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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
* 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 <vppinfra/fifo.h>
#include <vppinfra/pool.h>
#include <vppinfra/hash.h>
#include <vnet/api_errno.h>
#include <vcl/vppcom.h>
#include <vcl/vcl_event.h>
#include <vcl/vcl_private.h>
/**
* @file
* @brief VPP Communications Library (VCL) event handler.
*
* Definitions for generic event handling in VCL.
*/
#define VCL_EVENTS_LOCK() \
clib_spinlock_lock (&(vcm->event_thread.events_lockp))
#define VCL_EVENTS_UNLOCK() \
clib_spinlock_unlock (&(vcm->event_thread.events_lockp))
#define VCL_IO_SESSIONS_LOCK() \
clib_spinlock_lock (&(vcm->session_io_thread.io_sessions_lockp))
#define VCL_IO_SESSIONS_UNLOCK() \
clib_spinlock_unlock (&(vcm->session_io_thread.io_sessions_lockp))
int
vce_generate_event (vce_event_thread_t * evt, u32 ev_idx)
{
int elts, rv = 0;
vce_event_t *p;
pthread_mutex_lock (&(evt->generator_lock));
/* Check there is event data for this event */
VCE_EVENTS_LOCK ();
p = pool_elt_at_index (evt->vce_events, ev_idx);
ASSERT (p);
elts = (int) clib_fifo_free_elts (evt->event_index_fifo);
if (PREDICT_TRUE (elts))
{
/* Add event to queue */
clib_fifo_add1 (evt->event_index_fifo, ev_idx);
pthread_cond_signal (&(evt->generator_cond));
}
else
{
rv = VNET_API_ERROR_QUEUE_FULL;
}
VCE_EVENTS_UNLOCK ();
pthread_mutex_unlock (&(evt->generator_lock));
return rv;
}
void
vce_clear_event (vce_event_thread_t * evt, u32 ev_idx)
{
VCE_EVENTS_LOCK ();
pool_put_index (evt->vce_events, ev_idx);
VCE_EVENTS_UNLOCK ();
}
vce_event_t *
vce_get_event_from_index (vce_event_thread_t * evt, u32 ev_idx)
{
vce_event_t *ev = 0;
/* Assumes caller has obtained the spinlock (evt->events_lockp) */
if (!pool_is_free_index (evt->vce_events, ev_idx))
ev = pool_elt_at_index (evt->vce_events, ev_idx);
return ev;
}
vce_event_handler_reg_t *
vce_get_event_handler (vce_event_thread_t * evt, vce_event_key_t * evk)
{
vce_event_handler_reg_t *handler = 0;
uword *p;
VCE_HANDLERS_LOCK ();
p = hash_get (evt->handlers_index_by_event_key, evk->as_u64);
if (p)
handler = pool_elt_at_index (evt->vce_event_handlers, p[0]);
VCE_HANDLERS_UNLOCK ();
return handler;
}
vce_event_handler_reg_t *
vce_register_handler (vce_event_thread_t * evt, vce_event_key_t * evk,
vce_event_callback_t cb, void *cb_args)
{
vce_event_handler_reg_t *handler;
vce_event_handler_reg_t *old_handler = 0;
uword *p;
u32 handler_index;
/* TODO - multiple handler support. For now we can replace
* and re-instate, which is useful for event recycling */
VCE_HANDLERS_LOCK ();
p = hash_get (evt->handlers_index_by_event_key, evk->as_u64);
if (p)
{
old_handler = pool_elt_at_index (evt->vce_event_handlers, p[0]);
/* If we are just re-registering, ignore and move on
* else store the old handler_fn for unregister to re-instate */
if (old_handler->handler_fn == cb)
{
VCE_HANDLERS_UNLOCK ();
/* Signal event thread that a handler exists in case any
* recycled events requiring this handler are pending */
