/* * Copyright (c) 2021 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this * 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. */ /** * VCL Locked Sessions (VLS) is a wrapper that synchronizes access to VCL APIs * which are, by construction, not thread safe. To this end, VLS uses * configuration and heuristics to detect how applications use sessions in * an attempt to optimize the locking strategy. The modes of operation * currently supported are the following: * * 1) per-process workers * * +----------+ +----------+ * | | | | * | process0 | | process1 | * | | | | * +-----+----+ +-----+----+ * | | * | | * +-----+----+ +-----+----+ * | | | | * | vls_wrk0 | | vls_wrk1 | * | | | | * +-----+----+ +-----+----+ * | | * | | * +-----+----+ +-----+----+ * | | | | * | vcl_wrk0 | | vcl_wrk1 | * | | | | * +----------+ +----------+ * * 2) per-thread workers 3) single-worker multi-thread * * +---------+ +---------+ +---------+ +---------+ * | | | | | | | | * | thread0 | | thread1 | | thread0 | | thread1 | * | | | | | | | | * +--------++ +-+-------+ +--------++ +-+-------+ * | | | | * | | | | * +-+------+-+ +-+------+-+ * | | | | * | vls_wrk0 | | vls_wrk0 | * | | | | * +-+------+-+ +----+-----+ * | | | * | | | * +--------+-+ +-+--------+ +----+-----+ * | | | | | | * | vcl_wrk0 | | vcl_wrk1 | | vcl_wrk0 | * | | | | | | * +----------+ +----------+ +----------+ * * 1) per-process workers: intercept fork calls and assume all children * processes are new workers that must be registered with vcl. VLS * sessions are cloned and shared between workers. Only shared sessions * are locked on use and thereby only one process can interact with * them at a time (explicit sharing). * * 2) per-thread workers: each newly detected pthread is assumed to be a new * worker and is registered with vcl. Enabled via configuration. * When a thread tries to access a session it does not own, a clone and * share rpc request is sent to the owning thread via vcl and vpp. * Consequently, a vls session can map to multiple vcl sessions, one per * vcl worker. VLS sessions are locked on use (implicit sharing). * * 3) single-worker multi-thread: vls does not make any assumptions about * application threads and therefore implements an aggressive locking * strategy that limits access to underlying vcl resources based on type * of interaction and locks vls session on use (implicit sharing). */ #include #include typedef struct vls_shared_data_ { clib_spinlock_t lock; /**< shared data lock */ u32 owner_wrk_index; /**< vcl wrk that owns session */ u32 *workers_subscribed; /**< vec of wrks subscribed to session */ clib_bitmap_t *listeners; /**< bitmap of wrks actively listening */ } vls_shared_data_t; typedef struct vcl_locked_session_ { clib_spinlock_t lock; /**< vls lock when in use */ u32 session_index; /**< vcl session index */ u32 vcl_wrk_index; /**< vcl worker index */ u32 vls_index; /**< index in vls pool */ u32 shared_data_index; /**< shared data index if any */ u32 owner_vcl_wrk_index; /**< vcl wrk of the vls wrk at alloc */ uword *vcl_wrk_index_to_session_index; /**< map vcl wrk to session */ } vcl_locked_session_t; typedef struct vls_worker_ { clib_rwlock_t sh_to_vlsh_table_lock; /**< ht rwlock with mt workers */ vcl_locked_session_t *vls_pool; /**< pool of vls session */ uword *sh_to_vlsh_table; /**< map from vcl sh to vls sh */ u32 *pending_vcl_wrk_cleanup; /**< child vcl wrks to cleanup */ u32 vcl_wrk_index; /**< if 1:1 map vls to vcl wrk */ } vls_worker_t; typedef struct vls_local_ { int vls_wrk_index; /**< vls wrk index, 1 per process */ volatile int vls_mt_n_threads; /**< number of threads detected */ clib_rwlock_t vls_pool_lock; /**< per process/wrk vls pool locks */ pthread_mutex_t vls_mt_mq_mlock; /**< vcl mq lock */ pthread_mutex_t vls_mt_spool_mlock; /**< vcl select or pool lock */ volatile u8 select_mp_check; /**< flag set if select checks done */ } vls_process_local_t; static vls_process_local_t vls_local; static vls_process_local_t *vlsl = &vls_local; typedef struct vls_main_ { vls_worker_t *workers; /**< pool of vls workers */ vls_shared_data_t *shared_data_pool; /**< inter proc pool of shared data */ clib_rwlock_t shared_data_lock; /**< shared data pool lock */ clib_spinlock_t worker_rpc_lock; /**< lock for inter-worker rpcs */ } vls_main_t; vls_main_t *vlsm; typedef enum { VLS_RPC_STATE_INIT, VLS_RPC_STATE_SUCCESS, VLS_RPC_STATE_SESSION_NOT_EXIST, } vls_rpc_state_e; typedef enum vls_rpc_msg_type_ { VLS_RPC_CLONE_AND_SHARE, VLS_RPC_SESS_CLEANUP, } vls_rpc_msg_type_e; typedef struct vls_rpc_msg_ { u8 type; u8 data[0]; } vls_rpc_msg_t; typedef struct vls_clone_and_share_msg_ { u32 vls_index; /**< vls to be shared */ u32 session_index; /**< vcl session to be shared */ u32 origin_vls_wrk; /**< vls worker that initiated the rpc */ u32 origin_vls_index; /**< vls session of the originator */ u32 origin_vcl_wrk; /**< vcl worker that initiated the rpc */ u32 origin_session_index; /**< vcl session of the originator */ } vls_clone_and_share_msg_t; typedef struct vls_sess_cleanup_msg_ { u32 session_index; /**< vcl session to be cleaned */ u32 origin_vcl_wrk; /**< worker that initiated the rpc */ } vls_sess_cleanup_msg_t; void vls_send_session_cleanup_rpc (vcl_worker_t * wrk, u32 dst_wrk_index, u32 dst_session_index); void vls_send_clone_and_share_rpc (vcl_worker_t *wrk, u32 origin_vls_index, u32 session_index, u32 vls_wrk_index, u32 dst_wrk_index, u32 dst_vls_index, u32 dst_session_index); static void vls_cleanup_forked_child (vcl_worker_t *wrk, vcl_worker_t *child_wrk); static void vls_handle_pending_wrk_cleanup (void); static inline u32 vls_get_worker_index (void) { return