1 /*
2 * Copyright (c) 2022-2023 Huawei Device Co., Ltd.
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at
6 *
7 * http://www.apache.org/licenses/LICENSE-2.0
8 *
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License.
14 */
15 #include "wlan_common_cmd.h"
16 #include <securec.h>
17 #include <hdf_base.h>
18 #include <hdf_log.h>
19 #include <osal_time.h>
20 #include <osal_mem.h>
21 #include "wlan_extend_cmd.h"
22 #include "v1_2/iwlan_callback.h"
23 #include "v1_2/iwlan_interface.h"
24
25 struct IWiFi *g_wifi = NULL;
26 struct IWiFiAp *g_apFeature = NULL;
27 struct IWiFiSta *g_staFeature = NULL;
28 struct IWiFiP2p *g_p2pFeature = NULL;
29 struct IWiFiBaseFeature *g_baseFeature = NULL;
30 static uint32_t g_wifiCount = 0;
31 static uint32_t g_apFeatureCount = 0;
32 static uint32_t g_staFeatureCount = 0;
33 static uint32_t g_p2pFeatureCount = 0;
34 const uint32_t RESET_TIME = 3;
35 #define DEFAULT_COMBO_SIZE 10
36 #define WLAN_FREQ_MAX_NUM 14
37 #define WLAN_MAX_NUM_STA_WITH_AP 4
38 #define ETH_ADDR_LEN 6
39
HdfStubDriver(void)40 struct HdfWlanStubData *HdfStubDriver(void)
41 {
42 static struct HdfWlanStubData registerManager;
43 return ®isterManager;
44 }
45
WlanInterfaceStart(struct IWlanInterface * self)46 int32_t WlanInterfaceStart(struct IWlanInterface *self)
47 {
48 int32_t ret;
49 HDF_LOGI("hal enter %{public}s", __FUNCTION__);
50 (void)self;
51 if (g_wifi == NULL || g_wifi->start == NULL) {
52 HDF_LOGE("%{public}s: g_wifi or g_wifi->start is NULL", __func__);
53 return HDF_FAILURE;
54 }
55 ret = g_wifi->start(g_wifi);
56 if (ret != HDF_SUCCESS) {
57 HDF_LOGE("%{public}s start WiFi failed! error code: %{public}d", __func__, ret);
58 } else {
59 g_wifiCount++;
60 }
61 HDF_LOGI("hal exit %{public}s, g_wifiCount:%{public}u", __FUNCTION__, g_wifiCount);
62 return ret;
63 }
64
WlanInterfaceStop(struct IWlanInterface * self)65 int32_t WlanInterfaceStop(struct IWlanInterface *self)
66 {
67 int32_t ret;
68 HDF_LOGI("hal enter %{public}s", __FUNCTION__);
69 (void)self;
70 if (g_wifi == NULL || g_wifi->stop == NULL) {
71 HDF_LOGE("%{public}s: g_wifi or g_wifi->stop is NULL", __func__);
72 return HDF_FAILURE;
73 }
74 g_wifiCount--;
75 if (g_wifiCount > 0) {
76 HDF_LOGE("%{public}s: g_wifi is used!", __func__);
77 return HDF_SUCCESS;
78 }
79 ret = g_wifi->stop(g_wifi);
80 if (ret != HDF_SUCCESS) {
81 HDF_LOGE("%{public}s stop WiFi failed! error code: %{public}d", __func__, ret);
82 }
83 HDF_LOGI("hal exit %{public}s, g_wifiCount:%{public}u", __FUNCTION__, g_wifiCount);
84 return ret;
85 }
86
WlanInterfaceCreateFeature(struct IWlanInterface * self,int32_t type,struct HdfFeatureInfo * ifeature)87 int32_t WlanInterfaceCreateFeature(struct IWlanInterface *self, int32_t type, struct HdfFeatureInfo *ifeature)
88 {
89 int32_t ret = HDF_FAILURE;
90 HDF_LOGI("hal enter %{public}s type:%{public}d", __FUNCTION__, type);
91 (void)self;
92 if (ifeature == NULL) {
93 HDF_LOGE("%{public}s: input parameter invalid!", __func__);
94 return HDF_ERR_INVALID_PARAM;
95 }
96 if (g_wifi == NULL || g_wifi->createFeature == NULL) {
97 HDF_LOGE("%{public}s: g_wifi or g_wifi->createFeature is NULL", __func__);
98 return HDF_FAILURE;
99 }
100 if (type == PROTOCOL_80211_IFTYPE_AP) {
101 ret = g_wifi->createFeature(type, (struct IWiFiBaseFeature **)&g_apFeature);
102 if (ret != HDF_SUCCESS) {
103 HDF_LOGE("%{public}s: createAPFeature failed, error code: %{public}d", __func__, ret);
104 return HDF_FAILURE;
105 }
106 if (g_apFeature != NULL) {
107 g_apFeatureCount++;
108 ifeature->type = g_apFeature->baseFeature.type;
109 ifeature->ifName = strdup((g_apFeature->baseFeature).ifName);
110 }
111 } else if (type == PROTOCOL_80211_IFTYPE_STATION) {
112 ret = g_wifi->createFeature(type, (struct IWiFiBaseFeature **)&g_staFeature);
113 if (ret != HDF_SUCCESS) {
114 HDF_LOGE("%{public}s: createSTAFeature failed, error code: %{public}d", __func__, ret);
115 return HDF_FAILURE;
116 }
117 if (g_staFeature != NULL) {
118 g_staFeatureCount++;
119 ifeature->type = g_staFeature->baseFeature.type;
120 ifeature->ifName = strdup((g_staFeature->baseFeature).ifName);
121 }
122 } else if (type == PROTOCOL_80211_IFTYPE_P2P_DEVICE) {
123 ret = g_wifi->createFeature(type, (struct IWiFiBaseFeature **)&g_p2pFeature);
124 if (ret != HDF_SUCCESS) {
125 HDF_LOGE("%{public}s: failed to create p2p feature, errorCode: %{public}d", __func__, ret);
126 return HDF_FAILURE;
127 }
128 if (g_p2pFeature != NULL) {
129 g_p2pFeatureCount++;
130 ifeature->type = g_p2pFeature->baseFeature.type;
131 ifeature->ifName = strdup((g_p2pFeature->baseFeature).ifName);
132 }
133 } else {
134 HDF_LOGE("%{public}s: wlan type is Invalid", __func__);
135 }
136 HDF_LOGI("hal exit %{public}s, apFeatureCount:%{public}u staFeatureCount:%{public}u p2pFeatureCount:%{public}u",
137 __FUNCTION__, g_apFeatureCount, g_staFeatureCount, g_p2pFeatureCount);
138 return ret;
139 }
140
WlanInterfaceDestroyFeature(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature)141 int32_t WlanInterfaceDestroyFeature(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature)
142 {
143 int32_t ret = HDF_FAILURE;
144
145 (void)self;
146 if (ifeature == NULL || ifeature->ifName == NULL) {
147 HDF_LOGE("%{public}s input parameter invalid!", __func__);
148 return HDF_ERR_INVALID_PARAM;
149 }
150 if (g_wifi == NULL || g_wifi->destroyFeature == NULL) {
151 HDF_LOGE("%{public}s: g_wifi or g_wifi->destroyFeature is NULL", __func__);
152 return HDF_FAILURE;
153 }
154 HDF_LOGI("hal enter %{public}s type:%{public}d", __FUNCTION__, ifeature->type);
155 if (ifeature->type == PROTOCOL_80211_IFTYPE_AP) {
156 if (g_apFeature == NULL) {
157 HDF_LOGE("%{public}s g_apFeature is NULL!", __func__);
158 return HDF_FAILURE;
159 }
160 g_apFeatureCount--;
161 if (g_apFeatureCount > 0) {
162 HDF_LOGI("%{public}s: apFeature is used!", __func__);
163 return HDF_SUCCESS;
164 }
165 ret = strcpy_s((g_apFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
166 if (ret != HDF_SUCCESS) {
167 HDF_LOGE("%{public}s: strcpy_s apFeature ifName is failed!", __func__);
168 return HDF_FAILURE;
169 }
170 ret = g_wifi->destroyFeature(&(g_apFeature->baseFeature));
171 g_apFeature = NULL;
172 } else if (ifeature->type == PROTOCOL_80211_IFTYPE_STATION) {
173 if (g_staFeature == NULL) {
174 HDF_LOGE("%{public}s g_staFeature is NULL!", __func__);
175 return HDF_FAILURE;
176 }
177 g_staFeatureCount--;
178 if (g_staFeatureCount > 0) {
179 HDF_LOGI("%{public}s: staFeature is used!", __func__);
180 return HDF_SUCCESS;
181 }
182 ret = strcpy_s((g_staFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
183 if (ret != HDF_SUCCESS) {
184 HDF_LOGE("%{public}s: strcpy_s staFeature ifName is failed!", __func__);
185 return HDF_FAILURE;
186 }
187 ret = g_wifi->destroyFeature(&(g_staFeature->baseFeature));
188 g_staFeature = NULL;
189 } else if (ifeature->type == PROTOCOL_80211_IFTYPE_P2P_DEVICE) {
190 if (g_p2pFeature == NULL) {
191 HDF_LOGE("%{public}s g_p2pFeature is NULL!", __func__);
192 return HDF_FAILURE;
193 }
194 g_p2pFeatureCount--;
195 if (g_p2pFeatureCount > 0) {
196 HDF_LOGI("%{public}s: p2pFeature is used!", __func__);
197 return HDF_SUCCESS;
198 }
199 ret = strcpy_s((g_p2pFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
200 if (ret != HDF_SUCCESS) {
201 HDF_LOGE("%{public}s: failed to copy the ifName! ret: %{public}d", __func__, ret);
202 return HDF_FAILURE;
203 }
204 ret = g_wifi->destroyFeature(&(g_p2pFeature->baseFeature));
205 g_p2pFeature = NULL;
206 } else {
207 HDF_LOGE("%{public}s: wlan type is invalid", __func__);
208 }
209 HDF_LOGI("hal exit %{public}s, apFeatureCount:%{public}u staFeatureCount:%{public}u p2pFeatureCount:%{public}u",
210 __FUNCTION__, g_apFeatureCount, g_staFeatureCount, g_p2pFeatureCount);
211 return ret;
212 }
213
WlanInterfaceGetAssociatedStas(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,struct HdfStaInfo * staInfo,uint32_t * staInfoLen,uint32_t * num)214 int32_t WlanInterfaceGetAssociatedStas(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
215 struct HdfStaInfo *staInfo, uint32_t *staInfoLen, uint32_t *num)
216 {
217 int32_t ret;
218
219 (void)self;
220 if (ifeature == NULL || ifeature->ifName == NULL || staInfo == NULL || staInfoLen == NULL || num == NULL) {
