1 /*
2 * Copyright (C) 2016 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #include <array>
18 #include <chrono>
19
20 #include <android-base/logging.h>
21 #include <cutils/properties.h>
22
23 #include "hidl_sync_util.h"
24 #include "wifi_legacy_hal.h"
25 #include "wifi_legacy_hal_stubs.h"
26
27 namespace {
28 // Constants ported over from the legacy HAL calling code
29 // (com_android_server_wifi_WifiNative.cpp). This will all be thrown
30 // away when this shim layer is replaced by the real vendor
31 // implementation.
32 static constexpr uint32_t kMaxVersionStringLength = 256;
33 static constexpr uint32_t kMaxCachedGscanResults = 64;
34 static constexpr uint32_t kMaxGscanFrequenciesForBand = 64;
35 static constexpr uint32_t kLinkLayerStatsDataMpduSizeThreshold = 128;
36 static constexpr uint32_t kMaxWakeReasonStatsArraySize = 32;
37 static constexpr uint32_t kMaxRingBuffers = 10;
38 static constexpr uint32_t kMaxStopCompleteWaitMs = 100;
39 static constexpr char kDriverPropName[] = "wlan.driver.status";
40
41 // Helper function to create a non-const char* for legacy Hal API's.
makeCharVec(const std::string & str)42 std::vector<char> makeCharVec(const std::string& str) {
43 std::vector<char> vec(str.size() + 1);
44 vec.assign(str.begin(), str.end());
45 vec.push_back('\0');
46 return vec;
47 }
48 } // namespace
49
50 namespace android {
51 namespace hardware {
52 namespace wifi {
53 namespace V1_3 {
54 namespace implementation {
55 namespace legacy_hal {
56 // Legacy HAL functions accept "C" style function pointers, so use global
57 // functions to pass to the legacy HAL function and store the corresponding
58 // std::function methods to be invoked.
59 //
60 // Callback to be invoked once |stop| is complete
61 std::function<void(wifi_handle handle)> on_stop_complete_internal_callback;
onAsyncStopComplete(wifi_handle handle)62 void onAsyncStopComplete(wifi_handle handle) {
63 const auto lock = hidl_sync_util::acquireGlobalLock();
64 if (on_stop_complete_internal_callback) {
65 on_stop_complete_internal_callback(handle);
66 // Invalidate this callback since we don't want this firing again.
67 on_stop_complete_internal_callback = nullptr;
68 }
69 }
70
71 // Callback to be invoked for driver dump.
72 std::function<void(char*, int)> on_driver_memory_dump_internal_callback;
onSyncDriverMemoryDump(char * buffer,int buffer_size)73 void onSyncDriverMemoryDump(char* buffer, int buffer_size) {
74 if (on_driver_memory_dump_internal_callback) {
75 on_driver_memory_dump_internal_callback(buffer, buffer_size);
76 }
77 }
78
79 // Callback to be invoked for firmware dump.
80 std::function<void(char*, int)> on_firmware_memory_dump_internal_callback;
onSyncFirmwareMemoryDump(char * buffer,int buffer_size)81 void onSyncFirmwareMemoryDump(char* buffer, int buffer_size) {
82 if (on_firmware_memory_dump_internal_callback) {
83 on_firmware_memory_dump_internal_callback(buffer, buffer_size);
84 }
85 }
86
87 // Callback to be invoked for Gscan events.
88 std::function<void(wifi_request_id, wifi_scan_event)>
89 on_gscan_event_internal_callback;
onAsyncGscanEvent(wifi_request_id id,wifi_scan_event event)90 void onAsyncGscanEvent(wifi_request_id id, wifi_scan_event event) {
91 const auto lock = hidl_sync_util::acquireGlobalLock();
92 if (on_gscan_event_internal_callback) {
93 on_gscan_event_internal_callback(id, event);
94 }
95 }
96
97 // Callback to be invoked for Gscan full results.
98 std::function<void(wifi_request_id, wifi_scan_result*, uint32_t)>
99 on_gscan_full_result_internal_callback;
onAsyncGscanFullResult(wifi_request_id id,wifi_scan_result * result,uint32_t buckets_scanned)100 void onAsyncGscanFullResult(wifi_request_id id, wifi_scan_result* result,
101 uint32_t buckets_scanned) {
102 const auto lock = hidl_sync_util::acquireGlobalLock();
103 if (on_gscan_full_result_internal_callback) {
104 on_gscan_full_result_internal_callback(id, result, buckets_scanned);
105 }
106 }
107
108 // Callback to be invoked for link layer stats results.
109 std::function<void((wifi_request_id, wifi_iface_stat*, int, wifi_radio_stat*))>
110 on_link_layer_stats_result_internal_callback;
onSyncLinkLayerStatsResult(wifi_request_id id,wifi_iface_stat * iface_stat,int num_radios,wifi_radio_stat * radio_stat)111 void onSyncLinkLayerStatsResult(wifi_request_id id, wifi_iface_stat* iface_stat,
112 int num_radios, wifi_radio_stat* radio_stat) {
113 if (on_link_layer_stats_result_internal_callback) {
114 on_link_layer_stats_result_internal_callback(id, iface_stat, num_radios,
115 radio_stat);
116 }
117 }
118
119 // Callback to be invoked for rssi threshold breach.
