1094332d3Sopenharmony_ci/*
2094332d3Sopenharmony_ci * Copyright (c) 2021 Huawei Device Co., Ltd.
3094332d3Sopenharmony_ci * Licensed under the Apache License, Version 2.0 (the "License");
4094332d3Sopenharmony_ci * you may not use this file except in compliance with the License.
5094332d3Sopenharmony_ci * You may obtain a copy of the License at
6094332d3Sopenharmony_ci *
7094332d3Sopenharmony_ci *     http://www.apache.org/licenses/LICENSE-2.0
8094332d3Sopenharmony_ci *
9094332d3Sopenharmony_ci * Unless required by applicable law or agreed to in writing, software
10094332d3Sopenharmony_ci * distributed under the License is distributed on an "AS IS" BASIS,
11094332d3Sopenharmony_ci * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12094332d3Sopenharmony_ci * See the License for the specific language governing permissions and
13094332d3Sopenharmony_ci * limitations under the License.
14094332d3Sopenharmony_ci */
15094332d3Sopenharmony_ci#include "input_manager.h"
16094332d3Sopenharmony_ci#include <stdio.h>
17094332d3Sopenharmony_ci#include <stdlib.h>
18094332d3Sopenharmony_ci#include <unistd.h>
19094332d3Sopenharmony_ci#include <limits.h>
20094332d3Sopenharmony_ci#include <fcntl.h>
21094332d3Sopenharmony_ci#include <malloc.h>
22094332d3Sopenharmony_ci#include <sys/ioctl.h>
23094332d3Sopenharmony_ci#include <securec.h>
24094332d3Sopenharmony_ci#include "hdf_io_service_if.h"
25094332d3Sopenharmony_ci#include "osal_time.h"
26094332d3Sopenharmony_ci#include "input_common.h"
27094332d3Sopenharmony_ci
28094332d3Sopenharmony_ci#define TOUCH_INDEX 1
29094332d3Sopenharmony_ci#define PLACEHOLDER_LENGTH 2
30094332d3Sopenharmony_ci#define PLACEHOLDER_LIMIT 10
31094332d3Sopenharmony_ci
32094332d3Sopenharmony_cistatic InputDevManager *g_devManager;
33094332d3Sopenharmony_ciint32_t InstanceReporterHdi(InputReporter **hdi);
34094332d3Sopenharmony_ciint32_t InstanceControllerHdi(InputController **hdi);
35094332d3Sopenharmony_ciint32_t UpdateDevFullInfo(uint32_t devIndex);
36094332d3Sopenharmony_ci
37094332d3Sopenharmony_ciInputDevManager *GetDevManager(void)
38094332d3Sopenharmony_ci{
39094332d3Sopenharmony_ci    return g_devManager;
40094332d3Sopenharmony_ci}
41094332d3Sopenharmony_ci
42094332d3Sopenharmony_cistatic int32_t GetInputDevice(uint32_t devIndex, InputDeviceInfo **devInfo)
43094332d3Sopenharmony_ci{
44094332d3Sopenharmony_ci    int32_t ret;
45094332d3Sopenharmony_ci    int32_t count = 3; // 3 : number of attempts
46094332d3Sopenharmony_ci    DeviceInfoNode *pos = NULL;
47094332d3Sopenharmony_ci    DeviceInfoNode *next = NULL;
48094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
49094332d3Sopenharmony_ci
50094332d3Sopenharmony_ci    if (devIndex >= MAX_INPUT_DEV_NUM || devInfo == NULL) {
51094332d3Sopenharmony_ci        HDF_LOGE("%s: invalid param", __func__);
52094332d3Sopenharmony_ci        return INPUT_INVALID_PARAM;
53094332d3Sopenharmony_ci    }
54094332d3Sopenharmony_ci
55094332d3Sopenharmony_ci    while ((count--) > 0) {
56094332d3Sopenharmony_ci        ret = UpdateDevFullInfo(devIndex);
57094332d3Sopenharmony_ci        if (ret == INPUT_SUCCESS) {
58094332d3Sopenharmony_ci            break;
59094332d3Sopenharmony_ci        }
60094332d3Sopenharmony_ci        OsalMSleep(10); // 10 : delay time
61094332d3Sopenharmony_ci    }
62094332d3Sopenharmony_ci    if (count == 0) {
63094332d3Sopenharmony_ci        HDF_LOGE("%s: update dev info failed", __func__);
64094332d3Sopenharmony_ci        return ret;
