/* Application main entry point */ /* * Copyright (c) 2024 Nordic Semiconductor * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include "babblekit/testcase.h" #include "babblekit/flags.h" #define LOG_MODULE_NAME main #include LOG_MODULE_REGISTER(LOG_MODULE_NAME, LOG_LEVEL_INF); DEFINE_FLAG_STATIC(is_connected); DEFINE_FLAG_STATIC(flag_l2cap_connected); #define NUM_PERIPHERALS CONFIG_BT_MAX_CONN #define L2CAP_CHANS NUM_PERIPHERALS #define SDU_NUM 1 #define SDU_LEN 10 /* Only one SDU per link will be transmitted */ NET_BUF_POOL_DEFINE(sdu_tx_pool, CONFIG_BT_MAX_CONN, BT_L2CAP_SDU_BUF_SIZE(SDU_LEN), CONFIG_BT_CONN_TX_USER_DATA_SIZE, NULL); /* Only one SDU per link will be received at a time */ NET_BUF_POOL_DEFINE(sdu_rx_pool, CONFIG_BT_MAX_CONN, BT_L2CAP_SDU_BUF_SIZE(SDU_LEN), CONFIG_BT_CONN_TX_USER_DATA_SIZE, NULL); static uint8_t tx_data[SDU_LEN]; static uint16_t rx_cnt; static uint8_t disconnect_counter; struct test_ctx { struct bt_l2cap_le_chan le_chan; size_t tx_left; }; static struct test_ctx contexts[L2CAP_CHANS]; struct test_ctx *get_ctx(struct bt_l2cap_chan *chan) { struct bt_l2cap_le_chan *le_chan = CONTAINER_OF(chan, struct bt_l2cap_le_chan, chan); struct test_ctx *ctx = CONTAINER_OF(le_chan, struct test_ctx, le_chan); TEST_ASSERT(ctx >= &contexts[0] && ctx <= &contexts[L2CAP_CHANS], "memory corruption"); return ctx; } int l2cap_chan_send(struct bt_l2cap_chan *chan, uint8_t *data, size_t len) { LOG_DBG("chan %p conn %u data %p len %d", chan, bt_conn_index(chan->conn), data, len); struct net_buf *buf = net_buf_alloc(&sdu_tx_pool, K_NO_WAIT); TEST_ASSERT(buf, "No more memory"); net_buf_reserve(buf, BT_L2CAP_SDU_CHAN_SEND_RESERVE); net_buf_add_mem(buf, data, len); int ret = bt_l2cap_chan_send(chan, buf); TEST_ASSERT(ret >= 0, "Failed sending: err %d", ret); LOG_DBG("sent %d len %d", ret, len); return ret; } struct net_buf *alloc_buf_cb(struct bt_l2cap_chan *chan) { return net_buf_alloc(&sdu_rx_pool, K_NO_WAIT); } void sent_cb(struct bt_l2cap_chan *chan) { struct test_ctx *ctx = get_ctx(chan); LOG_DBG("%p", chan); if (ctx->tx_left) { ctx->tx_left--; } } int recv_cb(struct bt_l2cap_chan *chan, struct net_buf *buf) { LOG_DBG("len %d", buf->len); rx_cnt++; /* Verify SDU data matches TX'd data. */ int pos = memcmp(buf->data, tx_data, buf->len); if (pos != 0) { LOG_ERR("RX data doesn't match TX: pos %d", pos); LOG_HEXDUMP_ERR(buf->data, buf->len, "RX data"); LOG_HEXDUMP_INF(tx_data, buf->len, "TX data"); for (uint16_t p = 0; p < buf->len; p++) { __ASSERT(buf->data[p] == tx_data[p], "Failed rx[%d]=%x != expect[%d]=%x", p, buf->data[p], p, tx_data[p]); } } return 0; } void l2cap_chan_connected_cb(struct bt_l2cap_chan *l2cap_chan) { struct bt_l2cap_le_chan *chan = CONTAINER_OF(l2cap_chan, struct bt_l2cap_le_chan, chan); SET_FLAG(flag_l2cap_connected); LOG_DBG("%x (tx mtu %d mps %d) (tx mtu %d mps %d)", l2cap_chan, chan->tx.mtu, chan->tx.mps, chan->rx.mtu, chan->rx.mps); } void l2cap_chan_disconnected_cb(struct bt_l2cap_chan *chan) { UNSET_FLAG(flag_l2cap_connected); LOG_DBG("%p", chan); } static struct bt_l2cap_chan_ops ops = { .connected = l2cap_chan_connected_cb, .disconnected = l2cap_chan_disconnected_cb, .alloc_buf = alloc_buf_cb, .recv = recv_cb, .sent = sent_cb, }; struct test_ctx *alloc_test_context(void) { for (int i = 0; i < L2CAP_CHANS; i++) { struct bt_l2cap_le_chan *le_chan = &contexts[i].le_chan; if (le_chan->state != BT_L2CAP_DISCONNECTED) { continue; } memset(&contexts[i], 0, sizeof(struct test_ctx)); return &contexts[i]; } return NULL; } int server_accept_cb(struct bt_conn *conn, struct bt_l2cap_server *server, struct bt_l2cap_chan **chan) { struct test_ctx *ctx = NULL; ctx = alloc_test_context(); if (ctx == NULL) { return -ENOMEM; } struct bt_l2cap_le_chan *le_chan = &ctx->le_chan; memset(le_chan, 0, sizeof(*le_chan)); le_chan->chan.ops = &ops; le_chan->rx.mtu = SDU_LEN; *chan = &le_chan->chan; return 0; } static struct bt_l2cap_server test_l2cap_server = { .accept = server_accept_cb }; static int l2cap_server_register(bt_security_t sec_level) { test_l2cap_server.psm = 0; test_l2cap_server.sec_level = sec_level; int err = bt_l2cap_server_register(&test_l2cap_server); TEST_ASSERT(err == 0, "Failed to register l2cap server."); return test_l2cap_server.psm; } static void connected(struct bt_conn *conn, uint8_t conn_err) { char addr[BT_ADDR_LE_STR_LEN]; bt_addr_le_to_str(bt_conn_get_dst(conn), addr, sizeof(addr)); TEST_ASSERT(!conn_err, "Failed to connect to %s (%u)", addr, conn_err); LOG_DBG("%s", addr); SET_FLAG(is_connected); } static void disconnected(struct bt_conn *conn, uint8_t reason) { char addr[BT_ADDR_LE_STR_LEN]; bt_addr_le_to_str(bt_conn_get_dst(conn), addr, sizeof(addr)); LOG_DBG("%p %s (reason 0x%02x)", conn, addr, reason); UNSET_FLAG(is_connected); disconnect_counter++; } BT_CONN_CB_DEFINE(conn_callbacks) = { .connected = connected, .disconnected = disconnected, }; static void disconnect_device(struct bt_conn *conn, void *data) { int err; SET_FLAG(is_connected); err = bt_conn_disconnect(conn, BT_HCI_ERR_REMOTE_USER_TERM_CONN); TEST_ASSERT(!err, "Failed to initate disconnect (err %d)", err); LOG_DBG("Waiting for disconnection..."); WAIT_FOR_FLAG_UNSET(is_connected); } static void test_peripheral_main(void) { LOG_DBG("L2CAP CONN LATENCY Peripheral started*"); int err; /* Prepare tx_data */ for (size_t i = 0; i < sizeof(tx_data); i++) { tx_data[i] = (uint8_t)i; } err = bt_enable(NULL); TEST_ASSERT(!err, "Can't enable Bluetooth (err %d)", err); LOG_DBG("Peripheral Bluetooth initialized."); LOG_DBG("Connectable advertising..."); err = bt_le_adv_start(BT_LE_ADV_CONN_FAST_1, NULL, 0, NULL, 0); TEST_ASSERT(!err, "Advertising failed to start (err %d)", err); LOG_DBG("Advertising started."); LOG_DBG("Peripheral waiting for connection..."); WAIT_FOR_FLAG(is_connected); LOG_DBG("Peripheral Connected."); int psm = l2cap_server_register(BT_SECURITY_L1); LOG_DBG("Registered server PSM %x", psm); LOG_DBG("Peripheral waiting for transfer completion"); while (rx_cnt < SDU_NUM) { k_msleep(100); } bt_conn_foreach(BT_CONN_TYPE_LE, disconnect_device, NULL); WAIT_FOR_FLAG_UNSET(is_connected); LOG_INF("Total received: %d", rx_cnt); TEST_ASSERT(rx_cnt == SDU_NUM, "Did not receive expected no of SDUs"); TEST_PASS("L2CAP LATENCY Peripheral passed"); } static void device_found(const bt_addr_le_t *addr, int8_t rssi, uint8_t type, struct net_buf_simple *ad) { struct bt_le_conn_param *param; struct bt_conn *conn; int err; err = bt_le_scan_stop(); TEST_ASSERT(!err, "Stop LE scan failed (err %d)", err); char str[BT_ADDR_LE_STR_LEN]; bt_addr_le_to_str(addr, str, sizeof(str)); LOG_DBG("Connecting to %s", str); param = BT_LE_CONN_PARAM_DEFAULT; err = bt_conn_le_create(addr, BT_CONN_LE_CREATE_CONN, param, &conn); TEST_ASSERT(!err, "Create conn failed (err %d)", err); } static void connect_peripheral(void) { struct bt_le_scan_param scan_param = { .type = BT_LE_SCAN_TYPE_ACTIVE, .options = BT_LE_SCAN_OPT_NONE, .interval = BT_GAP_SCAN_FAST_INTERVAL, .window = BT_GAP_SCAN_FAST_WINDOW, }; UNSET_FLAG(is_connected); int err = bt_le_scan_start(&scan_param, device_found); TEST_ASSERT(!err, "Scanning