/*
* Copyright (c) 2017-2021 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 <unistd.h>
#include <errno.h>
#include <stdlib.h>
#include <ctype.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <stdio.h>
#include <time.h>
#include <arpa/inet.h>
#include <hs_apps/vcl/vcl_test.h>
#include <pthread.h>
#include <signal.h>
typedef struct vtc_worker_ vcl_test_client_worker_t;
typedef int (vtc_worker_run_fn) (vcl_test_client_worker_t *wrk);
struct vtc_worker_
{
vcl_test_session_t *sessions;
vcl_test_session_t *qsessions;
uint32_t n_sessions;
uint32_t wrk_index;
union
{
struct
{
fd_set wr_fdset;
fd_set rd_fdset;
int max_fd_index;
};
struct
{
uint32_t epoll_sh;
struct epoll_event ep_evts[VCL_TEST_CFG_MAX_EPOLL_EVENTS];
vcl_test_session_t *next_to_send;
};
};
pthread_t thread_handle;
vtc_worker_run_fn *wrk_run_fn;
hs_test_cfg_t cfg;
};
typedef struct
{
vcl_test_client_worker_t *workers;
vcl_test_session_t ctrl_session;
vppcom_endpt_t server_endpt;
uint32_t cfg_seq_num;
uint8_t dump_cfg;
hs_test_t post_test;
uint8_t proto;
uint8_t incremental_stats;
uint32_t n_workers;
volatile int active_workers;
volatile int test_running;
union
{
struct in_addr v4;
struct in6_addr v6;
} server_addr;
} vcl_test_client_main_t;
vcl_test_client_main_t vcl_client_main;
#define vtc_min(a, b) (a < b ? a : b)
#define vtc_max(a, b) (a > b ? a : b)
vcl_test_main_t vcl_test_main;
static int
vtc_cfg_sync (vcl_test_session_t * ts)
{
hs_test_cfg_t *rx_cfg = (hs_test_cfg_t *) ts->rxbuf;
int rx_bytes, tx_bytes;
vt_atomic_add (&ts->cfg.seq_num, 1);
if (ts->cfg.verbose)
{
vtinf ("(fd %d): Sending config to server.", ts->fd);
hs_test_cfg_dump (&ts->cfg, 1 /* is_client */);
}
tx_bytes = ts->write (ts, &ts->cfg, sizeof (ts->cfg));
if (tx_bytes < 0)
{
vtwrn ("(fd %d): write test cfg failed (%d)!", ts->fd, tx_bytes);
return tx_bytes;
}
rx_bytes = ts->read (ts, ts->rxbuf, sizeof (hs_test_cfg_t));
if (rx_bytes < 0)
return rx_bytes;
if (rx_cfg->magic != HS_TEST_CFG_CTRL_MAGIC)
{
vtwrn ("(fd %d): Bad server reply cfg -- aborting!", ts->fd);
return -1;
}
if ((rx_bytes != sizeof (hs_test_cfg_t)) ||
!hs_test_cfg_verify (rx_cfg, &ts->cfg))
{
vtwrn ("(fd %d): Invalid config received from server!", ts->fd);
if (rx_bytes != sizeof (hs_test_cfg_t))
{
vtinf ("\tRx bytes %d != cfg size %lu", rx_bytes,
sizeof (hs_test_cfg_t));
}
else
{
hs_test_cfg_dump (rx_cfg, 1 /* is_client */);
vtinf ("(fd %d): Valid config sent to server.", ts->fd);
hs_test_cfg_dump (&ts->cfg, 1 /* is_client */);
}
return -1;
}
if (ts->cfg.verbose)
{
vtinf ("(fd %d): Got config back from server.", ts->fd);
hs_test_cfg_dump (rx_cfg, 1 /* is_client */);
}
return 0;
}
static int
vtc_worker_alloc_sessions (vcl_test_client_worker_t *wrk)
{
vcl_test_session_t *ts;
uint32_t n_test_sessions;
struct timespec now;
int i, j;
n_test_sessions = wrk->cfg.num_test_sessions;
if (n_test_sessions < 1)
{
errno = EINVAL;
return -1;
}
if (wrk->n_sessions >= n_test_sessions)
goto done;
if (wrk->n_sessions)
wrk->sessions = realloc (wrk->sessions,
n_test_sessions * sizeof (vcl_test_session_t));
else
wrk->sessions = calloc (n_test_sessions, sizeof (vcl_test_session_t));
if (!wrk->sessions)
{
vterr ("failed to alloc sessions", -errno);
return errno;
}
clock_gettime (CLOCK_REALTIME, &now);
for (i = 0; i < n_test_sessions; i++)
{
ts = &wrk->sessions[i];
memset (ts, 0, sizeof (*ts));
ts->session_index = i;
ts->old_stats.stop = now;
ts->cfg = wrk->cfg;
vcl_test_session_buf_alloc (ts);
switch (ts->cfg.test)
{
case HS_TEST_TYPE_UNI:
case HS_TEST_TYPE_BI:
for (j = 0; j < ts->txbuf_size; j++)
ts->txbuf[j] = j & 0xff;
break;
default:
break;
}
}
wrk->n_sessions = n_test_sessions;
done:
vtinf ("All test sessions (%d) initialized!", n_test_sessions);
return 0;
}
static int
vtc_worker_init (vcl_test_client_worker_t * wrk)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