65094332d3Sopenharmony_ci    }
66094332d3Sopenharmony_ci
67094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
68094332d3Sopenharmony_ci
69094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
70094332d3Sopenharmony_ci    DLIST_FOR_EACH_ENTRY_SAFE(pos, next, &manager->devList, DeviceInfoNode, node) {
71094332d3Sopenharmony_ci        if (pos->payload.devIndex != devIndex) {
72094332d3Sopenharmony_ci            continue;
73094332d3Sopenharmony_ci        }
74094332d3Sopenharmony_ci        *devInfo = &pos->payload;
75094332d3Sopenharmony_ci        pthread_mutex_unlock(&manager->mutex);
76094332d3Sopenharmony_ci        HDF_LOGI("%s: device%u get dev info succ", __func__, devIndex);
77094332d3Sopenharmony_ci        return INPUT_SUCCESS;
78094332d3Sopenharmony_ci    }
79094332d3Sopenharmony_ci
80094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
81094332d3Sopenharmony_ci    HDF_LOGE("%s: device%u doesn't exist, can't get device info", __func__, devIndex);
82094332d3Sopenharmony_ci    return INPUT_FAILURE;
83094332d3Sopenharmony_ci}
84094332d3Sopenharmony_ci
85094332d3Sopenharmony_cistatic int32_t GetInputDeviceList(uint32_t *devNum, InputDeviceInfo **deviceList, uint32_t size)
86094332d3Sopenharmony_ci{
87094332d3Sopenharmony_ci    DeviceInfoNode *pos = NULL;
88094332d3Sopenharmony_ci    DeviceInfoNode *next = NULL;
89094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
90094332d3Sopenharmony_ci    uint32_t tempSize = 0;
91094332d3Sopenharmony_ci    InputDeviceInfo **tempList = NULL;
92094332d3Sopenharmony_ci
93094332d3Sopenharmony_ci    if (devNum == NULL || deviceList == NULL) {
94094332d3Sopenharmony_ci        HDF_LOGE("%s: invalid param", __func__);
95094332d3Sopenharmony_ci        return INPUT_INVALID_PARAM;
96094332d3Sopenharmony_ci    }
97094332d3Sopenharmony_ci    tempList = deviceList;
98094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
99094332d3Sopenharmony_ci
100094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
101094332d3Sopenharmony_ci    DLIST_FOR_EACH_ENTRY_SAFE(pos, next, &manager->devList, DeviceInfoNode, node) {
102094332d3Sopenharmony_ci        if (tempSize >= size) {
103094332d3Sopenharmony_ci            *devNum = manager->attachedDevNum;
104094332d3Sopenharmony_ci            pthread_mutex_unlock(&manager->mutex);
105094332d3Sopenharmony_ci            HDF_LOGE("%s: size is not enough, size = %u, devNum = %u", __func__,
106094332d3Sopenharmony_ci                size, *devNum);
107094332d3Sopenharmony_ci            return INPUT_FAILURE;
108094332d3Sopenharmony_ci        }
109094332d3Sopenharmony_ci        *tempList = &pos->payload;
110094332d3Sopenharmony_ci        tempList++;
111094332d3Sopenharmony_ci        tempSize++;
112094332d3Sopenharmony_ci    }
113094332d3Sopenharmony_ci    *devNum = manager->attachedDevNum;
114094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
115094332d3Sopenharmony_ci    return INPUT_SUCCESS;
116094332d3Sopenharmony_ci}
117094332d3Sopenharmony_ci
118094332d3Sopenharmony_cistatic int32_t CloseInputDevice(uint32_t devIndex)
119094332d3Sopenharmony_ci{
120094332d3Sopenharmony_ci    DeviceInfoNode *pos = NULL;
121094332d3Sopenharmony_ci    DeviceInfoNode *next = NULL;
122094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
123094332d3Sopenharmony_ci
124094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
125094332d3Sopenharmony_ci
126094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
