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ca98df258c
RIOT/pkg/nimble/autoconn/nimble_autoconn.c
Hauke Petersen ca98df258c nimble/autoconn: fix scanning
2021-12-06 09:48:32 +01:00

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/*
* Copyright (C) 2018-2019 Freie Universität Berlin
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @ingroup pkg_nimble_autoconn
* @{
*
* @file
* @brief Autoconn connection manager implementation
*
* @author Hauke Petersen <hauke.petersen@fu-berlin.de>
*
* @}
*/
#include "assert.h"
#include "random.h"
#include "net/bluetil/ad.h"
#include "net/bluetil/addr.h"
#include "nimble_netif.h"
#include "nimble_netif_conn.h"
#include "nimble_scanner.h"
#include "nimble_autoconn.h"
#include "nimble_autoconn_params.h"
#include "host/ble_hs.h"
#include "nimble/nimble_port.h"
#define ENABLE_DEBUG 0
#include "debug.h"
#if defined(MODULE_NIMBLE_AUTOCONN_IPSP)
#define SVC_FILTER BLE_GATT_SVC_IPSS
#elif defined(MODULE_NIMBLE_AUTOCONN_NDNSP)
#define SVC_FILTER BLE_GATT_SVC_NDNSS
#else
#error "NimBLE autoconn: please select a fitting submodule"
#endif
enum {
STATE_SCAN,
STATE_ADV,
STATE_IDLE,
STATE_CONN,
};
static volatile uint8_t _state = STATE_IDLE;
static volatile uint8_t _enabled = 0;
static bluetil_ad_t _ad;
static uint8_t _ad_buf[BLE_HS_ADV_MAX_SZ];
static struct ble_gap_adv_params _adv_params;
static struct ble_gap_conn_params _conn_params;
static uint32_t _conn_timeout;
static struct ble_npl_callout _state_evt;
static ble_npl_time_t _timeout_adv_period;
static ble_npl_time_t _timeout_scan_period;
static ble_npl_time_t _period_jitter;
static nimble_netif_eventcb_t _eventcb = NULL;
/* this is run inside the NimBLE host thread */
static void _on_state_change(struct ble_npl_event *ev)
{
(void)ev;
ble_npl_time_t offset;
offset = (ble_npl_time_t)random_uint32_range(0, (uint32_t)_period_jitter);
if (_state == STATE_SCAN) {
/* stop scanning */
nimble_scanner_stop();
/* start advertising/accepting */
int res = nimble_netif_accept(_ad.buf, _ad.pos, &_adv_params);
assert((res == 0) || (res == -ENOMEM));
(void)res;
/* schedule next state change */
_state = STATE_ADV;
ble_npl_callout_reset(&_state_evt, (_timeout_adv_period + offset));
}
else if (_state == STATE_ADV) {
/* stop advertising/accepting */
nimble_netif_accept_stop();
/* start scanning */
nimble_scanner_start();
_state = STATE_SCAN;
ble_npl_callout_reset(&_state_evt, (_timeout_scan_period + offset));
}
}
static void _activate(void)
{
if (_enabled && (_state == STATE_IDLE) &&
(nimble_netif_conn_count(NIMBLE_NETIF_UNUSED) > 0)) {
_state = STATE_SCAN;
_on_state_change(NULL);
DEBUG("[autoconn] ACTIVATED\n");
}
}
static void _deactivate(void)
{
if ((_state == STATE_ADV) || (_state == STATE_SCAN)) {
ble_npl_callout_stop(&_state_evt);
nimble_scanner_stop();
nimble_netif_accept_stop();
_state = STATE_IDLE;
DEBUG("[autoconn] DEACTIVATED\n");
}
}
static int _filter_uuid(const bluetil_ad_t *ad)
{
bluetil_ad_data_t incomp;
if (bluetil_ad_find(ad, BLE_GAP_AD_UUID16_INCOMP, &incomp) == BLUETIL_AD_OK) {
uint16_t filter_uuid = SVC_FILTER;
for (unsigned i = 0; i < incomp.len; i += 2) {