pthread_mutex_lock (&(evt->generator_lock));
pthread_cond_signal (&(evt->generator_cond));
pthread_mutex_unlock (&(evt->generator_lock));
return old_handler;
}
}
pool_get (evt->vce_event_handlers, handler);
handler_index = (u32) (handler - evt->vce_event_handlers);
handler->handler_fn = cb;
handler->replaced_handler_idx = (u32) ((p) ? p[0] : ~0);
handler->ev_idx = (u32) ~ 0; //This will be set by the event thread if event happens
handler->evk = evk->as_u64;
handler->handler_fn_args = cb_args;
hash_set (evt->handlers_index_by_event_key, evk->as_u64, handler_index);
pthread_cond_init (&(handler->handler_cond), NULL);
pthread_mutex_init (&(handler->handler_lock), NULL);
VCE_HANDLERS_UNLOCK ();
/* Signal event thread that a new handler exists in case any
* recycled events requiring this handler are pending */
pthread_mutex_lock (&(evt->generator_lock));
pthread_cond_signal (&(evt->generator_cond));
pthread_mutex_unlock (&(evt->generator_lock));
return handler;
}
int
vce_unregister_handler (vce_event_thread_t * evt,
vce_event_handler_reg_t * handler)
{
uword *p;
u64 evk = handler->evk;
u8 generate_signal = 0;
VCE_HANDLERS_LOCK ();
p = hash_get (evt->handlers_index_by_event_key, evk);
if (!p)
{
VCE_HANDLERS_UNLOCK ();
return VNET_API_ERROR_NO_SUCH_ENTRY;
}
handler = pool_elt_at_index (evt->vce_event_handlers, p[0]);
/* If this handler replaced another handler, re-instate it */
if (handler->replaced_handler_idx != ~0)
{
hash_set (evt->handlers_index_by_event_key, evk,
handler->replaced_handler_idx);
generate_signal = 1;
}
else
{
hash_unset (evt->handlers_index_by_event_key, evk);
}
pthread_mutex_destroy (&(handler->handler_lock));
pthread_cond_destroy (&(handler->handler_cond));
pool_put (evt->vce_event_handlers, handler);
VCE_HANDLERS_UNLOCK ();
if (generate_signal)
{
/* Signal event thread that a new handler exists in case any
* recycled events requiring this handler are pending */
pthread_mutex_lock (&(evt->generator_lock));
pthread_cond_signal (&(evt->generator_cond));
pthread_mutex_unlock (&(evt->generator_lock));
}
return 0;
}
void *
vce_event_thread_fn (void *arg)
{
vce_event_thread_t *evt = (vce_event_thread_t *) arg;
vce_event_t *ev;
u32 ev_idx;
vce_event_handler_reg_t *handler;
uword *p;
u32 recycle_count = 0;
pthread_mutex_lock (&(evt->generator_lock));
while (1)
{
uword fifo_depth = clib_fifo_elts (evt->event_index_fifo);
while ((fifo_depth == 0) || (recycle_count == fifo_depth))
{
recycle_count = 0;
pthread_cond_wait (&(evt->generator_cond), &(evt->generator_lock));
fifo_depth = clib_fifo_elts (evt->event_index_fifo);
}
/* Remove event */
VCE_EVENTS_LOCK ();
clib_fifo_sub1 (evt->event_index_fifo, ev_idx);
ev = vce_get_event_from_index (evt, ev_idx);
ASSERT (ev);
if (recycle_count && ev->recycle)
{
clib_fifo_add1 (evt->event_index_fifo, ev_idx);
VCE_EVENTS_UNLOCK ();
continue;
}
VCE_HANDLERS_LOCK ();
p = hash_get (evt->handlers_index_by_event_key, ev->evk.as_u64);
if (!p)
{
/* If an event falls in the woods, and there is no handler to hear it,
* does it make any sound?
