pkt->md.ct_orig_tuple.ipv4.src_port;
> + key.dst.port = pkt->md.ct_orig_tuple.ipv4.dst_port;
> }
> - ctx.key.nw_proto = pkt->md.ct_orig_tuple.ipv4.ipv4_proto;
> + key.nw_proto = pkt->md.ct_orig_tuple.ipv4.ipv4_proto;
> } else {
> - ctx.key.src.addr.ipv6 = pkt->md.ct_orig_tuple.ipv6.ipv6_src;
> - ctx.key.dst.addr.ipv6 = pkt->md.ct_orig_tuple.ipv6.ipv6_dst;
> + key.src.addr.ipv6 = pkt->md.ct_orig_tuple.ipv6.ipv6_src;
> + key.dst.addr.ipv6 = pkt->md.ct_orig_tuple.ipv6.ipv6_dst;
>
> if (ctx_in->key.nw_proto == IPPROTO_ICMPV6) {
> - ctx.key.src.icmp_id = ctx_in->key.src.icmp_id;
> - ctx.key.dst.icmp_id = ctx_in->key.dst.icmp_id;
> + key.src.icmp_id = ctx_in->key.src.icmp_id;
> + key.dst.icmp_id = ctx_in->key.dst.icmp_id;
> uint16_t src_port =
> ntohs(pkt->md.ct_orig_tuple.ipv6.src_port);
> - ctx.key.src.icmp_type = (uint8_t) src_port;
> - ctx.key.dst.icmp_type =
> reverse_icmp6_type(ctx.key.src.icmp_type);
> + key.src.icmp_type = (uint8_t) src_port;
> + key.dst.icmp_type = reverse_icmp6_type(key.src.icmp_type);
> } else {
> - ctx.key.src.port = pkt->md.ct_orig_tuple.ipv6.src_port;
> - ctx.key.dst.port = pkt->md.ct_orig_tuple.ipv6.dst_port;
> + key.src.port = pkt->md.ct_orig_tuple.ipv6.src_port;
> + key.dst.port = pkt->md.ct_orig_tuple.ipv6.dst_port;
> }
> - ctx.key.nw_proto = pkt->md.ct_orig_tuple.ipv6.ipv6_proto;
> + key.nw_proto = pkt->md.ct_orig_tuple.ipv6.ipv6_proto;
> }
>
> - ctx.key.dl_type = ctx_in->key.dl_type;
> - ctx.key.zone = pkt->md.ct_zone;
> - ctx.hash = conn_key_hash(&ctx.key, ct->hash_basis);
> - *bucket = hash_to_bucket(ctx.hash);
> - ct_lock_lock(&ct->buckets[*bucket].lock);
> - conn_key_lookup(&ct->buckets[*bucket], &ctx, now);
> - *conn = ctx.conn;
> + key.dl_type = ctx_in->key.dl_type;
> + key.zone = pkt->md.ct_zone;
> + uint32_t hash = conn_key_hash(&key, ct->hash_basis);
> + bool reply;
> + conn_key_lookup(ct, &key, hash, now, conn, &reply);
> return *conn ? true : false;
> }
>
> static bool
> -is_un_nat_conn_valid(const struct conn *un_nat_conn)
> -{
> - return un_nat_conn->conn_type == CT_CONN_TYPE_UN_NAT;
> -}
> -
> -static bool
> conn_update_state_alg(struct conntrack *ct, struct dp_packet *pkt,
> struct conn_lookup_ctx *ctx, struct conn *conn,
> const struct nat_action_info_t *nat_action_info,
> enum ct_alg_ctl_type ct_alg_ctl, long long now,
> - unsigned bucket, bool *create_new_conn)
> - OVS_REQUIRES(ct->buckets[bucket].lock)
> + bool *create_new_conn)
> {
> if (is_ftp_ctl(ct_alg_ctl)) {
> /* Keep sequence tracking in sync with the source of the
> * sequence skew. */
> + ovs_mutex_lock(&conn->lock);
> if (ctx->reply != conn->seq_skew_dir) {
> handle_ftp_ctl(ct, ctx, pkt, conn, now, CT_FTP_CTL_OTHER,
> !!nat_action_info);
> - *create_new_conn = conn_update_state(ct, pkt, ctx, &conn, now,
> - bucket);
> + /* conn_update_state locks for unrelated fields, so unlock. */
> + ovs_mutex_unlock(&conn->lock);
> + *create_new_conn = conn_update_state(ct, pkt, ctx, conn, now);
> } else {
> - *create_new_conn = conn_update_state(ct, pkt, ctx, &conn, now,
> - bucket);
> -
> + /* conn_update_state locks for unrelated fields, so unlock. */