221 HDF_LOGE("%{public}s:input parameter invalid!", __func__);
222 return HDF_ERR_INVALID_PARAM;
223 }
224 if (g_apFeature == NULL || g_apFeature->getAssociatedStas == NULL) {
225 HDF_LOGE("%{public}s g_apFeature or g_apFeature->getAssociatedStas is NULL!", __func__);
226 return HDF_FAILURE;
227 }
228 ret = strcpy_s((g_apFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
229 if (ret != HDF_SUCCESS) {
230 HDF_LOGE("%{public}s: strcpy_s apFeature ifName is failed!", __func__);
231 return HDF_FAILURE;
232 }
233
234 struct StaInfo *wifiStaInfo = (struct StaInfo *)OsalMemCalloc(sizeof(struct StaInfo) * (*staInfoLen));
235 if (wifiStaInfo == NULL) {
236 HDF_LOGE("%{public}s:OsalMemCalloc failed!", __func__);
237 return HDF_FAILURE;
238 }
239 ret = g_apFeature->getAssociatedStas(g_apFeature, wifiStaInfo, *staInfoLen, num);
240 if (ret != HDF_SUCCESS) {
241 HDF_LOGE("%{public}s get associated sta failed!, error code: %{public}d", __func__, ret);
242 OsalMemFree(wifiStaInfo);
243 return ret;
244 }
245 for (uint32_t i = 0; i < (*num); i++) {
246 staInfo[i].mac = (uint8_t *)OsalMemCalloc(sizeof(uint8_t) * ETH_ADDR_LEN);
247 if (staInfo[i].mac != NULL) {
248 if (memcpy_s(staInfo[i].mac, WIFI_MAC_ADDR_LENGTH, wifiStaInfo[i].mac, WIFI_MAC_ADDR_LENGTH) != EOK) {
249 HDF_LOGE("%{public}s fail : memcpy_s mac fail!", __func__);
250 ret = HDF_FAILURE;
251 break;
252 }
253 staInfo[i].macLen = WIFI_MAC_ADDR_LENGTH;
254 }
255 }
256 OsalMemFree(wifiStaInfo);
257 return ret;
258 }
259
GetBasefeature(const struct HdfFeatureInfo * ifeature,struct IWiFiBaseFeature ** baseFeature)260 static int32_t GetBasefeature(const struct HdfFeatureInfo *ifeature, struct IWiFiBaseFeature **baseFeature)
261 {
262 if (ifeature->type == PROTOCOL_80211_IFTYPE_AP) {
263 if (g_apFeature == NULL) {
264 HDF_LOGE("%{public}s g_apFeature is NULL!", __func__);
265 return HDF_FAILURE;
266 }
267 *baseFeature = &(g_apFeature->baseFeature);
268 } else if (ifeature->type == PROTOCOL_80211_IFTYPE_STATION) {
269 if (g_staFeature == NULL) {
270 HDF_LOGE("%{public}s g_staFeature is NULL!", __func__);
271 return HDF_FAILURE;
272 }
273 *baseFeature = &(g_staFeature->baseFeature);
274 } else if (ifeature->type == PROTOCOL_80211_IFTYPE_P2P_DEVICE) {
275 if (g_p2pFeature == NULL) {
276 HDF_LOGE("%{public}s g_p2pFeature is NULL!", __func__);
277 return HDF_FAILURE;
278 }
279 *baseFeature = &(g_p2pFeature->baseFeature);
280 } else {
281 HDF_LOGE("%{public}s: wlan type is Invalid, featureType is %{public}d", __func__, ifeature->type);
282 return HDF_FAILURE;
283 }
284 return HDF_SUCCESS;
285 }
286
WlanInterfaceGetChipId(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,uint8_t * chipId)287 int32_t WlanInterfaceGetChipId(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature, uint8_t *chipId)
288 {
289 int32_t ret = HDF_FAILURE;
290 struct IWiFiBaseFeature *baseFeature = NULL;
291
292 (void)self;
293 if (ifeature == NULL || ifeature->ifName == NULL || chipId == NULL) {
294 HDF_LOGE("%{public}s ifeature or ifName is NULL!", __func__);
295 return HDF_ERR_INVALID_PARAM;
296 }
297 ret = GetBasefeature(ifeature, &baseFeature);
298 if (ret != HDF_SUCCESS) {
299 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
300 return HDF_FAILURE;
301 }
302 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
303 if (ret != HDF_SUCCESS) {
304 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
305 return HDF_FAILURE;
306 }
307
308 return baseFeature->getChipId(baseFeature, chipId);
309 }
310
WlanInterfaceGetDeviceMacAddress(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,uint8_t * mac,uint32_t * macLen,uint8_t len)311 int32_t WlanInterfaceGetDeviceMacAddress(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
312 uint8_t *mac, uint32_t *macLen, uint8_t len)
313 {
314 int32_t ret = HDF_FAILURE;
315 struct IWiFiBaseFeature *baseFeature = NULL;
316
317 (void)self;
318 if (ifeature == NULL || ifeature->ifName == NULL || mac == NULL || macLen == NULL) {
319 HDF_LOGE("%{public}s input parameter invalid!", __func__);
320 return HDF_ERR_INVALID_PARAM;
321 }
322 ret = GetBasefeature(ifeature, &baseFeature);
323 if (ret != HDF_SUCCESS) {
324 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
325 return HDF_FAILURE;
326 }
327 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
328 if (ret != HDF_SUCCESS) {
329 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
330 return HDF_FAILURE;
331 }
332 ret = baseFeature->getDeviceMacAddress(baseFeature, mac, len);
333 *macLen = ETH_ADDR_LEN;
334 return ret;
335 }
336
WlanInterfaceGetFeatureByIfName(struct IWlanInterface * self,const char * ifName,struct HdfFeatureInfo * ifeature)337 int32_t WlanInterfaceGetFeatureByIfName(struct IWlanInterface *self, const char *ifName,
338 struct HdfFeatureInfo *ifeature)
339 {
340 int32_t ret;
341 struct IWiFiBaseFeature *baseFeature = NULL;
342
343 (void)self;
344 if (ifName == NULL || ifeature == NULL) {
345 HDF_LOGE("%{public}s input parameter invalid!", __func__);
346 return HDF_ERR_INVALID_PARAM;
347 }
348 if (g_wifi == NULL || g_wifi->getFeatureByIfName == NULL) {
349 HDF_LOGE("%{public}s gwifi or g_wifi->getFeatureByIfName is NULL!", __func__);
350 return HDF_FAILURE;
351 }
352 ret = g_wifi->getFeatureByIfName(ifName, (struct IWiFiBaseFeature **)&baseFeature);
353 if (ret != HDF_SUCCESS) {
354 HDF_LOGE("%{public}s get FeatureByIfName failed!, error code: %{public}d", __func__, ret);
355 return ret;
356 }
357 if (baseFeature == NULL) {
358 HDF_LOGE("%{public}s baseFeature is NULL!", __func__);
359 return HDF_FAILURE;
360 }
361 ifeature->type = baseFeature->type;
362 ifeature->ifName = strdup(baseFeature->ifName);
363 return ret;
364 }
365
WlanInterfaceGetFeatureType(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,int32_t * featureType)366 int32_t WlanInterfaceGetFeatureType(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
367 int32_t *featureType)
368 {
369 (void)self;
370 int32_t ret;
371 int32_t type;
372 struct IWiFiBaseFeature *baseFeature = NULL;
373
374 if (ifeature == NULL || featureType == NULL) {
375 HDF_LOGE("%{public}s input parameter invalid!", __func__);
376 return HDF_ERR_INVALID_PARAM;
377 }
378 ret = GetBasefeature(ifeature, &baseFeature);
379 if (ret != HDF_SUCCESS) {
380 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
381 return HDF_FAILURE;
382 }
383 baseFeature->type = ifeature->type;
384 type = baseFeature->getFeatureType(baseFeature);
385 *featureType = type;
386 return HDF_SUCCESS;
387 }
388
WlanInterfaceGetFreqsWithBand(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,const struct HdfWifiInfo * wifiInfo,int32_t * freq,uint32_t * freqLen)389 int32_t WlanInterfaceGetFreqsWithBand(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
390 const struct HdfWifiInfo *wifiInfo, int32_t *freq, uint32_t *freqLen)
391 {
392 int32_t ret;
393 struct IWiFiBaseFeature *baseFeature = NULL;
394
395 (void)self;
396 if (ifeature == NULL || ifeature->ifName == NULL || freq == NULL || freqLen == NULL || wifiInfo == NULL) {
397 HDF_LOGE("%{public}s input parameter invalid!", __func__);
398 return HDF_ERR_INVALID_PARAM;
399 }
400 ret = GetBasefeature(ifeature, &baseFeature);
401 if (ret != HDF_SUCCESS) {
402 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
403 return HDF_FAILURE;
404 }
405 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
406 if (ret != HDF_SUCCESS) {
407 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
408 return HDF_FAILURE;
409 }
410
411 return baseFeature->getValidFreqsWithBand(baseFeature, wifiInfo->band, freq, wifiInfo->size, freqLen);
412 }
413
WlanInterfaceGetIfNamesByChipId(struct IWlanInterface * self,uint8_t chipId,char * ifName,uint32_t ifNameLen,uint32_t * num)414 int32_t WlanInterfaceGetIfNamesByChipId(struct IWlanInterface *self, uint8_t chipId, char *ifName,
415 uint32_t ifNameLen, uint32_t *num)
416 {
417 int32_t ret;
418
419 (void)self;
420 if (ifName == NULL || num == NULL) {
421 HDF_LOGE("%{public}s input parameter invalid!", __func__);
422 return HDF_ERR_INVALID_PARAM;
423 }
424 char *name = NULL;
425
426 if (g_staFeature != NULL) {
427 HDF_LOGD("%{public}s g_staFeature is not NULL!", __func__);
428 ret = g_staFeature->baseFeature.getIfNamesByChipId(chipId, &name, num);
