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|
/*
* Copyright (c) 2019 Cisco and/or its affiliates.
* 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 <vnet/session/application_local.h>
#include <vnet/session/session.h>
typedef enum ct_segment_flags_
{
CT_SEGMENT_F_CLIENT_DETACHED = 1 << 0,
CT_SEGMENT_F_SERVER_DETACHED = 1 << 1,
} ct_segment_flags_t;
typedef struct ct_segment_
{
u32 client_n_sessions;
u32 server_n_sessions;
u32 seg_ctx_index;
u32 ct_seg_index;
u32 segment_index;
ct_segment_flags_t flags;
} ct_segment_t;
typedef struct ct_segments_
{
u32 sm_index;
u32 server_wrk;
u32 client_wrk;
u32 fifo_pair_bytes;
ct_segment_t *segments;
} ct_segments_ctx_t;
typedef struct ct_cleanup_req_
{
u32 ct_index;
} ct_cleanup_req_t;
typedef struct ct_worker_
{
ct_connection_t *connections; /**< Per-worker connection pools */
ct_cleanup_req_t *pending_cleanups; /**< Fifo of pending indices */
u8 have_cleanups; /**< Set if cleanup rpc pending */
} ct_worker_t;
typedef struct ct_main_
{
ct_worker_t *wrk; /**< Per-worker state */
u32 n_workers; /**< Number of vpp workers */
u32 n_sessions; /**< Cumulative sessions counter */
u32 *ho_reusable; /**< Vector of reusable ho indices */
clib_spinlock_t ho_reuseable_lock; /**< Lock for reusable ho indices */
clib_rwlock_t app_segs_lock; /**< RW lock for seg contexts */
uword *app_segs_ctxs_table; /**< App handle to segment pool map */
ct_segments_ctx_t *app_seg_ctxs; /**< Pool of ct segment contexts */
} ct_main_t;
static ct_main_t ct_main;
static inline ct_worker_t *
ct_worker_get (u32 thread_index)
{
return &ct_main.wrk[thread_index];
}
static ct_connection_t *
ct_connection_alloc (u32 thread_index)
{
ct_worker_t *wrk = ct_worker_get (thread_index);
ct_connection_t *ct;
pool_get_zero (wrk->connections, ct);
ct->c_c_index = ct - wrk->connections;
ct->c_thread_index = thread_index;
ct->client_wrk = ~0;
ct->server_wrk = ~0;
ct->seg_ctx_index = ~0;
ct->ct_seg_index = ~0;
return ct;
}
static ct_connection_t *
ct_connection_get (u32 ct_index, u32 thread_index)
{
ct_worker_t *wrk = ct_worker_get (thread_index);
if (pool_is_free_index (wrk->connections, ct_index))
return 0;
return pool_elt_at_index (wrk->connections, ct_index);
}
static void
ct_connection_free (ct_connection_t * ct)
{
ct_worker_t *wrk = ct_worker_get (ct->c_thread_index);
if (CLIB_DEBUG)
{
clib_memset (ct, 0xfc, sizeof (*ct));
pool_put (wrk->connections, ct);
return;
}
pool_put (wrk->connections, ct);
}
static ct_connection_t *
ct_half_open_alloc (void)
{
ct_main_t *cm = &ct_main;
u32 *hip;
clib_spinlock_lock (&cm->ho_reuseable_lock);
vec_foreach (hip, cm->ho_reusable)
pool_put_index (cm->wrk[0].connections, *hip);
vec_reset_length (cm->ho_reusable);
clib_spinlock_unlock (&cm->ho_reuseable_lock);
return ct_connection_alloc (0);
}
void
ct_half_open_add_reusable (u32 ho_index)
{
ct_main_t *cm = &ct_main;
clib_spinlock_lock (&cm->ho_reuseable_lock);
vec_add1 (cm->ho_reusable, ho_index);
clib_spinlock_unlock (&cm->ho_reuseable_lock);
}
session_t *
ct_session_get_peer (session_t * s)
{
ct_connection_t *ct, *peer_ct;
ct = ct_connection_get (s->connection_index, s->thread_index);
peer_ct = ct_connection_get (ct->peer_index, s->thread_index);
return session_get (peer_ct->c_s_index, s->thread_index);
}
void
ct_session_endpoint (session_t * ll, session_endpoint_t * sep)
{
ct_connection_t *ct;
ct = (ct_connection_t *) session_get_transport (ll);
sep->transport_proto = ct->actual_tp;
sep->port = ct->c_lcl_port;
sep->is_ip4 = ct->c_is_ip4;
ip_copy (&sep->ip, &ct->c_lcl_ip, ct->c_is_ip4);
}
static void
ct_set_invalid_app_wrk (ct_connection_t *ct, u8 is_client)
{
ct_connection_t *peer_ct;
peer_ct = ct_connection_get (ct->peer_index, ct->c_thread_index);
if (is_client)
{
ct->client_wrk = APP_INVALID_INDEX;