> + ovs_mutex_unlock(&conn->lock);
> + *create_new_conn = conn_update_state(ct, pkt, ctx, conn, now);
> + ovs_mutex_lock(&conn->lock);
> if (*create_new_conn == false) {
> handle_ftp_ctl(ct, ctx, pkt, conn, now, CT_FTP_CTL_OTHER,
> !!nat_action_info);
> }
> + ovs_mutex_unlock(&conn->lock);
> }
> return true;
> }
> @@ -1249,19 +1076,15 @@ process_one(struct conntrack *ct, struct dp_packet
> *pkt,
> const struct nat_action_info_t *nat_action_info,
> ovs_be16 tp_src, ovs_be16 tp_dst, const char *helper)
> {
> - struct conn *conn;
> - unsigned bucket = hash_to_bucket(ctx->hash);
> - ct_lock_lock(&ct->buckets[bucket].lock);
> - conn_key_lookup(&ct->buckets[bucket], ctx, now);
> - conn = ctx->conn;
> + bool create_new_conn = false;
> + conn_key_lookup(ct, &ctx->key, ctx->hash, now, &ctx->conn,
> &ctx->reply);
> + struct conn *conn = ctx->conn;
>
> /* Delete found entry if in wrong direction. 'force' implies commit.
> */
> if (OVS_UNLIKELY(force && ctx->reply && conn)) {
> - struct conn lconn;
> - memcpy(&lconn, conn, sizeof lconn);
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> - conn_clean_safe(ct, &lconn, &ct->buckets[bucket], ctx->hash);
> - ct_lock_lock(&ct->buckets[bucket].lock);
> + ovs_mutex_lock(&ct->ct_lock);
> + conn_clean(ct, conn);
> + ovs_mutex_unlock(&ct->ct_lock);
> conn = NULL;
> }
>
> @@ -1269,53 +1092,36 @@ process_one(struct conntrack *ct, struct dp_packet
> *pkt,
> if (conn->conn_type == CT_CONN_TYPE_UN_NAT) {
>
> ctx->reply = true;
> + struct conn *rev_conn = conn; /* Save for debugging. */
> + uint32_t hash = conn_key_hash(&conn->rev_key, ct->hash_basis);
> + conn_key_lookup(ct, &ctx->key, hash, now, &conn, &ctx->reply);
>
> - struct conn_lookup_ctx ctx2;
> - ctx2.conn = NULL;
> - memcpy(&ctx2.key, &conn->rev_key, sizeof ctx2.key);
> - ctx2.hash = conn_key_hash(&conn->rev_key, ct->hash_basis);
> -
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> - bucket = hash_to_bucket(ctx2.hash);
> -
> - ct_lock_lock(&ct->buckets[bucket].lock);
> - conn_key_lookup(&ct->buckets[bucket], &ctx2, now);
> -
> - if (ctx2.conn) {
> - conn = ctx2.conn;
> - } else {
> - /* It is a race condition where conn has timed out and
> removed
> - * between unlock of the rev_conn and lock of the forward
> conn;
> - * nothing to do. */
> + if (!conn) {
> pkt->md.ct_state |= CS_TRACKED | CS_INVALID;
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> + char *log_msg = xasprintf("Missing master conn %p",
> rev_conn);
> + ct_print_conn_info(conn, log_msg, VLL_INFO, true, true);
> + free(log_msg);
> return;
> }
> }
> }
>
> - bool create_new_conn = false;
> - struct conn conn_for_un_nat_copy;
> - conn_for_un_nat_copy.conn_type = CT_CONN_TYPE_DEFAULT;
> -
> enum ct_alg_ctl_type ct_alg_ctl = get_alg_ctl_type(pkt, tp_src,
> tp_dst,
> helper);
>
> if (OVS_LIKELY(conn)) {
> if (OVS_LIKELY(!conn_update_state_alg(ct, pkt, ctx, conn,
> nat_action_info,
> - ct_alg_ctl, now, bucket,
> + ct_alg_ctl, now,
> &create_new_conn))) {
> - create_new_conn = conn_update_state(ct, pkt, ctx, &conn, now,
> - bucket);
