InfiniSim/sim/components/ble/NimbleController.cpp

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2022-02-16 20:42:29 +00:00
#include "components/ble/NimbleController.h"
#include <cstring>
//#include <hal/nrf_rtc.h>
//#define min // workaround: nimble's min/max macros conflict with libstdc++
//#define max
//#include <host/ble_gap.h>
//#include <host/ble_hs.h>
//#include <host/ble_hs_id.h>
//#include <host/util/util.h>
//#include <controller/ble_ll.h>
//#include <controller/ble_hw.h>
//#include <services/gap/ble_svc_gap.h>
//#include <services/gatt/ble_svc_gatt.h>
//#undef max
//#undef min
#include "components/ble/BleController.h"
#include "components/ble/NotificationManager.h"
#include "components/datetime/DateTimeController.h"
#include "components/fs/FS.h"
#include "systemtask/SystemTask.h"
using namespace Pinetime::Controllers;
NimbleController::NimbleController(Pinetime::System::SystemTask& systemTask,
Pinetime::Controllers::Ble& bleController,
DateTime& dateTimeController,
Pinetime::Controllers::NotificationManager& notificationManager,
Controllers::Battery& batteryController,
Pinetime::Drivers::SpiNorFlash& spiNorFlash,
Controllers::HeartRateController& heartRateController,
Controllers::MotionController& motionController,
Controllers::FS& fs)
: systemTask {systemTask},
bleController {bleController},
dateTimeController {dateTimeController},
notificationManager {notificationManager},
spiNorFlash {spiNorFlash},
fs {fs},
// dfuService {systemTask, bleController, spiNorFlash},
// currentTimeClient {dateTimeController},
anService {systemTask, notificationManager},
// alertNotificationClient {systemTask, notificationManager},
// currentTimeService {dateTimeController},
musicService {systemTask},
weatherService {systemTask, dateTimeController},
navService {systemTask} {
// batteryInformationService {batteryController},
// immediateAlertService {systemTask, notificationManager},
// heartRateService {systemTask, heartRateController},
// motionService {systemTask, motionController},
// fsService {systemTask, fs},
// serviceDiscovery({&currentTimeClient, &alertNotificationClient}) {
}
//void nimble_on_reset(int reason) {
// NRF_LOG_INFO("Nimble lost sync, resetting state; reason=%d", reason);
//}
//
//void nimble_on_sync(void) {
// int rc;
//
// NRF_LOG_INFO("Nimble is synced");
//
// rc = ble_hs_util_ensure_addr(0);
// ASSERT(rc == 0);
//
// nptr->StartAdvertising();
//}
//
//int GAPEventCallback(struct ble_gap_event* event, void* arg) {
// auto nimbleController = static_cast<NimbleController*>(arg);
// return nimbleController->OnGAPEvent(event);
//}
void NimbleController::Init() {
// while (!ble_hs_synced()) {
// }
//
// nptr = this;
// ble_hs_cfg.reset_cb = nimble_on_reset;
// ble_hs_cfg.sync_cb = nimble_on_sync;
// ble_hs_cfg.store_status_cb = ble_store_util_status_rr;
//
// ble_svc_gap_init();
// ble_svc_gatt_init();
//
// deviceInformationService.Init();
// currentTimeClient.Init();
// currentTimeService.Init();
musicService.Init();
weatherService.Init();
navService.Init();
// anService.Init();