127094332d3Sopenharmony_ci    DLIST_FOR_EACH_ENTRY_SAFE(pos, next, &manager->devList, DeviceInfoNode, node) {
128094332d3Sopenharmony_ci        if (pos->payload.devIndex != devIndex) {
129094332d3Sopenharmony_ci            continue;
130094332d3Sopenharmony_ci        }
131094332d3Sopenharmony_ci        HdfIoServiceRecycle(pos->service);
132094332d3Sopenharmony_ci        DListRemove(&pos->node);
133094332d3Sopenharmony_ci        free(pos);
134094332d3Sopenharmony_ci        manager->attachedDevNum--;
135094332d3Sopenharmony_ci        pthread_mutex_unlock(&manager->mutex);
136094332d3Sopenharmony_ci        return INPUT_SUCCESS;
137094332d3Sopenharmony_ci    }
138094332d3Sopenharmony_ci
139094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
140094332d3Sopenharmony_ci    HDF_LOGE("%s: device%u doesn't exist", __func__, devIndex);
141094332d3Sopenharmony_ci    return INPUT_FAILURE;
142094332d3Sopenharmony_ci}
143094332d3Sopenharmony_ci
144094332d3Sopenharmony_cistatic int32_t AddService(uint32_t index, const struct HdfIoService *service)
145094332d3Sopenharmony_ci{
146094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
147094332d3Sopenharmony_ci    DeviceInfoNode *device = NULL;
148094332d3Sopenharmony_ci
149094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
150094332d3Sopenharmony_ci    device = (DeviceInfoNode *)malloc(sizeof(DeviceInfoNode));
151094332d3Sopenharmony_ci    if (device == NULL) {
152094332d3Sopenharmony_ci        HDF_LOGE("%s: malloc fail", __func__);
153094332d3Sopenharmony_ci        return INPUT_NOMEM;
154094332d3Sopenharmony_ci    }
155094332d3Sopenharmony_ci    (void)memset_s(device, sizeof(DeviceInfoNode), 0, sizeof(DeviceInfoNode));
156094332d3Sopenharmony_ci
157094332d3Sopenharmony_ci    device->payload.devIndex = index;
158094332d3Sopenharmony_ci    device->service = (struct HdfIoService *)service;
159094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
160094332d3Sopenharmony_ci    DListInsertTail(&device->node, &manager->devList);
161094332d3Sopenharmony_ci    manager->attachedDevNum++;
162094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
163094332d3Sopenharmony_ci    return INPUT_SUCCESS;
164094332d3Sopenharmony_ci}
165094332d3Sopenharmony_ci
166094332d3Sopenharmony_cistatic int32_t CheckIndex(uint32_t devIndex)
167094332d3Sopenharmony_ci{
168094332d3Sopenharmony_ci    DeviceInfoNode *pos = NULL;
169094332d3Sopenharmony_ci    DeviceInfoNode *next = NULL;
170094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
171094332d3Sopenharmony_ci
172094332d3Sopenharmony_ci    if (devIndex >= MAX_INPUT_DEV_NUM) {
173094332d3Sopenharmony_ci        HDF_LOGE("%s: invalid param", __func__);
174094332d3Sopenharmony_ci        return INPUT_INVALID_PARAM;
175094332d3Sopenharmony_ci    }
176094332d3Sopenharmony_ci
177094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
178094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
179094332d3Sopenharmony_ci    DLIST_FOR_EACH_ENTRY_SAFE(pos, next, &manager->devList, DeviceInfoNode, node) {
180094332d3Sopenharmony_ci        if (pos->payload.devIndex == devIndex) {
181094332d3Sopenharmony_ci            pthread_mutex_unlock(&manager->mutex);
182094332d3Sopenharmony_ci            HDF_LOGE("%s: the device%u has existed", __func__, devIndex);
183094332d3Sopenharmony_ci            return INPUT_FAILURE;
184094332d3Sopenharmony_ci        }
185094332d3Sopenharmony_ci    }
186094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