> + create_new_conn = conn_update_state(ct, pkt, ctx, conn, now);
> }
> if (nat_action_info && !create_new_conn) {
> handle_nat(pkt, conn, zone, ctx->reply, ctx->icmp_related);
> }
>
> - } else if (check_orig_tuple(ct, pkt, ctx, now, &bucket, &conn,
> - nat_action_info)) {
> - create_new_conn = conn_update_state(ct, pkt, ctx, &conn, now,
> bucket);
> + } else if (check_orig_tuple(ct, pkt, ctx, now, &conn,
> nat_action_info)) {
> + create_new_conn = conn_update_state(ct, pkt, ctx, conn, now);
> } else {
> if (ctx->icmp_related) {
> /* An icmp related conn should always be found; no new
> @@ -1331,7 +1137,7 @@ process_one(struct conntrack *ct, struct dp_packet
> *pkt,
>
> if (OVS_UNLIKELY(create_new_conn)) {
>
> - ct_rwlock_rdlock(&ct->resources_lock);
> + ovs_rwlock_rdlock(&ct->resources_lock);
> alg_exp = expectation_lookup(&ct->alg_expectations, &ctx->key,
> ct->hash_basis,
> alg_src_ip_wc(ct_alg_ctl));
> @@ -1339,11 +1145,12 @@ process_one(struct conntrack *ct, struct dp_packet
> *pkt,
> memcpy(&alg_exp_entry, alg_exp, sizeof alg_exp_entry);
> alg_exp = &alg_exp_entry;
> }
> - ct_rwlock_unlock(&ct->resources_lock);
> + ovs_rwlock_unlock(&ct->resources_lock);
>
> + ovs_mutex_lock(&ct->ct_lock);
> conn = conn_not_found(ct, pkt, ctx, commit, now, nat_action_info,
> - &conn_for_un_nat_copy, helper, alg_exp,
> - ct_alg_ctl);
> + helper, alg_exp, ct_alg_ctl);
> + ovs_mutex_unlock(&ct->ct_lock);
> }
>
> write_ct_md(pkt, zone, conn, &ctx->key, alg_exp);
> @@ -1356,19 +1163,7 @@ process_one(struct conntrack *ct, struct dp_packet
> *pkt,
> set_label(pkt, conn, &setlabel[0], &setlabel[1]);
> }
>
> - struct conn conn_for_expectation;
> - if (OVS_UNLIKELY((ct_alg_ctl != CT_ALG_CTL_NONE) && conn)) {
> - memcpy(&conn_for_expectation, conn, sizeof conn_for_expectation);
> - }
> -
> - ct_lock_unlock(&ct->buckets[bucket].lock);
> -
> - if (is_un_nat_conn_valid(&conn_for_un_nat_copy)) {
> - create_un_nat_conn(ct, &conn_for_un_nat_copy, now, !!alg_exp);
> - }
> -
> - handle_alg_ctl(ct, ctx, pkt, ct_alg_ctl, conn, now, !!nat_action_info,
> - &conn_for_expectation);
> + handle_alg_ctl(ct, ctx, pkt, ct_alg_ctl, conn, now,
> !!nat_action_info);
> }
>
> /* Sends the packets in '*pkt_batch' through the connection tracker
> 'ct'. All
> @@ -1457,29 +1252,38 @@ set_label(struct dp_packet *pkt, struct conn *conn,
> * LLONG_MAX if 'ctb' is empty. The return value might be smaller than
> 'now',
> * if 'limit' is reached */
> static long long
> -sweep_bucket(struct conntrack *ct, struct conntrack_bucket *ctb,
> - long long now, size_t limit)
> - OVS_REQUIRES(ctb->lock)
> +ct_sweep(struct conntrack *ct, long long now, size_t limit)
> {
> struct conn *conn, *next;
> long long min_expiration = LLONG_MAX;
> size_t count = 0;
>
> + ovs_mutex_lock(&ct->ct_lock);
> +
> for (unsigned i = 0; i < N_CT_TM; i++) {
> - LIST_FOR_EACH_SAFE (conn, next, exp_node, &ctb->exp_lists[i]) {
> - if (!conn_expired(conn, now) || count >= limit) {
> + LIST_FOR_EACH_SAFE (conn, next, exp_node, &ct->cm_exp_lists[i]) {
> + ovs_mutex_lock(&conn->lock);
> + if (now < conn->expiration || count >= limit) {