429 } else if (g_apFeature != NULL) {
430 HDF_LOGD("%{public}s g_apFeature is not NULL!", __func__);
431 ret = g_apFeature->baseFeature.getIfNamesByChipId(chipId, &name, num);
432 } else if (g_p2pFeature != NULL) {
433 HDF_LOGD("%{public}s g_p2pFeature is not NULL!", __func__);
434 ret = g_p2pFeature->baseFeature.getIfNamesByChipId(chipId, &name, num);
435 } else {
436 HDF_LOGE("%{public}s: ap and sta feature is Invalid.", __func__);
437 ret = HDF_FAILURE;
438 }
439
440 if (ret != HDF_SUCCESS) {
441 HDF_LOGE("%{public}s get name failed!, error code: %{public}d", __func__, ret);
442 return ret;
443 }
444
445 if (name != NULL) {
446 if (strcpy_s(ifName, ifNameLen, name) != EOK) {
447 HDF_LOGE("%{public}s: copy ifName failed!", __func__);
448 return HDF_FAILURE;
449 }
450 }
451 return ret;
452 }
453
WlanInterfaceGetNetworkIfaceName(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,char * ifName,uint32_t ifNameLen)454 int32_t WlanInterfaceGetNetworkIfaceName(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
455 char *ifName, uint32_t ifNameLen)
456 {
457 int32_t ret;
458 const char *name = NULL;
459 struct IWiFiBaseFeature *baseFeature = NULL;
460
461 (void)self;
462 if (ifeature == NULL || ifeature->ifName == NULL || ifName == NULL) {
463 HDF_LOGE("%{public}s input parameter invalid!", __func__);
464 return HDF_ERR_INVALID_PARAM;
465 }
466 ret = GetBasefeature(ifeature, &baseFeature);
467 if (ret != HDF_SUCCESS) {
468 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
469 return HDF_FAILURE;
470 }
471 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
472 if (ret != HDF_SUCCESS) {
473 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
474 return HDF_FAILURE;
475 }
476 name = baseFeature->getNetworkIfaceName(baseFeature);
477 if (name == NULL) {
478 HDF_LOGE("%{public}s get network iface name failed!", __func__);
479 return HDF_FAILURE;
480 }
481 if (strcpy_s(ifName, ifNameLen, name) != EOK) {
482 HDF_LOGE("%{public}s: copy ifName failed!", __func__);
483 return HDF_FAILURE;
484 }
485 return HDF_SUCCESS;
486 }
487
WlanInterfaceGetSupportCombo(struct IWlanInterface * self,uint64_t * combo)488 int32_t WlanInterfaceGetSupportCombo(struct IWlanInterface *self, uint64_t *combo)
489 {
490 int32_t ret;
491
492 (void)self;
493 if (combo == NULL) {
494 HDF_LOGE("%{public}s input parameter invalid!", __func__);
495 return HDF_ERR_INVALID_PARAM;
496 }
497 if (g_wifi == NULL || g_wifi->getSupportCombo == NULL) {
498 HDF_LOGE("%{public}s g_wifi or g_wifi->getSupportCombo is NULL!", __func__);
499 return HDF_FAILURE;
500 }
501 ret = g_wifi->getSupportCombo(combo, DEFAULT_COMBO_SIZE);
502 if (ret == HDF_ERR_NOT_SUPPORT) {
503 HDF_LOGW("%{public}s: not support to getting combo!, error code: %{public}d", __func__, ret);
504 }
505 return ret;
506 }
507
WlanInterfaceGetSupportFeature(struct IWlanInterface * self,uint8_t * supType,uint32_t * supTypeLen)508 int32_t WlanInterfaceGetSupportFeature(struct IWlanInterface *self, uint8_t *supType, uint32_t *supTypeLen)
509 {
510 int32_t ret;
511
512 (void)self;
513 if (supType == NULL || supTypeLen == NULL) {
514 HDF_LOGE("%{public}s input parameter invalid!", __func__);
515 return HDF_ERR_INVALID_PARAM;
516 }
517 if (g_wifi == NULL || g_wifi->getSupportFeature == NULL) {
518 HDF_LOGE("%{public}s g_wifi or g_wifi->getSupportFeature is NULL!", __func__);
519 return HDF_FAILURE;
520 }
521 ret = g_wifi->getSupportFeature(supType, *supTypeLen);
522 if (ret != HDF_SUCCESS) {
523 HDF_LOGE("%{public}s get support feature failed! error code: %{public}d", __func__, ret);
524 }
525 return ret;
526 }
527
HdfWlanAddRemoteObj(struct IWlanCallback * self)528 static int32_t HdfWlanAddRemoteObj(struct IWlanCallback *self)
529 {
530 struct HdfWlanRemoteNode *pos = NULL;
531 struct DListHead *head = &HdfStubDriver()->remoteListHead;
532
533 if (self == NULL) {
534 HDF_LOGE("%{public}s:self == NULL", __func__);
535 return HDF_ERR_INVALID_PARAM;
536 }
537 if (!DListIsEmpty(head)) {
538 DLIST_FOR_EACH_ENTRY(pos, head, struct HdfWlanRemoteNode, node) {
539 if (pos->service == self->AsObject(self)) {
540 HDF_LOGE("%{public}s: pos->service == self", __func__);
541 return HDF_FAILURE;
542 }
543 }
544 }
545
546 struct HdfWlanRemoteNode *newRemoteNode =
547 (struct HdfWlanRemoteNode *)OsalMemCalloc(sizeof(struct HdfWlanRemoteNode));
548 if (newRemoteNode == NULL) {
549 HDF_LOGE("%{public}s:newRemoteNode is NULL", __func__);
550 return HDF_FAILURE;
551 }
552
553 newRemoteNode->callbackObj = self;
554 newRemoteNode->service = self->AsObject(self);
555 DListInsertTail(&newRemoteNode->node, head);
556 return HDF_SUCCESS;
557 }
558
FillData(uint8_t ** dst,uint32_t * dstLen,uint8_t * src,uint32_t srcLen)559 static int32_t FillData(uint8_t **dst, uint32_t *dstLen, uint8_t *src, uint32_t srcLen)
560 {
561 if (src == NULL || dst == NULL || dstLen == NULL) {
562 HDF_LOGE("%{public}s: Invalid parameter!", __func__);
563 return HDF_ERR_INVALID_PARAM;
564 }
565 *dst = (uint8_t *)OsalMemCalloc(sizeof(uint8_t) * srcLen);
566 if (*dst == NULL) {
567 HDF_LOGE("%{public}s: OsalMemCalloc fail!", __func__);
568 return HDF_FAILURE;
569 }
570 if (memcpy_s(*dst, srcLen, src, srcLen) != EOK) {
571 HDF_LOGE("%{public}s: memcpy_s fail!", __func__);
572 return HDF_FAILURE;
573 }
574 *dstLen = srcLen;
575 return HDF_SUCCESS;
576 }
577
WlanFillScanResultInfo(WifiScanResult * wifiScanResult,struct HdfWifiScanResult * scanResult)578 static int32_t WlanFillScanResultInfo(WifiScanResult *wifiScanResult, struct HdfWifiScanResult *scanResult)
579 {
580 int32_t ret = HDF_SUCCESS;
581 if (wifiScanResult == NULL || scanResult == NULL) {
582 HDF_LOGE("%{public}s: wifiScanResult or scanResult is NULL!", __func__);
583 return HDF_ERR_INVALID_PARAM;
584 }
585 scanResult->flags = wifiScanResult->flags;
586 scanResult->caps = wifiScanResult->caps;
587 scanResult->freq = wifiScanResult->freq;
588 scanResult->beaconInt = wifiScanResult->beaconInt;
589 scanResult->qual = wifiScanResult->qual;
590 scanResult->level = wifiScanResult->level;
591 scanResult->age = wifiScanResult->age;
592 do {
593 if (wifiScanResult->bssid != NULL &&
594 FillData(&scanResult->bssid, &scanResult->bssidLen, wifiScanResult->bssid, ETH_ADDR_LEN) != HDF_SUCCESS) {
595 HDF_LOGE("%{public}s: fill bssid fail!", __func__);
596 ret = HDF_FAILURE;
597 break;
598 }
599 if ((wifiScanResult->ie != NULL) && (wifiScanResult->ieLen != 0) &&
600 FillData(&scanResult->ie, &scanResult->ieLen, wifiScanResult->ie, wifiScanResult->ieLen) != HDF_SUCCESS) {
601 HDF_LOGE("%{public}s: fill ie fail!", __func__);
602 ret = HDF_FAILURE;
603 break;
604 }
605 if ((wifiScanResult->beaconIe != NULL) && (wifiScanResult->beaconIeLen != 0) &&
606 FillData(&scanResult->beaconIe, &scanResult->beaconIeLen, wifiScanResult->beaconIe,
607 wifiScanResult->beaconIeLen) != HDF_SUCCESS) {
608 HDF_LOGE("%{public}s: fill beaconIe fail!", __func__);
609 ret = HDF_FAILURE;
610 }
611 } while (0);
612 if (ret != HDF_SUCCESS) {
613 if (scanResult->bssid != NULL) {
614 OsalMemFree(scanResult->bssid);
615 }
616 if (scanResult->ie != NULL) {
617 OsalMemFree(scanResult->ie);
618 }
619 if (scanResult->beaconIe != NULL) {
620 OsalMemFree(scanResult->beaconIe);
621 }
622 }
623 return ret;
624 }
625
WlanFillScanResultInfoExt(WifiScanResult * wifiScanResult,struct HdfWifiScanResultExt * scanResult)626 static int32_t WlanFillScanResultInfoExt(WifiScanResult *wifiScanResult, struct HdfWifiScanResultExt *scanResult)
627 {
628 int32_t ret = HDF_SUCCESS;
629 if (wifiScanResult == NULL || scanResult == NULL) {
630 HDF_LOGE("%{public}s: wifiScanResult or scanResult is NULL!", __func__);
631 return HDF_ERR_INVALID_PARAM;
632 }
633 scanResult->flags = wifiScanResult->flags;
634 scanResult->caps = wifiScanResult->caps;
635 scanResult->freq = wifiScanResult->freq;
636 scanResult->beaconInt = wifiScanResult->beaconInt;
637 scanResult->qual = wifiScanResult->qual;
638 scanResult->level = wifiScanResult->level;
639 scanResult->age = wifiScanResult->age;
640 scanResult->tsf = wifiScanResult->tsf;
641 do {
642 if (wifiScanResult->bssid != NULL &&
643 FillData(&scanResult->bssid, &scanResult->bssidLen, wifiScanResult->bssid, ETH_ADDR_LEN) != HDF_SUCCESS) {