187094332d3Sopenharmony_ci    return INPUT_SUCCESS;
188094332d3Sopenharmony_ci}
189094332d3Sopenharmony_ci
190094332d3Sopenharmony_cistatic int32_t OpenInputDevice(uint32_t devIndex)
191094332d3Sopenharmony_ci{
192094332d3Sopenharmony_ci    int32_t ret;
193094332d3Sopenharmony_ci    int32_t len;
194094332d3Sopenharmony_ci    struct HdfIoService *service = NULL;
195094332d3Sopenharmony_ci    char serviceName[SERVICE_NAME_LEN] = {0};
196094332d3Sopenharmony_ci
197094332d3Sopenharmony_ci    if (CheckIndex(devIndex) != INPUT_SUCCESS) {
198094332d3Sopenharmony_ci        return INPUT_FAILURE;
199094332d3Sopenharmony_ci    }
200094332d3Sopenharmony_ci
201094332d3Sopenharmony_ci    len = (devIndex < PLACEHOLDER_LIMIT) ? 1 : PLACEHOLDER_LENGTH;
202094332d3Sopenharmony_ci    ret = snprintf_s(serviceName, SERVICE_NAME_LEN, strlen("hdf_input_event") + len, "%s%u",
203094332d3Sopenharmony_ci        "hdf_input_event", devIndex);
204094332d3Sopenharmony_ci    if (ret == -1) {
205094332d3Sopenharmony_ci        HDF_LOGE("%s: snprintf_s fail", __func__);
206094332d3Sopenharmony_ci        return INPUT_FAILURE;
207094332d3Sopenharmony_ci    }
208094332d3Sopenharmony_ci
209094332d3Sopenharmony_ci    service = HdfIoServiceBind(serviceName);
210094332d3Sopenharmony_ci    if (service == NULL) {
211094332d3Sopenharmony_ci        HDF_LOGE("%s: fail to get io service: %s", __func__, serviceName);
212094332d3Sopenharmony_ci        return INPUT_NULL_PTR;
213094332d3Sopenharmony_ci    }
214094332d3Sopenharmony_ci
215094332d3Sopenharmony_ci    if (AddService(devIndex, service) < 0) {
216094332d3Sopenharmony_ci        HDF_LOGE("%s: add device%d failed", __func__, devIndex);
217094332d3Sopenharmony_ci        HdfIoServiceRecycle(service);
218094332d3Sopenharmony_ci        return INPUT_FAILURE;
219094332d3Sopenharmony_ci    }
220094332d3Sopenharmony_ci
221094332d3Sopenharmony_ci    HDF_LOGI("%s: open dev%u succ, service name = %s", __func__, devIndex, serviceName);
222094332d3Sopenharmony_ci    return INPUT_SUCCESS;
223094332d3Sopenharmony_ci}
224094332d3Sopenharmony_ci
225094332d3Sopenharmony_cistatic int32_t ScanInputDevice(InputDevDesc *staArr, uint32_t arrLen)
226094332d3Sopenharmony_ci{
227094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
228094332d3Sopenharmony_ci    struct HdfIoService *service = NULL;
229094332d3Sopenharmony_ci    struct HdfSBuf *reply = NULL;
230094332d3Sopenharmony_ci    char *data = {0};
231094332d3Sopenharmony_ci    uint32_t count = 0;
232094332d3Sopenharmony_ci    uint32_t replayDataSize = 0;
233094332d3Sopenharmony_ci    int32_t ret;
234094332d3Sopenharmony_ci
235094332d3Sopenharmony_ci    GET_MANAGER_CHECK_RETURN(manager);
236094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
237094332d3Sopenharmony_ci    if (manager->hostDev.service == NULL) {
238094332d3Sopenharmony_ci        manager->hostDev.service = HdfIoServiceBind(DEV_MANAGER_SERVICE_NAME);
239094332d3Sopenharmony_ci    }
240094332d3Sopenharmony_ci    service = manager->hostDev.service;
241094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
242094332d3Sopenharmony_ci
243094332d3Sopenharmony_ci    if (service == NULL) {
244094332d3Sopenharmony_ci        HDF_LOGE("%s: HdfIoServiceBind failed", __func__);
245094332d3Sopenharmony_ci        return INPUT_FAILURE;
246094332d3Sopenharmony_ci    }
247094332d3Sopenharmony_ci    reply = HdfSbufObtainDefaultSize();
248094332d3Sopenharmony_ci    if (reply == NULL) {
249094332d3Sopenharmony_ci        HDF_LOGE("%s: fail to obtain sbuf data", __func__);