if (peer_ct)
ct->client_wrk = APP_INVALID_INDEX;
}
else
{
ct->server_wrk = APP_INVALID_INDEX;
if (peer_ct)
ct->server_wrk = APP_INVALID_INDEX;
}
}
static void
ct_session_dealloc_fifos (ct_connection_t *ct, svm_fifo_t *rx_fifo,
svm_fifo_t *tx_fifo)
{
ct_segments_ctx_t *seg_ctx;
ct_main_t *cm = &ct_main;
segment_manager_t *sm;
app_worker_t *app_wrk;
ct_segment_t *ct_seg;
fifo_segment_t *fs;
u32 seg_index;
session_t *s;
int cnt;
/*
* Cleanup fifos
*/
sm = segment_manager_get (rx_fifo->segment_manager);
seg_index = rx_fifo->segment_index;
fs = segment_manager_get_segment_w_lock (sm, seg_index);
fifo_segment_free_fifo (fs, rx_fifo);
fifo_segment_free_fifo (fs, tx_fifo);
segment_manager_segment_reader_unlock (sm);
/*
* Atomically update segment context with readers lock
*/
clib_rwlock_reader_lock (&cm->app_segs_lock);
seg_ctx = pool_elt_at_index (cm->app_seg_ctxs, ct->seg_ctx_index);
ct_seg = pool_elt_at_index (seg_ctx->segments, ct->ct_seg_index);
if (ct->flags & CT_CONN_F_CLIENT)
{
cnt =
__atomic_sub_fetch (&ct_seg->client_n_sessions, 1, __ATOMIC_RELAXED);
}
else
{
cnt =
__atomic_sub_fetch (&ct_seg->server_n_sessions, 1, __ATOMIC_RELAXED);
}
clib_rwlock_reader_unlock (&cm->app_segs_lock);
/*
* No need to do any app updates, return
*/
ASSERT (cnt >= 0);
if (cnt)
return;
/*
* Grab exclusive lock and update flags unless some other thread
* added more sessions
*/
clib_rwlock_writer_lock (&cm->app_segs_lock);
seg_ctx = pool_elt_at_index (cm->app_seg_ctxs, ct->seg_ctx_index);
ct_seg = pool_elt_at_index (seg_ctx->segments, ct->ct_seg_index);
if (ct->flags & CT_CONN_F_CLIENT)
{
cnt = ct_seg->client_n_sessions;
if (cnt)
goto done;
ct_seg->flags |= CT_SEGMENT_F_CLIENT_DETACHED;
s = session_get (ct->c_s_index, ct->c_thread_index);
if (s->app_wrk_index == APP_INVALID_INDEX)
ct_set_invalid_app_wrk (ct, 1 /* is_client */);
}
else
{
cnt = ct_seg->server_n_sessions;
if (cnt)
goto done;
ct_seg->flags |= CT_SEGMENT_F_SERVER_DETACHED;
s = session_get (ct->c_s_index, ct->c_thread_index);
if (s->app_wrk_index == APP_INVALID_INDEX)
ct_set_invalid_app_wrk (ct, 0 /* is_client */);
}
if (!(ct_seg->flags & CT_SEGMENT_F_CLIENT_DETACHED) ||
!(ct_seg->flags & CT_SEGMENT_F_SERVER_DETACHED))
goto done;
/*
* Remove segment context because both client and server detached
*/
pool_put_index (seg_ctx->segments, ct->ct_seg_index);
/*
* No more segment indices left, remove the segments context
*/
if (!pool_elts (seg_ctx->segments))
{
u64 table_handle = seg_ctx->client_wrk << 16 | seg_ctx->server_wrk;
table_handle = (u64) seg_ctx->sm_index << 32 | table_handle;
hash_unset (cm->app_segs_ctxs_table, table_handle);
pool_free (seg_ctx->segments);
pool_put_index (cm->app_seg_ctxs, ct->seg_ctx_index);
}
/*
* Segment to be removed so notify both apps
*/
app_wrk = app_worker_get_if_valid (ct->client_wrk);
/* Determine if client app still needs notification, i.e., if it is
* still attached. If client detached and this is the last ct session
* on this segment, then its connects segment manager should also be
* detached, so do not send notification */
if (app_wrk)
{
segment_manager_t *csm;
csm = app_worker_get_connect_segment_manager (app_wrk);
if (!segment_manager_app_detached (csm))
app_worker_del_segment_notify (app_wrk, ct->segment_handle);
}
if (!segment_manager_app_detached (sm))
{
app_wrk = app_worker_get (ct->server_wrk);
app_worker_del_segment_notify (app_wrk, ct->segment_handle);
}
segment_manager_lock_and_del_segment (sm, seg_index);
/* Cleanup segment manager if needed. If server detaches there's a chance
* the client's sessions will hold up segment removal */
if (segment_manager_app_detached (sm) && !segment_manager_has_fifos (sm))
segment_manager_free_safe (sm);
done:
clib_rwlock_writer_unlock (&cm->app_segs_lock);