644 HDF_LOGE("%{public}s: fill bssid fail!", __func__);
645 ret = HDF_FAILURE;
646 break;
647 }
648 if ((wifiScanResult->ie != NULL) && (wifiScanResult->ieLen != 0) &&
649 FillData(&scanResult->ie, &scanResult->ieLen, wifiScanResult->ie, wifiScanResult->ieLen) != HDF_SUCCESS) {
650 HDF_LOGE("%{public}s: fill ie fail!", __func__);
651 ret = HDF_FAILURE;
652 break;
653 }
654 if ((wifiScanResult->beaconIe != NULL) && (wifiScanResult->beaconIeLen != 0) &&
655 FillData(&scanResult->beaconIe, &scanResult->beaconIeLen, wifiScanResult->beaconIe,
656 wifiScanResult->beaconIeLen) != HDF_SUCCESS) {
657 HDF_LOGE("%{public}s: fill beaconIe fail!", __func__);
658 ret = HDF_FAILURE;
659 }
660 } while (0);
661 if (ret != HDF_SUCCESS) {
662 if (scanResult->bssid != NULL) {
663 OsalMemFree(scanResult->bssid);
664 }
665 if (scanResult->ie != NULL) {
666 OsalMemFree(scanResult->ie);
667 }
668 if (scanResult->beaconIe != NULL) {
669 OsalMemFree(scanResult->beaconIe);
670 }
671 }
672 return ret;
673 }
674
WlanFillScanResultsInfo(WifiScanResults * wifiScanResults,struct HdfWifiScanResults * scanResults)675 static int32_t WlanFillScanResultsInfo(WifiScanResults *wifiScanResults, struct HdfWifiScanResults *scanResults)
676 {
677 uint32_t i;
678 if (wifiScanResults == NULL || scanResults == NULL) {
679 HDF_LOGE("%{public}s: wifiScanResults or scanResults is NULL!", __func__);
680 return HDF_ERR_INVALID_PARAM;
681 }
682 for (i = 0; i < wifiScanResults->num; i++) {
683 if (WlanFillScanResultInfoExt(&wifiScanResults->scanResult[i], &scanResults->res[i]) != HDF_SUCCESS) {
684 return HDF_FAILURE;
685 }
686 }
687 scanResults->resLen = wifiScanResults->num;
688 return HDF_SUCCESS;
689 }
690
ProcessEventScanResult(struct HdfWlanRemoteNode * node,uint32_t event,WifiScanResult * wifiScanResult,const char * ifName)691 static int32_t ProcessEventScanResult(struct HdfWlanRemoteNode *node, uint32_t event, WifiScanResult *wifiScanResult,
692 const char *ifName)
693 {
694 HDF_LOGI("hal enter %{public}s, event:%{public}u ifName:%{public}s", __FUNCTION__, event, ifName);
695 struct HdfWifiScanResult *scanResult = NULL;
696 int32_t ret = HDF_FAILURE;
697
698 if (node == NULL || node->callbackObj == NULL || node->callbackObj->ScanResult == NULL) {
699 HDF_LOGE("%{public}s: hdf wlan remote node or callbackObj is NULL!", __func__);
700 return HDF_ERR_INVALID_PARAM;
701 }
702 scanResult = (struct HdfWifiScanResult *)OsalMemCalloc(sizeof(struct HdfWifiScanResult));
703 if ((scanResult == NULL) || (WlanFillScanResultInfo(wifiScanResult, scanResult) != HDF_SUCCESS)) {
704 HDF_LOGE("%{public}s: scanResult is NULL or WlanFillScanResultInfo fialed!", __func__);
705 } else {
706 ret = node->callbackObj->ScanResult(node->callbackObj, event, scanResult, ifName);
707 }
708 HdfWifiScanResultFree(scanResult, true);
709 HDF_LOGI("hal exit %{public}s", __FUNCTION__);
710 return ret;
711 }
712
ProcessEventScanResults(struct HdfWlanRemoteNode * node,uint32_t event,WifiScanResults * wifiScanResults,const char * ifName)713 static int32_t ProcessEventScanResults(struct HdfWlanRemoteNode *node, uint32_t event,
714 WifiScanResults *wifiScanResults, const char *ifName)
715 {
716 HDF_LOGI("hal enter %{public}s, event:%{public}u ifName:%{public}s", __FUNCTION__, event, ifName);
717 struct HdfWifiScanResults *scanResults = NULL;
718 uint32_t size;
719 int32_t ret = HDF_FAILURE;
720
721 if (node == NULL || node->callbackObj == NULL || node->callbackObj->ScanResults == NULL) {
722 HDF_LOGE("%{public}s: hdf wlan remote node or callbackObj is NULL!", __func__);
723 return HDF_ERR_INVALID_PARAM;
724 }
725 scanResults = (struct HdfWifiScanResults *)OsalMemCalloc(sizeof(struct HdfWifiScanResults));
726 if (scanResults == NULL) {
727 HDF_LOGE("%{public}s: scanResults is NULL!", __func__);
728 return HDF_ERR_MALLOC_FAIL;
729 }
730 if (wifiScanResults->num == 0) {
731 scanResults->res = NULL;
732 scanResults->resLen = 0;
733 ret = node->callbackObj->ScanResults(node->callbackObj, event, scanResults, ifName);
734 HdfWifiScanResultsFree(scanResults, true);
735 HDF_LOGD("%{public}s: scanResults num is 0!", __func__);
736 return ret;
737 }
738 scanResults->resLen = wifiScanResults->num;
739 size = sizeof(struct HdfWifiScanResultExt);
740 scanResults->res = (struct HdfWifiScanResultExt *)OsalMemCalloc(size * scanResults->resLen);
741 if ((scanResults->res == NULL) || (WlanFillScanResultsInfo(wifiScanResults, scanResults) != HDF_SUCCESS)) {
742 HDF_LOGE("%{public}s: scanResults->res is NULL or WlanFillScanResultsInfo fialed!", __func__);
743 } else {
744 ret = node->callbackObj->ScanResults(node->callbackObj, event, scanResults, ifName);
745 }
746 HdfWifiScanResultsFree(scanResults, true);
747 HDF_LOGI("hal exit %{public}s, wifiScanResults num:%{public}u", __FUNCTION__, wifiScanResults->num);
748 return ret;
749 }
750
ProcessEventScanAborted(struct HdfWlanRemoteNode * node,uint32_t event,const char * ifName)751 static int32_t ProcessEventScanAborted(struct HdfWlanRemoteNode *node, uint32_t event, const char *ifName)
752 {
753 HDF_LOGI("hal enter %{public}s, event:%{public}u ifName:%{public}s", __FUNCTION__, event, ifName);
754 int32_t ret = HDF_FAILURE;
755 struct HdfWifiScanResults scanResults = {0};
756
757 if (node == NULL || node->callbackObj == NULL || node->callbackObj->ScanResults == NULL) {
758 HDF_LOGE("%{public}s: hdf wlan remote node or callbackObj is NULL!", __func__);
759 return HDF_ERR_INVALID_PARAM;
760 }
761 ret = node->callbackObj->ScanResults(node->callbackObj, event, &scanResults, ifName);
762 HDF_LOGI("hal exit %{public}s, ScanResults ret:%{public}d", __FUNCTION__, ret);
763 return ret;
764 }
765
ProcessEventActionReceived(struct HdfWlanRemoteNode * node,uint32_t event,WifiActionData * wifiActionData,const char * ifName)766 static int32_t ProcessEventActionReceived(struct HdfWlanRemoteNode *node, uint32_t event,
767 WifiActionData *wifiActionData, const char *ifName)
768 {
769 HDF_LOGI("hal enter %{public}s, event:%{public}u ifName:%{public}s", __FUNCTION__, event, ifName);
770 int32_t ret = HDF_FAILURE;
771
772 if (node == NULL || wifiActionData == NULL || ifName == NULL || node->callbackObj == NULL ||
773 node->callbackObj->WifiNetlinkMessage == NULL) {
774 HDF_LOGE("%{public}s: hdf wlan remote node or callbackObj is NULL!", __func__);
775 return HDF_ERR_INVALID_PARAM;
776 }
777 ret = node->callbackObj->WifiNetlinkMessage(node->callbackObj, wifiActionData->data, wifiActionData->dataLen);
778 HDF_LOGI("hal exit %{public}s, WifiNetlinkMessage ret:%{public}d", __FUNCTION__, ret);
779 return ret;
780 }
781
HdfWLanCallbackFun(uint32_t event,void * data,const char * ifName)782 static int32_t HdfWLanCallbackFun(uint32_t event, void *data, const char *ifName)
783 {
784 HDF_LOGI("%{public}s, event:%{public}u ifName:%{public}s", __FUNCTION__, event, ifName);
785 struct HdfWlanRemoteNode *pos = NULL;
786 struct DListHead *head = NULL;
787 int32_t *code = NULL;
788 int32_t ret = HDF_FAILURE;
789 (void)OsalMutexLock(&HdfStubDriver()->mutex);
790 head = &HdfStubDriver()->remoteListHead;
791
792 if (data == NULL || ifName == NULL) {
793 HDF_LOGE("%{public}s: data or ifName is NULL!", __func__);
794 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
795 return HDF_ERR_INVALID_PARAM;
796 }
797 DLIST_FOR_EACH_ENTRY(pos, head, struct HdfWlanRemoteNode, node) {
798 if (pos == NULL) {
799 HDF_LOGE("%{public}s: pos is NULL", __func__);
800 break;
801 }
802 if (pos->service == NULL || pos->callbackObj == NULL) {
803 HDF_LOGW("%{public}s: pos->service or pos->callbackObj NULL", __func__);
804 continue;
805 }
806 switch (event) {
807 case WIFI_EVENT_RESET_DRIVER:
808 code = (int32_t *)data;
809 ret = pos->callbackObj->ResetDriverResult(pos->callbackObj, event, *code, ifName);
810 break;
811 case WIFI_EVENT_SCAN_RESULT:
812 ret = ProcessEventScanResult(pos, event, (WifiScanResult *)data, ifName);
813 break;
814 case WIFI_EVENT_SCAN_RESULTS:
815 ret = ProcessEventScanResults(pos, event, (WifiScanResults *)data, ifName);
816 break;
817 case WIFI_EVENT_SCAN_ABORTED:
818 ret = ProcessEventScanAborted(pos, event, ifName);
819 break;
820 case WIFI_EVENT_ACTION_RECEIVED:
821 ret = ProcessEventActionReceived(pos, event, (WifiActionData *)data, ifName);