int rv;
__wrk_index = wrk->wrk_index;
vtinf ("Initializing worker %u ...", wrk->wrk_index);
if (wrk->wrk_index)
{
if (vppcom_worker_register ())
{
vtwrn ("failed to register worker");
return -1;
}
vt_atomic_add (&vcm->active_workers, 1);
}
rv = vtc_worker_alloc_sessions (wrk);
if (rv)
{
vterr ("vtc_worker_alloc_sessions ()", rv);
return rv;
}
return 0;
}
static int stats_lock = 0;
static void
vtc_accumulate_stats (vcl_test_client_worker_t * wrk,
vcl_test_session_t * ctrl)
{
vcl_test_session_t *ts;
static char buf[64];
int i, show_rx = 0;
while (__sync_lock_test_and_set (&stats_lock, 1))
;
if (ctrl->cfg.test == HS_TEST_TYPE_BI || ctrl->cfg.test == HS_TEST_TYPE_ECHO)
show_rx = 1;
for (i = 0; i < wrk->cfg.num_test_sessions; i++)
{
ts = &wrk->sessions[i];
ts->stats.start = ctrl->stats.start;
if (ctrl->cfg.verbose > 1)
{
snprintf (buf, sizeof (buf), "CLIENT (fd %d) RESULTS", ts->fd);
vcl_test_stats_dump (buf, &ts->stats, show_rx, 1 /* show tx */ ,
ctrl->cfg.verbose);
}
vcl_test_stats_accumulate (&ctrl->stats, &ts->stats);
if (vcl_comp_tspec (&ctrl->stats.stop, &ts->stats.stop) < 0)
ctrl->stats.stop = ts->stats.stop;
}
__sync_lock_release (&stats_lock);
}
static void
vtc_worker_sessions_exit (vcl_test_client_worker_t * wrk)
{
vcl_test_session_t *ts;
int i;
for (i = 0; i < wrk->cfg.num_test_sessions; i++)
{
ts = &wrk->sessions[i];
vppcom_session_close (ts->fd);
vcl_test_session_buf_free (ts);
}
wrk->n_sessions = 0;
}
static void
vtc_inc_stats_check (vcl_test_session_t *ts)
{
/* Avoid checking time too often because of syscall cost */
if (ts->stats.tx_bytes - ts->old_stats.tx_bytes < 1 << 20)
return;
clock_gettime (CLOCK_REALTIME, &ts->stats.stop);
if (vcl_test_time_diff (&ts->old_stats.stop, &ts->stats.stop) > 1)
{
vcl_test_stats_dump_inc (ts, 0 /* is_rx */);
ts->old_stats = ts->stats;
}
}
static void
vtc_worker_start_transfer (vcl_test_client_worker_t *wrk)
{
vtinf ("Worker %u starting transfer ...", wrk->wrk_index);
if (wrk->wrk_index == 0)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
clock_gettime (CLOCK_REALTIME, &ctrl->stats.start);
}
}
static int
vtc_session_check_is_done (vcl_test_session_t *ts, uint8_t check_rx)
{
if ((!check_rx && ts->stats.tx_bytes >= ts->cfg.total_bytes) ||
(check_rx && ts->stats.rx_bytes >= ts->cfg.total_bytes))
{
clock_gettime (CLOCK_REALTIME, &ts->stats.stop);
ts->is_done = 1;
return 1;
}
return 0;
}
static int
vtc_worker_connect_sessions_select (vcl_test_client_worker_t *wrk)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_main_t *vt = &vcl_test_main;
const vcl_test_proto_vft_t *tp;
vcl_test_session_t *ts;
uint32_t sidx;
int i, rv;
tp = vt->protos[vcm->proto];
FD_ZERO (&wrk->wr_fdset);
FD_ZERO (&wrk->rd_fdset);
for (i = 0; i < wrk->cfg.num_test_sessions; i++)
{
ts = &wrk->sessions[i];
rv = tp->open (&wrk->sessions[i], &vcm->server_endpt);
if (rv < 0)
return rv;
FD_SET (vppcom_session_index (ts->fd), &wrk->wr_fdset);
FD_SET (vppcom_session_index (ts->fd), &wrk->rd_fdset);
sidx = vppcom_session_index (ts->fd);
wrk->max_fd_index = vtc_max (sidx, wrk->max_fd_index);
}
wrk->max_fd_index += 1;
vtinf ("All test sessions (%d) connected!", wrk->cfg.num_test_sessions);
return 0;
}
static int
vtc_worker_run_select (vcl_test_client_worker_t *wrk)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
fd_set _wfdset, *wfdset = &_wfdset;
fd_set _rfdset, *rfdset = &_rfdset;
uint32_t n_active_sessions;
vcl_test_session_t *ts;
int i, rv, check_rx = 0;
rv = vtc_worker_connect_sessions_select (wrk);
if (rv)
{
vterr ("vtc_worker_connect_sessions()", rv);
return rv;
}
check_rx = wrk->cfg.test != HS_TEST_TYPE_UNI;
n_active_sessions = wrk->cfg.num_test_sessions;
vtc_worker_start_transfer (wrk);
while (n_active_sessions && vcm->test_running)
{
_wfdset = wrk->wr_fdset;
_rfdset = wrk->rd_fdset;