}
int
ct_session_connect_notify (session_t *ss, session_error_t err)
{
u32 ss_index, opaque, thread_index;
ct_connection_t *sct, *cct;
app_worker_t *client_wrk;
session_t *cs;
ss_index = ss->session_index;
thread_index = ss->thread_index;
sct = (ct_connection_t *) session_get_transport (ss);
client_wrk = app_worker_get (sct->client_wrk);
opaque = sct->client_opaque;
cct = ct_connection_get (sct->peer_index, thread_index);
/* Client closed while waiting for reply from server */
if (PREDICT_FALSE (!cct))
{
session_transport_closing_notify (&sct->connection);
session_transport_delete_notify (&sct->connection);
ct_connection_free (sct);
return 0;
}
session_half_open_delete_notify (&cct->connection);
cct->flags &= ~CT_CONN_F_HALF_OPEN;
if (PREDICT_FALSE (err))
goto connect_error;
/*
* Alloc client session
*/
cs = session_alloc (thread_index);
ss = session_get (ss_index, thread_index);
cs->session_type = ss->session_type;
cs->listener_handle = SESSION_INVALID_HANDLE;
cs->session_state = SESSION_STATE_CONNECTING;
cs->app_wrk_index = client_wrk->wrk_index;
cs->connection_index = cct->c_c_index;
cct->c_s_index = cs->session_index;
/* This will allocate fifos for the session. They won't be used for
* exchanging data but they will be used to close the connection if
* the segment manager/worker is freed */
if ((err = app_worker_init_connected (client_wrk, cs)))
{
session_free (cs);
session_close (ss);
err = SESSION_E_ALLOC;
goto connect_error;
}
cs->session_state = SESSION_STATE_CONNECTING;
if (app_worker_connect_notify (client_wrk, cs, 0, opaque))
{
segment_manager_dealloc_fifos (cs->rx_fifo, cs->tx_fifo);
session_free (cs);
session_close (ss);
goto cleanup_client;
}
cs = session_get (cct->c_s_index, cct->c_thread_index);
cs->session_state = SESSION_STATE_READY;
return 0;
connect_error:
app_worker_connect_notify (client_wrk, 0, err, cct->client_opaque);
cleanup_client:
if (cct->client_rx_fifo)
ct_session_dealloc_fifos (cct, cct->client_rx_fifo, cct->client_tx_fifo);
ct_connection_free (cct);
return -1;
}
static inline ct_segment_t *
ct_lookup_free_segment (ct_main_t *cm, segment_manager_t *sm,
u32 seg_ctx_index)
{
uword free_bytes, max_free_bytes;
ct_segment_t *ct_seg, *res = 0;
ct_segments_ctx_t *seg_ctx;
fifo_segment_t *fs;
u32 max_fifos;
seg_ctx = pool_elt_at_index (cm->app_seg_ctxs, seg_ctx_index);
max_free_bytes = seg_ctx->fifo_pair_bytes;
pool_foreach (ct_seg, seg_ctx->segments)
{
/* Client or server has detached so segment cannot be used */
fs = segment_manager_get_segment (sm, ct_seg->segment_index);
free_bytes = fifo_segment_available_bytes (fs);
max_fifos = fifo_segment_size (fs) / seg_ctx->fifo_pair_bytes;
if (free_bytes > max_free_bytes &&
fifo_segment_num_fifos (fs) / 2 < max_fifos)
{
max_free_bytes = free_bytes;
res = ct_seg;
}
}
return res;
}
static ct_segment_t *
ct_alloc_segment (ct_main_t *cm, app_worker_t *server_wrk, u64 table_handle,
segment_manager_t *sm, u32 client_wrk_index)
{
u32 seg_ctx_index = ~0, sm_index, pair_bytes;
segment_manager_props_t *props;
const u32 margin = 16 << 10;
ct_segments_ctx_t *seg_ctx;
app_worker_t *client_wrk;
u64 seg_size, seg_handle;
application_t *server;
ct_segment_t *ct_seg;
uword *spp;
int fs_index;
server = application_get (server_wrk->app_index);
props = application_segment_manager_properties (server);
sm_index = segment_manager_index (sm);
pair_bytes = props->rx_fifo_size + props->tx_fifo_size + margin;
/*
* Make sure another thread did not alloc a segment while acquiring the lock
*/
spp = hash_get (cm->app_segs_ctxs_table, table_handle);
if (spp)
{
seg_ctx_index = *spp;
ct_seg = ct_lookup_free_segment (cm, sm, seg_ctx_index);
if (ct_seg)
return ct_seg;
}
/*
* No segment, try to alloc one and notify the server and the client.
