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apache / mynewt-documentation / 6c5108fd1f3c7b62340907677a9250c6c980dfda / . / versions / v1_4_0 / mynewt-nimble / nimble / host / test / src / ble_l2cap_test.c
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you 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 <stddef.h>
#include <errno.h>
#include "testutil/testutil.h"
#include "nimble/hci_common.h"
#include "host/ble_hs_test.h"
#include "ble_hs_test_util.h"
#define BLE_L2CAP_TEST_PSM (90)
#define BLE_L2CAP_TEST_CID (99)
#define BLE_L2CAP_TEST_COC_MTU (256)
/* We use same pool for incoming and outgoing sdu */
#define BLE_L2CAP_TEST_COC_BUF_COUNT (6 * MYNEWT_VAL(BLE_L2CAP_COC_MAX_NUM))
static uint16_t ble_l2cap_test_update_conn_handle;
static int ble_l2cap_test_update_status;
static void *ble_l2cap_test_update_arg;
static void *test_sdu_coc_mem;
struct os_mbuf_pool sdu_os_mbuf_pool;
static struct os_mempool sdu_coc_mbuf_mempool;
static uint16_t current_cid = 0x0040;
/*****************************************************************************
* $util *
*****************************************************************************/
static void
ble_l2cap_test_util_init(void)
{
ble_hs_test_util_init();
ble_l2cap_test_update_conn_handle = BLE_HS_CONN_HANDLE_NONE;
ble_l2cap_test_update_status = -1;
ble_l2cap_test_update_arg = (void *)(uintptr_t)-1;
int rc;
if (test_sdu_coc_mem) {
free(test_sdu_coc_mem);
}
/* For testing we want to support all the available channels */
test_sdu_coc_mem = malloc(
OS_MEMPOOL_BYTES(BLE_L2CAP_TEST_COC_BUF_COUNT,BLE_L2CAP_TEST_COC_MTU));
assert(test_sdu_coc_mem != NULL);
rc = os_mempool_init(&sdu_coc_mbuf_mempool, BLE_L2CAP_TEST_COC_BUF_COUNT,
BLE_L2CAP_TEST_COC_MTU, test_sdu_coc_mem,
"test_coc_sdu_pool");
assert(rc == 0);
rc = os_mbuf_pool_init(&sdu_os_mbuf_pool, &sdu_coc_mbuf_mempool,
BLE_L2CAP_TEST_COC_MTU, BLE_L2CAP_TEST_COC_BUF_COUNT);
assert(rc == 0);
}
static void
ble_l2cap_test_util_rx_update_req(uint16_t conn_handle, uint8_t id,
struct ble_l2cap_sig_update_params *params)
{
struct ble_l2cap_sig_update_req *req;
struct hci_data_hdr hci_hdr;
struct os_mbuf *om;
int rc;
hci_hdr = BLE_HS_TEST_UTIL_L2CAP_HCI_HDR(
2, BLE_HCI_PB_FIRST_FLUSH,
BLE_L2CAP_HDR_SZ + BLE_L2CAP_SIG_HDR_SZ + BLE_L2CAP_SIG_UPDATE_REQ_SZ);
req = ble_l2cap_sig_cmd_get(BLE_L2CAP_SIG_OP_UPDATE_REQ, id,
BLE_L2CAP_SIG_UPDATE_REQ_SZ, &om);
TEST_ASSERT_FATAL(req != NULL);
req->itvl_min = htole16(params->itvl_min);
req->itvl_max = htole16(params->itvl_max);
req->slave_latency = htole16(params->slave_latency);
req->timeout_multiplier = htole16(params->timeout_multiplier);
ble_hs_test_util_hci_ack_set(
ble_hs_hci_util_opcode_join(BLE_HCI_OGF_LE,
BLE_HCI_OCF_LE_CONN_UPDATE), 0);
rc = ble_hs_test_util_l2cap_rx_first_frag(conn_handle, BLE_L2CAP_CID_SIG,
&hci_hdr, om);
TEST_ASSERT_FATAL(rc == 0);
}
static void
ble_l2cap_test_util_verify_tx_update_conn(
struct ble_gap_upd_params *params)
{
uint8_t param_len;
uint8_t *param;
param = ble_hs_test_util_hci_verify_tx(BLE_HCI_OGF_LE,
BLE_HCI_OCF_LE_CONN_UPDATE,
&param_len);
TEST_ASSERT(param_len == BLE_HCI_CONN_UPDATE_LEN);
TEST_ASSERT(get_le16(param + 0) == 2);
TEST_ASSERT(get_le16(param + 2) == params->itvl_min);
TEST_ASSERT(get_le16(param + 4) == params->itvl_max);
TEST_ASSERT(get_le16(param + 6) == params->latency);