rv = vppcom_select (wrk->max_fd_index, (unsigned long *) rfdset,
(unsigned long *) wfdset, NULL, 0);
if (rv < 0)
{
vterr ("vppcom_select()", rv);
break;
}
else if (rv == 0)
continue;
for (i = 0; i < wrk->cfg.num_test_sessions; i++)
{
ts = &wrk->sessions[i];
if (ts->is_done)
continue;
if (FD_ISSET (vppcom_session_index (ts->fd), rfdset) &&
ts->stats.rx_bytes < ts->cfg.total_bytes)
{
rv = ts->read (ts, ts->rxbuf, ts->rxbuf_size);
if (rv < 0)
break;
}
if (FD_ISSET (vppcom_session_index (ts->fd), wfdset) &&
ts->stats.tx_bytes < ts->cfg.total_bytes)
{
rv = ts->write (ts, ts->txbuf, ts->cfg.txbuf_size);
if (rv < 0)
{
vtwrn ("vppcom_test_write (%d) failed -- aborting test",
ts->fd);
break;
}
if (vcm->incremental_stats)
vtc_inc_stats_check (ts);
}
if (vtc_session_check_is_done (ts, check_rx))
n_active_sessions -= 1;
}
}
return 0;
}
static void
vtc_worker_epoll_send_add (vcl_test_client_worker_t *wrk,
vcl_test_session_t *ts)
{
if (!wrk->next_to_send)
{
wrk->next_to_send = ts;
}
else
{
ts->next = wrk->next_to_send;
wrk->next_to_send = ts->next;
}
}
static void
vtc_worker_epoll_send_del (vcl_test_client_worker_t *wrk,
vcl_test_session_t *ts, vcl_test_session_t *prev)
{
if (!prev)
{
wrk->next_to_send = ts->next;
}
else
{
prev->next = ts->next;
}
}
static int
vtc_worker_connect_sessions_epoll (vcl_test_client_worker_t *wrk)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_main_t *vt = &vcl_test_main;
const vcl_test_proto_vft_t *tp;
struct timespec start, end;
uint32_t n_connected = 0;
vcl_test_session_t *ts;
struct epoll_event ev;
int i, ci = 0, rv, n_ev;
double diff;
tp = vt->protos[vcm->proto];
wrk->epoll_sh = vppcom_epoll_create ();
ev.events = EPOLLET | EPOLLOUT;
clock_gettime (CLOCK_REALTIME, &start);
while (n_connected < wrk->cfg.num_test_sessions)
{
/*
* Try to connect more sessions if under pending threshold
*/
while ((ci - n_connected) < 16 && ci < wrk->cfg.num_test_sessions)
{
ts = &wrk->sessions[ci];
ts->noblk_connect = 1;
rv = tp->open (&wrk->sessions[ci], &vcm->server_endpt);
if (rv < 0)
{
vtwrn ("open: %d", rv);
return rv;
}
ev.data.u64 = ci;
rv = vppcom_epoll_ctl (wrk->epoll_sh, EPOLL_CTL_ADD, ts->fd, &ev);
if (rv < 0)
{
vtwrn ("vppcom_epoll_ctl: %d", rv);
return rv;
}
ci += 1;
}
/*
* Handle connected events
*/
n_ev =
vppcom_epoll_wait (wrk->epoll_sh, wrk->ep_evts,
VCL_TEST_CFG_MAX_EPOLL_EVENTS, 0 /* timeout */);
if (n_ev < 0)
{
vterr ("vppcom_epoll_wait() returned", n_ev);
return -1;
}
else if (n_ev == 0)
{
continue;
}
for (i = 0; i < n_ev; i++)
{
ts = &wrk->sessions[wrk->ep_evts[i].data.u32];
if (!(wrk->ep_evts[i].events & EPOLLOUT))
{
vtwrn ("connect failed");
return -1;
}
if (ts->is_open)
{
vtwrn ("connection already open?");
return -1;
}
ts->is_open = 1;
n_connected += 1;
}
}
clock_gettime (CLOCK_REALTIME, &end);
diff = vcl_test_time_diff (&start, &end);
vtinf ("Connected (%u) connected in %.2f seconds (%u CPS)!",
wrk->cfg.num_test_sessions, diff,
(uint32_t) ((double) wrk->cfg.num_test_sessions / diff));
ev.events = EPOLLET | EPOLLIN | EPOLLOUT;
for (i = 0; i < wrk->cfg.num_test_sessions; i++)
{
ts = &wrk->sessions[i];
/* No data to be sent */
if (ts->cfg.total_bytes == 0)
{
n_connected -= 1;
clock_gettime (CLOCK_REALTIME, &ts->stats.stop);
ts->is_done = 1;
continue;
}
ev.data.u64 = i;
rv = vppcom_epoll_ctl (wrk->epoll_sh, EPOLL_CTL_MOD, ts->fd, &ev);
if (rv < 0)
{
vtwrn ("vppcom_epoll_ctl: %d", rv);
return rv;
}
vtc_worker_epoll_send_add (wrk, ts);
}
return n_connected;
}
static int
vtc_worker_run_epoll (vcl_test_client_worker_t *wrk)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
uint32_t n_active_sessions, max_writes = 16, n_writes = 0;
vcl_test_session_t *ts, *prev = 0;
int i, rv, check_rx = 0, n_ev;
rv = vtc_worker_connect_sessions_epoll (wrk);
if (rv < 0)
{
vterr ("vtc_worker_connect_sessions()", rv);
return rv;
}
n_active_sessions = rv;
