unleashed-firmware/targets/f7/ble_glue/services/battery_service.c
あく acc39a4bc0
Api Symbols: replace asserts with checks (#3507)
* Api Symbols: replace asserts with checks
* Api Symbols: replace asserts with checks part 2
* Update no args function signatures with void, to help compiler to track incorrect usage
* More unavoidable void
* Update PVS config and code to make it happy
* Format sources
* nfc: fix checks
* dead code cleanup & include fixes

Co-authored-by: gornekich <n.gorbadey@gmail.com>
Co-authored-by: hedger <hedger@users.noreply.github.com>
Co-authored-by: hedger <hedger@nanode.su>
2024-03-19 23:43:52 +09:00

187 lines
6.1 KiB
C

#include "battery_service.h"
#include "app_common.h"
#include <core/check.h>
#include <furi_ble/gatt.h>
#include <ble/ble.h>
#include <furi.h>
#include <m-list.h>
#define TAG "BtBatterySvc"
enum {
/* Common states */
BatterySvcPowerStateUnknown = 0b00,
BatterySvcPowerStateUnsupported = 0b01,
/* Level states */
BatterySvcPowerStateGoodLevel = 0b10,
BatterySvcPowerStateCriticallyLowLevel = 0b11,
/* Charging states */
BatterySvcPowerStateNotCharging = 0b10,
BatterySvcPowerStateCharging = 0b11,
/* Discharging states */
BatterySvcPowerStateNotDischarging = 0b10,
BatterySvcPowerStateDischarging = 0b11,
/* Battery states */
BatterySvcPowerStateBatteryNotPresent = 0b10,
BatterySvcPowerStateBatteryPresent = 0b11,
};
typedef struct {
uint8_t present : 2;
uint8_t discharging : 2;
uint8_t charging : 2;
uint8_t level : 2;
} BattrySvcPowerState;
_Static_assert(sizeof(BattrySvcPowerState) == 1, "Incorrect structure size");
#define BATTERY_POWER_STATE (0x2A1A)
static const uint16_t service_uuid = BATTERY_SERVICE_UUID;
typedef enum {
BatterySvcGattCharacteristicBatteryLevel = 0,
BatterySvcGattCharacteristicPowerState,
BatterySvcGattCharacteristicCount,
} BatterySvcGattCharacteristicId;
static const BleGattCharacteristicParams battery_svc_chars[BatterySvcGattCharacteristicCount] = {
[BatterySvcGattCharacteristicBatteryLevel] =
{.name = "Battery Level",
.data_prop_type = FlipperGattCharacteristicDataFixed,
.data.fixed.length = 1,
.uuid.Char_UUID_16 = BATTERY_LEVEL_CHAR_UUID,
.uuid_type = UUID_TYPE_16,
.char_properties = CHAR_PROP_READ | CHAR_PROP_NOTIFY,
.security_permissions = ATTR_PERMISSION_AUTHEN_READ,
.gatt_evt_mask = GATT_DONT_NOTIFY_EVENTS,
.is_variable = CHAR_VALUE_LEN_CONSTANT},
[BatterySvcGattCharacteristicPowerState] = {
.name = "Power State",
.data_prop_type = FlipperGattCharacteristicDataFixed,
.data.fixed.length = 1,
.uuid.Char_UUID_16 = BATTERY_POWER_STATE,
.uuid_type = UUID_TYPE_16,
.char_properties = CHAR_PROP_READ | CHAR_PROP_NOTIFY,
.security_permissions = ATTR_PERMISSION_AUTHEN_READ,
.gatt_evt_mask = GATT_DONT_NOTIFY_EVENTS,
.is_variable = CHAR_VALUE_LEN_CONSTANT}};
struct BleServiceBattery {
uint16_t svc_handle;
BleGattCharacteristicInstance chars[BatterySvcGattCharacteristicCount];
bool auto_update;
};
LIST_DEF(BatterySvcInstanceList, BleServiceBattery*, M_POD_OPLIST);
/* We need to keep track of all battery service instances so that we can update
* them when the battery state changes. */
static BatterySvcInstanceList_t instances;
static bool instances_initialized = false;
BleServiceBattery* ble_svc_battery_start(bool auto_update) {
BleServiceBattery* battery_svc = malloc(sizeof(BleServiceBattery));
if(!ble_gatt_service_add(
UUID_TYPE_16,
(Service_UUID_t*)&service_uuid,
PRIMARY_SERVICE,
8,
&battery_svc->svc_handle)) {
free(battery_svc);
return NULL;
}
for(size_t i = 0; i < BatterySvcGattCharacteristicCount; i++) {
ble_gatt_characteristic_init(
battery_svc->svc_handle, &battery_svc_chars[i], &battery_svc->chars[i]);
}
battery_svc->auto_update = auto_update;
if(auto_update) {
if(!instances_initialized) {
BatterySvcInstanceList_init(instances);
instances_initialized = true;
}
BatterySvcInstanceList_push_back(instances, battery_svc);
}
return battery_svc;
}
void ble_svc_battery_stop(BleServiceBattery* battery_svc) {
furi_check(battery_svc);
if(battery_svc->auto_update) {
BatterySvcInstanceList_it_t it;
for(BatterySvcInstanceList_it(it, instances); !BatterySvcInstanceList_end_p(it);
BatterySvcInstanceList_next(it)) {
if(*BatterySvcInstanceList_ref(it) == battery_svc) {
BatterySvcInstanceList_remove(instances, it);
break;
}
}
}
for(size_t i = 0; i < BatterySvcGattCharacteristicCount; i++) {
ble_gatt_characteristic_delete(battery_svc->svc_handle, &battery_svc->chars[i]);
}
/* Delete Battery service */
ble_gatt_service_delete(battery_svc->svc_handle);
free(battery_svc);
}
bool ble_svc_battery_update_level(BleServiceBattery* battery_svc, uint8_t battery_charge) {
furi_check(battery_svc);
/* Update battery level characteristic */
return ble_gatt_characteristic_update(
battery_svc->svc_handle,
&battery_svc->chars[BatterySvcGattCharacteristicBatteryLevel],
&battery_charge);
}
bool ble_svc_battery_update_power_state(BleServiceBattery* battery_svc, bool charging) {
furi_check(battery_svc);
/* Update power state characteristic */
BattrySvcPowerState power_state = {
.level = BatterySvcPowerStateUnsupported,
.present = BatterySvcPowerStateBatteryPresent,
};
if(charging) {
power_state.charging = BatterySvcPowerStateCharging;
power_state.discharging = BatterySvcPowerStateNotDischarging;
} else {
power_state.charging = BatterySvcPowerStateNotCharging;
power_state.discharging = BatterySvcPowerStateDischarging;
}
return ble_gatt_characteristic_update(
battery_svc->svc_handle,
&battery_svc->chars[BatterySvcGattCharacteristicPowerState],
&power_state);
}
void ble_svc_battery_state_update(uint8_t* battery_level, bool* charging) {
if(!instances_initialized) {
#ifdef FURI_BLE_EXTRA_LOG
FURI_LOG_W(TAG, "Battery service not initialized");
#endif
return;
}
BatterySvcInstanceList_it_t it;
for(BatterySvcInstanceList_it(it, instances); !BatterySvcInstanceList_end_p(it);
BatterySvcInstanceList_next(it)) {
BleServiceBattery* battery_svc = *BatterySvcInstanceList_ref(it);
if(battery_level) {
ble_svc_battery_update_level(battery_svc, *battery_level);
}
if(charging) {
ble_svc_battery_update_power_state(battery_svc, *charging);
}
}
}