> min_expiration = MIN(min_expiration, conn->expiration);
> + ovs_mutex_unlock(&conn->lock);
> if (count >= limit) {
> /* Do not check other lists. */
> COVERAGE_INC(conntrack_long_cleanup);
> - return min_expiration;
> + goto out;
> }
> break;
> + } else {
> + ovs_mutex_unlock(&conn->lock);
> + conn_clean(ct, conn);
> }
> - conn_clean(ct, conn, ctb);
> count++;
> }
> }
> +
> +out:
> + VLOG_DBG("conntrack cleanup %"PRIuSIZE" entries in %lld msec", count,
> + time_msec() - now);
> + ovs_mutex_unlock(&ct->ct_lock);
> return min_expiration;
> }
>
> @@ -1490,50 +1294,11 @@ sweep_bucket(struct conntrack *ct, struct
> conntrack_bucket *ctb,
> static long long
> conntrack_clean(struct conntrack *ct, long long now)
> {
> - long long next_wakeup = now + CT_TM_MIN;
> unsigned int n_conn_limit;
> - size_t clean_count = 0;
> -
> atomic_read_relaxed(&ct->n_conn_limit, &n_conn_limit);
> - size_t clean_min = n_conn_limit > CONNTRACK_BUCKETS * 10
> - ? n_conn_limit / (CONNTRACK_BUCKETS * 10) : 1;
> -
> - for (unsigned i = 0; i < CONNTRACK_BUCKETS; i++) {
> - struct conntrack_bucket *ctb = &ct->buckets[i];
> - size_t prev_count;
> - long long min_exp;
> -
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - if (ctb->next_cleanup > now) {
> - goto next_bucket;
> - }
> -
> - ct_lock_lock(&ctb->lock);
> - prev_count = hmap_count(&ctb->connections);
> - /* If the connections are well distributed among buckets, we want
> to
> - * limit to 10% of the global limit equally split among buckets.
> If
> - * the bucket is busier than the others, we limit to 10% of its
> - * current size. */
> - min_exp = sweep_bucket(ct, ctb, now, MAX(prev_count / 10,
> clean_min));
> - clean_count += prev_count - hmap_count(&ctb->connections);
> -
> - if (min_exp > now) {
> - /* We call hmap_shrink() only if sweep_bucket() managed to
> delete
> - * every expired connection. */
> - hmap_shrink(&ctb->connections);
> - }
> -
> - ct_lock_unlock(&ctb->lock);
> -
> - ctb->next_cleanup = MIN(min_exp, now + CT_TM_MIN);
> -
> -next_bucket:
> - next_wakeup = MIN(next_wakeup, ctb->next_cleanup);
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> - }
> -
> - VLOG_DBG("conntrack cleanup %"PRIuSIZE" entries in %lld msec",
> - clean_count, time_msec() - now);
> + size_t clean_max = n_conn_limit > 10 ? n_conn_limit / 10 : 1;
> + long long min_exp = ct_sweep(ct, now, clean_max);
> + long long next_wakeup = MIN(min_exp, now + CT_TM_MIN);
>
> return next_wakeup;
> }
> @@ -1552,9 +1317,9 @@ next_bucket:
> * are coping with the current cleanup tasks, then we wait at least
> * 5 seconds to do further cleanup.
> *
> - * - We don't want to keep the buckets locked too long, as we might
> prevent
> + * - We don't want to keep the map locked too long, as we might prevent
> * traffic from flowing. CT_CLEAN_MIN_INTERVAL ensures that if cleanup
> is
> - * behind, there is at least some 200ms blocks of time when buckets
> will be
> + * behind, there is at least some 200ms blocks of time when the map
> will be
> * left alone, so the datapath can operate unhindered.
