• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright (c) 2022 Huawei Device Co., Ltd.
3  *
4  * HDF is dual licensed: you can use it either under the terms of
5  * the GPL, or the BSD license, at your option.
6  * See the LICENSE file in the root of this repository for complete details.
7  */
8 
9 #include "pedometer_bmi160.h"
10 #include <securec.h>
11 #include "osal_mem.h"
12 #include "osal_time.h"
13 #include "sensor_config_controller.h"
14 #include "sensor_device_manager.h"
15 #include "sensor_pedometer_driver.h"
16 
17 #define HDF_LOG_TAG    hdf_sensor_pedometer
18 
19 static struct Bmi160DrvData *g_bmi160DrvData = NULL;
20 
PedometerBmi160GetDrvData(void)21 struct Bmi160DrvData *PedometerBmi160GetDrvData(void)
22 {
23     return g_bmi160DrvData;
24 }
25 
26 /* IO config for int-pin and I2C-pin */
27 #define SENSOR_I2C6_DATA_REG_ADDR 0x114f004c
28 #define SENSOR_I2C6_CLK_REG_ADDR  0x114f0048
29 #define SENSOR_I2C_REG_CFG        0x403
30 
ReadBmi160PedometerRawData(struct SensorCfgData * data,struct PedometerData * rawData,int64_t * timestamp)31 static int32_t ReadBmi160PedometerRawData(struct SensorCfgData *data, struct PedometerData *rawData, int64_t *timestamp)
32 {
33     uint8_t reg[PEDOMETER_BUTT];
34     OsalTimespec time;
35 
36     (void)memset_s(&time, sizeof(time), 0, sizeof(time));
37     (void)memset_s(reg, sizeof(reg), 0, sizeof(reg));
38 
39     CHECK_NULL_PTR_RETURN_VALUE(data, HDF_ERR_INVALID_PARAM);
40 
41     if (OsalGetTime(&time) != HDF_SUCCESS) {
42         HDF_LOGE("%s: Get time failed", __func__);
43         return HDF_FAILURE;
44     }
45     *timestamp = time.sec * SENSOR_SECOND_CONVERT_NANOSECOND + time.usec * SENSOR_CONVERT_UNIT;
46 
47     int32_t ret = ReadSensor(&data->busCfg, BMI160_PEDOMETER_LSB_ADDR, &reg[PEDOMETER_NU_LSB], sizeof(uint8_t));
48     CHECK_PARSER_RESULT_RETURN_VALUE(ret, "read data");
49 
50     ret = ReadSensor(&data->busCfg, BMI160_PEDOMETER_MSB_ADDR, &reg[PEDOMETER_NU_MSB], sizeof(uint8_t));
51     CHECK_PARSER_RESULT_RETURN_VALUE(ret, "read data");
52 
53     rawData->pedometer = (int16_t)(SENSOR_DATA_SHIFT_LEFT(reg[PEDOMETER_NU_MSB], SENSOR_DATA_WIDTH_8_BIT) |
54         reg[PEDOMETER_NU_LSB]);
55 
56     return HDF_SUCCESS;
57 }
58 
ReadBmi160PedometerData(struct SensorCfgData * data)59 int32_t ReadBmi160PedometerData(struct SensorCfgData *data)
60 {
61     int32_t ret;
62     struct PedometerData rawData = { 0 };
63     static int32_t tmp;
64     struct SensorReportEvent event;
65 
66     ret = memset_s(&event, sizeof(event), 0, sizeof(event));
67     CHECK_PARSER_RESULT_RETURN_VALUE(ret, "memset_s");
68 
69     CHECK_NULL_PTR_RETURN_VALUE(data, HDF_ERR_INVALID_PARAM);
70 
71     ret = ReadBmi160PedometerRawData(data, &rawData, &event.timestamp);
72     if (ret != HDF_SUCCESS) {
73         HDF_LOGE("%s: BMI160 read raw data failed", __func__);
74         return HDF_FAILURE;
75     }
76 
77     event.sensorId = SENSOR_TAG_PEDOMETER;
78     event.option = 0;
79     event.mode = SENSOR_WORK_MODE_REALTIME;
80 
81     tmp = rawData.pedometer;
82 
83     event.dataLen = sizeof(tmp);
84     event.data = (uint8_t *)&tmp;
85     ret = ReportSensorEvent(&event);
86     if (ret != HDF_SUCCESS) {
87         HDF_LOGE("%s: BMI160 report data failed", __func__);
88     }
89 
90     return ret;
91 }
92 
InitBmi160(struct SensorCfgData * data)93 static int32_t InitBmi160(struct SensorCfgData *data)
94 {
95     int32_t ret;
96 
97     CHECK_NULL_PTR_RETURN_VALUE(data, HDF_ERR_INVALID_PARAM);
98     ret = SetSensorRegCfgArray(&data->busCfg, data->regCfgGroup[SENSOR_INIT_GROUP]);
99     if (ret != HDF_SUCCESS) {
100         HDF_LOGE("%s: BMI160 sensor init config failed", __func__);
101         return HDF_FAILURE;
102     }
103     return HDF_SUCCESS;
104 }
105 