250094332d3Sopenharmony_ci        return INPUT_FAILURE;
251094332d3Sopenharmony_ci    }
252094332d3Sopenharmony_ci
253094332d3Sopenharmony_ci    ret = service->dispatcher->Dispatch(&service->object, 0, NULL, reply);
254094332d3Sopenharmony_ci    if (ret != INPUT_SUCCESS) {
255094332d3Sopenharmony_ci        HDF_LOGE("%s: dispatch fail", __func__);
256094332d3Sopenharmony_ci        HdfSbufRecycle(reply);
257094332d3Sopenharmony_ci        return INPUT_FAILURE;
258094332d3Sopenharmony_ci    }
259094332d3Sopenharmony_ci
260094332d3Sopenharmony_ci    while (count < arrLen) {
261094332d3Sopenharmony_ci        if (!HdfSbufReadBuffer(reply, (const void **)(&data), &replayDataSize) ||
262094332d3Sopenharmony_ci            replayDataSize != sizeof(InputDevDesc)) {
263094332d3Sopenharmony_ci            HDF_LOGE("%s: sbuf read failed", __func__);
264094332d3Sopenharmony_ci            break;
265094332d3Sopenharmony_ci        }
266094332d3Sopenharmony_ci        if (memcpy_s(&staArr[count], sizeof(InputDevDesc), data, replayDataSize) != EOK) {
267094332d3Sopenharmony_ci            HDF_LOGE("%s: memcpy failed, line: %d", __func__, __LINE__);
268094332d3Sopenharmony_ci            HdfSbufRecycle(reply);
269094332d3Sopenharmony_ci            return INPUT_FAILURE;
270094332d3Sopenharmony_ci        }
271094332d3Sopenharmony_ci        HDF_LOGI("%s: type = %d, id =%d", __func__, staArr[count].devType, staArr[count].devIndex);
272094332d3Sopenharmony_ci        count++;
273094332d3Sopenharmony_ci    }
274094332d3Sopenharmony_ci    HdfSbufRecycle(reply);
275094332d3Sopenharmony_ci    return INPUT_SUCCESS;
276094332d3Sopenharmony_ci}
277094332d3Sopenharmony_ci
278094332d3Sopenharmony_cistatic int32_t InstanceManagerHdi(InputManager **manager)
279094332d3Sopenharmony_ci{
280094332d3Sopenharmony_ci    InputManager *managerHdi = (InputManager *)malloc(sizeof(InputManager));
281094332d3Sopenharmony_ci    if (managerHdi == NULL) {
282094332d3Sopenharmony_ci        HDF_LOGE("%s: malloc fail", __func__);
283094332d3Sopenharmony_ci        return INPUT_NOMEM;
284094332d3Sopenharmony_ci    }
285094332d3Sopenharmony_ci
286094332d3Sopenharmony_ci    (void)memset_s(managerHdi, sizeof(InputManager), 0, sizeof(InputManager));
287094332d3Sopenharmony_ci
288094332d3Sopenharmony_ci    managerHdi->ScanInputDevice = ScanInputDevice;
289094332d3Sopenharmony_ci    managerHdi->OpenInputDevice = OpenInputDevice;
290094332d3Sopenharmony_ci    managerHdi->CloseInputDevice = CloseInputDevice;
291094332d3Sopenharmony_ci    managerHdi->GetInputDevice = GetInputDevice;
292094332d3Sopenharmony_ci    managerHdi->GetInputDeviceList = GetInputDeviceList;
293094332d3Sopenharmony_ci    *manager = managerHdi;
294094332d3Sopenharmony_ci    return INPUT_SUCCESS;
295094332d3Sopenharmony_ci}
296094332d3Sopenharmony_ci
297094332d3Sopenharmony_cistatic int32_t InitDevManager(void)
298094332d3Sopenharmony_ci{
299094332d3Sopenharmony_ci    InputDevManager *manager = (InputDevManager *)malloc(sizeof(InputDevManager));
300094332d3Sopenharmony_ci    if (manager == NULL) {
301094332d3Sopenharmony_ci        HDF_LOGE("%s: malloc fail", __func__);
302094332d3Sopenharmony_ci        return INPUT_NOMEM;
303094332d3Sopenharmony_ci    }
304094332d3Sopenharmony_ci
305094332d3Sopenharmony_ci    (void)memset_s(manager, sizeof(InputDevManager), 0, sizeof(InputDevManager));
306094332d3Sopenharmony_ci    DListHeadInit(&manager->devList);