822 break;
823 default:
824 HDF_LOGE("%{public}s: unknown eventId:%{public}d", __func__, event);
825 break;
826 }
827 if (ret != HDF_SUCCESS) {
828 HDF_LOGI("%{public}s: dispatch code fialed, error code: %{public}d", __func__, ret);
829 }
830 }
831 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
832 return ret;
833 }
834
HdfWlanNetlinkCallbackFun(const uint8_t * recvMsg,uint32_t recvMsgLen)835 static int32_t HdfWlanNetlinkCallbackFun(const uint8_t *recvMsg, uint32_t recvMsgLen)
836 {
837 struct HdfWlanRemoteNode *pos = NULL;
838 struct DListHead *head = NULL;
839 int32_t ret = HDF_FAILURE;
840 (void)OsalMutexLock(&HdfStubDriver()->mutex);
841 head = &HdfStubDriver()->remoteListHead;
842
843 if (recvMsg == NULL) {
844 HDF_LOGE("%{public}s: recvMsg or ifName is NULL!", __func__);
845 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
846 return HDF_ERR_INVALID_PARAM;
847 }
848 DLIST_FOR_EACH_ENTRY(pos, head, struct HdfWlanRemoteNode, node) {
849 if (pos->service == NULL || pos->callbackObj == NULL) {
850 HDF_LOGW("%{public}s: pos->service or pos->callbackObj NULL", __func__);
851 continue;
852 }
853 ret = pos->callbackObj->WifiNetlinkMessage(pos->callbackObj, recvMsg, recvMsgLen);
854 if (ret != HDF_SUCCESS) {
855 HDF_LOGD("%{public}s: dispatch code fialed, error code: %{public}d", __func__, ret);
856 }
857 }
858 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
859 return ret;
860 }
861
HdfWlanDelRemoteObj(struct IWlanCallback * self)862 static void HdfWlanDelRemoteObj(struct IWlanCallback *self)
863 {
864 struct HdfWlanRemoteNode *pos = NULL;
865 struct HdfWlanRemoteNode *tmp = NULL;
866 struct DListHead *head = &HdfStubDriver()->remoteListHead;
867
868 DLIST_FOR_EACH_ENTRY_SAFE(pos, tmp, head, struct HdfWlanRemoteNode, node) {
869 if (pos->service->index == self->AsObject(self)->index) {
870 DListRemove(&(pos->node));
871 IWlanCallbackRelease(pos->callbackObj);
872 OsalMemFree(pos);
873 break;
874 }
875 }
876 IWlanCallbackRelease(self);
877 }
878
WlanInterfaceRegisterEventCallback(struct IWlanInterface * self,struct IWlanCallback * cbFunc,const char * ifName)879 int32_t WlanInterfaceRegisterEventCallback(struct IWlanInterface *self, struct IWlanCallback *cbFunc,
880 const char *ifName)
881 {
882 int32_t ret;
883 HDF_LOGI("hal enter %{public}s, ifName:%{public}s", __FUNCTION__, ifName);
884 (void)self;
885 if (cbFunc == NULL || ifName == NULL) {
886 HDF_LOGE("%{public}s: input parameter invalid!", __func__);
887 return HDF_ERR_INVALID_PARAM;
888 }
889 if (g_wifi == NULL || g_wifi->registerEventCallback == NULL) {
890 HDF_LOGE("%{public}s g_wifi or g_wifi->registerEventCallback is NULL!", __func__);
891 return HDF_FAILURE;
892 }
893 (void)OsalMutexLock(&HdfStubDriver()->mutex);
894
895 do {
896 ret = HdfWlanAddRemoteObj(cbFunc);
897 if (ret != HDF_SUCCESS) {
898 HDF_LOGE("%{public}s: HdfSensorAddRemoteObj false", __func__);
899 break;
900 }
901 ret = g_wifi->registerEventCallback(HdfWLanCallbackFun, ifName);
902 if (ret != HDF_SUCCESS) {
903 HDF_LOGE("%{public}s: Register failed!, error code: %{public}d", __func__, ret);
904 HdfWlanDelRemoteObj(cbFunc);
905 break;
906 }
907 ret = WlanInterfaceRegisterHid2dCallback(HdfWlanNetlinkCallbackFun, ifName);
908 if (ret != HDF_SUCCESS) {
909 HDF_LOGE("%{public}s: Register failed!, error code: %{public}d", __func__, ret);
910 g_wifi->unregisterEventCallback(HdfWLanCallbackFun, ifName);
911 HdfWlanDelRemoteObj(cbFunc);
912 }
913 } while (0);
914
915 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
916 HDF_LOGI("hal exit %{public}s, ret:%{public}d", __FUNCTION__, ret);
917 return ret;
918 }
919
WlanInterfaceUnregisterEventCallback(struct IWlanInterface * self,struct IWlanCallback * cbFunc,const char * ifName)920 int32_t WlanInterfaceUnregisterEventCallback(struct IWlanInterface *self, struct IWlanCallback *cbFunc,
921 const char *ifName)
922 {
923 HDF_LOGI("hal enter %{public}s, ifName:%{public}s", __FUNCTION__, ifName);
924 int32_t ret;
925
926 (void)self;
927 if (cbFunc == NULL || ifName == NULL) {
928 HDF_LOGE("%{public}s: input parameter invalid!", __func__);
929 return HDF_ERR_INVALID_PARAM;
930 }
931 if (g_wifi == NULL || g_wifi->unregisterEventCallback == NULL) {
932 HDF_LOGE("%{public}s g_wifi or g_wifi->unregisterEventCallback is NULL!", __func__);
933 return HDF_FAILURE;
934 }
935 (void)OsalMutexLock(&HdfStubDriver()->mutex);
936 HdfWlanDelRemoteObj(cbFunc);
937 if (DListIsEmpty(&HdfStubDriver()->remoteListHead)) {
938 ret = g_wifi->unregisterEventCallback(HdfWLanCallbackFun, ifName);
939 if (ret != HDF_SUCCESS) {
940 HDF_LOGE("%{public}s: Unregister failed!, error code: %{public}d", __func__, ret);
941 }
942 ret = WlanInterfaceUnregisterHid2dCallback(HdfWlanNetlinkCallbackFun, ifName);
943 if (ret != HDF_SUCCESS) {
944 HDF_LOGE("%{public}s: Unregister Hid2dCallback failed!, error code: %{public}d", __func__, ret);
945 }
946 }
947 (void)OsalMutexUnlock(&HdfStubDriver()->mutex);
948 HDF_LOGI("hal exit %{public}s", __FUNCTION__);
949 return HDF_SUCCESS;
950 }
951
WlanInterfaceResetDriver(struct IWlanInterface * self,uint8_t chipId,const char * ifName)952 int32_t WlanInterfaceResetDriver(struct IWlanInterface *self, uint8_t chipId, const char *ifName)
953 {
954 int32_t ret;
955
956 (void)self;
957 if (ifName == NULL) {
958 HDF_LOGE("%{public}s: input parameter invalid!", __func__);
959 return HDF_ERR_INVALID_PARAM;
960 }
961 if (g_wifi == NULL || g_wifi->resetDriver == NULL) {
962 HDF_LOGE("%{public}s g_wifi or g_wifi->resetDriver is NULL!", __func__);
963 return HDF_FAILURE;
964 }
965 ret = g_wifi->resetDriver(chipId, ifName);
966 if (ret != HDF_SUCCESS) {
967 HDF_LOGE("%{public}s reset driver failed! error code: %{public}d", __func__, ret);
968 return ret;
969 }
970 OsalMSleep(RESET_TIME);
971 return ret;
972 }
973
WlanInterfaceSetCountryCode(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,const char * code,uint32_t len)974 int32_t WlanInterfaceSetCountryCode(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
975 const char *code, uint32_t len)
976 {
977 int32_t ret;
978
979 (void)self;
980 if (ifeature == NULL || ifeature->ifName == NULL || code == NULL) {
981 HDF_LOGE("%{public}s input parameter invalid!", __func__);
982 return HDF_ERR_INVALID_PARAM;
983 }
984 if (g_apFeature == NULL || g_apFeature->setCountryCode == NULL) {
985 HDF_LOGE("%{public}s g_apFeature or g_apFeature->setCountryCode is NULL!", __func__);
986 return HDF_FAILURE;
987 }
988 ret = strcpy_s((g_apFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
989 if (ret != HDF_SUCCESS) {
990 HDF_LOGE("%{public}s: strcpy_s apFeature ifName is failed!", __func__);
991 return HDF_FAILURE;
992 }
993 ret = g_apFeature->setCountryCode(g_apFeature, code, strlen(code));
994 if (ret != HDF_SUCCESS) {
995 HDF_LOGE("%{public}s set country code failed!, error code: %{public}d", __func__, ret);
996 }
997 return ret;
998 }
999
WlanInterfaceSetMacAddress(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,const uint8_t * mac,uint32_t macLen)1000 int32_t WlanInterfaceSetMacAddress(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
1001 const uint8_t *mac, uint32_t macLen)
1002 {
1003 int32_t ret = HDF_FAILURE;
1004 struct IWiFiBaseFeature *baseFeature = NULL;
1005
1006 (void)self;
1007 if (ifeature == NULL || mac == NULL || ifeature->ifName == NULL) {
1008 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1009 return HDF_ERR_INVALID_PARAM;
1010 }
1011 ret = GetBasefeature(ifeature, &baseFeature);
1012 if (ret != HDF_SUCCESS) {
1013 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
1014 return HDF_FAILURE;
1015 }
1016 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
1017 if (ret != HDF_SUCCESS) {
1018 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1019 return HDF_FAILURE;
1020 }
1021 return baseFeature->setMacAddress(baseFeature, (uint8_t *)mac, ETH_ADDR_LEN);
1022 }
1023
WlanInterfaceSetScanningMacAddress(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,const uint8_t * scanMac,uint32_t scanMacLen)1024 int32_t WlanInterfaceSetScanningMacAddress(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
1025 const uint8_t *scanMac, uint32_t scanMacLen)
1026 {
1027 int32_t ret;
1028
1029 (void)self;