// dfuService.Init();
// batteryInformationService.Init();
// immediateAlertService.Init();
// heartRateService.Init();
// motionService.Init();
// fsService.Init();
//
// int rc;
// rc = ble_hs_util_ensure_addr(0);
// ASSERT(rc == 0);
// rc = ble_hs_id_infer_auto(0, &addrType);
// ASSERT(rc == 0);
// rc = ble_svc_gap_device_name_set(deviceName);
// ASSERT(rc == 0);
// rc = ble_svc_gap_device_appearance_set(0xC2);
// ASSERT(rc == 0);
// Pinetime::Controllers::Ble::BleAddress address;
// rc = ble_hs_id_copy_addr(addrType, address.data(), nullptr);
// ASSERT(rc == 0);
//
// bleController.Address(std::move(address));
// switch (addrType) {
// case BLE_OWN_ADDR_PUBLIC:
// bleController.AddressType(Ble::AddressTypes::Public);
// break;
// case BLE_OWN_ADDR_RANDOM:
// bleController.AddressType(Ble::AddressTypes::Random);
// break;
// case BLE_OWN_ADDR_RPA_PUBLIC_DEFAULT:
// bleController.AddressType(Ble::AddressTypes::RPA_Public);
// break;
// case BLE_OWN_ADDR_RPA_RANDOM_DEFAULT:
// bleController.AddressType(Ble::AddressTypes::RPA_Random);
// break;
// }
//
// rc = ble_gatts_start();
// ASSERT(rc == 0);
//
// RestoreBond();
//
// StartAdvertising();
}
//void NimbleController::StartAdvertising() {
// struct ble_gap_adv_params adv_params;
// struct ble_hs_adv_fields fields;
// struct ble_hs_adv_fields rsp_fields;
//
// memset(&adv_params, 0, sizeof(adv_params));
// memset(&fields, 0, sizeof(fields));
// memset(&rsp_fields, 0, sizeof(rsp_fields));
//
// adv_params.conn_mode = BLE_GAP_CONN_MODE_UND;
// adv_params.disc_mode = BLE_GAP_DISC_MODE_GEN;
// /* fast advertise for 30 sec */
// if (fastAdvCount < 15) {
// adv_params.itvl_min = 32;
// adv_params.itvl_max = 47;
// fastAdvCount++;
// } else {
// adv_params.itvl_min = 1636;
// adv_params.itvl_max = 1651;
// }
//
// fields.flags = BLE_HS_ADV_F_DISC_GEN | BLE_HS_ADV_F_BREDR_UNSUP;
// fields.uuids128 = &dfuServiceUuid;
// fields.num_uuids128 = 1;
// fields.uuids128_is_complete = 1;
// fields.tx_pwr_lvl = BLE_HS_ADV_TX_PWR_LVL_AUTO;
//
// rsp_fields.name = reinterpret_cast<const uint8_t*>(deviceName);
// rsp_fields.name_len = strlen(deviceName);
// rsp_fields.name_is_complete = 1;
//
// int rc;
// rc = ble_gap_adv_set_fields(&fields);
// ASSERT(rc == 0);
//
// rc = ble_gap_adv_rsp_set_fields(&rsp_fields);
// ASSERT(rc == 0);
//
// rc = ble_gap_adv_start(addrType, NULL, 2000, &adv_params, GAPEventCallback, this);
// ASSERT(rc == 0);
//}
//
//int NimbleController::OnGAPEvent(ble_gap_event* event) {
// switch (event->type) {
// case BLE_GAP_EVENT_ADV_COMPLETE:
// NRF_LOG_INFO("Advertising event : BLE_GAP_EVENT_ADV_COMPLETE");
// NRF_LOG_INFO("reason=%d; status=%0X", event->adv_complete.reason, event->connect.status);
// StartAdvertising();
// break;
//
// case BLE_GAP_EVENT_CONNECT:
// /* A new connection was established or a connection attempt failed. */
// NRF_LOG_INFO("Connect event : BLE_GAP_EVENT_CONNECT");
// NRF_LOG_INFO("connection %s; status=%0X ", event->connect.status == 0 ? "established" : "failed", event->connect.status);
//
// if (event->connect.status != 0) {