120 std::function<void((wifi_request_id, uint8_t*, int8_t))>
121 on_rssi_threshold_breached_internal_callback;
onAsyncRssiThresholdBreached(wifi_request_id id,uint8_t * bssid,int8_t rssi)122 void onAsyncRssiThresholdBreached(wifi_request_id id, uint8_t* bssid,
123 int8_t rssi) {
124 const auto lock = hidl_sync_util::acquireGlobalLock();
125 if (on_rssi_threshold_breached_internal_callback) {
126 on_rssi_threshold_breached_internal_callback(id, bssid, rssi);
127 }
128 }
129
130 // Callback to be invoked for ring buffer data indication.
131 std::function<void(char*, char*, int, wifi_ring_buffer_status*)>
132 on_ring_buffer_data_internal_callback;
onAsyncRingBufferData(char * ring_name,char * buffer,int buffer_size,wifi_ring_buffer_status * status)133 void onAsyncRingBufferData(char* ring_name, char* buffer, int buffer_size,
134 wifi_ring_buffer_status* status) {
135 const auto lock = hidl_sync_util::acquireGlobalLock();
136 if (on_ring_buffer_data_internal_callback) {
137 on_ring_buffer_data_internal_callback(ring_name, buffer, buffer_size,
138 status);
139 }
140 }
141
142 // Callback to be invoked for error alert indication.
143 std::function<void(wifi_request_id, char*, int, int)>
144 on_error_alert_internal_callback;
onAsyncErrorAlert(wifi_request_id id,char * buffer,int buffer_size,int err_code)145 void onAsyncErrorAlert(wifi_request_id id, char* buffer, int buffer_size,
146 int err_code) {
147 const auto lock = hidl_sync_util::acquireGlobalLock();
148 if (on_error_alert_internal_callback) {
149 on_error_alert_internal_callback(id, buffer, buffer_size, err_code);
150 }
151 }
152
153 // Callback to be invoked for radio mode change indication.
154 std::function<void(wifi_request_id, uint32_t, wifi_mac_info*)>
155 on_radio_mode_change_internal_callback;
onAsyncRadioModeChange(wifi_request_id id,uint32_t num_macs,wifi_mac_info * mac_infos)156 void onAsyncRadioModeChange(wifi_request_id id, uint32_t num_macs,
157 wifi_mac_info* mac_infos) {
158 const auto lock = hidl_sync_util::acquireGlobalLock();
159 if (on_radio_mode_change_internal_callback) {
160 on_radio_mode_change_internal_callback(id, num_macs, mac_infos);
161 }
162 }
163
164 // Callback to be invoked for rtt results results.
165 std::function<void(wifi_request_id, unsigned num_results,
166 wifi_rtt_result* rtt_results[])>
167 on_rtt_results_internal_callback;
onAsyncRttResults(wifi_request_id id,unsigned num_results,wifi_rtt_result * rtt_results[])168 void onAsyncRttResults(wifi_request_id id, unsigned num_results,
169 wifi_rtt_result* rtt_results[]) {
170 const auto lock = hidl_sync_util::acquireGlobalLock();
171 if (on_rtt_results_internal_callback) {
172 on_rtt_results_internal_callback(id, num_results, rtt_results);
173 on_rtt_results_internal_callback = nullptr;
174 }
175 }
176
177 // Callbacks for the various NAN operations.
178 // NOTE: These have very little conversions to perform before invoking the user
179 // callbacks.
180 // So, handle all of them here directly to avoid adding an unnecessary layer.
181 std::function<void(transaction_id, const NanResponseMsg&)>
182 on_nan_notify_response_user_callback;
onAysncNanNotifyResponse(transaction_id id,NanResponseMsg * msg)183 void onAysncNanNotifyResponse(transaction_id id, NanResponseMsg* msg) {
184 const auto lock = hidl_sync_util::acquireGlobalLock();
185 if (on_nan_notify_response_user_callback && msg) {
186 on_nan_notify_response_user_callback(id, *msg);
187 }
188 }
189
190 std::function<void(const NanPublishRepliedInd&)>
191 on_nan_event_publish_replied_user_callback;
onAysncNanEventPublishReplied(NanPublishRepliedInd *)192 void onAysncNanEventPublishReplied(NanPublishRepliedInd* /* event */) {
193 LOG(ERROR) << "onAysncNanEventPublishReplied triggered";
194 }
195
196 std::function<void(const NanPublishTerminatedInd&)>
197 on_nan_event_publish_terminated_user_callback;
onAysncNanEventPublishTerminated(NanPublishTerminatedInd * event)198 void onAysncNanEventPublishTerminated(NanPublishTerminatedInd* event) {
199 const auto lock = hidl_sync_util::acquireGlobalLock();
200 if (on_nan_event_publish_terminated_user_callback && event) {
201 on_nan_event_publish_terminated_user_callback(*event);
202 }
203 }
204
205 std::function<void(const NanMatchInd&)> on_nan_event_match_user_callback;
onAysncNanEventMatch(NanMatchInd * event)206 void onAysncNanEventMatch(NanMatchInd* event) {
207 const auto lock = hidl_sync_util::acquireGlobalLock();
208 if (on_nan_event_match_user_callback && event) {
209 on_nan_event_match_user_callback(*event);
210 }
211 }
212
213 std::function<void(const NanMatchExpiredInd&)>
214 on_nan_event_match_expired_user_callback;
onAysncNanEventMatchExpired(NanMatchExpiredInd * event)215 void onAysncNanEventMatchExpired(NanMatchExpiredInd* event) {
216 const auto lock = hidl_sync_util::acquireGlobalLock();
217 if (on_nan_event_match_expired_user_callback && event) {
218 on_nan_event_match_expired_user_callback(*event);
219 }
220 }
221
222 std::function<void(const NanSubscribeTerminatedInd&)>
223 on_nan_event_subscribe_terminated_user_callback;
onAysncNanEventSubscribeTerminated(NanSubscribeTerminatedInd * event)224 void onAysncNanEventSubscribeTerminated(NanSubscribeTerminatedInd* event) {