check_rx = wrk->cfg.test != HS_TEST_TYPE_UNI;
vtc_worker_start_transfer (wrk);
ts = wrk->next_to_send;
while (n_active_sessions && vcm->test_running)
{
/*
* Try to write
*/
if (!ts)
{
ts = wrk->next_to_send;
if (!ts)
goto get_epoll_evts;
}
rv = ts->write (ts, ts->txbuf, ts->cfg.txbuf_size);
if (rv > 0)
{
if (vcm->incremental_stats)
vtc_inc_stats_check (ts);
if (vtc_session_check_is_done (ts, check_rx))
n_active_sessions -= 1;
}
else if (rv == 0)
{
vtc_worker_epoll_send_del (wrk, ts, prev);
}
else
{
vtwrn ("vppcom_test_write (%d) failed -- aborting test", ts->fd);
return -1;
}
prev = ts;
ts = ts->next;
n_writes += 1;
if (rv > 0 && n_writes < max_writes)
continue;
get_epoll_evts:
/*
* Grab new events
*/
n_ev =
vppcom_epoll_wait (wrk->epoll_sh, wrk->ep_evts,
VCL_TEST_CFG_MAX_EPOLL_EVENTS, 0 /* timeout */);
if (n_ev < 0)
{
vterr ("vppcom_epoll_wait()", n_ev);
break;
}
else if (n_ev == 0)
{
continue;
}
for (i = 0; i < n_ev; i++)
{
ts = &wrk->sessions[wrk->ep_evts[i].data.u32];
if (ts->is_done)
continue;
if (wrk->ep_evts[i].events & (EPOLLERR | EPOLLHUP | EPOLLRDHUP))
{
vtinf ("%u finished before reading all data?", ts->fd);
break;
}
if ((wrk->ep_evts[i].events & EPOLLIN) &&
ts->stats.rx_bytes < ts->cfg.total_bytes)
{
rv = ts->read (ts, ts->rxbuf, ts->rxbuf_size);
if (rv < 0)
break;
if (vtc_session_check_is_done (ts, check_rx))
n_active_sessions -= 1;
}
if ((wrk->ep_evts[i].events & EPOLLOUT) &&
ts->stats.tx_bytes < ts->cfg.total_bytes)
{
vtc_worker_epoll_send_add (wrk, ts);
}
}
n_writes = 0;
}
return 0;
}
static inline int
vtc_worker_run (vcl_test_client_worker_t *wrk)
{
int rv;
vtinf ("Worker %u starting test ...", wrk->wrk_index);
rv = wrk->wrk_run_fn (wrk);
vtinf ("Worker %d done ...", wrk->wrk_index);
return rv;
}
static void *
vtc_worker_loop (void *arg)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
vcl_test_client_worker_t *wrk = arg;
if (vtc_worker_init (wrk))
goto done;
if (vtc_worker_run (wrk))
goto done;
vtc_accumulate_stats (wrk, ctrl);
sleep (VCL_TEST_DELAY_DISCONNECT);
vtc_worker_sessions_exit (wrk);
done:
if (wrk->wrk_index)
vt_atomic_add (&vcm->active_workers, -1);
return 0;
}
static void
vtc_print_stats (vcl_test_session_t * ctrl)
{
int is_echo = ctrl->cfg.test == HS_TEST_TYPE_ECHO;
int show_rx = 0;
char buf[64];
if (ctrl->cfg.test == HS_TEST_TYPE_BI || ctrl->cfg.test == HS_TEST_TYPE_ECHO)
show_rx = 1;
vcl_test_stats_dump ("CLIENT RESULTS", &ctrl->stats,
show_rx, 1 /* show tx */ ,
ctrl->cfg.verbose);
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
if (ctrl->cfg.verbose)
{
vtinf (" ctrl session info\n" HS_TEST_SEPARATOR_STRING
" fd: %d (0x%08x)\n"
" rxbuf: %p\n"
" rxbuf size: %u (0x%08x)\n"
" txbuf: %p\n"
" txbuf size: %u (0x%08x)\n" HS_TEST_SEPARATOR_STRING,
ctrl->fd, (uint32_t) ctrl->fd, ctrl->rxbuf, ctrl->rxbuf_size,
ctrl->rxbuf_size, ctrl->txbuf, ctrl->txbuf_size,
ctrl->txbuf_size);
}
if (is_echo)
snprintf (buf, sizeof (buf), "Echo");
else
snprintf (buf, sizeof (buf), "%s-directional Stream",
ctrl->cfg.test == HS_TEST_TYPE_BI ? "Bi" : "Uni");
}
static void
vtc_echo_client (vcl_test_client_main_t * vcm)
{
vcl_test_session_t *ctrl = &vcm->ctrl_session;
hs_test_cfg_t *cfg = &ctrl->cfg;
int rv;
cfg->total_bytes = strlen (ctrl->txbuf) + 1;
memset (&ctrl->stats, 0, sizeof (ctrl->stats));
rv = ctrl->write (ctrl, ctrl->txbuf, cfg->total_bytes);
if (rv < 0)
{
vtwrn ("vppcom_test_write (%d) failed ", ctrl->fd);
return;
}
(void) ctrl->read (ctrl, ctrl->rxbuf, ctrl->rxbuf_size);
}
static void
vtc_stream_client (vcl_test_client_main_t * vcm)
{
vcl_test_session_t *ctrl = &vcm->ctrl_session;
hs_test_cfg_t *cfg = &ctrl->cfg;
vcl_test_client_worker_t *wrk;
uint32_t i, n_conn, n_conn_per_wrk;
vtinf ("%s-directional Stream Test Starting!",
ctrl->cfg.test == HS_TEST_TYPE_BI ? "Bi" : "Uni");
memset (&ctrl->stats, 0, sizeof (vcl_test_stats_t));