> */
> #define CT_CLEAN_INTERVAL 5000 /* 5 seconds */
> @@ -2268,9 +2033,11 @@ nat_select_range_tuple(struct conntrack *ct, const
> struct conn *conn,
> nat_conn->rev_key.src.port = htons(port);
> }
>
> - bool new_insert = nat_conn_keys_insert(&ct->nat_conn_keys,
> nat_conn,
> - ct->hash_basis);
> - if (new_insert) {
> + uint32_t conn_hash = conn_key_hash(&nat_conn->rev_key,
> + ct->hash_basis);
> + bool found = conn_key_lookup(ct, &nat_conn->rev_key, conn_hash,
> + time_msec(), NULL, NULL);
> + if (!found) {
> return true;
> } else if (pat_enabled && !all_ports_tried) {
> if (min_port == max_port) {
> @@ -2312,101 +2079,26 @@ nat_select_range_tuple(struct conntrack *ct,
> const struct conn *conn,
> return false;
> }
>
> -/* This function must be called with the ct->resources lock taken. */
> -static struct nat_conn_key_node *
> -nat_conn_keys_lookup(struct hmap *nat_conn_keys,
> - const struct conn_key *key,
> - uint32_t basis)
> -{
> - struct nat_conn_key_node *nat_conn_key_node;
> -
> - HMAP_FOR_EACH_WITH_HASH (nat_conn_key_node, node,
> - conn_key_hash(key, basis), nat_conn_keys) {
> - if (!conn_key_cmp(&nat_conn_key_node->key, key)) {
> - return nat_conn_key_node;
> - }
> - }
> - return NULL;
> -}
> -
> -/* This function must be called with the ct->resources lock taken. */
> -static bool
> -nat_conn_keys_insert(struct hmap *nat_conn_keys, const struct conn
> *nat_conn,
> - uint32_t basis)
> -{
> - struct nat_conn_key_node *nat_conn_key_node =
> - nat_conn_keys_lookup(nat_conn_keys, &nat_conn->rev_key, basis);
> -
> - if (!nat_conn_key_node) {
> - struct nat_conn_key_node *nat_conn_key = xzalloc(sizeof
> *nat_conn_key);
> - memcpy(&nat_conn_key->key, &nat_conn->rev_key,
> - sizeof nat_conn_key->key);
> - memcpy(&nat_conn_key->value, &nat_conn->key,
> - sizeof nat_conn_key->value);
> - hmap_insert(nat_conn_keys, &nat_conn_key->node,
> - conn_key_hash(&nat_conn_key->key, basis));
> - return true;
> - }
> - return false;
> -}
> -
> -/* This function must be called with the ct->resources write lock taken.
> */
> -static void
> -nat_conn_keys_remove(struct hmap *nat_conn_keys,
> - const struct conn_key *key,
> - uint32_t basis)
> -{
> - struct nat_conn_key_node *nat_conn_key_node;
> -
> - HMAP_FOR_EACH_WITH_HASH (nat_conn_key_node, node,
> - conn_key_hash(key, basis), nat_conn_keys) {
> - if (!conn_key_cmp(&nat_conn_key_node->key, key)) {
> - hmap_remove(nat_conn_keys, &nat_conn_key_node->node);
> - free(nat_conn_key_node);
> - return;
> - }
> - }
> -}
> -
> -static void
> -conn_key_lookup(struct conntrack_bucket *ctb, struct conn_lookup_ctx *ctx,
> - long long now)
> - OVS_REQUIRES(ctb->lock)
> -{
> - uint32_t hash = ctx->hash;
> - struct conn *conn;
> -
> - ctx->conn = NULL;
> -
> - HMAP_FOR_EACH_WITH_HASH (conn, node, hash, &ctb->connections) {
> - if (!conn_key_cmp(&conn->key, &ctx->key)
> - && !conn_expired(conn, now)) {
> - ctx->conn = conn;
> - ctx->reply = false;
> - break;
> - }
> - if (!conn_key_cmp(&conn->rev_key, &ctx->key)
> - && !conn_expired(conn, now)) {
> - ctx->conn = conn;
> - ctx->reply = true;
> - break;
> - }
> - }
> -}
> -
> static enum ct_update_res
> -conn_update(struct conn *conn, struct conntrack_bucket *ctb,
> - struct dp_packet *pkt, bool reply, long long now)