225 const auto lock = hidl_sync_util::acquireGlobalLock();
226 if (on_nan_event_subscribe_terminated_user_callback && event) {
227 on_nan_event_subscribe_terminated_user_callback(*event);
228 }
229 }
230
231 std::function<void(const NanFollowupInd&)> on_nan_event_followup_user_callback;
onAysncNanEventFollowup(NanFollowupInd * event)232 void onAysncNanEventFollowup(NanFollowupInd* event) {
233 const auto lock = hidl_sync_util::acquireGlobalLock();
234 if (on_nan_event_followup_user_callback && event) {
235 on_nan_event_followup_user_callback(*event);
236 }
237 }
238
239 std::function<void(const NanDiscEngEventInd&)>
240 on_nan_event_disc_eng_event_user_callback;
onAysncNanEventDiscEngEvent(NanDiscEngEventInd * event)241 void onAysncNanEventDiscEngEvent(NanDiscEngEventInd* event) {
242 const auto lock = hidl_sync_util::acquireGlobalLock();
243 if (on_nan_event_disc_eng_event_user_callback && event) {
244 on_nan_event_disc_eng_event_user_callback(*event);
245 }
246 }
247
248 std::function<void(const NanDisabledInd&)> on_nan_event_disabled_user_callback;
onAysncNanEventDisabled(NanDisabledInd * event)249 void onAysncNanEventDisabled(NanDisabledInd* event) {
250 const auto lock = hidl_sync_util::acquireGlobalLock();
251 if (on_nan_event_disabled_user_callback && event) {
252 on_nan_event_disabled_user_callback(*event);
253 }
254 }
255
256 std::function<void(const NanTCAInd&)> on_nan_event_tca_user_callback;
onAysncNanEventTca(NanTCAInd * event)257 void onAysncNanEventTca(NanTCAInd* event) {
258 const auto lock = hidl_sync_util::acquireGlobalLock();
259 if (on_nan_event_tca_user_callback && event) {
260 on_nan_event_tca_user_callback(*event);
261 }
262 }
263
264 std::function<void(const NanBeaconSdfPayloadInd&)>
265 on_nan_event_beacon_sdf_payload_user_callback;
onAysncNanEventBeaconSdfPayload(NanBeaconSdfPayloadInd * event)266 void onAysncNanEventBeaconSdfPayload(NanBeaconSdfPayloadInd* event) {
267 const auto lock = hidl_sync_util::acquireGlobalLock();
268 if (on_nan_event_beacon_sdf_payload_user_callback && event) {
269 on_nan_event_beacon_sdf_payload_user_callback(*event);
270 }
271 }
272
273 std::function<void(const NanDataPathRequestInd&)>
274 on_nan_event_data_path_request_user_callback;
onAysncNanEventDataPathRequest(NanDataPathRequestInd * event)275 void onAysncNanEventDataPathRequest(NanDataPathRequestInd* event) {
276 const auto lock = hidl_sync_util::acquireGlobalLock();
277 if (on_nan_event_data_path_request_user_callback && event) {
278 on_nan_event_data_path_request_user_callback(*event);
279 }
280 }
281 std::function<void(const NanDataPathConfirmInd&)>
282 on_nan_event_data_path_confirm_user_callback;
onAysncNanEventDataPathConfirm(NanDataPathConfirmInd * event)283 void onAysncNanEventDataPathConfirm(NanDataPathConfirmInd* event) {
284 const auto lock = hidl_sync_util::acquireGlobalLock();
285 if (on_nan_event_data_path_confirm_user_callback && event) {
286 on_nan_event_data_path_confirm_user_callback(*event);
287 }
288 }
289
290 std::function<void(const NanDataPathEndInd&)>
291 on_nan_event_data_path_end_user_callback;
onAysncNanEventDataPathEnd(NanDataPathEndInd * event)292 void onAysncNanEventDataPathEnd(NanDataPathEndInd* event) {
293 const auto lock = hidl_sync_util::acquireGlobalLock();
294 if (on_nan_event_data_path_end_user_callback && event) {
295 on_nan_event_data_path_end_user_callback(*event);
296 }
297 }
298
299 std::function<void(const NanTransmitFollowupInd&)>
300 on_nan_event_transmit_follow_up_user_callback;
onAysncNanEventTransmitFollowUp(NanTransmitFollowupInd * event)301 void onAysncNanEventTransmitFollowUp(NanTransmitFollowupInd* event) {
302 const auto lock = hidl_sync_util::acquireGlobalLock();
303 if (on_nan_event_transmit_follow_up_user_callback && event) {
304 on_nan_event_transmit_follow_up_user_callback(*event);
305 }
306 }
307
308 std::function<void(const NanRangeRequestInd&)>
309 on_nan_event_range_request_user_callback;
onAysncNanEventRangeRequest(NanRangeRequestInd * event)310 void onAysncNanEventRangeRequest(NanRangeRequestInd* event) {
311 const auto lock = hidl_sync_util::acquireGlobalLock();
312 if (on_nan_event_range_request_user_callback && event) {
313 on_nan_event_range_request_user_callback(*event);
314 }
315 }
316
317 std::function<void(const NanRangeReportInd&)>
318 on_nan_event_range_report_user_callback;
onAysncNanEventRangeReport(NanRangeReportInd * event)319 void onAysncNanEventRangeReport(NanRangeReportInd* event) {
320 const auto lock = hidl_sync_util::acquireGlobalLock();
321 if (on_nan_event_range_report_user_callback && event) {
322 on_nan_event_range_report_user_callback(*event);
323 }
324 }
325
326 std::function<void(const NanDataPathScheduleUpdateInd&)>
327 on_nan_event_schedule_update_user_callback;
onAsyncNanEventScheduleUpdate(NanDataPathScheduleUpdateInd * event)328 void onAsyncNanEventScheduleUpdate(NanDataPathScheduleUpdateInd* event) {
329 const auto lock = hidl_sync_util::acquireGlobalLock();
330 if (on_nan_event_schedule_update_user_callback && event) {
331 on_nan_event_schedule_update_user_callback(*event);
332 }
333 }
334 // End of the free-standing "C" style callbacks.