TEST_ASSERT(get_le16(param + 8) == params->supervision_timeout);
TEST_ASSERT(get_le16(param + 10) == params->min_ce_len);
TEST_ASSERT(get_le16(param + 12) == params->max_ce_len);
}
static int
ble_l2cap_test_util_dummy_rx(struct ble_l2cap_chan *chan)
{
return 0;
}
static void
ble_l2cap_test_util_create_conn(uint16_t conn_handle, uint8_t *addr,
ble_gap_event_fn *cb, void *cb_arg)
{
struct ble_l2cap_chan *chan;
struct ble_hs_conn *conn;
ble_hs_test_util_create_conn(conn_handle, addr, cb, cb_arg);
ble_hs_lock();
conn = ble_hs_conn_find(conn_handle);
TEST_ASSERT_FATAL(conn != NULL);
chan = ble_l2cap_chan_alloc(conn_handle);
TEST_ASSERT_FATAL(chan != NULL);
chan->scid = BLE_L2CAP_TEST_CID;
chan->my_mtu = 240;
chan->rx_fn = ble_l2cap_test_util_dummy_rx;
ble_hs_conn_chan_insert(conn, chan);
ble_hs_test_util_hci_out_clear();
ble_hs_unlock();
}
static int
ble_l2cap_test_util_rx_first_frag(uint16_t conn_handle,
uint16_t l2cap_frag_len,
uint16_t cid, uint16_t l2cap_len)
{
struct hci_data_hdr hci_hdr;
struct os_mbuf *om;
uint16_t hci_len;
void *v;
int rc;
om = ble_hs_mbuf_l2cap_pkt();
TEST_ASSERT_FATAL(om != NULL);
v = os_mbuf_extend(om, l2cap_frag_len);
TEST_ASSERT_FATAL(v != NULL);
om = ble_l2cap_prepend_hdr(om, cid, l2cap_len);
TEST_ASSERT_FATAL(om != NULL);
hci_len = sizeof hci_hdr + l2cap_frag_len;
hci_hdr = BLE_HS_TEST_UTIL_L2CAP_HCI_HDR(conn_handle,
BLE_HCI_PB_FIRST_FLUSH, hci_len);
rc = ble_hs_test_util_l2cap_rx(conn_handle, &hci_hdr, om);
return rc;
}
static int
ble_l2cap_test_util_rx_next_frag(uint16_t conn_handle, uint16_t hci_len)
{
struct hci_data_hdr hci_hdr;
struct os_mbuf *om;
void *v;
int rc;
om = ble_hs_mbuf_l2cap_pkt();
TEST_ASSERT_FATAL(om != NULL);
v = os_mbuf_extend(om, hci_len);
TEST_ASSERT_FATAL(v != NULL);
hci_hdr = BLE_HS_TEST_UTIL_L2CAP_HCI_HDR(conn_handle,
BLE_HCI_PB_MIDDLE, hci_len);
rc = ble_hs_test_util_l2cap_rx(conn_handle, &hci_hdr, om);
return rc;
}
static void
ble_l2cap_test_util_verify_first_frag(uint16_t conn_handle,
uint16_t l2cap_frag_len,
uint16_t l2cap_len)
{
struct ble_hs_conn *conn;
int rc;
rc = ble_l2cap_test_util_rx_first_frag(conn_handle, l2cap_frag_len,
BLE_L2CAP_TEST_CID, l2cap_len);
TEST_ASSERT(rc == 0);
ble_hs_lock();
conn = ble_hs_conn_find(conn_handle);
TEST_ASSERT_FATAL(conn != NULL);
TEST_ASSERT(conn->bhc_rx_chan != NULL &&
conn->bhc_rx_chan->scid == BLE_L2CAP_TEST_CID);
ble_hs_unlock();
}
static void
ble_l2cap_test_util_verify_middle_frag(uint16_t conn_handle,
uint16_t hci_len)
{
struct ble_hs_conn *conn;
int rc;
rc = ble_l2cap_test_util_rx_next_frag(conn_handle, hci_len);
TEST_ASSERT(rc == 0);
ble_hs_lock();
conn = ble_hs_conn_find(conn_handle);
TEST_ASSERT_FATAL(conn != NULL);
TEST_ASSERT(conn->bhc_rx_chan != NULL &&
conn->bhc_rx_chan->scid == BLE_L2CAP_TEST_CID);
ble_hs_unlock();
}
static void
ble_l2cap_test_util_verify_last_frag(uint16_t conn_handle,
uint16_t hci_len)
{
struct ble_hs_conn *conn;
int rc;
rc = ble_l2cap_test_util_rx_next_frag(conn_handle, hci_len);
TEST_ASSERT(rc == 0);
ble_hs_lock();
conn = ble_hs_conn_find(conn_handle);
TEST_ASSERT_FATAL(conn != NULL);
TEST_ASSERT(conn->bhc_rx_chan == NULL);
ble_hs_unlock();
}
/*****************************************************************************
* $rx *
*****************************************************************************/
TEST_CASE(ble_l2cap_test_case_bad_header)