> +conn_update(struct conntrack *ct, struct conn *conn, struct dp_packet
> *pkt,
> + struct conn_lookup_ctx *ctx, long long now)
> {
> - return l4_protos[conn->key.nw_proto]->conn_update(conn, ctb, pkt,
> - reply, now);
> + ovs_mutex_lock(&conn->lock);
> + enum ct_update_res update_res =
> + l4_protos[conn->key.nw_proto]->conn_update(ct, conn, pkt,
> ctx->reply,
> + now);
> + ovs_mutex_unlock(&conn->lock);
> + return update_res;
> }
>
> static bool
> conn_expired(struct conn *conn, long long now)
> {
> if (conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> - return now >= conn->expiration;
> + ovs_mutex_lock(&conn->lock);
> + bool expired = now >= conn->expiration ? true : false;
> + ovs_mutex_unlock(&conn->lock);
> + return expired;
> }
> return false;
> }
> @@ -2418,19 +2110,38 @@ valid_new(struct dp_packet *pkt, struct conn_key
> *key)
> }
>
> static struct conn *
> -new_conn(struct conntrack_bucket *ctb, struct dp_packet *pkt,
> - struct conn_key *key, long long now)
> +new_conn(struct conntrack *ct, struct dp_packet *pkt, struct conn_key
> *key,
> + long long now)
> {
> - return l4_protos[key->nw_proto]->new_conn(ctb, pkt, now);
> + return l4_protos[key->nw_proto]->new_conn(ct, pkt, now);
> }
>
> static void
> -delete_conn(struct conn *conn)
> +delete_conn_cmn(struct conn *conn)
> {
> free(conn->nat_info);
> free(conn->alg);
> free(conn);
> }
> +
> +static void
> +delete_conn(struct conn *conn)
> +{
> + ovs_assert(conn->conn_type == CT_CONN_TYPE_DEFAULT);
> + ovs_mutex_destroy(&conn->lock);
> + free(conn->nat_conn);
> + delete_conn_cmn(conn);
> +}
> +
> +/* Only used by conn_clean_one(). */
> +static void
> +delete_conn_one(struct conn *conn)
> +{
> + if (conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> + ovs_mutex_destroy(&conn->lock);
> + }
> + delete_conn_cmn(conn);
> +}
>
> /* Convert a conntrack address 'a' into an IP address 'b' based on
> 'dl_type'.
> *
> @@ -2532,7 +2243,9 @@ conn_to_ct_dpif_entry(const struct conn *conn,
> struct ct_dpif_entry *entry,
> entry->timestamp.start = 0;
> entry->timestamp.stop = 0;
>
> + ovs_mutex_lock(&conn->lock);
> long long expiration = conn->expiration - now;
> + ovs_mutex_unlock(&conn->lock);
> entry->timeout = (expiration > 0) ? expiration / 1000 : 0;
>
> struct ct_l4_proto *class = l4_protos[conn->key.nw_proto];
> @@ -2566,7 +2279,7 @@ conntrack_dump_start(struct conntrack *ct, struct
> conntrack_dump *dump,
> }
>
> dump->ct = ct;
> - *ptot_bkts = CONNTRACK_BUCKETS;
> + *ptot_bkts = 1; /* Need to clean up the callers. */
> return 0;
> }
>
> @@ -2576,36 +2289,21 @@ conntrack_dump_next(struct conntrack_dump *dump,
> struct ct_dpif_entry *entry)
> struct conntrack *ct = dump->ct;
> long long now = time_msec();
>
> - while (dump->bucket < CONNTRACK_BUCKETS) {
> - struct hmap_node *node;
> -
> - ct_lock_lock(&ct->buckets[dump->bucket].lock);
> - for (;;) {
> - struct conn *conn;
> -
> - node =
> hmap_at_position(&ct->buckets[dump->bucket].connections,
> - &dump->bucket_pos);
> - if (!node) {
> - break;
> - }
> - INIT_CONTAINER(conn, node, node);
> - if ((!dump->filter_zone || conn->key.zone == dump->zone) &&
> - (conn->conn_type != CT_CONN_TYPE_UN_NAT)) {
> - conn_to_ct_dpif_entry(conn, entry, now, dump->bucket);
> - break;
> - }
> - /* Else continue, until we find an entry in the appropriate
