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/*
* Copyright (c) 2016 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 <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <netinet/in.h>
#include <netdb.h>
#include <signal.h>
#include <stdbool.h>
#include <vnet/vnet.h>
#include <vlib/vlib.h>
#include <vlib/unix/unix.h>
#include <vlibapi/api.h>
#include <vlibmemory/api.h>
#include <vlibmemory/memclnt.api_enum.h>
#include <vlibmemory/memclnt.api_types.h>
#include "vppapiclient.h"
bool timeout_cancelled;
bool timeout_in_progress;
bool rx_thread_done;
/*
* Asynchronous mode:
* Client registers a callback. All messages are sent to the callback.
* Synchronous mode:
* Client calls blocking read().
* Clients are expected to collate events on a queue.
* vac_write() -> suspends RX thread
* vac_read() -> resumes RX thread
*/
typedef struct {
u8 connected_to_vlib;
pthread_t rx_thread_handle;
pthread_t timeout_thread_handle;
pthread_mutex_t queue_lock;
pthread_cond_t suspend_cv;
pthread_cond_t resume_cv;
pthread_mutex_t timeout_lock;
u8 timeout_loop;
pthread_cond_t timeout_cv;
pthread_cond_t timeout_cancel_cv;
pthread_cond_t terminate_cv;
} vac_main_t;
vac_main_t vac_main;
vac_callback_t vac_callback;
u16 read_timeout = 0;
bool rx_is_running = false;
bool timeout_thread_cancelled = false;
/* Only ever allocate one heap */
bool mem_initialized = false;
static void
init (void)
{
vac_main_t *pm = &vac_main;
clib_memset(pm, 0, sizeof(*pm));
pthread_mutex_init(&pm->queue_lock, NULL);
pthread_cond_init(&pm->suspend_cv, NULL);
pthread_cond_init(&pm->resume_cv, NULL);
pthread_mutex_init(&pm->timeout_lock, NULL);
pm->timeout_loop = 1;
pthread_cond_init(&pm->timeout_cv, NULL);
pthread_cond_init(&pm->timeout_cancel_cv, NULL);
pthread_cond_init(&pm->terminate_cv, NULL);
}
static void
cleanup (void)
{
vac_main_t *pm = &vac_main;
pthread_mutex_destroy(&pm->queue_lock);
pthread_cond_destroy(&pm->suspend_cv);
pthread_cond_destroy(&pm->resume_cv);
pthread_mutex_destroy(&pm->timeout_lock);
pthread_cond_destroy(&pm->timeout_cv);
pthread_cond_destroy(&pm->timeout_cancel_cv);
pthread_cond_destroy(&pm->terminate_cv);
clib_memset(pm, 0, sizeof(*pm));
}
void
vac_free (void * msg)
{
vl_msg_api_free (msg);
}
static void
vac_api_handler (void *msg)
{
u16 id = ntohs(*((u16 *)msg));
msgbuf_t *msgbuf = (msgbuf_t *)(((u8 *)msg) - offsetof(msgbuf_t, data));
int l = ntohl(msgbuf->data_len);
if (l == 0)
clib_warning("Message ID %d has wrong length: %d\n", id, l);
/* Call Python callback */
ASSERT(vac_callback);
(vac_callback)(msg, l);
vac_free(msg);
}
static void *
vac_rx_thread_fn (void *arg)
{
svm_queue_t *q;
vl_api_memclnt_keepalive_t *mp;
vl_api_memclnt_keepalive_reply_t *rmp;
vac_main_t *pm = &vac_main;
api_main_t *am = vlibapi_get_main();
vl_shmem_hdr_t *shmem_hdr;
uword msg;
q = am->vl_input_queue;
while (1)
while (!svm_queue_sub(q, (u8 *)&msg, SVM_Q_WAIT, 0))
{
VL_MSG_API_UNPOISON((void *)msg);
u16 id = ntohs(*((u16 *)msg));
switch (id) {
case VL_API_RX_THREAD_EXIT:
vl_msg_api_free((void *) msg);
/* signal waiting threads that this thread is about to terminate */
pthread_mutex_lock(&pm->queue_lock);
rx_thread_done = true;
pthread_cond_signal(&pm->terminate_cv);
pthread_mutex_unlock(&pm->queue_lock);
pthread_exit(0);
return 0;
break;
case VL_API_MEMCLNT_RX_THREAD_SUSPEND:
vl_msg_api_free((void * )msg);
/* Suspend thread and signal reader */
pthread_mutex_lock(&pm->queue_lock);
pthread_cond_signal(&pm->suspend_cv);
/* Wait for the resume signal */
pthread_cond_wait (&pm->resume_cv, &pm->queue_lock);
pthread_mutex_unlock(&pm->queue_lock);
break;
case VL_API_MEMCLNT_READ_TIMEOUT:
clib_warning("Received read timeout in async thread\n");
vl_msg_api_free((void *) msg);
break;
case VL_API_MEMCLNT_KEEPALIVE:
mp = (void *)msg;
rmp = vl_msg_api_alloc (sizeof (*rmp));
clib_memset (rmp, 0, sizeof (*rmp));
rmp->_vl_msg_id = ntohs(VL_API_MEMCLNT_KEEPALIVE_REPLY);
rmp->context = mp->context;
shmem_hdr = am->shmem_hdr;
vl_msg_api_send_shmem(shmem_hdr->vl_input_queue, (u8 *)&rmp);
vl_msg_api_free((void *) msg);
break;
default:
vac_api_handler((void *)msg);
}
}
}
static void *
vac_timeout_thread_fn (void *arg)
{
vl_api_memclnt_read_timeout_t *ep;
vac_main_t *pm = &vac_main;
api_main_t *am = vlibapi_get_main();
struct timespec ts;
struct timeval tv;
int rv;
while (pm->timeout_loop)
{
/* Wait for poke */
pthread_mutex_lock(&pm->timeout_lock);
while (!timeout_in_progress)
pthread_cond_wait (&pm->timeout_cv, &pm->timeout_lock);
/* Starting timer */
gettimeofday(&tv, NULL);
ts.tv_sec = tv.tv_sec + read_timeout;
ts.tv_nsec = 0;
if (!timeout_cancelled) {
rv = pthread_cond_timedwait (&pm->timeout_cancel_cv,
&pm->timeout_lock, &ts);
if (rv == ETIMEDOUT && !timeout_thread_cancelled) {
ep = vl_msg_api_alloc (sizeof (*ep));
ep->_vl_msg_id = ntohs(VL_API_MEMCLNT_READ_TIMEOUT);
vl_msg_api_send_shmem(am->vl_input_queue, (u8 *)&ep);
}
}
pthread_mutex_unlock(&pm->timeout_lock);
}
pthread_exit(0);
}
void
vac_rx_suspend (void)
{
api_main_t *am = vlibapi_get_main();
vac_main_t *pm = &vac_main;
vl_api_memclnt_rx_thread_suspend_t *ep;
if (!pm->rx_thread_handle) return;
pthread_mutex_lock(&pm->queue_lock);
if (rx_is_running)
{
ep = vl_msg_api_alloc (sizeof (*ep));
ep->_vl_msg_id = ntohs(VL_API_MEMCLNT_RX_THREAD_SUSPEND);
vl_msg_api_send_shmem(am->vl_input_queue, (u8 *)&ep);
/* Wait for RX thread to tell us it has suspended */
pthread_cond_wait(&pm->suspend_cv, &pm->queue_lock);
rx_is_running = false;
}
pthread_mutex_unlock(&pm->queue_lock);
}
void
vac_rx_resume (void)
{
vac_main_t *pm = &vac_main;
if (!pm->rx_thread_handle) return;
pthread_mutex_lock(&pm->queue_lock);
if (rx_is_running) goto unlock;
pthread_cond_signal(&pm->resume_cv);
rx_is_running = true;
unlock:
pthread_mutex_unlock(&pm->queue_lock);
}
static uword *
vac_msg_table_get_hash (void)
{
api_main_t *am = vlibapi_get_main();
return (am->msg_index_by_name_and_crc);
}
int
vac_msg_table_size(void)
{
api_main_t *am = vlibapi_get_main();
return hash_elts(am->msg_index_by_name_and_crc);
}
int