cfg->total_bytes = cfg->num_writes * cfg->txbuf_size;
cfg->ctrl_handle = ctrl->fd;
n_conn = cfg->num_test_sessions;
n_conn_per_wrk = n_conn / vcm->n_workers;
for (i = 0; i < vcm->n_workers; i++)
{
wrk = &vcm->workers[i];
wrk->wrk_index = i;
wrk->cfg = ctrl->cfg;
wrk->cfg.num_test_sessions = vtc_min (n_conn_per_wrk, n_conn);
n_conn -= wrk->cfg.num_test_sessions;
}
vcm->test_running = 1;
ctrl->cfg.cmd = HS_TEST_CMD_START;
if (vtc_cfg_sync (ctrl))
{
vtwrn ("test cfg sync failed -- aborting!");
return;
}
for (i = 1; i < vcm->n_workers; i++)
{
wrk = &vcm->workers[i];
if (pthread_create (&wrk->thread_handle, NULL, vtc_worker_loop,
(void *) wrk))
{
vtwrn ("pthread_create failed -- aborting!");
return;
}
}
vtc_worker_loop (&vcm->workers[0]);
while (vcm->active_workers > 0)
;
vtinf ("Sending config on ctrl session (fd %d) for stats...", ctrl->fd);
ctrl->cfg.cmd = HS_TEST_CMD_STOP;
if (vtc_cfg_sync (ctrl))
{
vtwrn ("test cfg sync failed -- aborting!");
return;
}
vtc_print_stats (ctrl);
ctrl->cfg.cmd = HS_TEST_CMD_SYNC;
ctrl->cfg.test = HS_TEST_TYPE_ECHO;
ctrl->cfg.total_bytes = 0;
if (vtc_cfg_sync (ctrl))
vtwrn ("post-test cfg sync failed!");
}
static void
cfg_txbuf_size_set (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
char *p = ctrl->txbuf + strlen (VCL_TEST_TOKEN_TXBUF_SIZE);
uint64_t txbuf_size = strtoull ((const char *) p, NULL, 10);
if (txbuf_size >= VCL_TEST_CFG_BUF_SIZE_MIN)
{
ctrl->cfg.txbuf_size = txbuf_size;
ctrl->cfg.total_bytes = ctrl->cfg.num_writes * ctrl->cfg.txbuf_size;
vcl_test_buf_alloc (&ctrl->cfg, 0 /* is_rxbuf */ ,
(uint8_t **) & ctrl->txbuf, &ctrl->txbuf_size);
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
}
else
vtwrn ("Invalid txbuf size (%lu) < minimum buf size (%u)!",
txbuf_size, VCL_TEST_CFG_BUF_SIZE_MIN);
}
static void
cfg_num_writes_set (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
char *p = ctrl->txbuf + strlen (VCL_TEST_TOKEN_NUM_WRITES);
uint32_t num_writes = strtoul ((const char *) p, NULL, 10);
if (num_writes > 0)
{
ctrl->cfg.num_writes = num_writes;
ctrl->cfg.total_bytes = ctrl->cfg.num_writes * ctrl->cfg.txbuf_size;
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
}
else
{
vtwrn ("invalid num writes: %u", num_writes);
}
}
static void
cfg_num_test_sessions_set (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
char *p = ctrl->txbuf + strlen (VCL_TEST_TOKEN_NUM_TEST_SESS);
uint32_t num_test_sessions = strtoul ((const char *) p, NULL, 10);
if ((num_test_sessions > 0) &&
(num_test_sessions <= VCL_TEST_CFG_MAX_TEST_SESS))
{
ctrl->cfg.num_test_sessions = num_test_sessions;
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
}
else
{
vtwrn ("invalid num test sessions: %u, (%d max)",
num_test_sessions, VCL_TEST_CFG_MAX_TEST_SESS);
}
}
static void
cfg_rxbuf_size_set (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
char *p = ctrl->txbuf + strlen (VCL_TEST_TOKEN_RXBUF_SIZE);
uint64_t rxbuf_size = strtoull ((const char *) p, NULL, 10);
if (rxbuf_size >= VCL_TEST_CFG_BUF_SIZE_MIN)
{
ctrl->cfg.rxbuf_size = rxbuf_size;
vcl_test_buf_alloc (&ctrl->cfg, 1 /* is_rxbuf */ ,
(uint8_t **) & ctrl->rxbuf, &ctrl->rxbuf_size);
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
}
else
vtwrn ("Invalid rxbuf size (%lu) < minimum buf size (%u)!",
rxbuf_size, VCL_TEST_CFG_BUF_SIZE_MIN);
}
static void
cfg_verbose_toggle (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
ctrl->cfg.verbose = ctrl->cfg.verbose ? 0 : 1;
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
}
static hs_test_t
parse_input ()
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
hs_test_t rv = HS_TEST_TYPE_NONE;
if (!strncmp (VCL_TEST_TOKEN_EXIT, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_EXIT)))
rv = HS_TEST_TYPE_EXIT;
else if (!strncmp (VCL_TEST_TOKEN_HELP, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_HELP)))