// /* Connection failed; resume advertising. */
// currentTimeClient.Reset();
// alertNotificationClient.Reset();
// connectionHandle = BLE_HS_CONN_HANDLE_NONE;
// bleController.Disconnect();
// fastAdvCount = 0;
// StartAdvertising();
// } else {
// connectionHandle = event->connect.conn_handle;
// bleController.Connect();
// systemTask.PushMessage(Pinetime::System::Messages::BleConnected);
// // Service discovery is deferred via systemtask
// }
// break;
//
// case BLE_GAP_EVENT_DISCONNECT:
// /* Connection terminated; resume advertising. */
// NRF_LOG_INFO("Disconnect event : BLE_GAP_EVENT_DISCONNECT");
// NRF_LOG_INFO("disconnect reason=%d", event->disconnect.reason);
//
// if (event->disconnect.conn.sec_state.bonded) {
// PersistBond(event->disconnect.conn);
// }
//
// currentTimeClient.Reset();
// alertNotificationClient.Reset();
// connectionHandle = BLE_HS_CONN_HANDLE_NONE;
// bleController.Disconnect();
// fastAdvCount = 0;
// StartAdvertising();
// break;
//
// case BLE_GAP_EVENT_CONN_UPDATE:
// /* The central has updated the connection parameters. */
// NRF_LOG_INFO("Update event : BLE_GAP_EVENT_CONN_UPDATE");
// NRF_LOG_INFO("update status=%0X ", event->conn_update.status);
// break;
//
// case BLE_GAP_EVENT_CONN_UPDATE_REQ:
// /* The central has requested updated connection parameters */
// NRF_LOG_INFO("Update event : BLE_GAP_EVENT_CONN_UPDATE_REQ");
// NRF_LOG_INFO("update request : itvl_min=%d itvl_max=%d latency=%d supervision=%d",
// event->conn_update_req.peer_params->itvl_min,
// event->conn_update_req.peer_params->itvl_max,
// event->conn_update_req.peer_params->latency,
// event->conn_update_req.peer_params->supervision_timeout);
// break;
//
// case BLE_GAP_EVENT_ENC_CHANGE:
// /* Encryption has been enabled or disabled for this connection. */
// NRF_LOG_INFO("Security event : BLE_GAP_EVENT_ENC_CHANGE");
// NRF_LOG_INFO("encryption change event; status=%0X ", event->enc_change.status);
//
// if (event->enc_change.status == 0) {
// struct ble_gap_conn_desc desc;
// ble_gap_conn_find(event->enc_change.conn_handle, &desc);
// if (desc.sec_state.bonded) {
// PersistBond(desc);
// }
//
// NRF_LOG_INFO("new state: encrypted=%d authenticated=%d bonded=%d key_size=%d",
// desc.sec_state.encrypted,
// desc.sec_state.authenticated,
// desc.sec_state.bonded,
// desc.sec_state.key_size);
// }
// break;
//
// case BLE_GAP_EVENT_PASSKEY_ACTION:
// /* Authentication has been requested for this connection.
// *
// * BLE authentication is determined by the combination of I/O capabilities
// * on the central and peripheral. When the peripheral is display only and
// * the central has a keyboard and display then passkey auth is selected.
// * When both the central and peripheral have displays and support yes/no
// * buttons then numeric comparison is selected. We currently advertise
// * display capability only so we only handle the "display" action here.
// *
// * Standards insist that the rand() PRNG be deterministic.
// * Use the tinycrypt prng here since rand() is predictable.