vlsl->vls_wrk_index; } static u32 vls_shared_data_alloc (void) { vls_shared_data_t *vls_shd; u32 shd_index; clib_rwlock_writer_lock (&vlsm->shared_data_lock); pool_get_zero (vlsm->shared_data_pool, vls_shd); clib_spinlock_init (&vls_shd->lock); shd_index = vls_shd - vlsm->shared_data_pool; clib_rwlock_writer_unlock (&vlsm->shared_data_lock); return shd_index; } static u32 vls_shared_data_index (vls_shared_data_t * vls_shd) { return vls_shd - vlsm->shared_data_pool; } vls_shared_data_t * vls_shared_data_get (u32 shd_index) { if (pool_is_free_index (vlsm->shared_data_pool, shd_index)) return 0; return pool_elt_at_index (vlsm->shared_data_pool, shd_index); } static void vls_shared_data_free (u32 shd_index) { vls_shared_data_t *vls_shd; clib_rwlock_writer_lock (&vlsm->shared_data_lock); vls_shd = vls_shared_data_get (shd_index); clib_spinlock_free (&vls_shd->lock); clib_bitmap_free (vls_shd->listeners); vec_free (vls_shd->workers_subscribed); pool_put (vlsm->shared_data_pool, vls_shd); clib_rwlock_writer_unlock (&vlsm->shared_data_lock); } static inline void vls_shared_data_pool_rlock (void) { clib_rwlock_reader_lock (&vlsm->shared_data_lock); } static inline void vls_shared_data_pool_runlock (void) { clib_rwlock_reader_unlock (&vlsm->shared_data_lock); } static inline void vls_mt_pool_rlock (void) { if (vlsl->vls_mt_n_threads > 1) clib_rwlock_reader_lock (&vlsl->vls_pool_lock); } static inline void vls_mt_pool_runlock (void) { if (vlsl->vls_mt_n_threads > 1) clib_rwlock_reader_unlock (&vlsl->vls_pool_lock); } static inline void vls_mt_pool_wlock (void) { if (vlsl->vls_mt_n_threads > 1) clib_rwlock_writer_lock (&vlsl->vls_pool_lock); } static inline void vls_mt_pool_wunlock (void) { if (vlsl->vls_mt_n_threads > 1) clib_rwlock_writer_unlock (&vlsl->vls_pool_lock); } typedef enum { VLS_MT_OP_READ, VLS_MT_OP_WRITE, VLS_MT_OP_SPOOL, VLS_MT_OP_XPOLL, } vls_mt_ops_t; typedef enum { VLS_MT_LOCK_MQ = 1 << 0, VLS_MT_LOCK_SPOOL = 1 << 1 } vls_mt_lock_type_t; static void vls_mt_add (void) { vlsl->vls_mt_n_threads += 1; /* If multi-thread workers are supported, for each new thread register a new * vcl worker with vpp. Otherwise, all threads use the same vcl worker, so * update the vcl worker's thread local worker index variable */ if (vls_mt_wrk_supported ()) { if (vppcom_worker_register () != VPPCOM_OK) VERR ("failed to register worker"); } else vcl_set_worker_index (vlsl->vls_wrk_index); } static inline void vls_mt_mq_lock (void) { pthread_mutex_lock (&vlsl->vls_mt_mq_mlock); } static inline void vls_mt_mq_unlock (void) { pthread_mutex_unlock (&vlsl->vls_mt_mq_mlock); } static inline void vls_mt_spool_lock (void) { pthread_mutex_lock (&vlsl->vls_mt_spool_mlock); } static inline void vls_mt_create_unlock (void) { pthread_mutex_unlock (&vlsl->vls_mt_spool_mlock); } static void vls_mt_locks_init (void) { pthread_mutex_init (&vlsl->vls_mt_mq_mlock, NULL); pthread_mutex_init (&vlsl->vls_mt_spool_mlock, NULL); } u8 vls_is_shared (vcl_locked_session_t * vls) { return (vls->shared_data_index != ~0); } static inline void vls_lock (vcl_locked_session_t * vls) { if ((vlsl->vls_mt_n_threads > 1) || vls_is_shared (vls)) clib_spinlock_lock (&vls->lock); } static inline void vls_unlock (vcl_locked_session_t * vls) { if ((vlsl->vls_mt_n_threads > 1) || vls_is_shared (vls)) clib_spinlock_unlock (&vls->lock); } static inline vcl_session_handle_t vls_to_sh (vcl_locked_session_t * vls) { return vcl_session_handle_from_index (vls->session_index); } static inline vcl_session_handle_t vls_to_sh_tu (vcl_locked_session_t * vls) { vcl_session_handle_t sh; sh = vls_to_sh (vls); vls_mt_pool_runlock (); return sh; } static vls_worker_t * vls_worker_get_current (void) { return pool_elt_at_index (vlsm->workers, vls_get_worker_index ()); } static void vls_worker_alloc (void) { vls_worker_t *wrk; pool_get_zero (vlsm->workers, wrk); if (vls_mt_wrk_supported ()) clib_rwlock_init (&wrk->sh_to_vlsh_table_lock); wrk->vcl_wrk_index = vcl_get_worker_index (); vec_validate (wrk->pending_vcl_wrk_cleanup, 16); vec_reset_length (wrk->pending_vcl_wrk_cleanup); } static void vls_worker_free (vls_worker_t * wrk) { hash_free (wrk->sh_to_vlsh_table); if (vls_mt_wrk_supported ()) clib_rwlock_free (&wrk->sh_to_vlsh_table_lock); pool_free (wrk->vls_pool); pool_put (vlsm->workers, wrk); } static vls_worker_t * vls_worker_get (u32 wrk_index) { if (pool_is_free_index (vlsm->workers, wrk_index)) return 0; return pool_elt_at_index (vlsm->workers, wrk_index); } static void vls_sh_to_vlsh_table_add (vls_worker_t *wrk, vcl_session_handle_t sh, u32 vlsh) { if (vls_mt_wrk_supported ()) clib_rwlock_writer_lock (&wrk->sh_to_vlsh_table_lock); hash_set (wrk->sh_to_vlsh_table, sh, vlsh); if (vls_mt_wrk_supported ()) clib_rwlock_writer_unlock (&wrk->sh_to_vlsh_table_lock); } static void vls_sh_to_vlsh_table_del (vls_worker_t *wrk, vcl_session_handle_t sh) { if (vls_mt_wrk_supported ()) clib_rwlock_writer_lock (&wrk->sh_to_vlsh_table_lock); hash_unset (wrk->sh_to_vlsh_table, sh); if (vls_mt_wrk_supported ()) clib_rwlock_writer_unlock (&wrk->sh_to_vlsh_table_lock); } static uword * vls_sh_to_vlsh_table_get (vls_worker_t *wrk, vcl_session_handle_t sh) { if (vls_mt_wrk_supported ()) clib_rwlock_reader_lock (&wrk->sh_to_vlsh_table_lock); uword *vlshp = hash_get (wrk->sh_to_vlsh_table, sh); if (vls_mt_wrk_supported ()) clib_rwlock_reader_unlock (&wrk->sh_to_vlsh_table_lock); return vlshp; } static vls_handle_t vls_alloc (vcl_session_handle_t sh) { vls_worker_t *wrk = vls_worker_get_current (); vcl_locked_session_t *vls; vls_mt_pool_wlock (); pool_get_zero (wrk->vls_pool, vls); vls->session_index = vppcom_session_index (sh); vls->vcl_wrk_index = vppcom_session_worker (sh); vls->vls_index = vls - wrk->vls_pool; vls->shared_data_index = ~0; vls_sh_to_vlsh_table_add (wrk, sh, vls->vls_index); if (vls_mt_wrk_supported ()) { hash_set (vls->vcl_wrk_index_to_session_index, vls->vcl_wrk_index, vls->session_index); vls->owner_vcl_wrk_index = vls->vcl_wrk_index; } clib_spinlock_init (&vls->lock); vls_mt_pool_wunlock (); return vls->vls_index; } static vcl_locked_session_t * vls_get (vls_handle_t vlsh) { vls_worker_t *wrk = vls_worker_get_current (); if (pool_is_free_index (wrk->vls_pool, vlsh)) return 0; return pool_elt_at_index (wrk->vls_pool, vlsh); } static void vls_free (vcl_locked_session_t * vls) { vls_worker_t *wrk = vls_worker_get_current (); ASSERT (vls != 0); vls_sh_to_vlsh_table_del ( wrk, vcl_session_handle_from_index (vls->session_index)); clib_spinlock_free (&vls->lock); pool_put (wrk->vls_pool, vls); } static vcl_locked_session_t * vls_get_and_lock (vls_handle_t vlsh) { vls_worker_t *wrk = vls_worker_get_current (); vcl_locked_session_t *vls; if (pool_is_free_index (wrk->vls_pool, vlsh)) return 0; vls = pool_elt_at_index (wrk->vls_pool, vlsh); vls_lock (vls); return vls; } static vcl_locked_session_t * vls_get_w_dlock (vls_handle_t vlsh) { vcl_locked_session_t *vls; vls_mt_pool_rlock (); vls = vls_get_and_lock (vlsh); if (!vls) vls_mt_pool_runlock (); return vls; } static inline void vls_get_and_unlock (vls_handle_t vlsh) { vcl_locked_session_t *vls; vls_mt_pool_rlock (); vls = vls_get (vlsh); vls_unlock (vls); vls_mt_pool_runlock (); } static inline void vls_dunlock (vcl_locked_session_t * vls) { vls_unlock (vls); vls_mt_pool_runlock (); } static vcl_locked_session_t * vls_session_get (vls_worker_t * wrk, u32 vls_index) { if (pool_is_free_index (wrk->vls_pool, vls_index)) return 0; return pool_elt_at_index (wrk->vls_pool, vls_index); } vcl_session_handle_t vlsh_to_sh (vls_handle_t vlsh) { vcl_locked_session_t *vls; int rv; vls = vls_get_w_dlock (vlsh); if (!vls) return INVALID_SESSION_ID; rv = vls_to_sh (vls); vls_dunlock (vls); return rv; } vcl_session_handle_t vlsh_to_session_index (vls_handle_t vlsh) { vcl_session_handle_t sh; sh = vlsh_to_sh (vlsh); return vppcom_session_index (sh); } vls_handle_t vls_si_wi_to_vlsh (u32 session_index, u32 vcl_wrk_index) { vls_worker_t *wrk = vls_worker_get_current (); uword *vlshp = vls_sh_to_vlsh_table_get ( wrk, vcl_session_handle_from_wrk_session_index (session_index, vcl_wrk_index)); return vlshp ? *vlshp : VLS_INVALID_HANDLE; } vls_handle_t vls_session_index_to_vlsh (uint32_t session_index) { vls_handle_t vlsh; vls_mt_pool_rlock (); vlsh = vls_si_wi_to_vlsh (session_index, vcl_get_worker_index ()); vls_mt_pool_runlock (); return vlsh; } u8 vls_is_shared_by_wrk (vcl_locked_session_t * vls, u32 wrk_index) { vls_shared_data_t *vls_shd; int i; if (vls->shared_data_index == ~0) return 0; vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); clib_spinlock_lock (&vls_shd->lock); for (i = 0; i < vec_len (vls_shd->workers_subscribed); i++) if (vls_shd->workers_subscribed[i] == wrk_index) { clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); return 1; } clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); return 0; } static void vls_listener_wrk_set (vcl_locked_session_t * vls, u32 wrk_index, u8 is_active) { vls_shared_data_t *vls_shd; if (vls->shared_data_index == ~0) { clib_warning ("not a shared session"); return; } vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); clib_spinlock_lock (&vls_shd->lock); vls_shd->listeners = clib_bitmap_set (vls_shd->listeners, wrk_index, is_active); clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); } static u32 vls_shared_get_owner (vcl_locked_session_t * vls) { vls_shared_data_t *vls_shd; u32 owner_wrk; vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); owner_wrk = vls_shd->owner_wrk_index; vls_shared_data_pool_runlock (); return owner_wrk; } static u8 vls_listener_wrk_is_active (vcl_locked_session_t * vls, u32 wrk_index) { vls_shared_data_t *vls_shd; u8 is_set; if (vls->shared_data_index == ~0) { clib_warning ("not a shared session"); return 0; } vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); clib_spinlock_lock (&vls_shd->lock); is_set = clib_bitmap_get (vls_shd->listeners, wrk_index); clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); return (is_set == 1); } static void vls_listener_wrk_start_listen (vcl_locked_session_t * vls, u32 wrk_index) { vcl_worker_t *wrk; vcl_session_t *ls; wrk = vcl_worker_get (wrk_index); ls = vcl_session_get (wrk, vls->session_index); /* Listen request already sent */ if (ls->flags & VCL_SESSION_F_PENDING_LISTEN) return; vcl_send_session_listen (wrk, ls); vls_listener_wrk_set (vls, wrk_index, 1 /* is_active */); } static void vls_listener_wrk_stop_listen (vcl_locked_session_t * vls, u32 wrk_index) { vcl_worker_t *wrk; vcl_session_t *s; wrk = vcl_worker_get (wrk_index); s = vcl_session_get (wrk, vls->session_index); if (s->session_state != VCL_STATE_LISTEN) return; vcl_send_session_unlisten (wrk, s); s->session_state = VCL_STATE_LISTEN_NO_MQ; vls_listener_wrk_set (vls, wrk_index, 0 /* is_active */ ); } static int vls_shared_data_subscriber_position (vls_shared_data_t * vls_shd, u32 wrk_index) { int i; for (i = 0; i < vec_len (vls_shd->workers_subscribed); i++) { if (vls_shd->workers_subscribed[i] == wrk_index) return i; } return -1; } int vls_unshare_session (vcl_locked_session_t * vls, vcl_worker_t * wrk) { vls_shared_data_t *vls_shd; int do_disconnect, pos; u32 n_subscribers; vcl_session_t *s; if (vls->shared_data_index == ~0) return 0; s = vcl_session_get (wrk, vls->session_index); if (s->session_state == VCL_STATE_LISTEN) vls_listener_wrk_set (vls, wrk->wrk_index, 0 /* is_active */ ); vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); clib_spinlock_lock (&vls_shd->lock); pos = vls_shared_data_subscriber_position (vls_shd, wrk->wrk_index); if (pos < 0) { clib_warning ("worker %u not subscribed for vls %u", wrk->wrk_index, vls->vcl_wrk_index); goto done; } /* * Unsubscribe from share data and fifos */ if (s->rx_fifo) { svm_fifo_del_subscriber (s->rx_fifo, wrk->vpp_wrk_index); svm_fifo_del_subscriber (s->tx_fifo, wrk->vpp_wrk_index); } vec_del1 (vls_shd->workers_subscribed, pos); /* * Cleanup vcl state */ n_subscribers = vec_len (vls_shd->workers_subscribed); do_disconnect = s->session_state == VCL_STATE_LISTEN || !n_subscribers; vcl_session_cleanup (wrk, s, vcl_session_handle (s), do_disconnect); /* * No subscriber left, cleanup shared data */ if (!n_subscribers) { u32 shd_index = vls_shared_data_index (vls_shd); clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); vls_shared_data_free (shd_index); /* All locks have been dropped */ return 0; } /* Return, if this is not the owning worker */ if (vls_shd->owner_wrk_index != wrk->wrk_index) goto done; ASSERT (vec_len (vls_shd->workers_subscribed)); /* * Check if we can change owner or close */ vls_shd->owner_wrk_index = vls_shd->workers_subscribed[0]; if (s->vpp_evt_q) vcl_send_session_worker_update (wrk, s, vls_shd->owner_wrk_index); /* XXX is this still needed? */ if (vec_len (vls_shd->workers_subscribed) > 1) clib_warning ("more workers need to be updated"); done: clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); return 0; } void vls_init_share_session (vls_worker_t * vls_wrk, vcl_locked_session_t * vls) { vls_shared_data_t *vls_shd; u32 vls_shd_index = vls_shared_data_alloc (); vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls_shd_index); vls_shd->owner_wrk_index = vls_wrk->vcl_wrk_index; vls->shared_data_index = vls_shd_index; vec_add1 (vls_shd->workers_subscribed, vls_wrk->vcl_wrk_index); vls_shared_data_pool_runlock (); } void vls_share_session (vls_worker_t * vls_wrk, vcl_locked_session_t * vls) { vcl_worker_t *vcl_wrk = vcl_worker_get (vls_wrk->vcl_wrk_index); vls_shared_data_t *vls_shd; vcl_session_t *s; s = vcl_session_get (vcl_wrk, vls->session_index); if (!s) { clib_warning ("wrk %u session %u vls %u NOT AVAILABLE", vcl_wrk->wrk_index, vls->session_index, vls->vls_index); return; } ASSERT (vls->shared_data_index != ~0); /* Reinit session lock */ clib_spinlock_init (&vls->lock); vls_shared_data_pool_rlock (); vls_shd = vls_shared_data_get (vls->shared_data_index); clib_spinlock_lock (&vls_shd->lock); vec_add1 (vls_shd->workers_subscribed, vls_wrk->vcl_wrk_index); clib_spinlock_unlock (&vls_shd->lock); vls_shared_data_pool_runlock (); if (s->session_state == VCL_STATE_LISTEN) { s->session_state = VCL_STATE_LISTEN_NO_MQ; s->rx_fifo = s->tx_fifo = 0; } else if (s->rx_fifo) { vcl_session_share_fifos (s, s->rx_fifo, s->tx_fifo); } } static void vls_share_sessions (vls_worker_t * vls_parent_wrk, vls_worker_t * vls_wrk) { vcl_locked_session_t *vls, *parent_vls; pool_foreach (vls, vls_wrk->vls_pool) { /* Initialize sharing on parent session */ if (vls->shared_data_index == ~0) { parent_vls = vls_session_get (vls_parent_wrk, vls->vls_index); vls_init_share_session (vls_parent_wrk, parent_vls); vls->shared_data_index = parent_vls->shared_data_index; } vls_share_session (vls_wrk, vls); } } static void vls_validate_veps (vcl_worker_t *wrk) { vcl_session_t *s; u32 session_index, wrk_index; pool_foreach (s, wrk->sessions) { if (s->vep.vep_sh != ~0) { vcl_session_handle_parse (s->vep.vep_sh, &wrk_index, &session_index); s->vep.vep_sh = vcl_session_handle_from_index (session_index); } if (s->vep.next_sh != ~0) { vcl_session_handle_parse (s->vep.next_sh, &wrk_index, &session_index); s->vep.next_sh = vcl_session_handle_from_index (session_index); } if (s->vep.prev_sh != ~0) { vcl_session_handle_parse (s->vep.prev_sh, &wrk_index, &session_index); s->vep.prev_sh = vcl_session_handle_from_index (session_index); } } } void vls_worker_copy_on_fork (vcl_worker_t * parent_wrk) { vls_worker_t *vls_wrk = vls_worker_get_current (), *vls_parent_wrk; vcl_worker_t *vcl_wrk = vcl_worker_get_current (); u32 vls_index, session_index, wrk_index; vcl_session_handle_t sh; vcl_locked_session_t *vls; /* * init vcl worker */ vcl_wrk->sessions = pool_dup (parent_wrk->sessions); vcl_wrk->session_index_by_vpp_handles = hash_dup (parent_wrk->session_index_by_vpp_handles); /* * init vls worker */ vls_parent_wrk = vls_worker_get (parent_wrk->wrk_index); /* clang-format off */ hash_foreach (sh, vls_index, vls_parent_wrk->sh_to_vlsh_table, ({ vcl_session_handle_parse (sh, &wrk_index, &session_index); hash_set (vls_wrk->sh_to_vlsh_table, vcl_session_handle_from_index (session_index), vls_index); })); /* clang-format on */ vls_wrk->vls_pool = pool_dup (vls_parent_wrk->vls_pool); /* * Detach vls from parent vcl worker and attach them to child. */ pool_foreach (vls, vls_wrk->vls_pool) { vls->vcl_wrk_index = vcl_wrk->wrk_index; } /* Validate vep's handle */ vls_validate_veps (vcl_wrk); vls_share_sessions (vls_parent_wrk, vls_wrk); } static void vls_mt_acq_locks (vcl_locked_session_t * vls, vls_mt_ops_t op, int *locks_acq) { vcl_worker_t *wrk = vcl_worker_get_current (); vcl_session_t *s = 0; int is_nonblk = 0; if (vls) { s = vcl_session_get (wrk, vls->session_index); if (PREDICT_FALSE (!s)) return; is_nonblk = vcl_session_has_attr (s, VCL_SESS_ATTR_NONBLOCK); } switch (op) { case VLS_MT_OP_READ: if (!is_nonblk) is_nonblk = vcl_session_read_ready (s) != 0; if (!is_nonblk) { vls_mt_mq_lock (); *locks_acq |= VLS_MT_LOCK_MQ; } break; case