307094332d3Sopenharmony_ci    pthread_mutex_init(&manager->mutex, NULL);
308094332d3Sopenharmony_ci    manager->attachedDevNum = 0;
309094332d3Sopenharmony_ci    manager->evtCallbackNum = 0;
310094332d3Sopenharmony_ci    g_devManager = manager;
311094332d3Sopenharmony_ci    return INPUT_SUCCESS;
312094332d3Sopenharmony_ci}
313094332d3Sopenharmony_ci
314094332d3Sopenharmony_cistatic void FreeInputHdi(IInputInterface **hdi)
315094332d3Sopenharmony_ci{
316094332d3Sopenharmony_ci    if (hdi == NULL || *hdi == NULL) {
317094332d3Sopenharmony_ci        return;
318094332d3Sopenharmony_ci    }
319094332d3Sopenharmony_ci    if ((*hdi)->iInputManager != NULL) {
320094332d3Sopenharmony_ci        free((*hdi)->iInputManager);
321094332d3Sopenharmony_ci        (*hdi)->iInputManager = NULL;
322094332d3Sopenharmony_ci    }
323094332d3Sopenharmony_ci
324094332d3Sopenharmony_ci    if ((*hdi)->iInputController != NULL) {
325094332d3Sopenharmony_ci        free((*hdi)->iInputController);
326094332d3Sopenharmony_ci        (*hdi)->iInputController = NULL;
327094332d3Sopenharmony_ci    }
328094332d3Sopenharmony_ci
329094332d3Sopenharmony_ci    if ((*hdi)->iInputReporter != NULL) {
330094332d3Sopenharmony_ci        free((*hdi)->iInputReporter);
331094332d3Sopenharmony_ci        (*hdi)->iInputReporter = NULL;
332094332d3Sopenharmony_ci    }
333094332d3Sopenharmony_ci    free((*hdi));
334094332d3Sopenharmony_ci    *hdi = NULL;
335094332d3Sopenharmony_ci}
336094332d3Sopenharmony_ci
337094332d3Sopenharmony_cistatic IInputInterface *InstanceInputHdi(void)
338094332d3Sopenharmony_ci{
339094332d3Sopenharmony_ci    int32_t ret;
340094332d3Sopenharmony_ci    IInputInterface *hdi = (IInputInterface *)malloc(sizeof(IInputInterface));
341094332d3Sopenharmony_ci    if (hdi == NULL) {
342094332d3Sopenharmony_ci        HDF_LOGE("%s: malloc fail", __func__);
343094332d3Sopenharmony_ci        return NULL;
344094332d3Sopenharmony_ci    }
345094332d3Sopenharmony_ci    (void)memset_s(hdi, sizeof(IInputInterface), 0, sizeof(IInputInterface));
346094332d3Sopenharmony_ci
347094332d3Sopenharmony_ci    ret = InstanceManagerHdi(&hdi->iInputManager);
348094332d3Sopenharmony_ci    if (ret != INPUT_SUCCESS) {
349094332d3Sopenharmony_ci        FreeInputHdi(&hdi);
350094332d3Sopenharmony_ci        return NULL;
351094332d3Sopenharmony_ci    }
352094332d3Sopenharmony_ci
353094332d3Sopenharmony_ci    ret = InstanceControllerHdi(&hdi->iInputController);
354094332d3Sopenharmony_ci    if (ret != INPUT_SUCCESS) {
355094332d3Sopenharmony_ci        FreeInputHdi(&hdi);
356094332d3Sopenharmony_ci        return NULL;
357094332d3Sopenharmony_ci    }
358094332d3Sopenharmony_ci
359094332d3Sopenharmony_ci    ret = InstanceReporterHdi(&hdi->iInputReporter);
360094332d3Sopenharmony_ci    if (ret != INPUT_SUCCESS) {
361094332d3Sopenharmony_ci        FreeInputHdi(&hdi);
362094332d3Sopenharmony_ci        return NULL;
363094332d3Sopenharmony_ci    }
364094332d3Sopenharmony_ci    return hdi;
365094332d3Sopenharmony_ci}
366094332d3Sopenharmony_ci
367094332d3Sopenharmony_ciint32_t GetInputInterface(IInputInterface **inputInterface)
368094332d3Sopenharmony_ci{
369094332d3Sopenharmony_ci    int32_t ret;
370094332d3Sopenharmony_ci    IInputInterface *inputHdi = NULL;
371094332d3Sopenharmony_ci
372094332d3Sopenharmony_ci    if (inputInterface == NULL) {
373094332d3Sopenharmony_ci        HDF_LOGE("%s: parameter is null", __func__);
374094332d3Sopenharmony_ci        return INPUT_INVALID_PARAM;