dump_help ();
else if (!strncmp (VCL_TEST_TOKEN_SHOW_CFG, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_SHOW_CFG)))
vcm->dump_cfg = 1;
else if (!strncmp (VCL_TEST_TOKEN_VERBOSE, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_VERBOSE)))
cfg_verbose_toggle ();
else if (!strncmp (VCL_TEST_TOKEN_TXBUF_SIZE, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_TXBUF_SIZE)))
cfg_txbuf_size_set ();
else if (!strncmp (VCL_TEST_TOKEN_NUM_TEST_SESS, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_NUM_TEST_SESS)))
cfg_num_test_sessions_set ();
else if (!strncmp (VCL_TEST_TOKEN_NUM_WRITES, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_NUM_WRITES)))
cfg_num_writes_set ();
else if (!strncmp (VCL_TEST_TOKEN_RXBUF_SIZE, ctrl->txbuf,
strlen (VCL_TEST_TOKEN_RXBUF_SIZE)))
cfg_rxbuf_size_set ();
else if (!strncmp (HS_TEST_TOKEN_RUN_UNI, ctrl->txbuf,
strlen (HS_TEST_TOKEN_RUN_UNI)))
rv = ctrl->cfg.test = HS_TEST_TYPE_UNI;
else if (!strncmp (HS_TEST_TOKEN_RUN_BI, ctrl->txbuf,
strlen (HS_TEST_TOKEN_RUN_BI)))
rv = ctrl->cfg.test = HS_TEST_TYPE_BI;
else
rv = HS_TEST_TYPE_ECHO;
return rv;
}
void
print_usage_and_exit (void)
{
fprintf (
stderr,
"vcl_test_client [OPTIONS] <ipaddr> <port>\n"
" OPTIONS\n"
" -h Print this message and exit.\n"
" -6 Use IPv6\n"
" -c Print test config before test.\n"
" -w <dir> Write test results to <dir>.\n"
" -X Exit after running test.\n"
" -p <proto> Use <proto> transport layer\n"
" -D Use UDP transport layer\n"
" -L Use TLS transport layer\n"
" -E Run Echo test.\n"
" -N <num-writes> Test Cfg: number of writes.\n"
" -R <rxbuf-size> Test Cfg: rx buffer size.\n"
" -T <txbuf-size> Test Cfg: tx buffer size.\n"
" -U Run Uni-directional test.\n"
" -B Run Bi-directional test.\n"
" -b <bytes> Total number of bytes transferred\n"
" -V Verbose mode.\n"
" -I <N> Use N sessions.\n"
" -s <N> Use N sessions.\n"
" -S Print incremental stats per session.\n"
" -q <n> QUIC : use N Ssessions on top of n Qsessions\n");
exit (1);
}
static void
vtc_process_opts (vcl_test_client_main_t * vcm, int argc, char **argv)
{
vcl_test_session_t *ctrl = &vcm->ctrl_session;
int c, v;
opterr = 0;
while ((c = getopt (argc, argv, "chnp:w:xXE:I:N:R:T:b:UBV6DLs:q:S")) != -1)
switch (c)
{
case 'c':
vcm->dump_cfg = 1;
break;
case 'I': /* deprecated */
case 's':
if (sscanf (optarg, "0x%x", &ctrl->cfg.num_test_sessions) != 1)
if (sscanf (optarg, "%u", &ctrl->cfg.num_test_sessions) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (!ctrl->cfg.num_test_sessions ||
(ctrl->cfg.num_test_sessions > VCL_TEST_CFG_MAX_TEST_SESS))
{
vtwrn ("Invalid number of sessions (%d) specified for option -%c!"
"\n Valid range is 1 - %d",
ctrl->cfg.num_test_sessions, c,
VCL_TEST_CFG_MAX_TEST_SESS);
print_usage_and_exit ();
}
break;
case 'q':
if (sscanf (optarg, "0x%x", &ctrl->cfg.num_test_sessions_perq) != 1)
if (sscanf (optarg, "%u", &ctrl->cfg.num_test_sessions_perq) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (!ctrl->cfg.num_test_sessions_perq ||
(ctrl->cfg.num_test_sessions_perq > VCL_TEST_CFG_MAX_TEST_SESS))
{
vtwrn ("Invalid number of Stream sessions (%d) per Qsession"
"for option -%c!\nValid range is 1 - %d",
ctrl->cfg.num_test_sessions_perq, c,
VCL_TEST_CFG_MAX_TEST_SESS);
print_usage_and_exit ();
}
break;
case 'w':
if (sscanf (optarg, "%d", &v) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (v > 1)
vcm->n_workers = v;
break;
case 'X':
vcm->post_test = HS_TEST_TYPE_EXIT;
break;
case 'x':
vcm->post_test = HS_TEST_TYPE_NONE;
break;
case 'E':
if (strlen (optarg) > ctrl->txbuf_size)
{
vtwrn ("Option -%c value larger than txbuf size (%d)!",
optopt, ctrl->txbuf_size);
print_usage_and_exit ();
}
strncpy (ctrl->txbuf, optarg, ctrl->txbuf_size);
ctrl->cfg.test = HS_TEST_TYPE_ECHO;
break;
case 'N':