{
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
rc = ble_l2cap_test_util_rx_first_frag(2, 14, 1234, 10);
TEST_ASSERT(rc == BLE_HS_ENOENT);
}
TEST_CASE(ble_l2cap_test_case_bad_handle)
{
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
rc = ble_l2cap_test_util_rx_first_frag(1234, 14, 1234, 10);
TEST_ASSERT(rc == BLE_HS_ENOTCONN);
/* Ensure we did not send anything in return. */
TEST_ASSERT_FATAL(ble_hs_test_util_prev_tx_dequeue() == NULL);
}
/*****************************************************************************
* $fragmentation *
*****************************************************************************/
TEST_CASE(ble_l2cap_test_case_frag_single)
{
struct hci_data_hdr hci_hdr;
struct os_mbuf *om;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
/*** HCI header specifies middle fragment without start. */
hci_hdr = BLE_HS_TEST_UTIL_L2CAP_HCI_HDR(2, BLE_HCI_PB_MIDDLE, 10);
om = ble_hs_mbuf_l2cap_pkt();
TEST_ASSERT_FATAL(om != NULL);
om = ble_l2cap_prepend_hdr(om, 0, 5);
TEST_ASSERT_FATAL(om != NULL);
rc = ble_hs_test_util_l2cap_rx(2, &hci_hdr, om);
TEST_ASSERT(rc == BLE_HS_EBADDATA);
/*** Packet consisting of three fragments. */
ble_l2cap_test_util_verify_first_frag(2, 10, 30);
ble_l2cap_test_util_verify_middle_frag(2, 10);
ble_l2cap_test_util_verify_last_frag(2, 10);
/*** Packet consisting of five fragments. */
ble_l2cap_test_util_verify_first_frag(2, 8, 49);
ble_l2cap_test_util_verify_middle_frag(2, 13);
ble_l2cap_test_util_verify_middle_frag(2, 2);
ble_l2cap_test_util_verify_middle_frag(2, 21);
ble_l2cap_test_util_verify_last_frag(2, 5);
}
TEST_CASE(ble_l2cap_test_case_frag_multiple)
{
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
ble_l2cap_test_util_create_conn(3, ((uint8_t[]){2,3,4,5,6,7}),
NULL, NULL);
ble_l2cap_test_util_create_conn(4, ((uint8_t[]){3,4,5,6,7,8}),
NULL, NULL);
ble_l2cap_test_util_verify_first_frag(2, 3, 10);
ble_l2cap_test_util_verify_first_frag(3, 2, 5);
ble_l2cap_test_util_verify_middle_frag(2, 6);
ble_l2cap_test_util_verify_first_frag(4, 1, 4);
ble_l2cap_test_util_verify_middle_frag(3, 2);
ble_l2cap_test_util_verify_last_frag(3, 1);
ble_l2cap_test_util_verify_middle_frag(4, 2);
ble_l2cap_test_util_verify_last_frag(4, 1);
ble_l2cap_test_util_verify_last_frag(2, 1);
}
TEST_CASE(ble_l2cap_test_case_frag_channels)
{
struct ble_hs_conn *conn;
int rc;
uint16_t data_len = 30;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
/* Receive a starting fragment on the first channel. */
rc = ble_l2cap_test_util_rx_first_frag(2, 14, BLE_L2CAP_TEST_CID, data_len);
TEST_ASSERT(rc == 0);
ble_hs_lock();
conn = ble_hs_conn_find(2);
TEST_ASSERT_FATAL(conn != NULL);
TEST_ASSERT(conn->bhc_rx_chan != NULL &&
conn->bhc_rx_chan->scid == BLE_L2CAP_TEST_CID);
ble_hs_unlock();
/* Receive a starting fragment on a different channel. The first fragment
* should get discarded.
*/
ble_hs_test_util_set_att_mtu(conn->bhc_handle, data_len);
rc = ble_l2cap_test_util_rx_first_frag(2, 14, BLE_L2CAP_CID_ATT, data_len);
TEST_ASSERT(rc == 0);
ble_hs_lock();
conn = ble_hs_conn_find(2);
TEST_ASSERT_FATAL(conn != NULL);
TEST_ASSERT(conn->bhc_rx_chan != NULL &&
conn->bhc_rx_chan->scid == BLE_L2CAP_CID_ATT);
ble_hs_unlock();
/* Terminate the connection. The received fragments should get freed.
* Mbuf leaks are tested in the post-test-case callback.