failed to start (err %d)", err); LOG_DBG("Central initiating connection..."); WAIT_FOR_FLAG(is_connected); } static void connect_l2cap_channel(struct bt_conn *conn, void *data) { int err; struct test_ctx *ctx = alloc_test_context(); TEST_ASSERT(ctx, "No more available test contexts"); struct bt_l2cap_le_chan *le_chan = &ctx->le_chan; le_chan->chan.ops = &ops; UNSET_FLAG(flag_l2cap_connected); err = bt_l2cap_chan_connect(conn, &le_chan->chan, 0x0080); TEST_ASSERT(!err, "Error connecting l2cap channel (err %d)", err); WAIT_FOR_FLAG(flag_l2cap_connected); } #define L2CAP_LE_CID_DYN_START 0x0040 #define L2CAP_LE_CID_DYN_END 0x007f #define L2CAP_LE_CID_IS_DYN(_cid) \ (_cid >= L2CAP_LE_CID_DYN_START && _cid <= L2CAP_LE_CID_DYN_END) static bool is_dynamic(struct bt_l2cap_le_chan *lechan) { return L2CAP_LE_CID_IS_DYN(lechan->tx.cid); } void bt_test_l2cap_data_pull_spy(struct bt_conn *conn, struct bt_l2cap_le_chan *lechan, size_t amount, size_t *length) { static uint32_t last_pull_time; uint32_t uptime = k_uptime_get_32(); if (lechan == NULL || !is_dynamic(lechan)) { /* only interested in application-generated data */ return; } if (last_pull_time == 0) { last_pull_time = uptime; return; } TEST_ASSERT(uptime == last_pull_time, "Too much delay servicing ready channels"); } static void test_central_main(void) { LOG_DBG("L2CAP CONN LATENCY Central started*"); int err; /* Prepare tx_data */ for (size_t i = 0; i < sizeof(tx_data); i++) { tx_data[i] = (uint8_t)i; } err = bt_enable(NULL); TEST_ASSERT(err == 0, "Can't enable Bluetooth (err %d)", err); LOG_DBG("Central Bluetooth initialized."); /* Connect all peripherals */ for (int i = 0; i < NUM_PERIPHERALS; i++) { connect_peripheral(); } /* Connect L2CAP channels */ LOG_DBG("Connect L2CAP channels"); bt_conn_foreach(BT_CONN_TYPE_LE, connect_l2cap_channel, NULL); /* This is to allow the main thread to put PDUs for all the connections * in the TX queues. This way we verify that we service as many * connections as we have resources for. */ k_thread_priority_set(k_current_get(), K_HIGHEST_APPLICATION_THREAD_PRIO); /* Send SDU_NUM SDUs to each peripheral */ for (int i = 0; i < NUM_PERIPHERALS; i++) { contexts[i].tx_left = SDU_NUM; l2cap_chan_send(&contexts[i].le_chan.chan, tx_data, sizeof(tx_data)); } k_thread_priority_set(k_current_get(), CONFIG_MAIN_THREAD_PRIORITY); LOG_DBG("Wait until all transfers are completed."); int remaining_tx_total; /* TEST_Assertion that the `pull` callback gets serviced for all connections * at the same time is handled in bt_l2cap_data_pull_spy(). */ do { k_msleep(100); remaining_tx_total = 0; for (int i = 0; i < L2CAP_CHANS; i++) { remaining_tx_total += contexts[i].tx_left; } } while (remaining_tx_total); LOG_DBG("Waiting until all peripherals are disconnected.."); while (disconnect_counter < NUM_PERIPHERALS) { k_msleep(100); } LOG_DBG("All peripherals disconnected."); TEST_PASS("L2CAP LATENCY Central passed"); } static const struct bst_test_instance test_def[] = { { .test_id = "peripheral", .test_descr = "Peripheral L2CAP LATENCY", .test_main_f = test_peripheral_main }, { .test_id = "central", .test_descr = "Central L2CAP LATENCY", .test_main_f = test_central_main }, BSTEST_END_MARKER }; struct bst_test_list *test_main_l2cap_stress_install(struct bst_test_list *tests) { return bst_add_tests(tests, test_def); } extern struct bst_test_list *test_main_l2cap_stress_install(struct bst_test_list *tests); bst_test_install_t test_installers[] = { test_main_l2cap_stress_install, NULL }; int main(void) { bst_main(); return 0; }