335
WifiLegacyHal(const std::weak_ptr<wifi_system::InterfaceTool> iface_tool)336 WifiLegacyHal::WifiLegacyHal(
337 const std::weak_ptr<wifi_system::InterfaceTool> iface_tool)
338 : global_handle_(nullptr),
339 awaiting_event_loop_termination_(false),
340 is_started_(false),
341 iface_tool_(iface_tool) {}
342
initialize()343 wifi_error WifiLegacyHal::initialize() {
344 LOG(DEBUG) << "Initialize legacy HAL";
345 // TODO: Add back the HAL Tool if we need to. All we need from the HAL tool
346 // for now is this function call which we can directly call.
347 if (!initHalFuncTableWithStubs(&global_func_table_)) {
348 LOG(ERROR)
349 << "Failed to initialize legacy hal function table with stubs";
350 return WIFI_ERROR_UNKNOWN;
351 }
352 wifi_error status = init_wifi_vendor_hal_func_table(&global_func_table_);
353 if (status != WIFI_SUCCESS) {
354 LOG(ERROR) << "Failed to initialize legacy hal function table";
355 }
356 return status;
357 }
358
start()359 wifi_error WifiLegacyHal::start() {
360 // Ensure that we're starting in a good state.
361 CHECK(global_func_table_.wifi_initialize && !global_handle_ &&
362 iface_name_to_handle_.empty() && !awaiting_event_loop_termination_);
363 if (is_started_) {
364 LOG(DEBUG) << "Legacy HAL already started";
365 return WIFI_SUCCESS;
366 }
367 LOG(DEBUG) << "Waiting for the driver ready";
368 wifi_error status = global_func_table_.wifi_wait_for_driver_ready();
369 if (status == WIFI_ERROR_TIMED_OUT) {
370 LOG(ERROR) << "Timed out awaiting driver ready";
371 return status;
372 }
373 property_set(kDriverPropName, "ok");
374
375 LOG(DEBUG) << "Starting legacy HAL";
376 if (!iface_tool_.lock()->SetWifiUpState(true)) {
377 LOG(ERROR) << "Failed to set WiFi interface up";
378 return WIFI_ERROR_UNKNOWN;
379 }
380 status = global_func_table_.wifi_initialize(&global_handle_);
381 if (status != WIFI_SUCCESS || !global_handle_) {
382 LOG(ERROR) << "Failed to retrieve global handle";
383 return status;
384 }
385 std::thread(&WifiLegacyHal::runEventLoop, this).detach();
386 status = retrieveIfaceHandles();
387 if (status != WIFI_SUCCESS || iface_name_to_handle_.empty()) {
388 LOG(ERROR) << "Failed to retrieve wlan interface handle";
389 return status;
390 }
391 LOG(DEBUG) << "Legacy HAL start complete";
392 is_started_ = true;
393 return WIFI_SUCCESS;
394 }
395
stop(std::unique_lock<std::recursive_mutex> * lock,const std::function<void ()> & on_stop_complete_user_callback)396 wifi_error WifiLegacyHal::stop(
397 /* NONNULL */ std::unique_lock<std::recursive_mutex>* lock,
398 const std::function<void()>& on_stop_complete_user_callback) {
399 if (!is_started_) {
400 LOG(DEBUG) << "Legacy HAL already stopped";
401 on_stop_complete_user_callback();
402 return WIFI_SUCCESS;
403 }
404 LOG(DEBUG) << "Stopping legacy HAL";
405 on_stop_complete_internal_callback = [on_stop_complete_user_callback,
406 this](wifi_handle handle) {
407 CHECK_EQ(global_handle_, handle) << "Handle mismatch";
408 LOG(INFO) << "Legacy HAL stop complete callback received";
409 // Invalidate all the internal pointers now that the HAL is
410 // stopped.