*/
ble_hs_test_util_conn_disconnect(2);
}
TEST_CASE(ble_l2cap_test_case_frag_timeout)
{
int32_t ticks_from_now;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
/* Ensure timer is not set. */
ticks_from_now = ble_hs_conn_timer();
TEST_ASSERT_FATAL(ticks_from_now == BLE_HS_FOREVER);
/* Receive the first fragment of a multipart ACL data packet. */
rc = ble_l2cap_test_util_rx_first_frag(2, 14, BLE_L2CAP_TEST_CID, 30);
TEST_ASSERT_FATAL(rc == 0);
/* Ensure timer will expire in 30 seconds. */
ticks_from_now = ble_hs_conn_timer();
TEST_ASSERT(ticks_from_now == MYNEWT_VAL(BLE_L2CAP_RX_FRAG_TIMEOUT));
/* Almost let the timer expire. */
os_time_advance(MYNEWT_VAL(BLE_L2CAP_RX_FRAG_TIMEOUT) - 1);
ticks_from_now = ble_hs_conn_timer();
TEST_ASSERT(ticks_from_now == 1);
/* Receive a second fragment. */
rc = ble_l2cap_test_util_rx_next_frag(2, 14);
TEST_ASSERT_FATAL(rc == 0);
/* Ensure timer got reset. */
ticks_from_now = ble_hs_conn_timer();
TEST_ASSERT(ticks_from_now == MYNEWT_VAL(BLE_L2CAP_RX_FRAG_TIMEOUT));
/* Allow the timer to expire. */
ble_hs_test_util_hci_ack_set_disconnect(0);
os_time_advance(MYNEWT_VAL(BLE_L2CAP_RX_FRAG_TIMEOUT));
ticks_from_now = ble_hs_conn_timer();
TEST_ASSERT(ticks_from_now == BLE_HS_FOREVER);
/* Ensure connection was terminated. */
ble_hs_test_util_hci_verify_tx_disconnect(2, BLE_ERR_REM_USER_CONN_TERM);
}
/*****************************************************************************
* $unsolicited response *
*****************************************************************************/
TEST_CASE(ble_l2cap_test_case_sig_unsol_rsp)
{
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
NULL, NULL);
/* Receive an unsolicited response. */
rc = ble_hs_test_util_rx_l2cap_update_rsp(2, 100, 0);
TEST_ASSERT(rc == 0);
/* Ensure we did not send anything in return. */
TEST_ASSERT_FATAL(ble_hs_test_util_prev_tx_dequeue() == NULL);
}
/*****************************************************************************
* $update *
*****************************************************************************/
static int
ble_l2cap_test_util_conn_cb(struct ble_gap_event *event, void *arg)
{
int *accept;
switch (event->type) {
case BLE_GAP_EVENT_L2CAP_UPDATE_REQ:
accept = arg;
return !*accept;
default:
return 0;
}
}
static void
ble_l2cap_test_util_peer_updates(int accept)
{
struct ble_l2cap_sig_update_params l2cap_params;
struct ble_gap_upd_params params;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb,
&accept);
l2cap_params.itvl_min = 0x200;
l2cap_params.itvl_max = 0x300;
l2cap_params.slave_latency = 0;
l2cap_params.timeout_multiplier = 0x500;
ble_l2cap_test_util_rx_update_req(2, 1, &l2cap_params);
/* Ensure an update response command got sent. */
ble_hs_test_util_verify_tx_l2cap_update_rsp(1, !accept);
if (accept) {
params.itvl_min = 0x200;
params.itvl_max = 0x300;
params.latency = 0;
params.supervision_timeout = 0x500;
params.min_ce_len = BLE_GAP_INITIAL_CONN_MIN_CE_LEN;
params.max_ce_len = BLE_GAP_INITIAL_CONN_MAX_CE_LEN;
ble_l2cap_test_util_verify_tx_update_conn(&params);
} else {
/* Ensure no update got scheduled. */
TEST_ASSERT(!ble_gap_dbg_update_active(2));
}
}
static void
ble_l2cap_test_util_update_cb(uint16_t conn_handle, int status, void *arg)
{
ble_l2cap_test_update_conn_handle = conn_handle;
ble_l2cap_test_update_status = status;
ble_l2cap_test_update_arg = arg;
}
static void
ble_l2cap_test_util_we_update(int peer_accepts)
{
struct ble_l2cap_sig_update_params params;
uint8_t id;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb, NULL);
/* Only the slave can initiate the L2CAP connection update procedure. */
ble_hs_atomic_conn_set_flags(2, BLE_HS_CONN_F_MASTER, 0);
params.itvl_min = 0x200;
params.itvl_max = 0x300;
params.slave_latency = 0;
params.timeout_multiplier = 0x100;
rc = ble_l2cap_sig_update(2, &params, ble_l2cap_test_util_update_cb, NULL);
TEST_ASSERT_FATAL(rc == 0);
/* Ensure an update request got sent. */
id = ble_hs_test_util_verify_tx_l2cap_update_req(&params);
/* Receive response from peer. */
rc = ble_hs_test_util_rx_l2cap_update_rsp(2, id, !peer_accepts);
TEST_ASSERT(rc == 0);
/* Ensure callback got called. */
if (peer_accepts) {
TEST_ASSERT(ble_l2cap_test_update_status == 0);
} else {
TEST_ASSERT(ble_l2cap_test_update_status == BLE_HS_EREJECT);
}