if (memcmp(&filter_uuid, &incomp.data[i], 2) == 0) {
return 1;
}
}
}
return 0;
}
static void _on_scan_evt(uint8_t type, const ble_addr_t *addr,
const nimble_scanner_info_t *info,
const uint8_t *ad_buf, size_t ad_len)
{
(void)info;
/* we are only interested in ADV_IND packets, the rest can be dropped right
* away */
if (type != BLE_HCI_ADV_RPT_EVTYPE_ADV_IND) {
return;
}
bluetil_ad_t ad = {
.buf = (uint8_t *)ad_buf,
.pos = ad_len,
.size = ad_len
};
/* for connection checking we need the address in network byte order */
uint8_t addrn[BLE_ADDR_LEN];
bluetil_addr_swapped_cp(addr->val, addrn);
if (_filter_uuid(&ad) && !nimble_netif_conn_connected(addrn)) {
nimble_scanner_stop();
DEBUG("[autoconn] SCAN success, initiating connection\n");
_state = STATE_CONN;
int res = nimble_netif_connect(addr, &_conn_params, _conn_timeout);
assert(res >= 0);
(void)res;
}
}
static void _evt_dbg(const char *msg, int handle, const uint8_t *addr)
{
if (IS_ACTIVE(ENABLE_DEBUG)) {
printf("[autoconn] %s (%i|", msg, handle);
if (addr) {
bluetil_addr_print(addr);
}
else {
printf("n/a");
}
puts(")");
}
}
static void _on_netif_evt(int handle, nimble_netif_event_t event,
const uint8_t *addr)
{
switch (event) {
case NIMBLE_NETIF_ACCEPTING:
_evt_dbg("ACCEPTING", handle, addr);
break;
case NIMBLE_NETIF_ACCEPT_STOP:
_evt_dbg("ACCEPT_STOP", handle, addr);
break;
case NIMBLE_NETIF_INIT_MASTER:
_evt_dbg("CONN_INIT master", handle, addr);
break;
case NIMBLE_NETIF_INIT_SLAVE:
_evt_dbg("CONN_INIT slave", handle, addr);
_state = STATE_CONN;
break;
case NIMBLE_NETIF_CONNECTED_MASTER:
_evt_dbg("CONNECTED master", handle, addr);
assert(_state == STATE_CONN);
_state = STATE_IDLE;
break;
case NIMBLE_NETIF_CONNECTED_SLAVE:
_evt_dbg("CONNECTED slave", handle, addr);
_state = STATE_IDLE;
break;
case NIMBLE_NETIF_CLOSED_MASTER:
_evt_dbg("CLOSED master", handle, addr);
break;
case NIMBLE_NETIF_CLOSED_SLAVE:
_evt_dbg("CLOSED slave", handle, addr);
break;
case NIMBLE_NETIF_ABORT_MASTER:
_evt_dbg("ABORT master", handle, addr);
assert(_state == STATE_CONN);
_state = STATE_IDLE;
break;
case NIMBLE_NETIF_ABORT_SLAVE:
_evt_dbg("ABORT slave", handle, addr);
_deactivate();
break;
case NIMBLE_NETIF_CONN_UPDATED:
_evt_dbg("UPDATED", handle, addr);
break;
default:
/* this should never happen */
assert(0);
}
/* pass events to high-level user if someone registered for them */
if (_eventcb) {
_eventcb(handle, event, addr);
}
/* if active and if free slots are available, search for new peers */
_activate();
}
static int _conn_update(nimble_netif_conn_t *conn, int handle, void *arg)
{
(void)conn;
nimble_netif_update(handle, (const struct ble_gap_upd_params *)arg);
return 0;
}
int nimble_autoconn_init(const nimble_autoconn_params_t *params,
const uint8_t *ad, size_t adlen)
{
/* register our event callback */
nimble_netif_eventcb(_on_netif_evt);
/* setup state machine timer (we use NimBLEs callouts for this) */
ble_npl_callout_init(&_state_evt, nimble_port_get_dflt_eventq(),
_on_state_change, NULL);
/* at last, set the given parameters */
return nimble_autoconn_update(params, ad, adlen);
}