* Make sure the segment is not used for other fifos
*/
seg_size = clib_max (props->segment_size, 128 << 20);
fs_index =
segment_manager_add_segment2 (sm, seg_size, FIFO_SEGMENT_F_CUSTOM_USE);
if (fs_index < 0)
return 0;
if (seg_ctx_index == ~0)
{
pool_get_zero (cm->app_seg_ctxs, seg_ctx);
seg_ctx_index = seg_ctx - cm->app_seg_ctxs;
hash_set (cm->app_segs_ctxs_table, table_handle, seg_ctx_index);
seg_ctx->server_wrk = server_wrk->wrk_index;
seg_ctx->client_wrk = client_wrk_index;
seg_ctx->sm_index = sm_index;
seg_ctx->fifo_pair_bytes = pair_bytes;
}
else
{
seg_ctx = pool_elt_at_index (cm->app_seg_ctxs, seg_ctx_index);
}
pool_get_zero (seg_ctx->segments, ct_seg);
ct_seg->segment_index = fs_index;
ct_seg->server_n_sessions = 0;
ct_seg->client_n_sessions = 0;
ct_seg->ct_seg_index = ct_seg - seg_ctx->segments;
ct_seg->seg_ctx_index = seg_ctx_index;
/* New segment, notify the server and client */
seg_handle = segment_manager_make_segment_handle (sm_index, fs_index);
if (app_worker_add_segment_notify (server_wrk, seg_handle))
goto error;
client_wrk = app_worker_get (client_wrk_index);
if (app_worker_add_segment_notify (client_wrk, seg_handle))
{
app_worker_del_segment_notify (server_wrk, seg_handle);
goto error;
}
return ct_seg;
error:
segment_manager_lock_and_del_segment (sm, fs_index);
pool_put_index (seg_ctx->segments, ct_seg->seg_ctx_index);
return 0;
}
static int
ct_init_accepted_session (app_worker_t *server_wrk, ct_connection_t *ct,
session_t *ls, session_t *ll)
{
segment_manager_props_t *props;
u64 seg_handle, table_handle;
u32 sm_index, fs_index = ~0;
ct_segments_ctx_t *seg_ctx;
ct_main_t *cm = &ct_main;
application_t *server;
segment_manager_t *sm;
ct_segment_t *ct_seg;
fifo_segment_t *fs;
uword *spp;
int rv;
sm = app_worker_get_listen_segment_manager (server_wrk, ll);
sm_index = segment_manager_index (sm);
server = application_get (server_wrk->app_index);
props = application_segment_manager_properties (server);
table_handle = ct->client_wrk << 16 | server_wrk->wrk_index;
table_handle = (u64) sm_index << 32 | table_handle;
/*
* Check if we already have a segment that can hold the fifos
*/
clib_rwlock_reader_lock (&cm->app_segs_lock);
spp = hash_get (cm->app_segs_ctxs_table, table_handle);
if (spp)
{
ct_seg = ct_lookup_free_segment (cm, sm, *spp);
if (ct_seg)
{
ct->seg_ctx_index = ct_seg->seg_ctx_index;
ct->ct_seg_index = ct_seg->ct_seg_index;
fs_index = ct_seg->segment_index;
ct_seg->flags &=
~(CT_SEGMENT_F_SERVER_DETACHED | CT_SEGMENT_F_CLIENT_DETACHED);
__atomic_add_fetch (&ct_seg->server_n_sessions, 1, __ATOMIC_RELAXED);
__atomic_add_fetch (&ct_seg->client_n_sessions, 1, __ATOMIC_RELAXED);
}
}
clib_rwlock_reader_unlock (&cm->app_segs_lock);
/*
* If not, grab exclusive lock and allocate segment
*/
if (fs_index == ~0)
{
clib_rwlock_writer_lock (&cm->app_segs_lock);
ct_seg =
ct_alloc_segment (cm, server_wrk, table_handle, sm, ct->client_wrk);
if (!ct_seg)
{
clib_rwlock_writer_unlock (&cm->app_segs_lock);
return -1;
}
ct->seg_ctx_index = ct_seg->seg_ctx_index;
ct->ct_seg_index = ct_seg->ct_seg_index;
ct_seg->server_n_sessions += 1;
ct_seg->client_n_sessions += 1;
fs_index = ct_seg->segment_index;
clib_rwlock_writer_unlock (&cm->app_segs_lock);
}
/*
* Allocate and initialize the fifos
*/
fs = segment_manager_get_segment_w_lock (sm, fs_index);
rv = segment_manager_try_alloc_fifos (
fs, ls->thread_index, props->rx_fifo_size, props->tx_fifo_size,
&ls->rx_fifo, &ls->tx_fifo);
if (rv)
{
segment_manager_segment_reader_unlock (sm);
clib_rwlock_reader_lock (&cm->app_segs_lock);
seg_ctx = pool_elt_at_index (cm->app_seg_ctxs, ct->seg_ctx_index);
ct_seg = pool_elt_at_index (seg_ctx->segments, ct->ct_seg_index);
__atomic_sub_fetch (&ct_seg->server_n_sessions, 1, __ATOMIC_RELAXED);
__atomic_sub_fetch (&ct_seg->client_n_sessions, 1, __ATOMIC_RELAXED);
clib_rwlock_reader_unlock (&cm->app_segs_lock);
return rv;
}
ls->rx_fifo->shr->master_session_index = ls->session_index;
ls->tx_fifo->shr->master_session_index = ls->session_index;
ls->rx_fifo->master_thread_index = ls->thread_index;
ls->tx_fifo->master_thread_index = ls->thread_index;
ls->rx_fifo->segment_manager = sm_index;
ls->tx_fifo->segment_manager = sm_index;
ls->rx_fifo->segment_index = fs_index;
ls->tx_fifo->segment_index = fs_index;