* I don't know either, so lets biff the event */
pool_put (evt->vce_events, ev);
VCE_EVENTS_UNLOCK ();
VCE_HANDLERS_UNLOCK ();
pthread_mutex_unlock (&(evt->generator_lock));
}
else
{
u32 evt_recycle = ev->recycle;
handler = pool_elt_at_index (evt->vce_event_handlers, p[0]);
handler->ev_idx = ev_idx;
ev->recycle = 0;
VCE_EVENTS_UNLOCK ();
VCE_HANDLERS_UNLOCK ();
pthread_mutex_unlock (&(evt->generator_lock));
(handler->handler_fn) (handler);
VCE_EVENTS_LOCK ();
ev = vce_get_event_from_index (evt, ev_idx);
recycle_count += (!evt_recycle && ev && ev->recycle) ? 1 : 0;
VCE_EVENTS_UNLOCK ();
}
pthread_mutex_lock (&(evt->generator_lock));
}
return NULL;
}
int
vce_start_event_thread (vce_event_thread_t * evt, u8 max_events)
{
clib_fifo_validate (evt->event_index_fifo, max_events);
evt->handlers_index_by_event_key = hash_create (0, sizeof (uword));
pthread_cond_init (&(evt->generator_cond), NULL);
pthread_mutex_init (&(evt->generator_lock), NULL);
clib_spinlock_init (&(evt->events_lockp));
clib_spinlock_init (&(evt->handlers_lockp));
return pthread_create (&(evt->thread), NULL /* attr */ ,
vce_event_thread_fn, evt);
}
static void *
vppcom_session_io_thread_fn (void *arg)
{
vppcom_session_io_thread_t *evt = (vppcom_session_io_thread_t *) arg;
u32 *session_indexes = 0, *session_index;
int i;
u32 bytes = 0;
vcl_session_t *session;
while (1)
{
vec_reset_length (session_indexes);
VCE_IO_SESSIONS_LOCK ();
/* *INDENT-OFF* */
pool_foreach (session_index, evt->active_session_indexes, ({
vec_add1 (session_indexes, *session_index);
}));
/* *INDENT-ON* */
VCE_IO_SESSIONS_UNLOCK ();
if (session_indexes)
{
for (i = 0; i < vec_len (session_indexes); ++i)
{
session = vcl_session_get (session_indexes[i]);
if (!session)
return NULL;
bytes = svm_fifo_max_dequeue (session->rx_fifo);
if (bytes)
{
vppcom_ioevent_t *eio;
vce_event_t *ev;
u32 ev_idx;
VCL_EVENTS_LOCK ();
pool_get (vcm->event_thread.vce_events, ev);
ev_idx = (u32) (ev - vcm->event_thread.vce_events);
eio = vce_get_event_data (ev, sizeof (*eio));
ev->evk.eid = VCL_EVENT_IOEVENT_RX_FIFO;
ev->evk.session_index = session_indexes[i];
eio->bytes = bytes;
eio->session_index = session_indexes[i];
VCL_EVENTS_UNLOCK ();
vce_generate_event (&vcm->event_thread, ev_idx);
}
}
}
struct timespec ts;
ts.tv_sec = 0;
ts.tv_nsec = 1000000; /* 1 millisecond */
nanosleep (&ts, NULL);
}
return NULL;
}
static int
vppcom_start_io_event_thread (vppcom_session_io_thread_t * evt,
u8 max_sessions)
{
pthread_cond_init (&(evt->vce_io_cond), NULL);
pthread_mutex_init (&(evt->vce_io_lock), NULL);
clib_spinlock_init (&(evt->io_sessions_lockp));
return pthread_create (&(evt->thread), NULL /* attr */ ,
vppcom_session_io_thread_fn, evt);
}
static void
vce_registered_ioevent_handler_fn (void *arg)
{
vce_event_handler_reg_t *reg = (vce_event_handler_reg_t *) arg;
vppcom_ioevent_t *eio;
vce_event_t *ev;
u32 ioevt_ndx = (u64) (reg->handler_fn_args);
vppcom_session_ioevent_t *ioevent, ioevent_;
VCL_EVENTS_LOCK ();
ev = vce_get_event_from_index (&vcm->event_thread, reg->ev_idx);
eio = vce_get_event_data (ev, sizeof (*eio));
VCL_EVENTS_UNLOCK ();
VCL_IO_SESSIONS_LOCK ();
ioevent = pool_elt_at_index (vcm->session_io_thread.ioevents, ioevt_ndx);
ioevent_ = *ioevent;
VCL_IO_SESSIONS_UNLOCK ();
(ioevent_.user_cb) (eio, ioevent_.user_cb_data);
vce_clear_event (&vcm->event_thread, reg->ev_idx);
return;
/*TODO - Unregister check in close for this listener */
}
void
vce_registered_listener_connect_handler_fn (void *arg)
{
vce_event_handler_reg_t *reg = (vce_event_handler_reg_t *) arg;
vce_event_connect_request_t *ecr;
vce_event_t *ev;
vppcom_endpt_t ep;
vcl_session_t *new_session;
vppcom_session_listener_t *session_listener =
(vppcom_session_listener_t *) reg->handler_fn_args;
VCL_EVENTS_LOCK ();
ev = vce_get_event_from_index (&vcm->event_thread, reg->ev_idx);
ecr = vce_get_event_data (ev, sizeof (*ecr));
VCL_EVENTS_UNLOCK ();
new_session = vcl_session_get (ecr->accepted_session_index);
if (!new_session)
return;
ep.is_ip4 = new_session->transport.is_ip4;
ep.port = new_session->transport.rmt_port;
if (new_session->transport.is_ip4)
clib_memcpy (&ep.ip, &new_session->transport.rmt_ip.ip4,
sizeof (ip4_address_t));
else
clib_memcpy (&ep.ip, &new_session->transport.rmt_ip.ip6,
sizeof (ip6_address_t));
vppcom_send_accept_session_reply (new_session->vpp_handle,
new_session->client_context,
0 /* retval OK */ );
(session_listener->user_cb) (ecr->accepted_session_index, &ep,
session_listener->user_cb_data);
if (vcm->session_io_thread.io_sessions_lockp)
{
/* Throw this new accepted session index into the rx poll thread pool */
VCL_IO_SESSIONS_LOCK ();
u32 *active_session_index;
pool_get (vcm->session_io_thread.active_session_indexes,
active_session_index);
*active_session_index = ecr->accepted_session_index;
VCL_IO_SESSIONS_UNLOCK ();
}
/*TODO - Unregister check in close for this listener */
return;
ASSERT (0); // If we can't get a lock or accepted session fails, lets blow up.