void nimble_autoconn_eventcb(nimble_netif_eventcb_t cb)
{
_eventcb = cb;
}
int nimble_autoconn_update(const nimble_autoconn_params_t *params,
const uint8_t *ad, size_t adlen)
{
int res;
(void)res;
if ((params == NULL) || (adlen > sizeof(_ad_buf)) ||
((adlen > 0) && (ad == NULL))) {
return NIMBLE_AUTOCONN_PARAMERR;
}
/* scan and advertising period configuration */
ble_npl_time_ms_to_ticks(params->period_adv, &_timeout_adv_period);
ble_npl_time_ms_to_ticks(params->period_scan, &_timeout_scan_period);
ble_npl_time_ms_to_ticks(params->period_jitter, &_period_jitter);
/* populate the connection parameters */
_conn_params.scan_itvl = BLE_GAP_SCAN_ITVL_MS(params->scan_win);
_conn_params.scan_window = _conn_params.scan_itvl;
_conn_params.itvl_min = BLE_GAP_CONN_ITVL_MS(params->conn_itvl_min);
_conn_params.itvl_max = BLE_GAP_CONN_ITVL_MS(params->conn_itvl_max);
_conn_params.latency = 0;
_conn_params.supervision_timeout = BLE_GAP_SUPERVISION_TIMEOUT_MS(
params->conn_super_to);
_conn_params.min_ce_len = 0;
_conn_params.max_ce_len = 0;
_conn_timeout = params->conn_timeout;
/* we use the same values to updated existing connections */
struct ble_gap_upd_params conn_update_params;
conn_update_params.itvl_min = _conn_params.itvl_min;
conn_update_params.itvl_max = _conn_params.itvl_max;
conn_update_params.latency = _conn_params.latency;
conn_update_params.supervision_timeout = _conn_params.supervision_timeout;
conn_update_params.min_ce_len = 0;
conn_update_params.max_ce_len = 0;
/* calculate the used scan parameters */
nimble_scanner_cfg_t scan_params;
scan_params.itvl_ms = params->scan_itvl;
scan_params.win_ms = params->scan_win;
scan_params.flags = NIMBLE_SCANNER_PASSIVE
| NIMBLE_SCANNER_FILTER_DUPS
| NIMBLE_SCANNER_PHY_1M;
/* set the advertising parameters used */
_adv_params.conn_mode = BLE_GAP_CONN_MODE_UND;
_adv_params.disc_mode = BLE_GAP_DISC_MODE_GEN;
_adv_params.itvl_min = BLE_GAP_ADV_ITVL_MS(params->adv_itvl);
_adv_params.itvl_max = _adv_params.itvl_min;
_adv_params.channel_map = 0;
_adv_params.filter_policy = 0;
_adv_params.high_duty_cycle = 0;
/* initialize the advertising data that will be used */
if (adlen > 0) {
memcpy(_ad_buf, ad, adlen);
bluetil_ad_init(&_ad, _ad_buf, adlen, sizeof(_ad_buf));
}
else {
uint16_t svc = SVC_FILTER;
bluetil_ad_init_with_flags(&_ad, _ad_buf, sizeof(_ad_buf),
BLUETIL_AD_FLAGS_DEFAULT);
bluetil_ad_add(&_ad, BLE_GAP_AD_UUID16_INCOMP, &svc, sizeof(svc));
if (params->node_id) {
res = bluetil_ad_add(&_ad, BLE_GAP_AD_NAME,
params->node_id, strlen(params->node_id));
if (res != BLUETIL_AD_OK) {
return NIMBLE_AUTOCONN_ADERR;
}
}
}
/* initialize scanner with default parameters */
nimble_scanner_init(&scan_params, _on_scan_evt);
/* we also need to apply the new connection parameters to all BLE
* connections where we are in the MASTER role */
nimble_netif_conn_foreach(NIMBLE_NETIF_GAP_MASTER, _conn_update,
&conn_update_params);
return NIMBLE_AUTOCONN_OK;
}
void nimble_autoconn_enable(void)
{
_enabled = 1;
_activate();
}
void nimble_autoconn_disable(void)
{
_enabled = 0;
_deactivate();
}
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