TEST_ASSERT(ble_l2cap_test_update_arg == NULL);
}
TEST_CASE(ble_l2cap_test_case_sig_update_accept)
{
ble_l2cap_test_util_peer_updates(1);
}
TEST_CASE(ble_l2cap_test_case_sig_update_reject)
{
ble_l2cap_test_util_peer_updates(0);
}
TEST_CASE(ble_l2cap_test_case_sig_update_init_accept)
{
ble_l2cap_test_util_we_update(1);
}
TEST_CASE(ble_l2cap_test_case_sig_update_init_reject)
{
ble_l2cap_test_util_we_update(0);
}
TEST_CASE(ble_l2cap_test_case_sig_update_init_fail_master)
{
struct ble_l2cap_sig_update_params params;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb, NULL);
params.itvl_min = 0x200;
params.itvl_max = 0x300;
params.slave_latency = 0;
params.timeout_multiplier = 0x100;
rc = ble_l2cap_sig_update(2, &params, ble_l2cap_test_util_update_cb, NULL);
TEST_ASSERT_FATAL(rc == BLE_HS_EINVAL);
/* Ensure callback never called. */
TEST_ASSERT(ble_l2cap_test_update_status == -1);
}
TEST_CASE(ble_l2cap_test_case_sig_update_init_fail_bad_id)
{
struct ble_l2cap_sig_update_params params;
uint8_t id;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb, NULL);
/* Only the slave can initiate the L2CAP connection update procedure. */
ble_hs_atomic_conn_set_flags(2, BLE_HS_CONN_F_MASTER, 0);
params.itvl_min = 0x200;
params.itvl_max = 0x300;
params.slave_latency = 0;
params.timeout_multiplier = 0x100;
rc = ble_l2cap_sig_update(2, &params, ble_l2cap_test_util_update_cb, NULL);
TEST_ASSERT_FATAL(rc == 0);
/* Ensure an update request got sent. */
id = ble_hs_test_util_verify_tx_l2cap_update_req(&params);
/* Receive response from peer with incorrect ID. */
rc = ble_hs_test_util_rx_l2cap_update_rsp(2, id + 1, 0);
TEST_ASSERT(rc == 0);
/* Ensure callback did not get called. */
TEST_ASSERT(ble_l2cap_test_update_status == -1);
/* Receive response from peer with correct ID. */
rc = ble_hs_test_util_rx_l2cap_update_rsp(2, id, 0);
TEST_ASSERT(rc == 0);
/* Ensure callback got called. */
TEST_ASSERT(ble_l2cap_test_update_status == 0);
TEST_ASSERT(ble_l2cap_test_update_arg == NULL);
}
/* Test enum but first four events matches to events which L2CAP sends to
* application. We need this in order to add additional SEND_DATA event for
* testing
*/
enum {
BLE_L2CAP_TEST_EVENT_COC_CONNECT = 0,
BLE_L2CAP_TEST_EVENT_COC_DISCONNECT,
BLE_L2CAP_TEST_EVENT_COC_ACCEPT,
BLE_L2CAP_TEST_EVENT_COC_RECV_DATA,
BLE_L2CAP_TEST_EVENT_COC_SEND_DATA,
};
struct event {
uint8_t type;
uint16_t early_error;
uint16_t l2cap_status;
uint16_t app_status;
uint8_t handled;
uint8_t *data;
uint16_t data_len;
};
struct test_data {
struct event event[3];
uint16_t expected_num_of_ev;
/* This we use to track number of events sent to application*/
uint16_t event_cnt;
/* This we use to track verified events (received or not) */
uint16_t event_iter;
uint16_t psm;
uint16_t mtu;
struct ble_l2cap_chan *chan;
};
static int
ble_l2cap_test_event(struct ble_l2cap_event *event, void *arg)
{
struct test_data *t = arg;
struct event *ev = &t->event[t->event_cnt++];
struct os_mbuf *sdu_rx;
assert(ev->type == event->type);
ev->handled = 1;
switch(event->type) {
case BLE_L2CAP_EVENT_COC_CONNECTED:
assert(ev->app_status == event->connect.status);
t->chan = event->connect.chan;
return 0;
case BLE_L2CAP_EVENT_COC_DISCONNECTED:
return 0;
case BLE_L2CAP_EVENT_COC_ACCEPT:
if (ev->app_status != 0) {
return ev->app_status;
}
sdu_rx = os_mbuf_get_pkthdr(&sdu_os_mbuf_pool, 0);
assert(sdu_rx != NULL);
ble_l2cap_recv_ready(event->accept.chan, sdu_rx);
return 0;
case BLE_L2CAP_EVENT_COC_DATA_RECEIVED:
sdu_rx = os_mbuf_pullup(event->receive.sdu_rx,
OS_MBUF_PKTLEN(event->receive.sdu_rx));
TEST_ASSERT(memcmp(sdu_rx->om_data, ev->data, ev->data_len) == 0);
return 0;
default:
return 0;
}
}
static void
ble_l2cap_test_coc_connect(struct test_data *t)
{
struct ble_l2cap_sig_le_con_req req = {};
struct ble_l2cap_sig_le_con_rsp rsp = {};
struct os_mbuf *sdu_rx;
struct event *ev = &t->event[t->event_iter++];
uint8_t id;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb, NULL);
sdu_rx = os_mbuf_get_pkthdr(&sdu_os_mbuf_pool, 0);
assert(sdu_rx != NULL);
rc = ble_l2cap_sig_coc_connect(2, t->psm, t->mtu, sdu_rx,
ble_l2cap_test_event, t);
TEST_ASSERT_FATAL(rc == ev->early_error);
if (rc != 0) {
rc = os_mbuf_free_chain(sdu_rx);
TEST_ASSERT_FATAL(rc == 0);
return;
}
req.credits = htole16((t->mtu + (BLE_L2CAP_COC_MTU - 1) / 2) /