if (sscanf (optarg, "0x%lx", &ctrl->cfg.num_writes) != 1)
if (sscanf (optarg, "%ld", &ctrl->cfg.num_writes) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
ctrl->cfg.total_bytes = ctrl->cfg.num_writes * ctrl->cfg.txbuf_size;
break;
case 'R':
if (sscanf (optarg, "0x%lx", &ctrl->cfg.rxbuf_size) != 1)
if (sscanf (optarg, "%ld", &ctrl->cfg.rxbuf_size) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (ctrl->cfg.rxbuf_size >= VCL_TEST_CFG_BUF_SIZE_MIN)
{
ctrl->rxbuf_size = ctrl->cfg.rxbuf_size;
vcl_test_buf_alloc (&ctrl->cfg, 1 /* is_rxbuf */ ,
(uint8_t **) & ctrl->rxbuf,
&ctrl->rxbuf_size);
}
else
{
vtwrn ("rxbuf size (%lu) less than minumum (%u)",
ctrl->cfg.rxbuf_size, VCL_TEST_CFG_BUF_SIZE_MIN);
print_usage_and_exit ();
}
break;
case 'T':
if (sscanf (optarg, "0x%lx", &ctrl->cfg.txbuf_size) != 1)
if (sscanf (optarg, "%ld", &ctrl->cfg.txbuf_size) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (ctrl->cfg.txbuf_size >= VCL_TEST_CFG_BUF_SIZE_MIN)
{
ctrl->txbuf_size = ctrl->cfg.txbuf_size;
vcl_test_buf_alloc (&ctrl->cfg, 0 /* is_rxbuf */ ,
(uint8_t **) & ctrl->txbuf,
&ctrl->txbuf_size);
ctrl->cfg.total_bytes =
ctrl->cfg.num_writes * ctrl->cfg.txbuf_size;
}
else
{
vtwrn ("txbuf size (%lu) less than minumum (%u)!",
ctrl->cfg.txbuf_size, VCL_TEST_CFG_BUF_SIZE_MIN);
print_usage_and_exit ();
}
break;
case 'b':
if (sscanf (optarg, "0x%lu", &ctrl->cfg.total_bytes) != 1)
if (sscanf (optarg, "%ld", &ctrl->cfg.total_bytes) != 1)
{
vtwrn ("Invalid value for option -%c!", c);
print_usage_and_exit ();
}
if (ctrl->cfg.total_bytes % ctrl->cfg.txbuf_size)
{
vtwrn ("total bytes must be mutliple of txbuf size(0x%lu)!",
ctrl->cfg.txbuf_size);
print_usage_and_exit ();
}
ctrl->cfg.num_writes = ctrl->cfg.total_bytes / ctrl->cfg.txbuf_size;
break;
case 'U':
ctrl->cfg.test = HS_TEST_TYPE_UNI;
break;
case 'B':
ctrl->cfg.test = HS_TEST_TYPE_BI;
break;
case 'V':
ctrl->cfg.verbose = 1;
break;
case '6':
ctrl->cfg.address_ip6 = 1;
break;
case 'p':
if (vppcom_unformat_proto (&vcm->proto, optarg))
vtwrn ("Invalid vppcom protocol %s, defaulting to TCP", optarg);
break;
case 'D': /* deprecated */
vcm->proto = VPPCOM_PROTO_UDP;
break;
case 'L': /* deprecated */
vcm->proto = VPPCOM_PROTO_TLS;
break;
case 'S':
vcm->incremental_stats = 1;
break;
case '?':
switch (optopt)
{
case 'E':
case 'I': /* deprecated */
case 'N':
case 'R':
case 'T':
case 'w':
case 'p':
case 'q':
vtwrn ("Option -%c requires an argument.", optopt);
break;
default:
if (isprint (optopt))
vtwrn ("Unknown option `-%c'.", optopt);
else
vtwrn ("Unknown option character `\\x%x'.", optopt);
}
/* fall thru */
case 'h':
default:
print_usage_and_exit ();
}
if (argc > (optind + 2))
{
vtwrn ("Invalid number of arguments!");
print_usage_and_exit ();
}
ctrl->cfg.num_test_qsessions = vcm->proto != VPPCOM_PROTO_QUIC ? 0 :
(ctrl->cfg.num_test_sessions + ctrl->cfg.num_test_sessions_perq - 1) /
ctrl->cfg.num_test_sessions_perq;
memset (&vcm->server_addr, 0, sizeof (vcm->server_addr));
if (ctrl->cfg.address_ip6)
{
struct in6_addr *in6 = &vcm->server_addr.v6;
inet_pton (AF_INET6, argv[optind++], in6);
vcm->server_endpt.is_ip4 = 0;
vcm->server_endpt.ip = (uint8_t *) in6;
}
else
{
struct in_addr *in4 = &vcm->server_addr.v4;
inet_pton (AF_INET, argv[optind++], in4);
vcm->server_endpt.is_ip4 = 1;
vcm->server_endpt.ip = (uint8_t *) in4;
}
if (argc == optind + 1)
vcm->server_endpt.port = htons (atoi (argv[optind]));
else
vcm->server_endpt.port = htons (VCL_TEST_SERVER_PORT);
}
static void
vtc_read_user_input (vcl_test_session_t * ctrl)
{
printf ("\nType some characters and hit <return>\n"
"('" VCL_TEST_TOKEN_HELP "' for help): ");
if (fgets (ctrl->txbuf, ctrl->txbuf_size, stdin) != NULL)
{
if (strlen (ctrl->txbuf) == 1)
{
printf ("\nNothing to send! Please try again...\n");
return;
}
ctrl->txbuf[strlen (ctrl->txbuf) - 1] = 0; // chomp the newline.