VLS_MT_OP_WRITE: ASSERT (s); if (!is_nonblk) is_nonblk = vcl_session_write_ready (s) != 0; if (!is_nonblk) { vls_mt_mq_lock (); *locks_acq |= VLS_MT_LOCK_MQ; } break; case VLS_MT_OP_XPOLL: vls_mt_mq_lock (); *locks_acq |= VLS_MT_LOCK_MQ; break; case VLS_MT_OP_SPOOL: vls_mt_spool_lock (); *locks_acq |= VLS_MT_LOCK_SPOOL; break; default: break; } } static void vls_mt_rel_locks (int locks_acq) { if (locks_acq & VLS_MT_LOCK_MQ) vls_mt_mq_unlock (); if (locks_acq & VLS_MT_LOCK_SPOOL) vls_mt_create_unlock (); } static inline u8 vls_mt_session_should_migrate (vcl_locked_session_t * vls) { return (vls_mt_wrk_supported () && vls->vcl_wrk_index != vcl_get_worker_index ()); } static vcl_locked_session_t * vls_mt_session_migrate (vcl_locked_session_t *vls) { u32 wrk_index = vcl_get_worker_index (); vcl_worker_t *wrk; vls_worker_t *vls_wrk = vls_worker_get_current (); u32 src_sid, sid, vls_index, own_vcl_wrk_index; vcl_session_t *session; uword *p; ASSERT (vls_mt_wrk_supported () && vls->vcl_wrk_index != wrk_index); /* * VCL session on current vcl worker already allocated. Update current * owner worker and index and return */ if ((p = hash_get (vls->vcl_wrk_index_to_session_index, wrk_index))) { vls->vcl_wrk_index = wrk_index; vls->session_index = (u32) p[0]; return vls; } /* * Ask vcl worker that owns the original vcl session to clone it into * current vcl worker session pool */ if (!(p = hash_get (vls->vcl_wrk_index_to_session_index, vls->owner_vcl_wrk_index))) { VERR ("session in owner worker(%u) is free", vls->owner_vcl_wrk_index); ASSERT (0); vls_unlock (vls); vls_mt_pool_runlock (); return 0; } src_sid = (u32) p[0]; wrk = vcl_worker_get_current (); session = vcl_session_alloc (wrk); sid = session->session_index; VDBG (1, "migrate session of worker (session): %u (%u) -> %u (%u)", vls->owner_vcl_wrk_index, src_sid, wrk_index, sid); /* Drop lock to prevent dead lock when dst wrk trying to get lock. */ vls_index = vls->vls_index; own_vcl_wrk_index = vls->owner_vcl_wrk_index; vls_unlock (vls); vls_mt_pool_runlock (); vls_send_clone_and_share_rpc (wrk, vls_index, sid, vls_get_worker_index (), own_vcl_wrk_index, vls_index, src_sid); if (PREDICT_FALSE (wrk->rpc_done == VLS_RPC_STATE_SESSION_NOT_EXIST)) { VWRN ("session %u not exist", src_sid); goto err; } else if (PREDICT_FALSE (wrk->rpc_done == VLS_RPC_STATE_INIT)) { VWRN ("failed to wait rpc response"); goto err; } else if (PREDICT_FALSE ((session->flags & VCL_SESSION_F_IS_VEP) && session->vep.next_sh != ~0)) { VERR ("can't migrate nonempty epoll session"); ASSERT (0); goto err; } else if (PREDICT_FALSE (!(session->flags & VCL_SESSION_F_IS_VEP) && session->session_state != VCL_STATE_CLOSED)) { VERR ("migrate NOT supported, session_status (%u)", session->session_state); ASSERT (0); goto err; } vls = vls_get_w_dlock (vls_index); if (PREDICT_FALSE (!vls)) { VWRN ("failed to get vls %u", vls_index); goto err; } session->session_index = sid; vls->vcl_wrk_index = wrk_index; vls->session_index = sid; hash_set (vls->vcl_wrk_index_to_session_index, wrk_index, sid); vls_sh_to_vlsh_table_add (vls_wrk, vcl_session_handle (session), vls->vls_index); return vls; err: vcl_session_free (wrk, session); return 0; } static inline void vls_mt_detect (void) { if (PREDICT_FALSE (vcl_get_worker_index () == ~0)) vls_mt_add (); } #define vls_mt_guard(_vls, _op) \ int _locks_acq = 0; \ if (vls_mt_wrk_supported ()) \ { \ if (PREDICT_FALSE (_vls && \ ((vcl_locked_session_t *) _vls)->vcl_wrk_index != \ vcl_get_worker_index ())) \ { \ _vls = vls_mt_session_migrate (_vls); \ if (PREDICT_FALSE (!_vls)) \ return VPPCOM_EBADFD; \ } \ } \ else \ { \ if (PREDICT_FALSE (vlsl->vls_mt_n_threads > 1)) \ vls_mt_acq_locks (_vls, _op, &_locks_acq); \ } #define vls_mt_unguard() \ if (PREDICT_FALSE (_locks_acq)) \ vls_mt_rel_locks (_locks_acq) int vls_write (vls_handle_t vlsh, void *buf, size_t nbytes) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_WRITE); rv = vppcom_session_write (vls_to_sh_tu (vls), buf, nbytes); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } int vls_write_msg (vls_handle_t vlsh, void *buf, size_t nbytes) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_WRITE); rv = vppcom_session_write_msg (vls_to_sh_tu (vls), buf, nbytes); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } int vls_sendto (vls_handle_t vlsh, void *buf, int buflen, int flags, vppcom_endpt_t * ep) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_WRITE); rv = vppcom_session_sendto (vls_to_sh_tu (vls), buf, buflen, flags, ep); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } ssize_t vls_read (vls_handle_t vlsh, void *buf, size_t nbytes) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_READ); rv = vppcom_session_read (vls_to_sh_tu (vls), buf, nbytes); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } ssize_t vls_recvfrom (vls_handle_t vlsh, void *buffer, uint32_t buflen, int flags, vppcom_endpt_t * ep) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_READ); rv = vppcom_session_recvfrom (vls_to_sh_tu (vls), buffer, buflen, flags, ep); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } int vls_attr (vls_handle_t vlsh, uint32_t op, void *buffer, uint32_t * buflen) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; if (vls_mt_session_should_migrate (vls)) { vls = vls_mt_session_migrate (vls); if (PREDICT_FALSE (!vls)) return VPPCOM_EBADFD; } rv = vppcom_session_attr (vls_to_sh_tu (vls), op, buffer, buflen); vls_get_and_unlock (vlsh); return rv; } int vls_bind (vls_handle_t vlsh, vppcom_endpt_t * ep) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; rv = vppcom_session_bind (vls_to_sh_tu (vls), ep); vls_get_and_unlock (vlsh); return