1030 if (ifeature == NULL || ifeature->ifName == NULL || scanMac == NULL) {
1031 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1032 return HDF_ERR_INVALID_PARAM;
1033 }
1034 if (g_staFeature == NULL || g_staFeature->setScanningMacAddress == NULL) {
1035 HDF_LOGE("%{public}s g_staFeature or g_staFeature->setScanningMacAddress is NULL!", __func__);
1036 return HDF_FAILURE;
1037 }
1038 ret = strcpy_s((g_staFeature->baseFeature).ifName, IFNAMSIZ, ifeature->ifName);
1039 if (ret != HDF_SUCCESS) {
1040 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1041 return HDF_FAILURE;
1042 }
1043 ret = g_staFeature->setScanningMacAddress(g_staFeature, (uint8_t *)scanMac, (uint8_t)scanMacLen);
1044
1045 return ret;
1046 }
1047
WlanInterfaceSetTxPower(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,int32_t power)1048 int32_t WlanInterfaceSetTxPower(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature, int32_t power)
1049 {
1050 int32_t ret;
1051 struct IWiFiBaseFeature *baseFeature = NULL;
1052
1053 (void)self;
1054 if (ifeature == NULL || ifeature->ifName == NULL) {
1055 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1056 return HDF_ERR_INVALID_PARAM;
1057 }
1058 ret = GetBasefeature(ifeature, &baseFeature);
1059 if (ret != HDF_SUCCESS) {
1060 HDF_LOGE("%{public}s GetBasefeature failed!", __func__);
1061 return HDF_FAILURE;
1062 }
1063 ret = strcpy_s(baseFeature->ifName, IFNAMSIZ, ifeature->ifName);
1064 if (ret != HDF_SUCCESS) {
1065 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1066 return HDF_FAILURE;
1067 }
1068
1069 return baseFeature->setTxPower(baseFeature, power);
1070 }
1071
WlanInterfaceGetNetDevInfo(struct IWlanInterface * self,struct HdfNetDeviceInfoResult * netDeviceInfoResult)1072 int32_t WlanInterfaceGetNetDevInfo(struct IWlanInterface *self, struct HdfNetDeviceInfoResult *netDeviceInfoResult)
1073 {
1074 int32_t ret = HDF_FAILURE;
1075
1076 (void)self;
1077 if (g_wifi == NULL || g_wifi->getNetDevInfo == NULL ||netDeviceInfoResult == NULL) {
1078 HDF_LOGE("%{public}s: input parameter invalid!", __func__);
1079 return HDF_ERR_INVALID_PARAM;
1080 }
1081 struct NetDeviceInfoResult *netDeviceInfo =
1082 (struct NetDeviceInfoResult *)OsalMemCalloc(sizeof(struct NetDeviceInfoResult));
1083 if (netDeviceInfo == NULL) {
1084 HDF_LOGE("%{public}s:OsalMemCalloc failed!", __func__);
1085 return HDF_FAILURE;
1086 }
1087 ret = g_wifi->getNetDevInfo(netDeviceInfo);
1088 if (ret != HDF_SUCCESS) {
1089 HDF_LOGE("%{public}s: get netdev info failed!, error code: %{public}d", __func__, ret);
1090 OsalMemFree(netDeviceInfo);
1091 return HDF_FAILURE;
1092 }
1093
1094 netDeviceInfoResult->deviceInfos =
1095 (struct HdfNetDeviceInfo *)OsalMemCalloc(sizeof(struct HdfNetDeviceInfo) * MAX_NETDEVICE_COUNT);
1096 if (netDeviceInfoResult->deviceInfos == NULL) {
1097 HDF_LOGE("%{public}s:netDeviceInfoResult->deviceInfos OsalMemCalloc failed", __func__);
1098 OsalMemFree(netDeviceInfo);
1099 return HDF_FAILURE;
1100 }
1101 netDeviceInfoResult->deviceInfosLen = MAX_NETDEVICE_COUNT;
1102 for (uint32_t i = 0; i < netDeviceInfoResult->deviceInfosLen; i++) {
1103 netDeviceInfoResult->deviceInfos[i].index = netDeviceInfo->deviceInfos[i].index;
1104 netDeviceInfoResult->deviceInfos[i].iftype = netDeviceInfo->deviceInfos[i].iftype;
1105 netDeviceInfoResult->deviceInfos[i].ifName = (char *)OsalMemCalloc(sizeof(char) * IFNAMSIZ);
1106 if (netDeviceInfoResult->deviceInfos != NULL) {
1107 if (memcpy_s(netDeviceInfoResult->deviceInfos[i].ifName, IFNAMSIZ, netDeviceInfo->deviceInfos[i].ifName,
1108 IFNAMSIZ) != EOK) {
1109 OsalMemFree(netDeviceInfoResult->deviceInfos[i].ifName);
1110 break;
1111 }
1112 netDeviceInfoResult->deviceInfos[i].ifNameLen = IFNAMSIZ;
1113 }
1114 netDeviceInfoResult->deviceInfos[i].mac = (uint8_t *)OsalMemCalloc(sizeof(uint8_t) * ETH_ADDR_LEN);
1115 if (netDeviceInfoResult->deviceInfos[i].mac != NULL) {
1116 if (memcpy_s(netDeviceInfoResult->deviceInfos[i].mac, ETH_ADDR_LEN, netDeviceInfo->deviceInfos[i].mac,
1117 ETH_ADDR_LEN) != EOK) {
1118 OsalMemFree(netDeviceInfoResult->deviceInfos[i].mac);
1119 break;
1120 }
1121 netDeviceInfoResult->deviceInfos[i].macLen = ETH_ADDR_LEN;
1122 }
1123 }
1124 OsalMemFree(netDeviceInfo);
1125 return ret;
1126 }
1127
WLanFillSsid(WifiScan * wifiScan,const struct HdfWifiScan * scan)1128 static int32_t WLanFillSsid(WifiScan *wifiScan, const struct HdfWifiScan *scan)
1129 {
1130 uint32_t loop;
1131
1132 for (loop = 0; loop < scan->ssidsLen; loop++) {
1133 if (scan->ssids[loop].ssidLen > MAX_SSID_LEN) {
1134 HDF_LOGW("%{public}s fail : ssidLen is invalid!", __func__);
1135 scan->ssids[loop].ssidLen = MAX_SSID_LEN - 1;
1136 }
1137 if (memcpy_s(wifiScan->ssids[loop].ssid, scan->ssids[loop].ssidLen, scan->ssids[loop].ssid,
1138 scan->ssids[loop].ssidLen) != EOK) {
1139 HDF_LOGE("%{public}s fail : memcpy_s ssids fail!", __func__);
1140 return HDF_FAILURE;
1141 }
1142 wifiScan->ssids[loop].ssidLen = (uint32_t)(scan->ssids[loop].ssidLen);
1143 }
1144 return HDF_SUCCESS;
1145 }
1146
WLanFillScanData(WifiScan * wifiScan,const struct HdfWifiScan * scan)1147 static int32_t WLanFillScanData(WifiScan *wifiScan, const struct HdfWifiScan *scan)
1148 {
1149 if ((scan->ssids != NULL) && (scan->ssidsLen != 0)) {
1150 wifiScan->ssids = (WifiDriverScanSsid *)OsalMemCalloc(sizeof(WifiDriverScanSsid) * scan->ssidsLen);
1151 if (wifiScan->ssids != NULL) {
1152 if (WLanFillSsid(wifiScan, scan) != HDF_SUCCESS) {
1153 HDF_LOGE("%{public}s fail : fill ssids fail!", __func__);
1154 OsalMemFree(wifiScan->ssids);
1155 return HDF_FAILURE;
1156 }
1157 wifiScan->numSsids = scan->ssidsLen;
1158 }
1159 }
1160
1161 if ((scan->freqs != NULL) && (scan->freqsLen != 0)) {
1162 wifiScan->freqs = (int32_t *)OsalMemCalloc(sizeof(int32_t) * scan->freqsLen);
1163 if (wifiScan->freqs != NULL) {
1164 if (memcpy_s(wifiScan->freqs, sizeof(int32_t) * (scan->freqsLen), scan->freqs,
1165 sizeof(int32_t) * (scan->freqsLen)) != EOK) {
1166 HDF_LOGE("%{public}s fail : memcpy_s freqs fail!", __func__);
1167 OsalMemFree(wifiScan->freqs);
1168 return HDF_FAILURE;
1169 }
1170 wifiScan->numFreqs = scan->freqsLen;
1171 }
1172 }
1173
1174 if ((scan->bssid != NULL) && (scan->bssidLen != 0)) {
1175 wifiScan->bssid = (uint8_t *)OsalMemCalloc(sizeof(uint8_t) * scan->bssidLen);
1176 if (wifiScan->bssid != NULL) {
1177 if (memcpy_s(wifiScan->bssid, sizeof(uint8_t) * (scan->bssidLen), scan->bssid,
1178 sizeof(uint8_t) * (scan->bssidLen)) != EOK) {
1179 HDF_LOGE("%{public}s fail : memcpy_s bssid fail!", __func__);
1180 OsalMemFree(wifiScan->bssid);
1181 return HDF_FAILURE;
1182 }
1183 }
1184 }
1185 if ((scan->extraIes != NULL) && (scan->extraIesLen != 0)) {
1186 wifiScan->extraIes = (uint8_t *)OsalMemCalloc(sizeof(uint8_t) * scan->extraIesLen);
1187 if (wifiScan->extraIes != NULL) {
1188 if (memcpy_s(wifiScan->extraIes, sizeof(uint8_t) * (scan->extraIesLen), scan->extraIes,
1189 sizeof(uint8_t) * (scan->extraIesLen)) != EOK) {
1190 HDF_LOGE("%{public}s fail : memcpy_s extraIes fail!", __func__);
1191 OsalMemFree(wifiScan->extraIes);
1192 return HDF_FAILURE;
1193 }
1194 wifiScan->extraIesLen = scan->extraIesLen;
1195 }
1196 }
1197
1198 wifiScan->prefixSsidScanFlag = scan->prefixSsidScanFlag;
1199 wifiScan->fastConnectFlag = scan->fastConnectFlag;
1200 return HDF_SUCCESS;
1201 }
1202
WifiScanFree(WifiScan * dataBlock)1203 static void WifiScanFree(WifiScan *dataBlock)
1204 {
1205 if (dataBlock == NULL) {
1206 return;
1207 }
1208
1209 if (dataBlock->ssids != NULL) {
1210 OsalMemFree(dataBlock->ssids);
1211 dataBlock->ssids = NULL;
1212 }
1213 if (dataBlock->freqs != NULL) {
1214 OsalMemFree(dataBlock->freqs);
1215 dataBlock->freqs = NULL;
1216 }
1217 if (dataBlock->bssid != NULL) {
1218 OsalMemFree(dataBlock->bssid);
1219 dataBlock->bssid = NULL;
1220 }
1221 if (dataBlock->extraIes != NULL) {
1222 OsalMemFree(dataBlock->extraIes);
1223 dataBlock->extraIes = NULL;
1224 }
1225 OsalMemFree(dataBlock);
1226 }
1227
WlanInterfaceStartScan(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,const struct HdfWifiScan * scan)1228 int32_t WlanInterfaceStartScan(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature,
1229 const struct HdfWifiScan *scan)
1230 {