BLE_L2CAP_COC_MTU);
req.mps = htole16(BLE_L2CAP_COC_MTU);
req.mtu = htole16(t->mtu);
req.psm = htole16(t->psm);
req.scid = htole16(current_cid++);
/* Ensure an update request got sent. */
id = ble_hs_test_util_verify_tx_l2cap_sig(
BLE_L2CAP_SIG_OP_CREDIT_CONNECT_REQ,
&req, sizeof(req));
/* Use some different parameters for peer. Just keep mtu same for testing
* only*/
rsp.credits = htole16(10);
rsp.dcid = htole16(current_cid);
rsp.mps = htole16(BLE_L2CAP_COC_MTU + 16);
rsp.mtu = htole16(t->mtu);
rsp.result = htole16(ev->l2cap_status);
rc = ble_hs_test_util_inject_rx_l2cap_sig(2,
BLE_L2CAP_SIG_OP_CREDIT_CONNECT_RSP,
id, &rsp, sizeof(rsp));
TEST_ASSERT(rc == 0);
/* Ensure callback got called. */
TEST_ASSERT(ev->handled);
}
static void
ble_l2cap_test_coc_connect_by_peer(struct test_data *t)
{
struct ble_l2cap_sig_le_con_req req = {};
struct ble_l2cap_sig_le_con_rsp rsp = {};
uint8_t id = 10;
int rc;
struct event *ev = &t->event[t->event_iter++];
ble_l2cap_test_util_create_conn(2, ((uint8_t[]){1,2,3,4,5,6}),
ble_l2cap_test_util_conn_cb, NULL);
/* Use some different parameters for peer */
req.credits = htole16(30);
req.mps = htole16(BLE_L2CAP_COC_MTU + 16);
req.mtu = htole16(t->mtu);
req.psm = htole16(t->psm);
req.scid = htole16(0x0040);
/* Receive remote request*/
rc = ble_hs_test_util_inject_rx_l2cap_sig(2,
BLE_L2CAP_SIG_OP_CREDIT_CONNECT_REQ,
id, &req, sizeof(req));
TEST_ASSERT_FATAL(rc == 0);
if (ev->type == BLE_L2CAP_EVENT_COC_ACCEPT) {
/* Lets check if there is accept event */
TEST_ASSERT(ev->handled);
/* Ensure callback got called. */
ev = &t->event[t->event_iter++];
}
if (ev->l2cap_status != 0) {
rsp.result = htole16(ev->l2cap_status);
} else {
/* Receive response from peer.*/
rsp.credits = htole16((t->mtu + (BLE_L2CAP_COC_MTU - 1) / 2) /
BLE_L2CAP_COC_MTU);
rsp.dcid = current_cid++;
rsp.mps = htole16(BLE_L2CAP_COC_MTU);
rsp.mtu = htole16(t->mtu);
}
/* Ensure we sent response. */
TEST_ASSERT(id == ble_hs_test_util_verify_tx_l2cap_sig(
BLE_L2CAP_SIG_OP_CREDIT_CONNECT_RSP,
&rsp, sizeof(rsp)));
if (ev->l2cap_status == 0) {
TEST_ASSERT(ev->handled);
} else {
TEST_ASSERT(!ev->handled);
}
}
static void
ble_l2cap_test_coc_disc(struct test_data *t)
{
struct ble_l2cap_sig_disc_req req;
struct event *ev = &t->event[t->event_iter++];
uint8_t id;
int rc;
rc = ble_l2cap_sig_disconnect(t->chan);
TEST_ASSERT_FATAL(rc == 0);
req.dcid = htole16(t->chan->dcid);
req.scid = htole16(t->chan->scid);
/* Ensure an update request got sent. */
id = ble_hs_test_util_verify_tx_l2cap_sig(BLE_L2CAP_SIG_OP_DISCONN_REQ,
&req, sizeof(req));
/* Receive response from peer. Note it shall be same as request */
rc = ble_hs_test_util_inject_rx_l2cap_sig(2, BLE_L2CAP_SIG_OP_DISCONN_RSP,
id, &req, sizeof(req));
TEST_ASSERT(rc == 0);
/* Ensure callback got called. */
TEST_ASSERT(ev->handled);
}
static void
ble_l2cap_test_coc_disc_by_peer(struct test_data *t)
{
struct ble_l2cap_sig_disc_req req;
struct event *ev = &t->event[t->event_iter++];
uint8_t id = 10;
int rc;
/* Receive disconnect request from peer. Note that source cid
* and destination cid are from peer perspective */
req.dcid = htole16(t->chan->scid);
req.scid = htole16(t->chan->dcid);
rc = ble_hs_test_util_inject_rx_l2cap_sig(2, BLE_L2CAP_SIG_OP_DISCONN_REQ,
id, &req, sizeof(req));
TEST_ASSERT(rc == 0);
/* Ensure callback got called. */
TEST_ASSERT(ev->handled);
/* Ensure an we sent back response. Note that payload is same as request,
* lets reuse it */
TEST_ASSERT(ble_hs_test_util_verify_tx_l2cap_sig(
BLE_L2CAP_SIG_OP_DISCONN_RSP,
&req, sizeof(req)) == id);
}
static void
ble_l2cap_test_coc_invalid_disc_by_peer(struct test_data *t)
{
struct ble_l2cap_sig_disc_req req;
uint8_t id = 10;
int rc;
struct event *ev = &t->event[t->event_iter++];
/* Receive disconnect request from peer. Note that source cid
* and destination cid are from peer perspective */
req.dcid = htole16(t->chan->scid);
req.scid = htole16(0);
rc = ble_hs_test_util_inject_rx_l2cap_sig(2, BLE_L2CAP_SIG_OP_DISCONN_REQ,
id, &req, sizeof(req));
TEST_ASSERT(rc == 0);
/* Ensure callback HAS NOT BEEN*/
TEST_ASSERT(!ev->handled);
}
static void
ble_l2cap_test_coc_send_data(struct test_data *t)
{
struct os_mbuf *sdu;
struct os_mbuf *sdu_copy;
struct event *ev = &t->event[t->event_iter++];
int rc;
/* Send data event is created only for testing.