/* Parse input for keywords */
ctrl->cfg.test = parse_input ();
}
}
static void
vtc_ctrl_session_exit (void)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
int verbose = ctrl->cfg.verbose;
/* Only clients exits, server can accept new connections */
if (vcm->post_test == HS_TEST_TYPE_EXIT_CLIENT)
return;
ctrl->cfg.test = HS_TEST_TYPE_EXIT;
vtinf ("(fd %d): Sending exit cfg to server...", ctrl->fd);
if (verbose)
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
(void) vcl_test_write (ctrl, (uint8_t *) &ctrl->cfg, sizeof (ctrl->cfg));
sleep (1);
}
static int
vtc_ctrl_session_init (vcl_test_client_main_t *vcm, vcl_test_session_t *ctrl)
{
int rv;
ctrl->fd = vppcom_session_create (VPPCOM_PROTO_TCP, 0 /* is_nonblocking */);
if (ctrl->fd < 0)
{
vterr ("vppcom_session_create()", ctrl->fd);
return ctrl->fd;
}
vtinf ("Connecting to server...");
rv = vppcom_session_connect (ctrl->fd, &vcm->server_endpt);
if (rv)
{
vterr ("vppcom_session_connect()", rv);
return rv;
}
vtinf ("Control session (fd %d) connected.", ctrl->fd);
ctrl->read = vcl_test_read;
ctrl->write = vcl_test_write;
ctrl->cfg.cmd = HS_TEST_CMD_SYNC;
rv = vtc_cfg_sync (ctrl);
if (rv)
{
vterr ("vtc_cfg_sync()", rv);
return rv;
}
ctrl->cfg.ctrl_handle = ((hs_test_cfg_t *) ctrl->rxbuf)->ctrl_handle;
memset (&ctrl->stats, 0, sizeof (ctrl->stats));
return 0;
}
static void
vt_sigs_handler (int signum, siginfo_t *si, void *uc)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
vcm->test_running = 0;
clock_gettime (CLOCK_REALTIME, &ctrl->stats.stop);
}
static void
vt_incercept_sigs (void)
{
struct sigaction sa;
memset (&sa, 0, sizeof (sa));
sa.sa_sigaction = vt_sigs_handler;
sa.sa_flags = SA_SIGINFO;
if (sigaction (SIGINT, &sa, 0))
{
vtwrn ("couldn't intercept sigint");
exit (-1);
}
}
static void
vtc_alloc_workers (vcl_test_client_main_t *vcm)
{
vcl_test_main_t *vt = &vcl_test_main;
vtc_worker_run_fn *run_fn;
vcm->workers = calloc (vcm->n_workers, sizeof (vcl_test_client_worker_t));
vt->wrk = calloc (vcm->n_workers, sizeof (vcl_test_wrk_t));
if (vcm->ctrl_session.cfg.num_test_sessions > VCL_TEST_CFG_MAX_SELECT_SESS)
run_fn = vtc_worker_run_epoll;
else
run_fn = vtc_worker_run_select;
for (int i = 0; i < vcm->n_workers; i++)
vcm->workers[i].wrk_run_fn = run_fn;
}
int
main (int argc, char **argv)
{
vcl_test_client_main_t *vcm = &vcl_client_main;
vcl_test_session_t *ctrl = &vcm->ctrl_session;
vcl_test_main_t *vt = &vcl_test_main;
int rv;
vcm->n_workers = 1;
vcm->post_test = HS_TEST_TYPE_EXIT_CLIENT;
hs_test_cfg_init (&ctrl->cfg);
vt_incercept_sigs ();
vcl_test_session_buf_alloc (ctrl);
vtc_process_opts (vcm, argc, argv);
vtc_alloc_workers (vcm);
rv = vppcom_app_create ("vcl_test_client");
if (rv < 0)
vtfail ("vppcom_app_create()", rv);
/* Protos like tls/dtls/quic need init */
if (vt->protos[vcm->proto]->init)
{
rv = vt->protos[vcm->proto]->init (&ctrl->cfg);
if (rv)
vtfail ("client init failed", rv);
}
if ((rv = vtc_ctrl_session_init (vcm, ctrl)))
vtfail ("vppcom_session_create() ctrl session", rv);
/* Update ctrl port to data port */
vcm->server_endpt.port = hs_make_data_port (vcm->server_endpt.port);
while (ctrl->cfg.test != HS_TEST_TYPE_EXIT)
{
if (vcm->dump_cfg)
{
hs_test_cfg_dump (&ctrl->cfg, 1 /* is_client */);
vcm->dump_cfg = 0;
}
switch (ctrl->cfg.test)
{
case HS_TEST_TYPE_ECHO:
vtc_echo_client (vcm);
break;
case HS_TEST_TYPE_UNI:
case HS_TEST_TYPE_BI:
vtc_stream_client (vcm);
break;
case HS_TEST_TYPE_EXIT:
continue;
case HS_TEST_TYPE_NONE:
default:
break;
}
switch (vcm->post_test)
{
case HS_TEST_TYPE_EXIT:
case HS_TEST_TYPE_EXIT_CLIENT:
switch (ctrl->cfg.test)
{
case HS_TEST_TYPE_EXIT:
case HS_TEST_TYPE_UNI:
case HS_TEST_TYPE_BI:
case HS_TEST_TYPE_ECHO:
ctrl->cfg.test = HS_TEST_TYPE_EXIT;
continue;
case HS_TEST_TYPE_NONE:
default:
break;
}
break;
case HS_TEST_TYPE_NONE:
case HS_TEST_TYPE_ECHO:
case HS_TEST_TYPE_UNI:
case HS_TEST_TYPE_BI:
default:
break;
}
memset (ctrl->txbuf, 0, ctrl->txbuf_size);
memset (ctrl->rxbuf, 0, ctrl->rxbuf_size);
vtc_read_user_input (ctrl);
}
vtc_ctrl_session_exit ();
vppcom_app_destroy ();
free (vcm->workers);
return 0;
}
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/