1231 HDF_LOGI("hal enter %{public}s", __FUNCTION__);
1232 int32_t ret = HDF_FAILURE;
1233
1234 (void)self;
1235 if (ifeature == NULL || ifeature->ifName == NULL || scan == NULL) {
1236 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1237 return HDF_ERR_INVALID_PARAM;
1238 }
1239 WifiScan *wifiScan = (WifiScan *)OsalMemCalloc(sizeof(WifiScan));
1240 if (wifiScan == NULL) {
1241 HDF_LOGE("%{public}s: OsalMemCalloc failed", __func__);
1242 return HDF_FAILURE;
1243 }
1244 if (WLanFillScanData(wifiScan, scan) != HDF_SUCCESS) {
1245 HDF_LOGE("%{public}s fail : fill scan data fail!", __func__);
1246 WifiScanFree(wifiScan);
1247 return HDF_FAILURE;
1248 }
1249 if (g_staFeature == NULL || g_staFeature->startScan == NULL) {
1250 HDF_LOGE("%{public}s g_staFeature or g_staFeature->startScan is NULL!", __func__);
1251 WifiScanFree(wifiScan);
1252 return HDF_FAILURE;
1253 }
1254 ret = g_staFeature->startScan(ifeature->ifName, wifiScan);
1255 if (ret != HDF_SUCCESS) {
1256 HDF_LOGE("%{public}s start scan failed!, error code: %{public}d", __func__, ret);
1257 }
1258 WifiScanFree(wifiScan);
1259 HDF_LOGI("hal exit %{public}s, ret:%{public}d", __FUNCTION__, ret);
1260 return ret;
1261 }
1262
WlanInterfaceGetPowerMode(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,uint8_t * mode)1263 int32_t WlanInterfaceGetPowerMode(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature, uint8_t *mode)
1264 {
1265 int32_t ret;
1266
1267 (void)self;
1268 if (ifeature == NULL || ifeature->ifName == NULL || mode == NULL) {
1269 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1270 return HDF_ERR_INVALID_PARAM;
1271 }
1272 if (g_wifi == NULL || g_wifi->getPowerMode == NULL) {
1273 HDF_LOGE("%{public}s g_wifi or g_wifi->getPowerMode is NULL!", __func__);
1274 return HDF_FAILURE;
1275 }
1276 ret = g_wifi->getPowerMode(ifeature->ifName, mode);
1277 if (ret != HDF_SUCCESS) {
1278 HDF_LOGE("%{public}s: get power mode failed!, error code: %{public}d", __func__, ret);
1279 }
1280 return ret;
1281 }
1282
WlanInterfaceSetPowerMode(struct IWlanInterface * self,const struct HdfFeatureInfo * ifeature,uint8_t mode)1283 int32_t WlanInterfaceSetPowerMode(struct IWlanInterface *self, const struct HdfFeatureInfo *ifeature, uint8_t mode)
1284 {
1285 int32_t ret;
1286
1287 (void)self;
1288 if (ifeature == NULL || ifeature->ifName == NULL) {
1289 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1290 return HDF_ERR_INVALID_PARAM;
1291 }
1292 if (g_wifi == NULL || g_wifi->setPowerMode == NULL) {
1293 HDF_LOGE("%{public}s g_wifi or g_wifi->setPowerMode is NULL!", __func__);
1294 return HDF_FAILURE;
1295 }
1296 ret = g_wifi->setPowerMode(ifeature->ifName, mode);
1297 if (ret != HDF_SUCCESS) {
1298 HDF_LOGE("%{public}s: get power mode failed!, error code: %{public}d", __func__, ret);
1299 }
1300 return ret;
1301 }
1302
WlanInterfaceSetProjectionScreenParam(struct IWlanInterface * self,const char * ifName,const struct ProjectionScreenCmdParam * param)1303 int32_t WlanInterfaceSetProjectionScreenParam(struct IWlanInterface *self, const char *ifName,
1304 const struct ProjectionScreenCmdParam *param)
1305 {
1306 int32_t ret;
1307 ProjectionScreenParam *projectionScreenParam = NULL;
1308
1309 (void)self;
1310 if (ifName == NULL || param == NULL) {
1311 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1312 return HDF_ERR_INVALID_PARAM;
1313 }
1314 if (g_wifi == NULL || g_wifi->setProjectionScreenParam == NULL) {
1315 HDF_LOGE("%{public}s g_wifi or g_wifi->setProjectionScreenParam is NULL!", __func__);
1316 return HDF_FAILURE;
1317 }
1318
1319 projectionScreenParam = OsalMemCalloc(sizeof(ProjectionScreenParam) + param->bufLen);
1320 if (projectionScreenParam == NULL) {
1321 HDF_LOGE("%{public}s: OsalMemCalloc failed", __func__);
1322 return HDF_FAILURE;
1323 }
1324 projectionScreenParam->cmdId = param->cmdId;
1325 projectionScreenParam->bufLen = param->bufLen;
1326 do {
1327 if (memcpy_s(projectionScreenParam->buf, projectionScreenParam->bufLen, param->buf, param->bufLen) != EOK) {
1328 HDF_LOGE("%{public}s: memcpy_s failed", __func__);
1329 ret = HDF_FAILURE;
1330 break;
1331 }
1332 ret = g_wifi->setProjectionScreenParam(ifName, projectionScreenParam);
1333 if (ret != HDF_SUCCESS) {
1334 HDF_LOGE("%{public}s: get channel meas result failed!, error code: %{public}d", __func__, ret);
1335 }
1336 } while (0);
1337
1338 OsalMemFree(projectionScreenParam);
1339 return ret;
1340 }
1341
WlanInterfaceGetStaInfo(struct IWlanInterface * self,const char * ifName,struct WifiStationInfo * info,const uint8_t * mac,uint32_t macLen)1342 int32_t WlanInterfaceGetStaInfo(struct IWlanInterface *self, const char *ifName, struct WifiStationInfo *info,
1343 const uint8_t *mac, uint32_t macLen)
1344 {
1345 int32_t ret;
1346
1347 (void)self;
1348 if (ifName == NULL || info == NULL || mac == NULL) {
1349 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1350 return HDF_ERR_INVALID_PARAM;
1351 }
1352 if (g_wifi == NULL || g_wifi->getStationInfo == NULL) {
1353 HDF_LOGE("%{public}s g_wifi or g_wifi->getStationInfo is NULL!", __func__);
1354 return HDF_FAILURE;
1355 }
1356 ret = g_wifi->getStationInfo(ifName, (StationInfo *)info, mac, macLen);
1357 if (ret != HDF_SUCCESS) {
1358 HDF_LOGE("%{public}s: get station information failed!, error code: %{public}d", __func__, ret);
1359 }
1360 return ret;
1361 }
1362
FillPnoSettings(WifiPnoSettings * wifiPnoSettings,const struct PnoSettings * pnoSettings)1363 static int32_t FillPnoSettings(WifiPnoSettings *wifiPnoSettings, const struct PnoSettings *pnoSettings)
1364 {
1365 wifiPnoSettings->min2gRssi = pnoSettings->min2gRssi;
1366 wifiPnoSettings->min5gRssi = pnoSettings->min5gRssi;
1367 wifiPnoSettings->scanIntervalMs = pnoSettings->scanIntervalMs;
1368 wifiPnoSettings->scanIterations = pnoSettings->scanIterations;
1369
1370 if ((pnoSettings->pnoNetworks == NULL) || (pnoSettings->pnoNetworksLen == 0)) {
1371 HDF_LOGE("%{public}s: scan networks is NULL.", __func__);
1372 return HDF_FAILURE;
1373 }
1374
1375 wifiPnoSettings->pnoNetworksLen = pnoSettings->pnoNetworksLen;
1376 wifiPnoSettings->pnoNetworks =
1377 (WifiPnoNetwork *)OsalMemCalloc(sizeof(WifiPnoNetwork) * (pnoSettings->pnoNetworksLen));
1378 if (wifiPnoSettings->pnoNetworks == NULL) {
1379 HDF_LOGE("%{public}s: OsalMemCalloc failed", __func__);
1380 return HDF_FAILURE;
1381 }
1382 for (uint32_t i = 0; i < pnoSettings->pnoNetworksLen; i++) {
1383 wifiPnoSettings->pnoNetworks[i].isHidden = pnoSettings->pnoNetworks[i].isHidden;
1384 wifiPnoSettings->pnoNetworks[i].ssid.ssidLen = (uint32_t)(pnoSettings->pnoNetworks[i].ssid.ssidLen);
1385 if (memcpy_s(wifiPnoSettings->pnoNetworks[i].ssid.ssid, MAX_SSID_LEN, pnoSettings->pnoNetworks[i].ssid.ssid,
1386 pnoSettings->pnoNetworks[i].ssid.ssidLen) != EOK) {
1387 HDF_LOGE("%{public}s fail : memcpy_s ssids fail!", __func__);
1388 return HDF_FAILURE;
1389 }
1390 if (pnoSettings->pnoNetworks[i].freqsLen != 0) {
1391 wifiPnoSettings->pnoNetworks[i].freqs =
1392 (int32_t *)OsalMemCalloc(sizeof(int32_t) * (pnoSettings->pnoNetworks[i].freqsLen));
1393 if (wifiPnoSettings->pnoNetworks[i].freqs == NULL) {
1394 HDF_LOGE("%{public}s: OsalMemCalloc failed", __func__);
1395 return HDF_FAILURE;
1396 }
1397 wifiPnoSettings->pnoNetworks[i].freqsLen = pnoSettings->pnoNetworks[i].freqsLen;
1398 if (memcpy_s(wifiPnoSettings->pnoNetworks[i].freqs,
1399 sizeof(int32_t) * (pnoSettings->pnoNetworks[i].freqsLen), pnoSettings->pnoNetworks[i].freqs,
1400 sizeof(int32_t) * (pnoSettings->pnoNetworks[i].freqsLen)) != EOK) {
1401 HDF_LOGE("%{public}s fail : memcpy_s freqs fail!", __func__);
1402 return HDF_FAILURE;
1403 }
1404 }
1405 }
1406 return HDF_SUCCESS;
1407 }
1408
WifiPnoSettingsFree(WifiPnoSettings * wifiPnoSettings)1409 static void WifiPnoSettingsFree(WifiPnoSettings *wifiPnoSettings)
1410 {
1411 if (wifiPnoSettings == NULL) {
1412 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1413 return;
1414 }
1415 for (uint32_t i = 0; i < wifiPnoSettings->pnoNetworksLen; i++) {
1416 if (wifiPnoSettings->pnoNetworks[i].freqs != NULL) {
1417 OsalMemFree(wifiPnoSettings->pnoNetworks[i].freqs);
1418 wifiPnoSettings->pnoNetworks[i].freqs = NULL;
1419 }
1420 }
1421 OsalMemFree(wifiPnoSettings->pnoNetworks);