375094332d3Sopenharmony_ci    }
376094332d3Sopenharmony_ci
377094332d3Sopenharmony_ci    inputHdi = InstanceInputHdi();
378094332d3Sopenharmony_ci    if (inputHdi == NULL) {
379094332d3Sopenharmony_ci        HDF_LOGE("%s: failed to instance hdi", __func__);
380094332d3Sopenharmony_ci        return INPUT_NULL_PTR;
381094332d3Sopenharmony_ci    }
382094332d3Sopenharmony_ci
383094332d3Sopenharmony_ci    ret = InitDevManager();
384094332d3Sopenharmony_ci    if (ret != INPUT_SUCCESS) {
385094332d3Sopenharmony_ci        HDF_LOGE("%s: failed to initialize manager", __func__);
386094332d3Sopenharmony_ci        FreeInputHdi(&inputHdi);
387094332d3Sopenharmony_ci        return INPUT_FAILURE;
388094332d3Sopenharmony_ci    }
389094332d3Sopenharmony_ci
390094332d3Sopenharmony_ci    *inputInterface = inputHdi;
391094332d3Sopenharmony_ci    HDF_LOGI("%s: exit succ", __func__);
392094332d3Sopenharmony_ci    return INPUT_SUCCESS;
393094332d3Sopenharmony_ci}
394094332d3Sopenharmony_ci
395094332d3Sopenharmony_cistatic void FreeDevManager(InputDevManager *manager)
396094332d3Sopenharmony_ci{
397094332d3Sopenharmony_ci    (void)HdfDeviceUnregisterEventListener(manager->hostDev.service, manager->hostDev.listener);
398094332d3Sopenharmony_ci    if (manager->hostDev.listener != NULL) {
399094332d3Sopenharmony_ci        free(manager->hostDev.listener);
400094332d3Sopenharmony_ci        manager->hostDev.listener = NULL;
401094332d3Sopenharmony_ci        manager->hostDev.hostCb = NULL;
402094332d3Sopenharmony_ci    }
403094332d3Sopenharmony_ci    (void)HdfIoServiceRecycle(manager->hostDev.service);
404094332d3Sopenharmony_ci    pthread_mutex_unlock(&manager->mutex);
405094332d3Sopenharmony_ci    pthread_mutex_destroy(&manager->mutex);
406094332d3Sopenharmony_ci    free(manager);
407094332d3Sopenharmony_ci    g_devManager = NULL;
408094332d3Sopenharmony_ci}
409094332d3Sopenharmony_ci
410094332d3Sopenharmony_civoid ReleaseInputInterface(IInputInterface **inputInterface)
411094332d3Sopenharmony_ci{
412094332d3Sopenharmony_ci    DeviceInfoNode *pos = NULL;
413094332d3Sopenharmony_ci    DeviceInfoNode *next = NULL;
414094332d3Sopenharmony_ci    InputDevManager *manager = NULL;
415094332d3Sopenharmony_ci
416094332d3Sopenharmony_ci    if (inputInterface == NULL) {
417094332d3Sopenharmony_ci        return;
418094332d3Sopenharmony_ci    }
419094332d3Sopenharmony_ci    FreeInputHdi(inputInterface);
420094332d3Sopenharmony_ci
421094332d3Sopenharmony_ci    if (g_devManager == NULL) {
422094332d3Sopenharmony_ci        return;
423094332d3Sopenharmony_ci    }
424094332d3Sopenharmony_ci    manager = g_devManager;
425094332d3Sopenharmony_ci    pthread_mutex_lock(&manager->mutex);
426094332d3Sopenharmony_ci    DLIST_FOR_EACH_ENTRY_SAFE(pos, next, &manager->devList, DeviceInfoNode, node) {
427094332d3Sopenharmony_ci        (void)HdfDeviceUnregisterEventListener(pos->service, pos->listener);
428094332d3Sopenharmony_ci        if (pos->listener != NULL) {
429094332d3Sopenharmony_ci            free(pos->listener);
430094332d3Sopenharmony_ci            pos->listener = NULL;
431094332d3Sopenharmony_ci            pos->eventCb = NULL;
432094332d3Sopenharmony_ci        }
433094332d3Sopenharmony_ci        (void)HdfIoServiceRecycle(pos->service);
434094332d3Sopenharmony_ci        DListRemove(&pos->node);
435094332d3Sopenharmony_ci        free(pos);
436094332d3Sopenharmony_ci    }
437094332d3Sopenharmony_ci    FreeDevManager(manager);
438094332d3Sopenharmony_ci}