}
/**
* @brief vce_poll_wait_connect_request_handler_fn
* - used by vppcom_epoll_xxxx() for listener sessions
* - when a vl_api_accept_session_t_handler() generates an event
* this callback is alerted and sets the fields that vppcom_epoll_wait()
* expects to see.
*
* @param arg - void* to be cast to vce_event_handler_reg_t*
*/
void
vce_poll_wait_connect_request_handler_fn (void *arg)
{
vce_event_handler_reg_t *reg = (vce_event_handler_reg_t *) arg;
vce_event_t *ev;
/* Retrieve the VCL_EVENT_CONNECT_REQ_ACCEPTED event */
ev = vce_get_event_from_index (&vcm->event_thread, reg->ev_idx);
vce_event_connect_request_t *ecr = vce_get_event_data (ev, sizeof (*ecr));
/* Recycling the event. */
VCL_EVENTS_LOCK ();
ev->recycle = 1;
clib_fifo_add1 (vcm->event_thread.event_index_fifo, reg->ev_idx);
VCL_EVENTS_UNLOCK ();
}
int
vppcom_session_register_ioevent_cb (uint32_t session_index,
vppcom_session_ioevent_cb cb,
uint8_t rx, void *ptr)
{
int rv = VPPCOM_OK;
vce_event_key_t evk;
vppcom_session_ioevent_t *ioevent;
if (!vcm->session_io_thread.io_sessions_lockp)
rv = vppcom_start_io_event_thread (&vcm->session_io_thread, 100); /* DAW_TODO: ??? hard-coded value */
if (rv == VPPCOM_OK)
{
void *io_evt_ndx;
/* Register handler for ioevent on session_index */
VCL_IO_SESSIONS_LOCK ();
pool_get (vcm->session_io_thread.ioevents, ioevent);
io_evt_ndx = (void *) (ioevent - vcm->session_io_thread.ioevents);
ioevent->user_cb = cb;
ioevent->user_cb_data = ptr;
VCL_IO_SESSIONS_UNLOCK ();
evk.session_index = session_index;
evk.eid = rx ? VCL_EVENT_IOEVENT_RX_FIFO : VCL_EVENT_IOEVENT_TX_FIFO;
(void) vce_register_handler (&vcm->event_thread, &evk,
vce_registered_ioevent_handler_fn,
io_evt_ndx);
}
return rv;
}
int
vppcom_session_register_listener (uint32_t session_index,
vppcom_session_listener_cb cb,
vppcom_session_listener_errcb
errcb, uint8_t flags, int q_len, void *ptr)
{
int rv = VPPCOM_OK;
vce_event_key_t evk;
vppcom_session_listener_t *listener_args;
if (!vcm->session_io_thread.io_sessions_lockp)
rv = vppcom_start_io_event_thread (&vcm->session_io_thread, 100); /* DAW_TODO: ??? hard-coded value */
if (rv)
{
goto done;
}
rv = vppcom_session_listen (session_index, q_len);
if (rv)
{
goto done;
}
/* Register handler for connect_request event on listen_session_index */
listener_args = clib_mem_alloc (sizeof (vppcom_session_listener_t)); // DAW_TODO: Use a pool instead of thrashing the memory allocator!
listener_args->user_cb = cb;
listener_args->user_cb_data = ptr;
listener_args->user_errcb = errcb;
evk.session_index = session_index;
evk.eid = VCL_EVENT_CONNECT_REQ_ACCEPTED;
(void) vce_register_handler (&vcm->event_thread, &evk,
vce_registered_listener_connect_handler_fn,
listener_args);
done:
return rv;
}
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/