> zone
> - * or the bucket has been scanned completely. */
> + for (;;) {
> + struct cmap_node *cm_node = cmap_next_position(&ct->cm_conns,
> + &dump->cm_pos);
> + if (!cm_node) {
> + break;
> }
> - ct_lock_unlock(&ct->buckets[dump->bucket].lock);
> -
> - if (!node) {
> - memset(&dump->bucket_pos, 0, sizeof dump->bucket_pos);
> - dump->bucket++;
> - } else {
> + struct conn *conn;
> + INIT_CONTAINER(conn, cm_node, cm_node);
> + if ((!dump->filter_zone || conn->key.zone == dump->zone) &&
> + (conn->conn_type != CT_CONN_TYPE_UN_NAT)) {
> + conn_to_ct_dpif_entry(conn, entry, now, 0);
> return 0;
> }
> }
> +
> return EOF;
> }
>
> @@ -2618,21 +2316,15 @@ conntrack_dump_done(struct conntrack_dump *dump
> OVS_UNUSED)
> int
> conntrack_flush(struct conntrack *ct, const uint16_t *zone)
> {
> - for (unsigned i = 0; i < CONNTRACK_BUCKETS; i++) {
> - struct conntrack_bucket *ctb = &ct->buckets[i];
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - ct_lock_lock(&ctb->lock);
> - for (unsigned j = 0; j < N_CT_TM; j++) {
> - struct conn *conn, *next;
> - LIST_FOR_EACH_SAFE (conn, next, exp_node, &ctb->exp_lists[j])
> {
> - if (!zone || *zone == conn->key.zone) {
> - conn_clean(ct, conn, ctb);
> - }
> - }
> + struct conn *conn;
> +
> + ovs_mutex_lock(&ct->ct_lock);
> + CMAP_FOR_EACH (conn, cm_node, &ct->cm_conns) {
> + if (!zone || *zone == conn->key.zone) {
> + conn_clean_one(ct, conn);
> }
> - ct_lock_unlock(&ctb->lock);
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> }
> + ovs_mutex_unlock(&ct->ct_lock);
>
> return 0;
> }
> @@ -2647,20 +2339,18 @@ conntrack_flush_tuple(struct conntrack *ct, const
> struct ct_dpif_tuple *tuple,
> memset(&ctx, 0, sizeof(ctx));
> tuple_to_conn_key(tuple, zone, &ctx.key);
> ctx.hash = conn_key_hash(&ctx.key, ct->hash_basis);
> - unsigned bucket = hash_to_bucket(ctx.hash);
> - struct conntrack_bucket *ctb = &ct->buckets[bucket];
> + ovs_mutex_lock(&ct->ct_lock);
> + conn_key_lookup(ct, &ctx.key, ctx.hash, time_msec(), &ctx.conn,
> + &ctx.reply);
>
> - ovs_mutex_lock(&ctb->cleanup_mutex);
> - ct_lock_lock(&ctb->lock);
> - conn_key_lookup(ctb, &ctx, time_msec());
> if (ctx.conn && ctx.conn->conn_type == CT_CONN_TYPE_DEFAULT) {
> - conn_clean(ct, ctx.conn, ctb);
> + conn_clean(ct, ctx.conn);
> } else {
> VLOG_WARN("Must flush tuple using the original pre-NATed tuple");
> error = ENOENT;
> }
> - ct_lock_unlock(&ctb->lock);
> - ovs_mutex_unlock(&ctb->cleanup_mutex);
> +
> + ovs_mutex_unlock(&ct->ct_lock);
> return error;
> }
>
> @@ -2761,23 +2451,23 @@ expectation_ref_create(struct hindex
> *alg_expectation_refs,
> }
>
> static void
> -expectation_clean(struct conntrack *ct, const struct conn_key *master_key,
> - uint32_t basis)
> +expectation_clean(struct conntrack *ct, const struct conn_key *master_key)
> {
> - ct_rwlock_wrlock(&ct->resources_lock);
> + ovs_rwlock_wrlock(&ct->resources_lock);
>
> struct alg_exp_node *node, *next;
> HINDEX_FOR_EACH_WITH_HASH_SAFE (node, next, node_ref,
> - conn_key_hash(master_key, basis),
> + conn_key_hash(master_key,
> ct->hash_basis),
> &ct->alg_expectation_refs) {
> if (!conn_key_cmp(&node->master_key, master_key)) {
> - expectation_remove(&ct->alg_expectations, &node->key, basis);
> + expectation_remove(&ct->alg_expectations, &node->key,