411 invalidate();
412 iface_tool_.lock()->SetWifiUpState(false);
413 on_stop_complete_user_callback();
414 is_started_ = false;
415 };
416 awaiting_event_loop_termination_ = true;
417 global_func_table_.wifi_cleanup(global_handle_, onAsyncStopComplete);
418 const auto status = stop_wait_cv_.wait_for(
419 *lock, std::chrono::milliseconds(kMaxStopCompleteWaitMs),
420 [this] { return !awaiting_event_loop_termination_; });
421 if (!status) {
422 LOG(ERROR) << "Legacy HAL stop failed or timed out";
423 return WIFI_ERROR_UNKNOWN;
424 }
425 LOG(DEBUG) << "Legacy HAL stop complete";
426 return WIFI_SUCCESS;
427 }
428
isStarted()429 bool WifiLegacyHal::isStarted() { return is_started_; }
430
getDriverVersion(const std::string & iface_name)431 std::pair<wifi_error, std::string> WifiLegacyHal::getDriverVersion(
432 const std::string& iface_name) {
433 std::array<char, kMaxVersionStringLength> buffer;
434 buffer.fill(0);
435 wifi_error status = global_func_table_.wifi_get_driver_version(
436 getIfaceHandle(iface_name), buffer.data(), buffer.size());
437 return {status, buffer.data()};
438 }
439
getFirmwareVersion(const std::string & iface_name)440 std::pair<wifi_error, std::string> WifiLegacyHal::getFirmwareVersion(
441 const std::string& iface_name) {
442 std::array<char, kMaxVersionStringLength> buffer;
443 buffer.fill(0);
444 wifi_error status = global_func_table_.wifi_get_firmware_version(
445 getIfaceHandle(iface_name), buffer.data(), buffer.size());
446 return {status, buffer.data()};
447 }
448
449 std::pair<wifi_error, std::vector<uint8_t>>
requestDriverMemoryDump(const std::string & iface_name)450 WifiLegacyHal::requestDriverMemoryDump(const std::string& iface_name) {
451 std::vector<uint8_t> driver_dump;
452 on_driver_memory_dump_internal_callback = [&driver_dump](char* buffer,
453 int buffer_size) {
454 driver_dump.insert(driver_dump.end(),
455 reinterpret_cast<uint8_t*>(buffer),
456 reinterpret_cast<uint8_t*>(buffer) + buffer_size);
457 };
458 wifi_error status = global_func_table_.wifi_get_driver_memory_dump(
459 getIfaceHandle(iface_name), {onSyncDriverMemoryDump});
460 on_driver_memory_dump_internal_callback = nullptr;
461 return {status, std::move(driver_dump)};
462 }
463
464 std::pair<wifi_error, std::vector<uint8_t>>
requestFirmwareMemoryDump(const std::string & iface_name)465 WifiLegacyHal::requestFirmwareMemoryDump(const std::string& iface_name) {
466 std::vector<uint8_t> firmware_dump;
467 on_firmware_memory_dump_internal_callback =
468 [&firmware_dump](char* buffer, int buffer_size) {
469 firmware_dump.insert(
470 firmware_dump.end(), reinterpret_cast<uint8_t*>(buffer),
471 reinterpret_cast<uint8_t*>(buffer) + buffer_size);
472 };
473 wifi_error status = global_func_table_.wifi_get_firmware_memory_dump(
474 getIfaceHandle(iface_name), {onSyncFirmwareMemoryDump});
475 on_firmware_memory_dump_internal_callback = nullptr;
476 return {status, std::move(firmware_dump)};
477 }
478
getSupportedFeatureSet(const std::string & iface_name)479 std::pair<wifi_error, uint32_t> WifiLegacyHal::getSupportedFeatureSet(
480 const std::string& iface_name) {
481 feature_set set;
482 static_assert(sizeof(set) == sizeof(uint32_t),
483 "Some feature_flags can not be represented in output");
484 wifi_error status = global_func_table_.wifi_get_supported_feature_set(
485 getIfaceHandle(iface_name), &set);
486 return {status, static_cast<uint32_t>(set)};
487 }
488
489 std::pair<wifi_error, PacketFilterCapabilities>
getPacketFilterCapabilities(const std::string & iface_name)490 WifiLegacyHal::getPacketFilterCapabilities(const std::string& iface_name) {
491 PacketFilterCapabilities caps;
492 wifi_error status = global_func_table_.wifi_get_packet_filter_capabilities(
493 getIfaceHandle(iface_name), &caps.version, &caps.max_len);
494 return {status, caps};
495 }
496
setPacketFilter(const std::string & iface_name,const std::vector<uint8_t> & program)497 wifi_error WifiLegacyHal::setPacketFilter(const std::string& iface_name,
498 const std::vector<uint8_t>& program) {
499 return global_func_table_.wifi_set_packet_filter(
500 getIfaceHandle(iface_name), program.data(), program.size());
501 }
502
503 std::pair<wifi_error, std::vector<uint8_t>>
readApfPacketFilterData(const std::string & iface_name)504 WifiLegacyHal::readApfPacketFilterData(const std::string& iface_name) {
505 PacketFilterCapabilities caps;
506 wifi_error status = global_func_table_.wifi_get_packet_filter_capabilities(
507 getIfaceHandle(iface_name), &caps.version, &caps.max_len);
508 if (status != WIFI_SUCCESS) {
509 return {status, {}};
510 }
511
512 // Size the buffer to read the entire program & work memory.
513 std::vector<uint8_t> buffer(caps.max_len);
514
515 status = global_func_table_.wifi_read_packet_filter(
516 getIfaceHandle(iface_name), /*src_offset=*/0, buffer.data(),
517 buffer.size());
518 return {status, move(buffer)};
519 }
520
521 std::pair<wifi_error, wifi_gscan_capabilities>
getGscanCapabilities(const std::string & iface_name)522 WifiLegacyHal::getGscanCapabilities(const std::string& iface_name) {
523 wifi_gscan_capabilities caps;
524 wifi_error status = global_func_table_.wifi_get_gscan_capabilities(
525 getIfaceHandle(iface_name), &caps);
526 return {status, caps};
527 }
528
startGscan(const std::string & iface_name,wifi_request_id id,const wifi_scan_cmd_params & params,const std::function<void (wifi_request_id)> & on_failure_user_callback,const on_gscan_results_callback & on_results_user_callback,const on_gscan_full_result_callback & on_full_result_user_callback)529 wifi_error WifiLegacyHal::startGscan(
530 const std::string& iface_name, wifi_request_id id,
531 const wifi_scan_cmd_params& params,
532 const std::function<void(wifi_request_id)>& on_failure_user_callback,
533 const on_gscan_results_callback& on_results_user_callback,
534 const on_gscan_full_result_callback& on_full_result_user_callback) {
535 // If there is already an ongoing background scan, reject new scan requests.