InitPedometerPreConfig(void)106 static int32_t InitPedometerPreConfig(void)
107 {
108     if (SetSensorPinMux(SENSOR_I2C6_DATA_REG_ADDR, SENSOR_ADDR_WIDTH_4_BYTE, SENSOR_I2C_REG_CFG) != HDF_SUCCESS) {
109         HDF_LOGE("%s: Data write mux pin failed", __func__);
110         return HDF_FAILURE;
111     }
112     if (SetSensorPinMux(SENSOR_I2C6_CLK_REG_ADDR, SENSOR_ADDR_WIDTH_4_BYTE, SENSOR_I2C_REG_CFG) != HDF_SUCCESS) {
113         HDF_LOGE("%s: Clk write mux pin failed", __func__);
114         return HDF_FAILURE;
115     }
116 
117     return HDF_SUCCESS;
118 }
119 
DispatchBMI160(struct HdfDeviceIoClient * client,int cmd,struct HdfSBuf * data,struct HdfSBuf * reply)120 static int32_t DispatchBMI160(struct HdfDeviceIoClient *client,
121     int cmd, struct HdfSBuf *data, struct HdfSBuf *reply)
122 {
123     (void)client;
124     (void)cmd;
125     (void)data;
126     (void)reply;
127 
128     return HDF_SUCCESS;
129 }
130 
PedometerBmi160BindDriver(struct HdfDeviceObject * device)131 int32_t PedometerBmi160BindDriver(struct HdfDeviceObject *device)
132 {
133     CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);
134 
135     struct Bmi160DrvData *drvData = (struct Bmi160DrvData *)OsalMemCalloc(sizeof(*drvData));
136     if (drvData == NULL) {
137         HDF_LOGE("%s: Malloc Bmi160 drv data fail", __func__);
138         return HDF_ERR_MALLOC_FAIL;
139     }
140 
141     drvData->ioService.Dispatch = DispatchBMI160;
142     drvData->device = device;
143     device->service = &drvData->ioService;
144     g_bmi160DrvData = drvData;
145 
146     return HDF_SUCCESS;
147 }
148 
PedometerBmi160InitDriver(struct HdfDeviceObject * device)149 int32_t PedometerBmi160InitDriver(struct HdfDeviceObject *device)
150 {
151     int32_t ret;
152     struct PedometerOpsCall ops;
153 
154     CHECK_NULL_PTR_RETURN_VALUE(device, HDF_ERR_INVALID_PARAM);
155     struct Bmi160DrvData *drvData = (struct Bmi160DrvData *)device->service;
156     CHECK_NULL_PTR_RETURN_VALUE(drvData, HDF_ERR_INVALID_PARAM);
157 
158     ret = InitPedometerPreConfig();
159     if (ret != HDF_SUCCESS) {
160         HDF_LOGE("%s: Init  BMI160 bus mux config", __func__);
161         return HDF_FAILURE;
162     }
163 
164     drvData->sensorCfg = PedometerCreateCfgData(device->property);
165     if (drvData->sensorCfg == NULL || drvData->sensorCfg->root == NULL) {
166         HDF_LOGD("%s: Creating pedometercfg failed because detection failed", __func__);
167         return HDF_ERR_NOT_SUPPORT;
168     }
169 
170     ops.Init = NULL;
171     ops.ReadData = ReadBmi160PedometerData;
172     ret = PedometerRegisterChipOps(&ops);
173     if (ret != HDF_SUCCESS) {
174         HDF_LOGE("%s: Register BMI160 pedometer failed", __func__);
175         return HDF_FAILURE;
176     }
177 
178     ret = InitBmi160(drvData->sensorCfg);
179     if (ret != HDF_SUCCESS) {
180         HDF_LOGE("%s: Init BMI160 pedometer failed", __func__);
181         return HDF_FAILURE;
182     }
183 
184     return HDF_SUCCESS;
185 }
186 
PedometerBmi160ReleaseDriver(struct HdfDeviceObject * device)187 void PedometerBmi160ReleaseDriver(struct HdfDeviceObject *device)
188 {
189     CHECK_NULL_PTR_RETURN(device);
190 
191     struct Bmi160DrvData *drvData = (struct Bmi160DrvData *)device->service;
192     CHECK_NULL_PTR_RETURN(drvData);
193 
194     if (drvData->sensorCfg != NULL) {
195         PedometerReleaseCfgData(drvData->sensorCfg);
196         drvData->sensorCfg = NULL;
197     }
198     OsalMemFree(drvData);
199 }
200 
201 struct HdfDriverEntry g_pedometerBmi160DevEntry = {
202     .moduleVersion = 1,
203     .moduleName = "HDF_SENSOR_PEDOMETER_BMI160",
204     .Bind = PedometerBmi160BindDriver,
205     .Init = PedometerBmi160InitDriver,
206     .Release = PedometerBmi160ReleaseDriver,
207 };
208 
209 HDF_INIT(g_pedometerBmi160DevEntry);
210