vac_connect (char * name, char * chroot_prefix, vac_callback_t cb,
int rx_qlen)
{
rx_thread_done = false;
int rv = 0;
vac_main_t *pm = &vac_main;
assert (clib_mem_get_heap ());
init();
if (chroot_prefix != NULL)
vl_set_memory_root_path (chroot_prefix);
if ((rv = vl_client_api_map("/vpe-api"))) {
clib_warning ("vl_client_api_map returned %d", rv);
return rv;
}
if (vl_client_connect(name, 0, rx_qlen) < 0) {
vl_client_api_unmap();
return (-1);
}
if (cb) {
/* Start the rx queue thread */
rv = pthread_create(&pm->rx_thread_handle, NULL, vac_rx_thread_fn, 0);
if (rv) {
clib_warning("pthread_create returned %d", rv);
vl_client_api_unmap();
return (-1);
}
vac_callback = cb;
rx_is_running = true;
}
/* Start read timeout thread */
timeout_in_progress = false;
timeout_thread_cancelled = false;
rv = pthread_create(&pm->timeout_thread_handle, NULL,
vac_timeout_thread_fn, 0);
if (rv) {
clib_warning("pthread_create returned %d", rv);
vl_client_api_unmap();
return (-1);
}
pm->connected_to_vlib = 1;
return (0);
}
static void
set_timeout (unsigned short timeout)
{
vac_main_t *pm = &vac_main;
pthread_mutex_lock(&pm->timeout_lock);
read_timeout = timeout;
timeout_in_progress = true;
timeout_cancelled = false;
pthread_cond_signal(&pm->timeout_cv);
pthread_mutex_unlock(&pm->timeout_lock);
}
static void
unset_timeout (void)
{
vac_main_t *pm = &vac_main;
pthread_mutex_lock(&pm->timeout_lock);
timeout_in_progress = false;
timeout_cancelled = true;
pthread_cond_signal(&pm->timeout_cancel_cv);
pthread_mutex_unlock(&pm->timeout_lock);
}
int
vac_disconnect (void)
{
api_main_t *am = vlibapi_get_main();
vac_main_t *pm = &vac_main;
uword junk;
int rv = 0;
if (!pm->connected_to_vlib) return 0;
if (pm->rx_thread_handle) {
vl_api_rx_thread_exit_t *ep;
ep = vl_msg_api_alloc (sizeof (*ep));
ep->_vl_msg_id = ntohs(VL_API_RX_THREAD_EXIT);
vl_msg_api_send_shmem(am->vl_input_queue, (u8 *)&ep);
/* wait (with timeout) until RX thread has finished */
struct timespec ts;
struct timeval tv;
gettimeofday(&tv, NULL);
ts.tv_sec = tv.tv_sec + 5;
ts.tv_nsec = 0;
pthread_mutex_lock(&pm->queue_lock);
if (rx_thread_done == false)
rv = pthread_cond_timedwait(&pm->terminate_cv, &pm->queue_lock, &ts);
pthread_mutex_unlock(&pm->queue_lock);
/* now join so we wait until thread has -really- finished */
if (rv == ETIMEDOUT)
pthread_cancel(pm->rx_thread_handle);
else
pthread_join(pm->rx_thread_handle, (void **) &junk);
}
if (pm->timeout_thread_handle) {
/* cancel, wake then join the timeout thread */
pm->timeout_loop = 0;
timeout_thread_cancelled = true;
set_timeout(0);
pthread_join(pm->timeout_thread_handle, (void **) &junk);
}
vl_client_disconnect();
vl_client_api_unmap();
//vac_callback = 0;
cleanup();
return (0);
}
int
vac_read (char **p, int *l, u16 timeout)
{
svm_queue_t *q;
api_main_t *am = vlibapi_get_main();
vac_main_t *pm = &vac_main;
vl_api_memclnt_keepalive_t *mp;
vl_api_memclnt_keepalive_reply_t *rmp;
uword msg;
msgbuf_t *msgbuf;
int rv;
vl_shmem_hdr_t *shmem_hdr;
/* svm_queue_sub(below) returns {-1, -2} */
if (!pm->connected_to_vlib)