536 if (on_gscan_event_internal_callback ||
537 on_gscan_full_result_internal_callback) {
538 return WIFI_ERROR_NOT_AVAILABLE;
539 }
540
541 // This callback will be used to either trigger |on_results_user_callback|
542 // or |on_failure_user_callback|.
543 on_gscan_event_internal_callback =
544 [iface_name, on_failure_user_callback, on_results_user_callback, this](
545 wifi_request_id id, wifi_scan_event event) {
546 switch (event) {
547 case WIFI_SCAN_RESULTS_AVAILABLE:
548 case WIFI_SCAN_THRESHOLD_NUM_SCANS:
549 case WIFI_SCAN_THRESHOLD_PERCENT: {
550 wifi_error status;
551 std::vector<wifi_cached_scan_results> cached_scan_results;
552 std::tie(status, cached_scan_results) =
553 getGscanCachedResults(iface_name);
554 if (status == WIFI_SUCCESS) {
555 on_results_user_callback(id, cached_scan_results);
556 return;
557 }
558 FALLTHROUGH_INTENDED;
559 }
560 // Fall through if failed. Failure to retrieve cached scan
561 // results should trigger a background scan failure.
562 case WIFI_SCAN_FAILED:
563 on_failure_user_callback(id);
564 on_gscan_event_internal_callback = nullptr;
565 on_gscan_full_result_internal_callback = nullptr;
566 return;
567 }
568 LOG(FATAL) << "Unexpected gscan event received: " << event;
569 };
570
571 on_gscan_full_result_internal_callback = [on_full_result_user_callback](
572 wifi_request_id id,
573 wifi_scan_result* result,
574 uint32_t buckets_scanned) {
575 if (result) {
576 on_full_result_user_callback(id, result, buckets_scanned);
577 }
578 };
579
580 wifi_scan_result_handler handler = {onAsyncGscanFullResult,
581 onAsyncGscanEvent};
582 wifi_error status = global_func_table_.wifi_start_gscan(
583 id, getIfaceHandle(iface_name), params, handler);
584 if (status != WIFI_SUCCESS) {
585 on_gscan_event_internal_callback = nullptr;
586 on_gscan_full_result_internal_callback = nullptr;
587 }
588 return status;
589 }
590
stopGscan(const std::string & iface_name,wifi_request_id id)591 wifi_error WifiLegacyHal::stopGscan(const std::string& iface_name,
592 wifi_request_id id) {
593 // If there is no an ongoing background scan, reject stop requests.
594 // TODO(b/32337212): This needs to be handled by the HIDL object because we
595 // need to return the NOT_STARTED error code.
596 if (!on_gscan_event_internal_callback &&
597 !on_gscan_full_result_internal_callback) {
598 return WIFI_ERROR_NOT_AVAILABLE;
599 }
600 wifi_error status =
601 global_func_table_.wifi_stop_gscan(id, getIfaceHandle(iface_name));
602 // If the request Id is wrong, don't stop the ongoing background scan. Any
603 // other error should be treated as the end of background scan.
604 if (status != WIFI_ERROR_INVALID_REQUEST_ID) {
605 on_gscan_event_internal_callback = nullptr;
606 on_gscan_full_result_internal_callback = nullptr;
607 }
608 return status;
609 }
610
611 std::pair<wifi_error, std::vector<uint32_t>>
getValidFrequenciesForBand(const std::string & iface_name,wifi_band band)612 WifiLegacyHal::getValidFrequenciesForBand(const std::string& iface_name,
613 wifi_band band) {
614 static_assert(sizeof(uint32_t) >= sizeof(wifi_channel),
615 "Wifi Channel cannot be represented in output");
616 std::vector<uint32_t> freqs;
617 freqs.resize(kMaxGscanFrequenciesForBand);
618 int32_t num_freqs = 0;
619 wifi_error status = global_func_table_.wifi_get_valid_channels(
620 getIfaceHandle(iface_name), band, freqs.size(),
621 reinterpret_cast<wifi_channel*>(freqs.data()), &num_freqs);
622 CHECK(num_freqs >= 0 &&
623 static_cast<uint32_t>(num_freqs) <= kMaxGscanFrequenciesForBand);
624 freqs.resize(num_freqs);
625 return {status, std::move(freqs)};
626 }
627
setDfsFlag(const std::string & iface_name,bool dfs_on)628 wifi_error WifiLegacyHal::setDfsFlag(const std::string& iface_name,
629 bool dfs_on) {
630 return global_func_table_.wifi_set_nodfs_flag(getIfaceHandle(iface_name),
631 dfs_on ? 0 : 1);
632 }
633
enableLinkLayerStats(const std::string & iface_name,bool debug)634 wifi_error WifiLegacyHal::enableLinkLayerStats(const std::string& iface_name,
635 bool debug) {
636 wifi_link_layer_params params;
637 params.mpdu_size_threshold = kLinkLayerStatsDataMpduSizeThreshold;
638 params.aggressive_statistics_gathering = debug;
639 return global_func_table_.wifi_set_link_stats(getIfaceHandle(iface_name),
640 params);
641 }
642
disableLinkLayerStats(const std::string & iface_name)643 wifi_error WifiLegacyHal::disableLinkLayerStats(const std::string& iface_name) {
644 // TODO: Do we care about these responses?