* Since application callback do caching of real stack event
* and checks the type of the event, lets increase event counter here and
* fake that this event is handled*/
t->event_cnt++;
sdu = os_mbuf_get_pkthdr(&sdu_os_mbuf_pool, 0);
assert(sdu != NULL);
sdu_copy = os_mbuf_get_pkthdr(&sdu_os_mbuf_pool, 0);
assert(sdu_copy != NULL);
rc = os_mbuf_append(sdu, ev->data, ev->data_len);
TEST_ASSERT(rc == 0);
rc = os_mbuf_append(sdu_copy, ev->data, ev->data_len);
TEST_ASSERT(rc == 0);
rc = ble_l2cap_send(t->chan, sdu);
TEST_ASSERT(rc == ev->early_error);
if (rc) {
rc = os_mbuf_free(sdu);
TEST_ASSERT_FATAL(rc == 0);
rc = os_mbuf_free(sdu_copy);
TEST_ASSERT_FATAL(rc == 0);
return;
}
/* Add place for SDU len */
sdu_copy = os_mbuf_prepend_pullup(sdu_copy, 2);
assert(sdu_copy != NULL);
put_le16(sdu_copy->om_data, ev->data_len);
ble_hs_test_util_verify_tx_l2cap(sdu);
rc = os_mbuf_free_chain(sdu_copy);
TEST_ASSERT_FATAL(rc == 0);
}
static void
ble_l2cap_test_coc_recv_data(struct test_data *t)
{
struct os_mbuf *sdu;
int rc;
struct event *ev = &t->event[t->event_iter++];
sdu = os_mbuf_get_pkthdr(&sdu_os_mbuf_pool, 0);
assert(sdu != NULL);
rc = os_mbuf_append(sdu, ev->data, ev->data_len);
TEST_ASSERT(rc == 0);
/* TODO handle fragmentation */
/* Add place for SDU len */
sdu = os_mbuf_prepend_pullup(sdu, 2);
assert(sdu != NULL);
put_le16(sdu->om_data, ev->data_len);
ble_hs_test_util_inject_rx_l2cap(2, t->chan->scid, sdu);
}
static void
ble_l2cap_test_set_chan_test_conf(uint16_t psm, uint16_t mtu,
struct test_data *t)
{
memset(t, 0, sizeof(*t));
t->psm = psm;
t->mtu = mtu;
}
TEST_CASE(ble_l2cap_test_case_sig_coc_conn_invalid_psm)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = BLE_HS_ENOTSUP;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_UNKNOWN_LE_PSM;
ble_l2cap_test_coc_connect(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_conn_out_of_resource)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = BLE_HS_ENOMEM;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_NO_RESOURCES;
ble_l2cap_test_coc_connect(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_conn_invalid_cid)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = BLE_HS_EREJECT;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_INVALID_SOURCE_CID;
ble_l2cap_test_coc_connect(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_conn_insuff_authen)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = BLE_HS_EAUTHEN;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_INSUFFICIENT_AUTHEN;
ble_l2cap_test_coc_connect(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_conn_insuff_author)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = BLE_HS_EAUTHOR;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_INSUFFICIENT_AUTHOR;
ble_l2cap_test_coc_connect(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_incoming_conn_invalid_psm)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 1;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_UNKNOWN_LE_PSM;
ble_l2cap_test_coc_connect_by_peer(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_incoming_conn_rejected_by_app)
{
struct test_data t;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 2;
t.event[0].type = BLE_L2CAP_EVENT_COC_ACCEPT;
t.event[0].app_status = BLE_HS_ENOMEM;
/* This event will not be called and test is going to verify it*/
t.event[1].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[1].l2cap_status = BLE_L2CAP_COC_ERR_NO_RESOURCES;
/* Register server */
rc = ble_l2cap_create_server(t.psm, BLE_L2CAP_TEST_COC_MTU,
ble_l2cap_test_event, &t);
TEST_ASSERT(rc == 0);
ble_l2cap_test_coc_connect_by_peer(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
/* In this test case, L2CAP channel is created and once application rejects
* connection, channel is destroyed. In such case CID for channel has been
* used and we need to increase current_cid. */
current_cid++;
}
TEST_CASE(ble_l2cap_test_case_sig_coc_incoming_conn_success)
{
struct test_data t;
int rc;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 2;
t.event[0].type = BLE_L2CAP_EVENT_COC_ACCEPT;
t.event[1].type = BLE_L2CAP_EVENT_COC_CONNECTED;
/* Register server */
rc = ble_l2cap_create_server(t.psm, BLE_L2CAP_TEST_COC_MTU,
ble_l2cap_test_event, &t);
TEST_ASSERT(rc == 0);
ble_l2cap_test_coc_connect_by_peer(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_disconnect_succeed)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t. expected_num_of_ev = 2;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = 0;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_CONNECTION_SUCCESS;