1422 wifiPnoSettings->pnoNetworks = NULL;
1423 OsalMemFree(wifiPnoSettings);
1424 }
1425
WlanInterfaceStartPnoScan(struct IWlanInterface * self,const char * ifName,const struct PnoSettings * pnoSettings)1426 int32_t WlanInterfaceStartPnoScan(struct IWlanInterface *self, const char *ifName,
1427 const struct PnoSettings *pnoSettings)
1428 {
1429 HDF_LOGI("hal enter %{public}s ifName:%{public}s", __FUNCTION__, ifName);
1430 int32_t ret;
1431 (void)self;
1432
1433 if (ifName == NULL || pnoSettings == NULL) {
1434 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1435 return HDF_ERR_INVALID_PARAM;
1436 }
1437 if (g_staFeature == NULL || g_staFeature->startPnoScan == NULL) {
1438 HDF_LOGE("%{public}s g_staFeature or g_staFeature->startPnoScan is NULL!", __func__);
1439 return HDF_FAILURE;
1440 }
1441 WifiPnoSettings *wifiPnoSettings = (WifiPnoSettings *)OsalMemCalloc(sizeof(WifiPnoSettings));
1442 if (wifiPnoSettings == NULL) {
1443 HDF_LOGE("%{public}s: OsalMemCalloc failed", __func__);
1444 return HDF_FAILURE;
1445 }
1446 if (FillPnoSettings(wifiPnoSettings, pnoSettings) != HDF_SUCCESS) {
1447 HDF_LOGE("%{public}s fail : memcpy_s ssids fail!", __func__);
1448 WifiPnoSettingsFree(wifiPnoSettings);
1449 return HDF_FAILURE;
1450 }
1451
1452 ret = strcpy_s((g_staFeature->baseFeature).ifName, IFNAMSIZ, ifName);
1453 if (ret != HDF_SUCCESS) {
1454 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1455 WifiPnoSettingsFree(wifiPnoSettings);
1456 return HDF_FAILURE;
1457 }
1458 ret = g_staFeature->startPnoScan(ifName, wifiPnoSettings);
1459 if (ret != HDF_SUCCESS) {
1460 HDF_LOGE("%{public}s: startPnoScan failed!, error code: %{public}d", __func__, ret);
1461 }
1462 WifiPnoSettingsFree(wifiPnoSettings);
1463 HDF_LOGI("hal exit %{public}s", __FUNCTION__);
1464 return ret;
1465 }
1466
WlanInterfaceStopPnoScan(struct IWlanInterface * self,const char * ifName)1467 int32_t WlanInterfaceStopPnoScan(struct IWlanInterface *self, const char *ifName)
1468 {
1469 HDF_LOGI("hal enter %{public}s ifName:%{public}s", __FUNCTION__, ifName);
1470 int32_t ret;
1471 (void)self;
1472
1473 if (ifName == NULL) {
1474 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1475 return HDF_ERR_INVALID_PARAM;
1476 }
1477 if (g_staFeature == NULL || g_staFeature->stopPnoScan == NULL) {
1478 HDF_LOGE("%{public}s g_staFeature or g_staFeature->stopPnoScan is NULL!", __func__);
1479 return HDF_FAILURE;
1480 }
1481 ret = strcpy_s((g_staFeature->baseFeature).ifName, IFNAMSIZ, ifName);
1482 if (ret != HDF_SUCCESS) {
1483 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1484 return HDF_FAILURE;
1485 }
1486 ret = g_staFeature->stopPnoScan(ifName);
1487 if (ret != HDF_SUCCESS) {
1488 HDF_LOGE("%{public}s: stopPnoScan failed!, error code: %{public}d", __func__, ret);
1489 }
1490 HDF_LOGI("hal exit %{public}s", __FUNCTION__);
1491 return ret;
1492 }
1493
WlanInterfaceGetSignalPollInfo(struct IWlanInterface * self,const char * ifName,struct SignalPollResult * signalResult)1494 int32_t WlanInterfaceGetSignalPollInfo(struct IWlanInterface *self, const char *ifName,
1495 struct SignalPollResult *signalResult)
1496 {
1497 int32_t ret;
1498 (void)self;
1499
1500 if (ifName == NULL || signalResult == NULL) {
1501 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1502 return HDF_ERR_INVALID_PARAM;
1503 }
1504 if (g_staFeature == NULL || g_staFeature->getSignalPollInfo == NULL) {
1505 HDF_LOGE("%{public}s g_staFeature or g_staFeature->getSignalPollInfo is NULL!", __func__);
1506 return HDF_FAILURE;
1507 }
1508 ret = strcpy_s((g_staFeature->baseFeature).ifName, IFNAMSIZ, ifName);
1509 if (ret != HDF_SUCCESS) {
1510 HDF_LOGE("%{public}s: strcpy_s is failed!, error code: %{public}d", __func__, ret);
1511 return HDF_FAILURE;
1512 }
1513 ret = g_staFeature->getSignalPollInfo(ifName, (struct SignalResult *)signalResult);
1514 if (ret != HDF_SUCCESS) {
1515 HDF_LOGE("%{public}s: get signal information failed!, error code: %{public}d", __func__, ret);
1516 }
1517 return ret;
1518 }
1519
WlanInterfaceGetApBandwidth(struct IWlanInterface * self,const char * ifName,uint8_t * bandwidth)1520 int32_t WlanInterfaceGetApBandwidth(struct IWlanInterface *self, const char *ifName,
1521 uint8_t *bandwidth)
1522 {
1523 int32_t ret;
1524 (void)self;
1525
1526 if (ifName == NULL || bandwidth == NULL) {
1527 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1528 return HDF_ERR_INVALID_PARAM;
1529 }
1530 if (g_apFeature == NULL || g_apFeature->getApBandwidth == NULL) {
1531 HDF_LOGE("%{public}s g_apFeature or g_staFeature->getApBandwidth is NULL!", __func__);
1532 return HDF_FAILURE;
1533 }
1534 ret = g_apFeature->getApBandwidth(ifName, bandwidth);
1535 if (ret != HDF_SUCCESS) {
1536 HDF_LOGE("%{public}s: get signal information failed!, error code: %d", __func__, ret);
1537 }
1538 return ret;
1539 }
1540
WlanInterfaceResetToFactoryMacAddress(struct IWlanInterface * self,const char * ifName)1541 int32_t WlanInterfaceResetToFactoryMacAddress(struct IWlanInterface *self, const char *ifName)
1542 {
1543 int32_t ret;
1544
1545 (void)self;
1546 if (ifName == NULL) {
1547 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1548 return HDF_ERR_INVALID_PARAM;
1549 }
1550
1551 if (g_staFeature != NULL) {
1552 HDF_LOGD("%{public}s g_staFeature is not NULL!", __func__);
1553 ret = g_staFeature->baseFeature.resetToFactoryMacAddress(ifName);
1554 } else if (g_apFeature != NULL) {
1555 HDF_LOGD("%{public}s g_apFeature is not NULL!", __func__);
1556 ret = g_apFeature->baseFeature.resetToFactoryMacAddress(ifName);
1557 } else {
1558 HDF_LOGE("%{public}s: ap and sta feature is Invalid.", __func__);
1559 ret = HDF_FAILURE;
1560 }
1561
1562 if (ret != HDF_SUCCESS) {
1563 HDF_LOGE("%{public}s get name failed!, error code: %{public}d", __func__, ret);
1564 }
1565 return ret;
1566 }
1567
WlanInterfaceSendActionFrame(struct IWlanInterface * self,const char * ifName,uint32_t freq,const uint8_t * frameData,uint32_t frameDataLen)1568 int32_t WlanInterfaceSendActionFrame(struct IWlanInterface *self, const char *ifName, uint32_t freq,
1569 const uint8_t *frameData, uint32_t frameDataLen)
1570 {
1571 int32_t ret;
1572 (void)self;
1573 if (ifName == NULL || freq == 0 || frameData == NULL || frameDataLen == 0) {
1574 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1575 return HDF_ERR_INVALID_PARAM;
1576 }
1577 if (g_wifi == NULL || g_wifi->sendActionFrame == NULL) {
1578 HDF_LOGE("%{public}s g_wifi or g_wifi->sendActionFrame is NULL!", __func__);
1579 return HDF_FAILURE;
1580 }
1581 ret = g_wifi->sendActionFrame(ifName, freq, frameData, frameDataLen);
1582 if (ret != HDF_SUCCESS) {
1583 HDF_LOGE("%{public}s failed!, error code: %{public}d", __func__, ret);
1584 }
1585 return ret;
1586 }
1587
WlanInterfaceRegisterActionFrameReceiver(struct IWlanInterface * self,const char * ifName,const uint8_t * match,uint32_t matchLen)1588 int32_t WlanInterfaceRegisterActionFrameReceiver(struct IWlanInterface *self, const char *ifName,
1589 const uint8_t *match, uint32_t matchLen)
1590 {
1591 int32_t ret;
1592 (void)self;
1593 if (ifName == NULL || match == NULL || matchLen == 0) {
1594 HDF_LOGE("%{public}s input parameter invalid!", __func__);
1595 return HDF_ERR_INVALID_PARAM;
1596 }
1597 if (g_wifi == NULL || g_wifi->registerActionFrameReceiver == NULL) {
1598 HDF_LOGE("%{public}s g_wifi or g_wifi->registerActionFrameReceiver is NULL!", __func__);
1599 return HDF_FAILURE;
1600 }
1601 ret = g_wifi->registerActionFrameReceiver(ifName, match, matchLen);
1602 if (ret != HDF_SUCCESS) {
1603 HDF_LOGE("%{public}s failed!, error code: %{public}d", __func__, ret);
1604 }
1605 return ret;
1606 }
1607
WlanInterfaceWifiConstruct(void)1608 int32_t WlanInterfaceWifiConstruct(void)
1609 {
1610 int32_t ret;
1611
1612 ret = WifiConstruct(&g_wifi);
1613 if (ret != HDF_SUCCESS) {
1614 HDF_LOGE("%{public}s construct WiFi failed! error code: %{public}d", __func__, ret);
1615 }
1616 return ret;
1617 }
1618
WlanInterfaceWifiDestruct(void)1619 int32_t WlanInterfaceWifiDestruct(void)
1620 {
1621 int32_t ret;
1622
1623 ret = WifiDestruct(&g_wifi);
1624 if (ret != HDF_SUCCESS) {
1625 HDF_LOGE("%{public}s destruct WiFi failed! error code: %{public}d", __func__, ret);
1626 }
1627 return ret;
1628 }
1629