645 uint32_t clear_mask_rsp;
646 uint8_t stop_rsp;
647 return global_func_table_.wifi_clear_link_stats(
648 getIfaceHandle(iface_name), 0xFFFFFFFF, &clear_mask_rsp, 1, &stop_rsp);
649 }
650
getLinkLayerStats(const std::string & iface_name)651 std::pair<wifi_error, LinkLayerStats> WifiLegacyHal::getLinkLayerStats(
652 const std::string& iface_name) {
653 LinkLayerStats link_stats{};
654 LinkLayerStats* link_stats_ptr = &link_stats;
655
656 on_link_layer_stats_result_internal_callback =
657 [&link_stats_ptr](wifi_request_id /* id */,
658 wifi_iface_stat* iface_stats_ptr, int num_radios,
659 wifi_radio_stat* radio_stats_ptr) {
660 wifi_radio_stat* l_radio_stats_ptr;
661
662 if (iface_stats_ptr != nullptr) {
663 link_stats_ptr->iface = *iface_stats_ptr;
664 link_stats_ptr->iface.num_peers = 0;
665 } else {
666 LOG(ERROR) << "Invalid iface stats in link layer stats";
667 }
668 if (num_radios <= 0 || radio_stats_ptr == nullptr) {
669 LOG(ERROR) << "Invalid radio stats in link layer stats";
670 return;
671 }
672 l_radio_stats_ptr = radio_stats_ptr;
673 for (int i = 0; i < num_radios; i++) {
674 LinkLayerRadioStats radio;
675
676 radio.stats = *l_radio_stats_ptr;
677 // Copy over the tx level array to the separate vector.
678 if (l_radio_stats_ptr->num_tx_levels > 0 &&
679 l_radio_stats_ptr->tx_time_per_levels != nullptr) {
680 radio.tx_time_per_levels.assign(
681 l_radio_stats_ptr->tx_time_per_levels,
682 l_radio_stats_ptr->tx_time_per_levels +
683 l_radio_stats_ptr->num_tx_levels);
684 }
685 radio.stats.num_tx_levels = 0;
686 radio.stats.tx_time_per_levels = nullptr;
687 /* Copy over the channel stat to separate vector */
688 if (l_radio_stats_ptr->num_channels > 0) {
689 /* Copy the channel stats */
690 radio.channel_stats.assign(
691 l_radio_stats_ptr->channels,
692 l_radio_stats_ptr->channels +
693 l_radio_stats_ptr->num_channels);
694 }
695 link_stats_ptr->radios.push_back(radio);
696 l_radio_stats_ptr =
697 (wifi_radio_stat*)((u8*)l_radio_stats_ptr +
698 sizeof(wifi_radio_stat) +
699 (sizeof(wifi_channel_stat) *
700 l_radio_stats_ptr->num_channels));
701 }
702 };
703
704 wifi_error status = global_func_table_.wifi_get_link_stats(
705 0, getIfaceHandle(iface_name), {onSyncLinkLayerStatsResult});
706 on_link_layer_stats_result_internal_callback = nullptr;
707 return {status, link_stats};
708 }
709
startRssiMonitoring(const std::string & iface_name,wifi_request_id id,int8_t max_rssi,int8_t min_rssi,const on_rssi_threshold_breached_callback & on_threshold_breached_user_callback)710 wifi_error WifiLegacyHal::startRssiMonitoring(
711 const std::string& iface_name, wifi_request_id id, int8_t max_rssi,
712 int8_t min_rssi,
713 const on_rssi_threshold_breached_callback&
714 on_threshold_breached_user_callback) {
715 if (on_rssi_threshold_breached_internal_callback) {
716 return WIFI_ERROR_NOT_AVAILABLE;
717 }
718 on_rssi_threshold_breached_internal_callback =
719 [on_threshold_breached_user_callback](wifi_request_id id,
720 uint8_t* bssid_ptr, int8_t rssi) {
721 if (!bssid_ptr) {
722 return;
723 }
724 std::array<uint8_t, 6> bssid_arr;
725 // |bssid_ptr| pointer is assumed to have 6 bytes for the mac
726 // address.
727 std::copy(bssid_ptr, bssid_ptr + 6, std::begin(bssid_arr));
728 on_threshold_breached_user_callback(id, bssid_arr, rssi);
729 };
730 wifi_error status = global_func_table_.wifi_start_rssi_monitoring(
731 id, getIfaceHandle(iface_name), max_rssi, min_rssi,
732 {onAsyncRssiThresholdBreached});
733 if (status != WIFI_SUCCESS) {
734 on_rssi_threshold_breached_internal_callback = nullptr;
735 }
736 return status;
737 }
738
stopRssiMonitoring(const std::string & iface_name,wifi_request_id id)739 wifi_error WifiLegacyHal::stopRssiMonitoring(const std::string& iface_name,
740 wifi_request_id id) {
741 if (!on_rssi_threshold_breached_internal_callback) {
742 return WIFI_ERROR_NOT_AVAILABLE;
743 }
744 wifi_error status = global_func_table_.wifi_stop_rssi_monitoring(
745 id, getIfaceHandle(iface_name));
746 // If the request Id is wrong, don't stop the ongoing rssi monitoring. Any
747 // other error should be treated as the end of background scan.