return VAC_NOT_CONNECTED;
*l = 0;
/* svm_queue_sub(below) returns {-1, -2} */
if (am->our_pid == 0)
return (VAC_SHM_NOT_READY);
/* Poke timeout thread */
if (timeout)
set_timeout(timeout);
q = am->vl_input_queue;
again:
rv = svm_queue_sub(q, (u8 *)&msg, SVM_Q_WAIT, 0);
if (rv == 0) {
VL_MSG_API_UNPOISON((void *)msg);
u16 msg_id = ntohs(*((u16 *)msg));
switch (msg_id) {
case VL_API_RX_THREAD_EXIT:
vl_msg_api_free((void *) msg);
goto error;
case VL_API_MEMCLNT_RX_THREAD_SUSPEND:
goto error;
case VL_API_MEMCLNT_READ_TIMEOUT:
goto error;
case VL_API_MEMCLNT_KEEPALIVE:
/* Handle an alive-check ping from vpp. */
mp = (void *)msg;
rmp = vl_msg_api_alloc (sizeof (*rmp));
clib_memset (rmp, 0, sizeof (*rmp));
rmp->_vl_msg_id = ntohs(VL_API_MEMCLNT_KEEPALIVE_REPLY);
rmp->context = mp->context;
shmem_hdr = am->shmem_hdr;
vl_msg_api_send_shmem(shmem_hdr->vl_input_queue, (u8 *)&rmp);
vl_msg_api_free((void *) msg);
/*
* Python code is blissfully unaware of these pings, so
* act as if it never happened...
*/
goto again;
default:
msgbuf = (msgbuf_t *)(((u8 *)msg) - offsetof(msgbuf_t, data));
*l = ntohl(msgbuf->data_len);
if (*l == 0) {
fprintf(stderr, "Unregistered API message: %d\n", msg_id);
goto error;
}
}
*p = (char *)msg;
} else {
fprintf(stderr, "Read failed with %d\n", rv);
}
/* Let timeout notification thread know we're done */
if (timeout)
unset_timeout();
return (rv);
error:
if (timeout)
unset_timeout();
vl_msg_api_free((void *) msg);
/* Client might forget to resume RX thread on failure */
vac_rx_resume ();
return VAC_TIMEOUT;
}
/*
* XXX: Makes the assumption that client_index is the first member
*/
typedef struct _vl_api_header
{
u16 _vl_msg_id;
u32 client_index;
} __attribute__ ((packed)) vl_api_header_t;
static u32
vac_client_index (void)
{
return (vlibapi_get_main()->my_client_index);
}
int
vac_write (char *p, int l)
{
int rv = -1;
api_main_t *am = vlibapi_get_main();
vl_api_header_t *mp = vl_msg_api_alloc(l);
svm_queue_t *q;
vac_main_t *pm = &vac_main;
if (!pm->connected_to_vlib)
return VAC_NOT_CONNECTED;
if (!mp) return (-1);
memcpy(mp, p, l);
mp->client_index = vac_client_index();
q = am->shmem_hdr->vl_input_queue;
rv = svm_queue_add(q, (u8 *)&mp, 0);
if (rv != 0) {
fprintf(stderr, "vpe_api_write fails: %d\n", rv);
/* Clear message */
vac_free(mp);
}
return (rv);
}
int
vac_get_msg_index (char * name)
{
return vl_msg_api_get_msg_index ((u8 *)name);
}
int
vac_msg_table_max_index(void)
{
int max = 0;
hash_pair_t *hp;
uword *h = vac_msg_table_get_hash();
hash_foreach_pair (hp, h,
({
if (hp->value[0] > max)
max = hp->value[0];
}));
return max;
}
void
vac_set_error_handler (vac_error_callback_t cb)
{
assert (clib_mem_get_heap ());
if (cb) clib_error_register_handler (cb, 0);
}
/*
* Required if application doesn't use a VPP heap.
*/
void
vac_mem_init (size_t size)
{
if (mem_initialized)
return;
if (size == 0)
clib_mem_init (0, 1 << 30); // default
else
clib_mem_init (0, size);
mem_initialized = true;
}
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