> + ct->hash_basis);
> hindex_remove(&ct->alg_expectation_refs, &node->node_ref);
> free(node);
> }
> }
>
> - ct_rwlock_unlock(&ct->resources_lock);
> + ovs_rwlock_unlock(&ct->resources_lock);
> }
>
> static void
> @@ -2835,12 +2525,12 @@ expectation_create(struct conntrack *ct, ovs_be16
> dst_port,
> /* Take the write lock here because it is almost 100%
> * likely that the lookup will fail and
> * expectation_create() will be called below. */
> - ct_rwlock_wrlock(&ct->resources_lock);
> + ovs_rwlock_wrlock(&ct->resources_lock);
> struct alg_exp_node *alg_exp = expectation_lookup(
> &ct->alg_expectations, &alg_exp_node->key, ct->hash_basis,
> src_ip_wc);
> if (alg_exp) {
> free(alg_exp_node);
> - ct_rwlock_unlock(&ct->resources_lock);
> + ovs_rwlock_unlock(&ct->resources_lock);
> return;
> }
>
> @@ -2849,7 +2539,7 @@ expectation_create(struct conntrack *ct, ovs_be16
> dst_port,
> conn_key_hash(&alg_exp_node->key, ct->hash_basis));
> expectation_ref_create(&ct->alg_expectation_refs, alg_exp_node,
> ct->hash_basis);
> - ct_rwlock_unlock(&ct->resources_lock);
> + ovs_rwlock_unlock(&ct->resources_lock);
> }
>
> static void
> @@ -3251,7 +2941,7 @@ adj_seqnum(ovs_16aligned_be32 *val, int32_t inc)
>
> static void
> handle_ftp_ctl(struct conntrack *ct, const struct conn_lookup_ctx *ctx,
> - struct dp_packet *pkt, const struct conn *ec, long long
> now,
> + struct dp_packet *pkt, struct conn *ec, long long now,
> enum ftp_ctl_pkt ftp_ctl, bool nat)
> {
> struct ip_header *l3_hdr = dp_packet_l3(pkt);
> @@ -3341,7 +3031,7 @@ handle_ftp_ctl(struct conntrack *ct, const struct
> conn_lookup_ctx *ctx,
> }
>
> if (seq_skew) {
> - conn_seq_skew_set(ct, &ec->key, now, seq_skew + ec->seq_skew,
> + conn_seq_skew_set(ct, ec, now, seq_skew + ec->seq_skew,
> ctx->reply);
> }
> }
> @@ -3349,10 +3039,9 @@ handle_ftp_ctl(struct conntrack *ct, const struct
> conn_lookup_ctx *ctx,
> static void
> handle_tftp_ctl(struct conntrack *ct,
> const struct conn_lookup_ctx *ctx OVS_UNUSED,
> - struct dp_packet *pkt,
> - const struct conn *conn_for_expectation,
> - long long now OVS_UNUSED,
> - enum ftp_ctl_pkt ftp_ctl OVS_UNUSED, bool nat OVS_UNUSED)
> + struct dp_packet *pkt, struct conn *conn_for_expectation,
> + long long now OVS_UNUSED, enum ftp_ctl_pkt ftp_ctl
> OVS_UNUSED,
> + bool nat OVS_UNUSED)
> {
> expectation_create(ct, conn_for_expectation->key.src.port,
> conn_for_expectation,
> diff --git a/lib/conntrack.h b/lib/conntrack.h
> index 8f4095f..c03037a 100644
> --- a/lib/conntrack.h
> +++ b/lib/conntrack.h
> @@ -19,6 +19,7 @@
>
> #include <stdbool.h>
>
> +#include "cmap.h"
> #include "latch.h"
> #include "odp-netlink.h"
> #include "openvswitch/hmap.h"
> @@ -93,7 +94,7 @@ void conntrack_clear(struct dp_packet *packet);
> struct conntrack_dump {
> struct conntrack *ct;
> unsigned bucket;
> - struct hmap_position bucket_pos;
> + struct cmap_position cm_pos;
> bool filter_zone;
> uint16_t zone;
> };
> @@ -114,5 +115,4 @@ int conntrack_get_maxconns(struct conntrack *ct,
> uint32_t *maxconns);
> int conntrack_get_nconns(struct conntrack *ct, uint32_t *nconns);
> struct ipf *conntrack_ipf_ctx(struct conntrack *ct);
>
> -
> #endif /* conntrack.h */
> --
> 1.9.1
>
>
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