// */
// NRF_LOG_INFO("Security event : BLE_GAP_EVENT_PASSKEY_ACTION");
// if (event->passkey.params.action == BLE_SM_IOACT_DISP) {
// struct ble_sm_io pkey = {0};
// pkey.action = event->passkey.params.action;
// pkey.passkey = ble_ll_rand() % 1000000;
// bleController.SetPairingKey(pkey.passkey);
// systemTask.PushMessage(Pinetime::System::Messages::OnPairing);
// ble_sm_inject_io(event->passkey.conn_handle, &pkey);
// }
// break;
//
// case BLE_GAP_EVENT_SUBSCRIBE:
// NRF_LOG_INFO("Subscribe event; conn_handle=%d attr_handle=%d "
// "reason=%d prevn=%d curn=%d previ=%d curi=???\n",
// event->subscribe.conn_handle,
// event->subscribe.attr_handle,
// event->subscribe.reason,
// event->subscribe.prev_notify,
// event->subscribe.cur_notify,
// event->subscribe.prev_indicate);
//
// if (event->subscribe.reason == BLE_GAP_SUBSCRIBE_REASON_TERM) {
// heartRateService.UnsubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// motionService.UnsubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// } else if (event->subscribe.prev_notify == 0 && event->subscribe.cur_notify == 1) {
// heartRateService.SubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// motionService.SubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// } else if (event->subscribe.prev_notify == 1 && event->subscribe.cur_notify == 0) {
// heartRateService.UnsubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// motionService.UnsubscribeNotification(event->subscribe.conn_handle, event->subscribe.attr_handle);
// }
// break;
//
// case BLE_GAP_EVENT_MTU:
// NRF_LOG_INFO("MTU Update event; conn_handle=%d cid=%d mtu=%d", event->mtu.conn_handle, event->mtu.channel_id, event->mtu.value);
// break;
//
// case BLE_GAP_EVENT_REPEAT_PAIRING: {
// NRF_LOG_INFO("Pairing event : BLE_GAP_EVENT_REPEAT_PAIRING");
// /* We already have a bond with the peer, but it is attempting to
// * establish a new secure link. This app sacrifices security for
// * convenience: just throw away the old bond and accept the new link.
// */
//
// /* Delete the old bond. */
// struct ble_gap_conn_desc desc;
// ble_gap_conn_find(event->repeat_pairing.conn_handle, &desc);
// ble_store_util_delete_peer(&desc.peer_id_addr);
//
// /* Return BLE_GAP_REPEAT_PAIRING_RETRY to indicate that the host should
// * continue with the pairing operation.
// */
// }
// return BLE_GAP_REPEAT_PAIRING_RETRY;
//
// case BLE_GAP_EVENT_NOTIFY_RX: {
// /* Peer sent us a notification or indication. */
// /* Attribute data is contained in event->notify_rx.attr_data. */
// NRF_LOG_INFO("Notify event : BLE_GAP_EVENT_NOTIFY_RX");
// size_t notifSize = OS_MBUF_PKTLEN(event->notify_rx.om);
//
// NRF_LOG_INFO("received %s; conn_handle=%d attr_handle=%d "
// "attr_len=%d",
// event->notify_rx.indication ? "indication" : "notification",
// event->notify_rx.conn_handle,
// event->notify_rx.attr_handle,
// notifSize);
//
// alertNotificationClient.OnNotification(event);
// } break;
//
// case BLE_GAP_EVENT_NOTIFY_TX:
// NRF_LOG_INFO("Notify event : BLE_GAP_EVENT_NOTIFY_TX");
// break;
//
// case BLE_GAP_EVENT_IDENTITY_RESOLVED:
// NRF_LOG_INFO("Identity event : BLE_GAP_EVENT_IDENTITY_RESOLVED");
// break;
//
// default:
// NRF_LOG_INFO("UNHANDLED GAP event : %d", event->type);
// break;
// }
// return 0;
//}
void NimbleController::StartDiscovery() {
// if (connectionHandle != BLE_HS_CONN_HANDLE_NONE) {
// serviceDiscovery.StartDiscovery(connectionHandle);
// }
}
//uint16_t NimbleController::connHandle() {
// return connectionHandle;
//}
void NimbleController::NotifyBatteryLevel(uint8_t level) {
// if (connectionHandle != BLE_HS_CONN_HANDLE_NONE) {
// batteryInformationService.NotifyBatteryLevel(connectionHandle, level);
// }
}
//void NimbleController::PersistBond(struct ble_gap_conn_desc& desc) {
// union ble_store_key key;
// union ble_store_value our_sec, peer_sec, peer_cccd_set[MYNEWT_VAL(BLE_STORE_MAX_CCCDS)] = {0};
// int rc;
//
// memset(&key, 0, sizeof key);
// memset(&our_sec, 0, sizeof our_sec);
// key.sec.peer_addr = desc.peer_id_addr;
// rc = ble_store_read_our_sec(&key.sec, &our_sec.sec);
//
// if (memcmp(&our_sec.sec, &bondId, sizeof bondId) == 0) {
// return;
// }
//
// memcpy(&bondId, &our_sec.sec, sizeof bondId);
//
// memset(&key, 0, sizeof key);
// memset(&peer_sec, 0, sizeof peer_sec);
// key.sec.peer_addr = desc.peer_id_addr;
// rc += ble_store_read_peer_sec(&key.sec, &peer_sec.sec);
//
// if (rc == 0) {
// memset(&key, 0, sizeof key);
// key.cccd.peer_addr = desc.peer_id_addr;
// int peer_count = 0;
// ble_store_util_count(BLE_STORE_OBJ_TYPE_CCCD, &peer_count);
// for (int i = 0; i < peer_count; i++) {
// key.cccd.idx = peer_count;
// ble_store_read_cccd(&key.cccd, &peer_cccd_set[i].cccd);
// }
//
// /* Wakeup Spi and SpiNorFlash before accessing the file system
// * This should be fixed in the FS driver
// */
// systemTask.PushMessage(Pinetime::System::Messages::GoToRunning);
// systemTask.PushMessage(Pinetime::System::Messages::DisableSleeping);
// vTaskDelay(10);
//
// lfs_file_t file_p;
//
// rc = fs.FileOpen(&file_p, "/bond.dat", LFS_O_WRONLY | LFS_O_CREAT);
// if (rc == 0) {
// fs.FileWrite(&file_p, reinterpret_cast<uint8_t*>(&our_sec.sec), sizeof our_sec);
// fs.FileWrite(&file_p, reinterpret_cast<uint8_t*>(&peer_sec.sec), sizeof peer_sec);
// fs.FileWrite(&file_p, reinterpret_cast<const uint8_t*>(&peer_count), 1);
// for (int i = 0; i < peer_count; i++) {
// fs.FileWrite(&file_p, reinterpret_cast<uint8_t*>(&peer_cccd_set[i].cccd), sizeof(struct ble_store_value_cccd));
// }
// fs.FileClose(&file_p);
// }
// systemTask.PushMessage(Pinetime::System::Messages::EnableSleeping);
// }
//}
//void NimbleController::RestoreBond() {
// lfs_file_t file_p;
// union ble_store_value sec, cccd;
// uint8_t peer_count = 0;
//
// if (fs.FileOpen(&file_p, "/bond.dat", LFS_O_RDONLY) == 0) {
// memset(&sec, 0, sizeof sec);
// fs.FileRead(&file_p, reinterpret_cast<uint8_t*>(&sec.sec), sizeof sec);
// ble_store_write_our_sec(&sec.sec);
//
// memset(&sec, 0, sizeof sec);
// fs.FileRead(&file_p, reinterpret_cast<uint8_t*>(&sec.sec), sizeof sec);
// ble_store_write_peer_sec(&sec.sec);
//
// fs.FileRead(&file_p, &peer_count, 1);
// for (int i = 0; i < peer_count; i++) {
// fs.FileRead(&file_p, reinterpret_cast<uint8_t*>(&cccd.cccd), sizeof(struct ble_store_value_cccd));
// ble_store_write_cccd(&cccd.cccd);
// }
//
// fs.FileClose(&file_p);
// fs.FileDelete("/bond.dat");
// }
//}