seg_handle = segment_manager_segment_handle (sm, fs);
segment_manager_segment_reader_unlock (sm);
ct->segment_handle = seg_handle;
return 0;
}
static void
ct_accept_rpc_wrk_handler (void *accept_args)
{
u32 cct_index, ho_index, thread_index, ll_index;
ct_connection_t *sct, *cct, *ho;
transport_connection_t *ll_ct;
app_worker_t *server_wrk;
session_t *ss, *ll;
/*
* Alloc client ct and initialize from ho
*/
thread_index = vlib_get_thread_index ();
cct = ct_connection_alloc (thread_index);
cct_index = cct->c_c_index;
ho_index = pointer_to_uword (accept_args);
ho = ct_connection_get (ho_index, 0);
/* Unlikely but half-open session and transport could have been freed */
if (PREDICT_FALSE (!ho))
{
ct_connection_free (cct);
return;
}
clib_memcpy (cct, ho, sizeof (*ho));
cct->c_c_index = cct_index;
cct->c_thread_index = thread_index;
cct->flags |= CT_CONN_F_HALF_OPEN;
/* Notify session layer that half-open is on a different thread
* and mark ho connection index reusable. Avoids another rpc
*/
session_half_open_migrate_notify (&cct->connection);
session_half_open_migrated_notify (&cct->connection);
ct_half_open_add_reusable (ho_index);
/*
* Alloc and init server transport
*/
ll_index = cct->peer_index;
ll = listen_session_get (ll_index);
sct = ct_connection_alloc (thread_index);
/* Transport not necessarily ct but it might, so grab after sct alloc */
ll_ct = listen_session_get_transport (ll);
/* Make sure cct is valid after sct alloc */
cct = ct_connection_get (cct_index, thread_index);
sct->c_rmt_port = 0;
sct->c_lcl_port = ll_ct->lcl_port;
sct->c_is_ip4 = cct->c_is_ip4;
clib_memcpy (&sct->c_lcl_ip, &cct->c_rmt_ip, sizeof (cct->c_rmt_ip));
sct->client_wrk = cct->client_wrk;
sct->c_proto = TRANSPORT_PROTO_NONE;
sct->client_opaque = cct->client_opaque;
sct->actual_tp = cct->actual_tp;
sct->peer_index = cct->c_c_index;
cct->peer_index = sct->c_c_index;
/*
* Accept server session. Client session is created only after
* server confirms accept.
*/
ss = session_alloc (thread_index);
ll = listen_session_get (ll_index);
ss->session_type = session_type_from_proto_and_ip (TRANSPORT_PROTO_NONE,
sct->c_is_ip4);
ss->connection_index = sct->c_c_index;
ss->listener_handle = listen_session_get_handle (ll);
ss->session_state = SESSION_STATE_CREATED;
server_wrk = application_listener_select_worker (ll);
ss->app_wrk_index = server_wrk->wrk_index;
sct->c_s_index = ss->session_index;
sct->server_wrk = ss->app_wrk_index;
if (ct_init_accepted_session (server_wrk, sct, ss, ll))
{
ct_session_connect_notify (ss, SESSION_E_ALLOC);
ct_connection_free (sct);
session_free (ss);
return;
}
cct->server_wrk = sct->server_wrk;
cct->seg_ctx_index = sct->seg_ctx_index;
cct->ct_seg_index = sct->ct_seg_index;
cct->client_rx_fifo = ss->tx_fifo;
cct->client_tx_fifo = ss->rx_fifo;
cct->client_rx_fifo->refcnt++;
cct->client_tx_fifo->refcnt++;
cct->segment_handle = sct->segment_handle;
ss->session_state = SESSION_STATE_ACCEPTING;
if (app_worker_accept_notify (server_wrk, ss))
{
ct_session_connect_notify (ss, SESSION_E_REFUSED);
ct_session_dealloc_fifos (sct, ss->rx_fifo, ss->tx_fifo);
ct_connection_free (sct);
session_free (ss);
}
}
static int
ct_connect (app_worker_t * client_wrk, session_t * ll,
session_endpoint_cfg_t * sep)
{
u32 thread_index, ho_index;
ct_main_t *cm = &ct_main;
ct_connection_t *ho;
/* Simple round-robin policy for spreading sessions over workers. We skip
* thread index 0, i.e., offset the index by 1, when we have workers as it
* is the one dedicated to main thread. Note that n_workers does not include
* main thread */
cm->n_sessions += 1;
thread_index = cm->n_workers ? (cm->n_sessions % cm->n_workers) + 1 : 0;
/*
* Alloc and init client half-open transport
*/
ho = ct_half_open_alloc ();
ho_index = ho->c_c_index;
ho->c_rmt_port = sep->port;
ho->c_lcl_port = 0;
ho->c_is_ip4 = sep->is_ip4;
ho->client_opaque = sep->opaque;
ho->client_wrk = client_wrk->wrk_index;
ho->peer_index = ll->session_index;
ho->c_proto = TRANSPORT_PROTO_NONE;
ho->c_flags |= TRANSPORT_CONNECTION_F_NO_LOOKUP;
clib_memcpy (&ho->c_rmt_ip, &sep->ip, sizeof (sep->ip));
ho->flags |= CT_CONN_F_CLIENT;
ho->c_s_index = ~0;
ho->actual_tp = sep->original_tp;
/*
* Accept connection on thread selected above. Connected reply comes
* after server accepts the connection.