rv; } int vls_listen (vls_handle_t vlsh, int q_len) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_XPOLL); rv = vppcom_session_listen (vls_to_sh_tu (vls), q_len); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } int vls_connect (vls_handle_t vlsh, vppcom_endpt_t * server_ep) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_XPOLL); rv = vppcom_session_connect (vls_to_sh_tu (vls), server_ep); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } static inline void vls_mp_checks (vcl_locked_session_t * vls, int is_add) { vcl_worker_t *wrk = vcl_worker_get_current (); vcl_session_t *s; u32 owner_wrk; if (vls_mt_wrk_supported ()) return; ASSERT (wrk->wrk_index == vls->vcl_wrk_index); s = vcl_session_get (wrk, vls->session_index); switch (s->session_state) { case VCL_STATE_LISTEN: if (is_add) { vls_listener_wrk_set (vls, vls->vcl_wrk_index, 1 /* is_active */); break; } /* Although removal from epoll means listener no longer accepts new * sessions, the accept queue built by vpp cannot be drained by stopping * the listener. Morover, some applications, e.g., nginx, might * constantly remove and add listeners to their epfds. Removing * listeners in such situations causes a lot of churn in vpp as segments * and segment managers need to be recreated. */ /* vls_listener_wrk_stop_listen (vls, vls->vcl_wrk_index); */ break; case VCL_STATE_LISTEN_NO_MQ: if (!is_add) break; /* Register worker as listener */ vls_listener_wrk_start_listen (vls, vls->vcl_wrk_index); /* If owner worker did not attempt to accept/xpoll on the session, * force a listen stop for it, since it may not be interested in * accepting new sessions. * This is pretty much a hack done to give app workers the illusion * that it is fine to listen and not accept new sessions for a * given listener. Without it, we would accumulate unhandled * accepts on the passive worker message queue. */ owner_wrk = vls_shared_get_owner (vls); if (!vls_listener_wrk_is_active (vls, owner_wrk)) vls_listener_wrk_stop_listen (vls, owner_wrk); break; default: break; } } vls_handle_t vls_accept (vls_handle_t listener_vlsh, vppcom_endpt_t * ep, int flags) { vls_handle_t accepted_vlsh; vcl_locked_session_t *vls; int sh; vls_mt_detect (); if (!(vls = vls_get_w_dlock (listener_vlsh))) return VPPCOM_EBADFD; if (vcl_n_workers () > 1) vls_mp_checks (vls, 1 /* is_add */ ); vls_mt_guard (vls, VLS_MT_OP_SPOOL); sh = vppcom_session_accept (vls_to_sh_tu (vls), ep, flags); vls_mt_unguard (); vls_get_and_unlock (listener_vlsh); if (sh < 0) return sh; accepted_vlsh = vls_alloc (sh); if (PREDICT_FALSE (accepted_vlsh == VLS_INVALID_HANDLE)) vppcom_session_close (sh); return accepted_vlsh; } vls_handle_t vls_create (uint8_t proto, uint8_t is_nonblocking) { vcl_session_handle_t sh; vls_handle_t vlsh; vcl_locked_session_t *vls = NULL; vls_mt_detect (); vls_mt_guard (vls, VLS_MT_OP_SPOOL); sh = vppcom_session_create (proto, is_nonblocking); vls_mt_unguard (); if (sh == INVALID_SESSION_ID) return VLS_INVALID_HANDLE; vlsh = vls_alloc (sh); if (PREDICT_FALSE (vlsh == VLS_INVALID_HANDLE)) vppcom_session_close (sh); return vlsh; } static void vls_mt_session_cleanup (vcl_locked_session_t * vls) { u32 session_index, wrk_index, current_vcl_wrk; vcl_worker_t *wrk = vcl_worker_get_current (); ASSERT (vls_mt_wrk_supported ()); current_vcl_wrk = vcl_get_worker_index (); hash_foreach (wrk_index, session_index, vls->vcl_wrk_index_to_session_index, ({ if (current_vcl_wrk != wrk_index) vls_send_session_cleanup_rpc (wrk, wrk_index, session_index); })); hash_free (vls->vcl_wrk_index_to_session_index); } int vls_close (vls_handle_t vlsh) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); vls_mt_pool_wlock (); vls = vls_get_and_lock (vlsh); if (!vls) { vls_mt_pool_wunlock (); return VPPCOM_EBADFD; } vls_mt_guard (vls, VLS_MT_OP_SPOOL); if (vls_is_shared (vls)) rv = vls_unshare_session (vls, vcl_worker_get_current ()); else rv = vppcom_session_close (vls_to_sh (vls)); if (vls_mt_wrk_supported ()) vls_mt_session_cleanup (vls); vls_free (vls); vls_mt_unguard (); vls_mt_pool_wunlock (); return rv; } int vls_shutdown (vls_handle_t vlsh, int how) { vcl_locked_session_t *vls; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls, VLS_MT_OP_SPOOL); rv = vppcom_session_shutdown (vls_to_sh_tu (vls), how); vls_mt_unguard (); vls_get_and_unlock (vlsh); return rv; } vls_handle_t vls_epoll_create (void) { vcl_session_handle_t sh; vls_handle_t vlsh; vls_mt_detect (); sh = vppcom_epoll_create (); if (sh == INVALID_SESSION_ID) return VLS_INVALID_HANDLE; vlsh = vls_alloc (sh); if (vlsh == VLS_INVALID_HANDLE) vppcom_session_close (sh); return vlsh; } static void vls_epoll_ctl_mp_checks (vcl_locked_session_t * vls, int op) { if (vcl_n_workers () <= 1 || op == EPOLL_CTL_MOD) return; vls_mp_checks (vls, op == EPOLL_CTL_ADD); } int vls_epoll_ctl (vls_handle_t ep_vlsh, int op, vls_handle_t vlsh, struct epoll_event *event) { vcl_locked_session_t *ep_vls, *vls; vcl_session_handle_t ep_sh, sh; int rv; vls_mt_detect (); vls_mt_pool_rlock (); ep_vls = vls_get_and_lock (ep_vlsh); if (PREDICT_FALSE (!ep_vls)) { vls_mt_pool_runlock (); return VPPCOM_EBADFD; } if (vls_mt_session_should_migrate (ep_vls)) { ep_vls = vls_mt_session_migrate (ep_vls); if (PREDICT_FALSE (!ep_vls)) { vls_mt_pool_runlock (); return VPPCOM_EBADFD; } } vls = vls_get_and_lock (vlsh); if (PREDICT_FALSE (!vls)) { vls_unlock (ep_vls); vls_mt_pool_runlock (); return VPPCOM_EBADFD; } ep_sh = vls_to_sh (ep_vls); sh = vls_to_sh (vls); vls_epoll_ctl_mp_checks (vls, op); vls_mt_pool_runlock (); rv = vppcom_epoll_ctl (ep_sh, op, sh, event); vls_mt_pool_rlock (); ep_vls = vls_get (ep_vlsh); vls = vls_get (vlsh); vls_unlock (vls); vls_unlock (ep_vls); vls_mt_pool_runlock (); return rv; } int vls_epoll_wait (vls_handle_t ep_vlsh, struct epoll_event *events, int maxevents, double wait_for_time) { vcl_locked_session_t *vls, *vls_tmp = NULL; int rv; vls_mt_detect (); if (!