t.event[1].type = BLE_L2CAP_EVENT_COC_DISCONNECTED;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_disc(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_incoming_disconnect_succeed)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 2;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = 0;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_CONNECTION_SUCCESS;
t.event[1].type = BLE_L2CAP_EVENT_COC_DISCONNECTED;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_disc_by_peer(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_sig_coc_incoming_disconnect_failed)
{
struct test_data t;
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 2;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[0].app_status = 0;
t.event[0].l2cap_status = BLE_L2CAP_COC_ERR_CONNECTION_SUCCESS;
t.event[1].type = BLE_L2CAP_EVENT_COC_DISCONNECTED;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_invalid_disc_by_peer(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_coc_send_data_succeed)
{
struct test_data t;
uint8_t buf[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15};
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 3;
t.event[0].type = BLE_L2CAP_TEST_EVENT_COC_CONNECT;
t.event[1].type = BLE_L2CAP_TEST_EVENT_COC_SEND_DATA;
t.event[1].data = buf;
t.event[1].data_len = sizeof(buf);
t.event[2].type = BLE_L2CAP_TEST_EVENT_COC_DISCONNECT;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_send_data(&t);
ble_l2cap_test_coc_disc(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_coc_send_data_failed_too_big_sdu)
{
struct test_data t = {};
uint16_t small_mtu = 27;
uint8_t buf[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15,
1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15};
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM, small_mtu, &t);
t.expected_num_of_ev = 3;
t.event[0].type = BLE_L2CAP_TEST_EVENT_COC_CONNECT;
t.event[1].type = BLE_L2CAP_TEST_EVENT_COC_SEND_DATA;
t.event[1].data = buf;
t.event[1].data_len = sizeof(buf);
t.event[1].early_error = BLE_HS_EBADDATA;
t.event[2].type = BLE_L2CAP_TEST_EVENT_COC_DISCONNECT;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_send_data(&t);
ble_l2cap_test_coc_disc(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_CASE(ble_l2cap_test_case_coc_recv_data_succeed)
{
struct test_data t = {};
uint8_t buf[] = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15};
ble_l2cap_test_util_init();
ble_l2cap_test_set_chan_test_conf(BLE_L2CAP_TEST_PSM,
BLE_L2CAP_TEST_COC_MTU, &t);
t.expected_num_of_ev = 3;
t.event[0].type = BLE_L2CAP_EVENT_COC_CONNECTED;
t.event[1].type = BLE_L2CAP_EVENT_COC_DATA_RECEIVED;
t.event[1].data = buf;
t.event[1].data_len = sizeof(buf);
t.event[2].type = BLE_L2CAP_EVENT_COC_DISCONNECTED;
ble_l2cap_test_coc_connect(&t);
ble_l2cap_test_coc_recv_data(&t);
ble_l2cap_test_coc_disc(&t);
TEST_ASSERT(t.expected_num_of_ev == t.event_iter);
}
TEST_SUITE(ble_l2cap_test_suite)
{
tu_suite_set_post_test_cb(ble_hs_test_util_post_test, NULL);
ble_l2cap_test_case_bad_header();
ble_l2cap_test_case_bad_handle();
ble_l2cap_test_case_frag_single();
ble_l2cap_test_case_frag_multiple();
ble_l2cap_test_case_frag_channels();
ble_l2cap_test_case_frag_timeout();
ble_l2cap_test_case_sig_unsol_rsp();
ble_l2cap_test_case_sig_update_accept();
ble_l2cap_test_case_sig_update_reject();
ble_l2cap_test_case_sig_update_init_accept();
ble_l2cap_test_case_sig_update_init_reject();
ble_l2cap_test_case_sig_update_init_fail_master();
ble_l2cap_test_case_sig_update_init_fail_bad_id();
ble_l2cap_test_case_sig_coc_conn_invalid_psm();
ble_l2cap_test_case_sig_coc_conn_out_of_resource();
ble_l2cap_test_case_sig_coc_conn_invalid_cid();
ble_l2cap_test_case_sig_coc_conn_insuff_authen();
ble_l2cap_test_case_sig_coc_conn_insuff_author();
ble_l2cap_test_case_sig_coc_incoming_conn_invalid_psm();
ble_l2cap_test_case_sig_coc_incoming_conn_rejected_by_app();
ble_l2cap_test_case_sig_coc_incoming_conn_success();
ble_l2cap_test_case_sig_coc_disconnect_succeed();
ble_l2cap_test_case_sig_coc_incoming_disconnect_succeed();
ble_l2cap_test_case_sig_coc_incoming_disconnect_failed();
ble_l2cap_test_case_coc_send_data_succeed();
ble_l2cap_test_case_coc_send_data_failed_too_big_sdu();
ble_l2cap_test_case_coc_recv_data_succeed();
}
int
ble_l2cap_test_all(void)
{
ble_l2cap_test_suite();
return tu_any_failed;
}