*/
session_send_rpc_evt_to_thread_force (thread_index,
ct_accept_rpc_wrk_handler,
uword_to_pointer (ho_index, void *));
return ho_index;
}
static u32
ct_start_listen (u32 app_listener_index, transport_endpoint_t * tep)
{
session_endpoint_cfg_t *sep;
ct_connection_t *ct;
sep = (session_endpoint_cfg_t *) tep;
ct = ct_connection_alloc (0);
ct->server_wrk = sep->app_wrk_index;
ct->c_is_ip4 = sep->is_ip4;
clib_memcpy (&ct->c_lcl_ip, &sep->ip, sizeof (sep->ip));
ct->c_lcl_port = sep->port;
ct->c_s_index = app_listener_index;
ct->actual_tp = sep->transport_proto;
return ct->c_c_index;
}
static u32
ct_stop_listen (u32 ct_index)
{
ct_connection_t *ct;
ct = ct_connection_get (ct_index, 0);
ct_connection_free (ct);
return 0;
}
static transport_connection_t *
ct_listener_get (u32 ct_index)
{
return (transport_connection_t *) ct_connection_get (ct_index, 0);
}
static transport_connection_t *
ct_half_open_get (u32 ct_index)
{
return (transport_connection_t *) ct_connection_get (ct_index, 0);
}
static void
ct_session_cleanup (u32 conn_index, u32 thread_index)
{
ct_connection_t *ct, *peer_ct;
ct = ct_connection_get (conn_index, thread_index);
if (!ct)
return;
peer_ct = ct_connection_get (ct->peer_index, thread_index);
if (peer_ct)
peer_ct->peer_index = ~0;
ct_connection_free (ct);
}
static void
ct_cleanup_ho (u32 ho_index)
{
ct_connection_free (ct_connection_get (ho_index, 0));
}
static int
ct_session_connect (transport_endpoint_cfg_t * tep)
{
session_endpoint_cfg_t *sep_ext;
session_endpoint_t _sep, *sep = &_sep;
app_worker_t *app_wrk;
session_handle_t lh;
application_t *app;
app_listener_t *al;
u32 table_index;
session_t *ll;
u8 fib_proto;
sep_ext = (session_endpoint_cfg_t *) tep;
_sep = *(session_endpoint_t *) tep;
app_wrk = app_worker_get (sep_ext->app_wrk_index);
app = application_get (app_wrk->app_index);
sep->transport_proto = sep_ext->original_tp;
table_index = application_local_session_table (app);
lh = session_lookup_local_endpoint (table_index, sep);
if (lh == SESSION_DROP_HANDLE)
return SESSION_E_FILTERED;
if (lh == SESSION_INVALID_HANDLE)
goto global_scope;
ll = listen_session_get_from_handle (lh);
al = app_listener_get_w_session (ll);
/*
* Break loop if rule in local table points to connecting app. This
* can happen if client is a generic proxy. Route connect through
* global table instead.
*/
if (al->app_index == app->app_index)
goto global_scope;
return ct_connect (app_wrk, ll, sep_ext);
/*
* If nothing found, check the global scope for locally attached
* destinations. Make sure first that we're allowed to.
*/
global_scope:
if (session_endpoint_is_local (sep))
return SESSION_E_NOROUTE;
if (!application_has_global_scope (app))
return SESSION_E_SCOPE;
fib_proto = session_endpoint_fib_proto (sep);
table_index = session_lookup_get_index_for_fib (fib_proto, sep->fib_index);
ll = session_lookup_listener_wildcard (table_index, sep);
/* Avoid connecting app to own listener */
if (ll && ll->app_index != app->app_index)
return ct_connect (app_wrk, ll, sep_ext);
/* Failed to connect but no error */
return SESSION_E_LOCAL_CONNECT;
}
static void
ct_session_postponed_cleanup (ct_connection_t *ct)
{
app_worker_t *app_wrk;
session_t *s;
s = session_get (ct->c_s_index, ct->c_thread_index);
app_wrk = app_worker_get_if_valid (s->app_wrk_index);
if (ct->flags & CT_CONN_F_CLIENT)
{
if (app_wrk)
app_worker_cleanup_notify (app_wrk, s, SESSION_CLEANUP_TRANSPORT);
/* Normal free for client session as the fifos are allocated through
* the connects segment manager in a segment that's not shared with
* the server */
ct_session_dealloc_fifos (ct, ct->client_rx_fifo, ct->client_tx_fifo);
session_free_w_fifos (s);
}
else
{
/* Manual session and fifo segment cleanup to avoid implicit
* segment manager cleanups and notifications */
app_wrk = app_worker_get_if_valid (s->app_wrk_index);
if (app_wrk)
{
app_worker_cleanup_notify (app_wrk, s, SESSION_CLEANUP_TRANSPORT);