(vls = vls_get_w_dlock (ep_vlsh))) return VPPCOM_EBADFD; vls_mt_guard (vls_tmp, VLS_MT_OP_XPOLL); rv = vppcom_epoll_wait (vls_to_sh_tu (vls), events, maxevents, wait_for_time); vls_mt_unguard (); vls_get_and_unlock (ep_vlsh); vls_handle_pending_wrk_cleanup (); return rv; } static void vls_select_mp_checks (vcl_si_set * read_map) { vcl_locked_session_t *vls; vcl_worker_t *wrk; vcl_session_t *s; u32 si; if (vcl_n_workers () <= 1) { vlsl->select_mp_check = 1; return; } if (!read_map) return; vlsl->select_mp_check = 1; wrk = vcl_worker_get_current (); clib_bitmap_foreach (si, read_map) { s = vcl_session_get (wrk, si); if (s->session_state == VCL_STATE_LISTEN) { vls = vls_get (vls_session_index_to_vlsh (si)); vls_mp_checks (vls, 1 /* is_add */); } } } int vls_select (int n_bits, vcl_si_set * read_map, vcl_si_set * write_map, vcl_si_set * except_map, double wait_for_time) { int rv; vcl_locked_session_t *vls = NULL; vls_mt_detect (); vls_mt_guard (vls, VLS_MT_OP_XPOLL); if (PREDICT_FALSE (!vlsl->select_mp_check)) vls_select_mp_checks (read_map); rv = vppcom_select (n_bits, read_map, write_map, except_map, wait_for_time); vls_mt_unguard (); vls_handle_pending_wrk_cleanup (); return rv; } static void vls_unshare_vcl_worker_sessions (vcl_worker_t * wrk) { u32 current_wrk, is_current; vcl_locked_session_t *vls; vcl_session_t *s; if (pool_elts (vcm->workers) <= 1) return; current_wrk = vcl_get_worker_index (); is_current = current_wrk == wrk->wrk_index; pool_foreach (s, wrk->sessions) { vls = vls_get (vls_si_wi_to_vlsh (s->session_index, wrk->wrk_index)); if (vls && (is_current || vls_is_shared_by_wrk (vls, current_wrk))) vls_unshare_session (vls, wrk); } } static void vls_cleanup_vcl_worker (vcl_worker_t * wrk) { vls_worker_t *vls_wrk = vls_worker_get (wrk->wrk_index); /* Unshare sessions and also cleanup worker since child may have * called _exit () and therefore vcl may not catch the event */ vls_unshare_vcl_worker_sessions (wrk); /* Since child may have exited and thereforce fd of vpp_app_socket_api * may have been closed, so DONOT notify VPP. */ vcl_worker_cleanup (wrk, vcm->cfg.vpp_app_socket_api ? 0 : 1); vls_worker_free (vls_wrk); } static void vls_cleanup_forked_child (vcl_worker_t * wrk, vcl_worker_t * child_wrk) { vcl_worker_t *sub_child; int tries = 0; if (child_wrk->forked_child != ~0) { sub_child = vcl_worker_get_if_valid (child_wrk->forked_child); if (sub_child) { /* Wait a bit, maybe the process is going away */ while (kill (sub_child->current_pid, 0) >= 0 && tries++ < 50) usleep (1e3); if (kill (sub_child->current_pid, 0) < 0) vls_cleanup_forked_child (child_wrk, sub_child); } } vls_cleanup_vcl_worker (child_wrk); VDBG (0, "Cleaned up forked child wrk %u", child_wrk->wrk_index); wrk->forked_child = ~0; } static void vls_handle_pending_wrk_cleanup (void) { u32 *wip; vcl_worker_t *child_wrk, *wrk; vls_worker_t *vls_wrk = vls_worker_get_current (); if (PREDICT_TRUE (vec_len (vls_wrk->pending_vcl_wrk_cleanup) == 0)) return; wrk = vcl_worker_get_current (); vec_foreach (wip, vls_wrk->pending_vcl_wrk_cleanup) { child_wrk = vcl_worker_get_if_valid (*wip); if (!child_wrk) continue; vls_cleanup_forked_child (wrk, child_wrk); } vec_reset_length (vls_wrk->pending_vcl_wrk_cleanup); } static struct sigaction old_sa; static void vls_intercept_sigchld_handler (int signum, siginfo_t * si, void *uc) { vcl_worker_t *wrk, *child_wrk; vls_worker_t *vls_wrk; if (vcl_get_worker_index () == ~0) return; if (sigaction (SIGCHLD, &old_sa, 0)) { VERR ("couldn't restore sigchld"); exit (-1); } wrk = vcl_worker_get_current (); if (wrk->forked_child == ~0) return; child_wrk = vcl_worker_get_if_valid (wrk->forked_child); if (!child_wrk) goto done; if (si && si->si_pid != child_wrk->current_pid) { VDBG (0, "unexpected child pid %u", si->si_pid); goto done; } /* Parent process may enter sighandler with a lock, such as lock in localtime * or in mspace_free, and child wrk cleanup may try to get such locks and * cause deadlock. * So move child wrk cleanup from sighandler to vls_epoll_wait/vls_select. */ vls_wrk = vls_worker_get_current (); vec_add1 (vls_wrk->pending_vcl_wrk_cleanup, child_wrk->wrk_index); done: if (old_sa.sa_flags & SA_SIGINFO) { void (*fn) (int, siginfo_t *, void *) = old_sa.sa_sigaction; fn (signum, si, uc); } else { void (*fn) (int) = old_sa.sa_handler; if (fn) fn (signum); } } static void vls_incercept_sigchld () { struct sigaction sa; if (old_sa.sa_sigaction) { VDBG (0, "have intercepted sigchld"); return; } clib_memset (&sa, 0, sizeof (sa)); sa.sa_sigaction = vls_intercept_sigchld_handler; sa.sa_flags = SA_SIGINFO; if (sigaction (SIGCHLD, &sa, &old_sa)) { VERR ("couldn't intercept sigchld"); exit (-1); } } static void vls_app_pre_fork (void) { vls_incercept_sigchld (); vcl_flush_mq_events (); } static void vls_app_fork_child_handler (void) { vcl_worker_t *parent_wrk; int parent_wrk_index; parent_wrk_index = vcl_get_worker_index (); VDBG (0, "initializing forked child %u with parent wrk %u", getpid (), parent_wrk_index); /* * Clear old state */ vcl_set_worker_index (~0); /* * Allocate and register vcl worker with vpp */ if (vppcom_worker_register ()) { VERR ("couldn't register new worker!"); return; } /* * Allocate/initialize vls worker and share sessions */ vls_worker_alloc (); /* Reset number of threads and set wrk index */ vlsl->vls_mt_n_threads = 0; vlsl->vls_wrk_index = vcl_get_worker_index (); vlsl->select_mp_check = 0; clib_rwlock_init (&vlsl->vls_pool_lock); vls_mt_locks_init (); parent_wrk = vcl_worker_get (parent_wrk_index); vls_worker_copy_on_fork (parent_wrk); parent_wrk->forked_child = vcl_get_worker_index (); VDBG (0, "forked child main worker initialized"); vcm->forking = 0; } static void vls_app_fork_parent_handler (void) { vcm->forking = 1; while (vcm->forking) ; } void vls_app_exit (void) { vls_worker_t *wrk = vls_worker_get_current (); /* Handle pending wrk cleanup */ vls_handle_pending_wrk_cleanup (); /* Unshare the sessions. VCL will clean up the worker */ vls_unshare_vcl_worker_sessions (vcl_worker_get_current ()); vls_worker_free (wrk); } static void vls_clone_and_share_rpc_handler (void *args) { vls_clone_and_share_msg_t *msg = (vls_clone_and_share_msg_t *) args; vls_worker_t *wrk = vls_worker_get_current (), *dst_wrk; vcl_locked_session_t *vls, *dst_vls; vcl_worker_t *vcl_wrk = vcl_worker_get_current (), *dst_vcl_wrk; vcl_session_t *s, *dst_s; VDBG (1, "process session clone of worker (session): %u (%u) -> %u (%u)", vcl_wrk->wrk_index, msg->session_index, msg->origin_vcl_wrk, msg->origin_session_index); /* VCL locked session can't been protected, so DONT touch it. * VCL session may been free, check it. */ dst_vcl_wrk = vcl_worker_get (msg->origin_vcl_wrk); s = vcl_session_get (vcl_wrk, msg->session_index); if (PREDICT_FALSE (!s)) { dst_vcl_wrk->rpc_done = VLS_RPC_STATE_SESSION_NOT_EXIST; return; } if (!vls_mt_wrk_supported ()) { vls = vls_session_get (wrk, msg->vls_index); vls_init_share_session (wrk, vls); dst_wrk = vls_worker_get (msg->origin_vls_wrk); dst_vls = vls_session_get (dst_wrk, msg->origin_vls_index); dst_vls->shared_data_index = vls->shared_data_index; } dst_s = vcl_session_get (dst_vcl_wrk, msg->origin_session_index); clib_memcpy (dst_s, s, sizeof (*s)); dst_vcl_wrk->rpc_done = VLS_RPC_STATE_SUCCESS; } static void vls_session_cleanup_rpc_handler (void *args) { vls_sess_cleanup_msg_t *msg = (vls_sess_cleanup_msg_t *) args; vcl_worker_t *wrk = vcl_worker_get_current (); vls_worker_t *vls_wrk = vls_worker_get_current (); vcl_session_handle_t sh = vcl_session_handle_from_index (msg->session_index); VDBG (1, "process session cleanup of worker (session): %u (%u) from %u ()", wrk->wrk_index, msg->session_index, msg->origin_vcl_wrk); vppcom_session_close (sh); vls_sh_to_vlsh_table_del (vls_wrk, sh); } static void vls_rpc_handler (void *args) { vls_rpc_msg_t *msg = (vls_rpc_msg_t *) args; switch (msg->type) { case VLS_RPC_CLONE_AND_SHARE: vls_clone_and_share_rpc_handler (msg->data); break; case VLS_RPC_SESS_CLEANUP: vls_session_cleanup_rpc_handler (msg->data); break; default: break; } } void vls_send_clone_and_share_rpc (vcl_worker_t *wrk, u32 origin_vls_index, u32 session_index, u32 vls_wrk_index, u32 dst_wrk_index, u32 dst_vls_index, u32 dst_session_index) { u8 data[sizeof (u8) + sizeof (vls_clone_and_share_msg_t)]; vls_clone_and_share_msg_t *msg; vls_rpc_msg_t *rpc; int ret; f64 timeout = clib_time_now (&wrk->clib_time) + VLS_WORKER_RPC_TIMEOUT; rpc = (vls_rpc_msg_t *) & data; rpc->type = VLS_RPC_CLONE_AND_SHARE; msg = (vls_clone_and_share_msg_t *) & rpc->data; msg->origin_vls_wrk = vls_wrk_index; msg->origin_vls_index = origin_vls_index; msg->origin_vcl_wrk = wrk->wrk_index; msg->origin_session_index = session_index; msg->vls_index = dst_vls_index; msg->session_index = dst_session_index; /* Try lock and handle rpcs if two threads send each other * clone requests at the same time. */ wrk->rpc_done = VLS_RPC_STATE_INIT; while (!clib_spinlock_trylock (&vlsm->worker_rpc_lock)) vcl_flush_mq_events (); ret = vcl_send_worker_rpc (dst_wrk_index, rpc, sizeof (data)); VDBG (1, "send session clone to wrk (session): %u (%u) -> %u (%u), ret=%d", dst_wrk_index, msg->session_index, msg->origin_vcl_wrk, msg->origin_session_index, ret); while (!ret && wrk->rpc_done == VLS_RPC_STATE_INIT && clib_time_now (&wrk->clib_time) < timeout) ; clib_spinlock_unlock (&vlsm->worker_rpc_lock); } void vls_send_session_cleanup_rpc (vcl_worker_t * wrk, u32 dst_wrk_index, u32 dst_session_index) { u8 data[sizeof (u8) + sizeof (vls_sess_cleanup_msg_t)]; vls_sess_cleanup_msg_t *msg; vls_rpc_msg_t *rpc; int ret; rpc = (vls_rpc_msg_t *) & data; rpc->type = VLS_RPC_SESS_CLEANUP; msg = (vls_sess_cleanup_msg_t *) & rpc->data; msg->origin_vcl_wrk = wrk->wrk_index; msg->session_index = dst_session_index; ret = vcl_send_worker_rpc (dst_wrk_index, rpc, sizeof (data)); VDBG (1, "send session cleanup to wrk (session): %u (%u) from %u, ret=%d", dst_wrk_index, msg->session_index, msg->origin_vcl_wrk, ret); } int vls_app_create (char *app_name) { int rv; if ((rv = vppcom_app_create (app_name))) return rv; vlsm = clib_mem_alloc (sizeof (vls_main_t)); clib_memset (vlsm, 0, sizeof (*vlsm)); clib_rwlock_init (&vlsm->shared_data_lock); clib_spinlock_init (&vlsm->worker_rpc_lock); pool_alloc (vlsm->workers, vcm->cfg.max_workers); pthread_atfork (vls_app_pre_fork, vls_app_fork_parent_handler, vls_app_fork_child_handler); atexit (vls_app_exit); vls_worker_alloc (); vlsl->vls_wrk_index = vcl_get_worker_index (); clib_rwlock_init (&vlsl->vls_pool_lock); vls_mt_locks_init (); vcm->wrk_rpc_fn = vls_rpc_handler; return VPPCOM_OK; } unsigned char vls_use_eventfd (void) { return vcm->cfg.use_mq_eventfd; } unsigned char vls_mt_wrk_supported (void) { return vcm->cfg.mt_wrk_supported; } int vls_use_real_epoll (void) { if (vcl_get_worker_index () == ~0) return 0; return vcl_worker_get_current ()->vcl_needs_real_epoll; } void vls_register_vcl_worker (void) { vls_mt_add (); } /* * fd.io coding-style-patch-verification: ON * * Local Variables: * eval: (c-set-style "gnu") * End: */