app_worker_cleanup_notify (app_wrk, s, SESSION_CLEANUP_SESSION);
}
ct_session_dealloc_fifos (ct, s->rx_fifo, s->tx_fifo);
session_free (s);
}
ct_connection_free (ct);
}
static void
ct_handle_cleanups (void *args)
{
uword thread_index = pointer_to_uword (args);
const u32 max_cleanups = 100;
ct_cleanup_req_t *req;
ct_connection_t *ct;
u32 n_to_handle = 0;
ct_worker_t *wrk;
session_t *s;
wrk = ct_worker_get (thread_index);
wrk->have_cleanups = 0;
n_to_handle = clib_fifo_elts (wrk->pending_cleanups);
n_to_handle = clib_min (n_to_handle, max_cleanups);
while (n_to_handle)
{
clib_fifo_sub2 (wrk->pending_cleanups, req);
ct = ct_connection_get (req->ct_index, thread_index);
s = session_get (ct->c_s_index, ct->c_thread_index);
if (!svm_fifo_has_event (s->tx_fifo))
ct_session_postponed_cleanup (ct);
else
clib_fifo_add1 (wrk->pending_cleanups, *req);
n_to_handle -= 1;
}
if (clib_fifo_elts (wrk->pending_cleanups))
{
wrk->have_cleanups = 1;
session_send_rpc_evt_to_thread_force (
thread_index, ct_handle_cleanups,
uword_to_pointer (thread_index, void *));
}
}
static void
ct_program_cleanup (ct_connection_t *ct)
{
ct_cleanup_req_t *req;
uword thread_index;
ct_worker_t *wrk;
thread_index = ct->c_thread_index;
wrk = ct_worker_get (ct->c_thread_index);
clib_fifo_add2 (wrk->pending_cleanups, req);
req->ct_index = ct->c_c_index;
if (wrk->have_cleanups)
return;
wrk->have_cleanups = 1;
session_send_rpc_evt_to_thread_force (
thread_index, ct_handle_cleanups, uword_to_pointer (thread_index, void *));
}
static inline int
ct_close_is_reset (ct_connection_t *ct, session_t *s)
{
if (ct->flags & CT_CONN_F_CLIENT)
return (svm_fifo_max_dequeue (ct->client_rx_fifo) > 0);
else
return (svm_fifo_max_dequeue (s->rx_fifo) > 0);
}
static void
ct_session_close (u32 ct_index, u32 thread_index)
{
ct_connection_t *ct, *peer_ct;
session_t *s;
ct = ct_connection_get (ct_index, thread_index);
s = session_get (ct->c_s_index, ct->c_thread_index);
peer_ct = ct_connection_get (ct->peer_index, thread_index);
if (peer_ct)
{
peer_ct->peer_index = ~0;
/* Make sure session was allocated */
if (peer_ct->flags & CT_CONN_F_HALF_OPEN)
{
ct_session_connect_notify (s, SESSION_E_REFUSED);
}
else if (peer_ct->c_s_index != ~0)
{
if (ct_close_is_reset (ct, s))
session_transport_reset_notify (&peer_ct->connection);
else
session_transport_closing_notify (&peer_ct->connection);
}
else
{
/* should not happen */
clib_warning ("ct peer without session");
ct_connection_free (peer_ct);
}
}
/* Do not send closed notify to make sure pending tx events are
* still delivered and program cleanup */
ct_program_cleanup (ct);
}
static transport_connection_t *
ct_session_get (u32 ct_index, u32 thread_index)
{
return (transport_connection_t *) ct_connection_get (ct_index,
thread_index);
}
static u8 *
format_ct_connection_id (u8 * s, va_list * args)
{
ct_connection_t *ct = va_arg (*args, ct_connection_t *);
if (!ct)
return s;
if (ct->c_is_ip4)
{
s = format (s, "[%d:%d][CT:%U] %U:%d->%U:%d", ct->c_thread_index,
ct->c_s_index, format_transport_proto_short, ct->actual_tp,
format_ip4_address, &ct->c_lcl_ip4,
clib_net_to_host_u16 (ct->c_lcl_port), format_ip4_address,
&ct->c_rmt_ip4, clib_net_to_host_u16 (ct->c_rmt_port));
}
else
{
s = format (s, "[%d:%d][CT:%U] %U:%d->%U:%d", ct->c_thread_index,
ct->c_s_index, format_transport_proto_short, ct->actual_tp,
format_ip6_address, &ct->c_lcl_ip6,
clib_net_to_host_u16 (ct->c_lcl_port), format_ip6_address,
&ct->c_rmt_ip6, clib_net_to_host_u16 (ct->c_rmt_port));
}
return s;
}
static int
ct_custom_tx (void *session, transport_send_params_t * sp)
{
session_t *s = (session_t *) session;
if (session_has_transport (s))
return 0;
/* If event enqueued towards peer, remove from scheduler and remove
* session tx flag, i.e., accept new tx events. Unset fifo flag now to
* avoid missing events if peer did not clear fifo flag yet, which is
* interpreted as successful notification and session is descheduled. */
svm_fifo_unset_event (s->tx_fifo);
if (!ct_session_tx (s))
sp->flags = TRANSPORT_SND_F_DESCHED;
/* The scheduler uses packet count as a means of upper bounding the amount
* of work done per dispatch. So make it look like we have sent something */
return 1;
}
static int
ct_app_rx_evt (transport_connection_t * tc)
{
ct_connection_t *ct = (ct_connection_t *) tc, *peer_ct;
session_t *ps;
peer_ct = ct_connection_get (ct->peer_index, tc->thread_index);
if (!peer_ct)
return -1;
ps = session_get (peer_ct->c_s_index, peer_ct->c_thread_index);
return session_dequeue_notify (ps);
}
static u8 *
format_ct_listener (u8 * s, va_list * args)
{
u32 tc_index = va_arg (*args, u32);
u32 __clib_unused thread_index = va_arg (*args, u32);
u32 __clib_unused verbose = va_arg (*args, u32);
ct_connection_t *ct = ct_connection_get (tc_index, 0);
s = format (s, "%-" SESSION_CLI_ID_LEN "U", format_ct_connection_id, ct);
if (verbose)
s = format (s, "%-" SESSION_CLI_STATE_LEN "s", "LISTEN");
return s;
}
static u8 *
format_ct_half_open (u8 *s, va_list *args)
{
u32 ho_index = va_arg (*args, u32);
u32 verbose = va_arg (*args, u32);
ct_connection_t *ct = ct_connection_get (ho_index, 0);
s = format (s, "%-" SESSION_CLI_ID_LEN "U", format_ct_connection_id, ct);
if (verbose)
s = format (s, "%-" SESSION_CLI_STATE_LEN "s", "HALF-OPEN");
return s;
}
static u8 *
format_ct_connection (u8 * s, va_list * args)
{
ct_connection_t *ct = va_arg (*args, ct_connection_t *);
u32 verbose = va_arg (*args, u32);
if (!ct)
return s;
s = format (s, "%-" SESSION_CLI_ID_LEN "U", format_ct_connection_id, ct);
if (verbose)
{
s = format (s, "%-" SESSION_CLI_STATE_LEN "s", "ESTABLISHED");
if (verbose > 1)
{
s = format (s, "\n");
}
}
return s;
}
static u8 *
format_ct_session (u8 * s, va_list * args)
{
u32 ct_index = va_arg (*args, u32);
u32 thread_index = va_arg (*args, u32);
u32 verbose = va_arg (*args, u32);
ct_connection_t *ct;
ct = ct_connection_get (ct_index, thread_index);
if (!ct)
{
s = format (s, "empty\n");
return s;
}
s = format (s, "%U", format_ct_connection, ct, verbose);
return s;
}
clib_error_t *
ct_enable_disable (vlib_main_t * vm, u8 is_en)
{
vlib_thread_main_t *vtm = &vlib_thread_main;
ct_main_t *cm = &ct_main;
cm->n_workers = vlib_num_workers ();
vec_validate (cm->wrk, vtm->n_vlib_mains);
clib_spinlock_init (&cm->ho_reuseable_lock);
clib_rwlock_init (&cm->app_segs_lock);
return 0;
}
/* *INDENT-OFF* */
static const transport_proto_vft_t cut_thru_proto = {
.enable = ct_enable_disable,
.start_listen = ct_start_listen,
.stop_listen = ct_stop_listen,
.get_connection = ct_session_get,
.get_listener = ct_listener_get,
.get_half_open = ct_half_open_get,
.cleanup = ct_session_cleanup,
.cleanup_ho = ct_cleanup_ho,
.connect = ct_session_connect,
.close = ct_session_close,
.custom_tx = ct_custom_tx,
.app_rx_evt = ct_app_rx_evt,
.format_listener = format_ct_listener,
.format_half_open = format_ct_half_open,
.format_connection = format_ct_session,
.transport_options = {
.name = "ct",
.short_name = "C",
.tx_type = TRANSPORT_TX_INTERNAL,
.service_type = TRANSPORT_SERVICE_VC,
},
};
/* *INDENT-ON* */
int
ct_session_tx (session_t * s)
{
ct_connection_t *ct, *peer_ct;
session_t *peer_s;
ct = (ct_connection_t *) session_get_transport (s);
peer_ct = ct_connection_get (ct->peer_index, ct->c_thread_index);
if (!peer_ct)
return 0;
peer_s = session_get (peer_ct->c_s_index, peer_ct->c_thread_index);
if (peer_s->session_state >= SESSION_STATE_TRANSPORT_CLOSING)
return 0;
return session_enqueue_notify (peer_s);
}
static clib_error_t *
ct_transport_init (vlib_main_t * vm)
{
transport_register_protocol (TRANSPORT_PROTO_NONE, &cut_thru_proto,
FIB_PROTOCOL_IP4, ~0);
transport_register_protocol (TRANSPORT_PROTO_NONE, &cut_thru_proto,
FIB_PROTOCOL_IP6, ~0);
return 0;
}
VLIB_INIT_FUNCTION (ct_transport_init);
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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