748 if (status != WIFI_ERROR_INVALID_REQUEST_ID) {
749 on_rssi_threshold_breached_internal_callback = nullptr;
750 }
751 return status;
752 }
753
754 std::pair<wifi_error, wifi_roaming_capabilities>
getRoamingCapabilities(const std::string & iface_name)755 WifiLegacyHal::getRoamingCapabilities(const std::string& iface_name) {
756 wifi_roaming_capabilities caps;
757 wifi_error status = global_func_table_.wifi_get_roaming_capabilities(
758 getIfaceHandle(iface_name), &caps);
759 return {status, caps};
760 }
761
configureRoaming(const std::string & iface_name,const wifi_roaming_config & config)762 wifi_error WifiLegacyHal::configureRoaming(const std::string& iface_name,
763 const wifi_roaming_config& config) {
764 wifi_roaming_config config_internal = config;
765 return global_func_table_.wifi_configure_roaming(getIfaceHandle(iface_name),
766 &config_internal);
767 }
768
enableFirmwareRoaming(const std::string & iface_name,fw_roaming_state_t state)769 wifi_error WifiLegacyHal::enableFirmwareRoaming(const std::string& iface_name,
770 fw_roaming_state_t state) {
771 return global_func_table_.wifi_enable_firmware_roaming(
772 getIfaceHandle(iface_name), state);
773 }
774
configureNdOffload(const std::string & iface_name,bool enable)775 wifi_error WifiLegacyHal::configureNdOffload(const std::string& iface_name,
776 bool enable) {
777 return global_func_table_.wifi_configure_nd_offload(
778 getIfaceHandle(iface_name), enable);
779 }
780
startSendingOffloadedPacket(const std::string & iface_name,uint32_t cmd_id,uint16_t ether_type,const std::vector<uint8_t> & ip_packet_data,const std::array<uint8_t,6> & src_address,const std::array<uint8_t,6> & dst_address,uint32_t period_in_ms)781 wifi_error WifiLegacyHal::startSendingOffloadedPacket(
782 const std::string& iface_name, uint32_t cmd_id, uint16_t ether_type,
783 const std::vector<uint8_t>& ip_packet_data,
784 const std::array<uint8_t, 6>& src_address,
785 const std::array<uint8_t, 6>& dst_address, uint32_t period_in_ms) {
786 std::vector<uint8_t> ip_packet_data_internal(ip_packet_data);
787 std::vector<uint8_t> src_address_internal(
788 src_address.data(), src_address.data() + src_address.size());
789 std::vector<uint8_t> dst_address_internal(
790 dst_address.data(), dst_address.data() + dst_address.size());
791 return global_func_table_.wifi_start_sending_offloaded_packet(
792 cmd_id, getIfaceHandle(iface_name), ether_type,
793 ip_packet_data_internal.data(), ip_packet_data_internal.size(),
794 src_address_internal.data(), dst_address_internal.data(), period_in_ms);
795 }
796
stopSendingOffloadedPacket(const std::string & iface_name,uint32_t cmd_id)797 wifi_error WifiLegacyHal::stopSendingOffloadedPacket(
798 const std::string& iface_name, uint32_t cmd_id) {
799 return global_func_table_.wifi_stop_sending_offloaded_packet(
800 cmd_id, getIfaceHandle(iface_name));
801 }
802
setScanningMacOui(const std::string & iface_name,const std::array<uint8_t,3> & oui)803 wifi_error WifiLegacyHal::setScanningMacOui(const std::string& iface_name,
804 const std::array<uint8_t, 3>& oui) {
805 std::vector<uint8_t> oui_internal(oui.data(), oui.data() + oui.size());
806 return global_func_table_.wifi_set_scanning_mac_oui(
807 getIfaceHandle(iface_name), oui_internal.data());
808 }
809
selectTxPowerScenario(const std::string & iface_name,wifi_power_scenario scenario)810 wifi_error WifiLegacyHal::selectTxPowerScenario(const std::string& iface_name,
811 wifi_power_scenario scenario) {
812 return global_func_table_.wifi_select_tx_power_scenario(
813 getIfaceHandle(iface_name), scenario);
814 }
815
resetTxPowerScenario(const std::string & iface_name)816 wifi_error WifiLegacyHal::resetTxPowerScenario(const std::string& iface_name) {
817 return global_func_table_.wifi_reset_tx_power_scenario(
818 getIfaceHandle(iface_name));
819 }
820
setLatencyMode(const std::string & iface_name,wifi_latency_mode mode)821 wifi_error WifiLegacyHal::setLatencyMode(const std::string& iface_name,
822 wifi_latency_mode mode) {
823 return global_func_table_.wifi_set_latency_mode(getIfaceHandle(iface_name),
824 mode);
825 }
826
getLoggerSupportedFeatureSet(const std::string & iface_name)827 std::pair<wifi_error, uint32_t> WifiLegacyHal::getLoggerSupportedFeatureSet(
828 const std::string& iface_name) {
829 uint32_t supported_feature_flags;
830 wifi_error status =
831 global_func_table_.wifi_get_logger_supported_feature_set(
832 getIfaceHandle(iface_name), &supported_feature_flags);
833 return {status, supported_feature_flags};
834 }
835
startPktFateMonitoring(const std::string & iface_name)836 wifi_error WifiLegacyHal::startPktFateMonitoring(
837 const std::string& iface_name) {
838 return global_func_table_.wifi_start_pkt_fate_monitoring(
839 getIfaceHandle(iface_name));
840 }
841
getTxPktFates(const std::string & iface_name)842 std::pair<wifi_error, std::vector<wifi_tx_report>> WifiLegacyHal::getTxPktFates(
843 const std::string& iface_name) {
844 std::vector<wifi_tx_report> tx_pkt_fates;
845 tx_pkt_fates.resize(MAX_FATE_LOG_LEN);
846 size_t num_fates = 0;
847 wifi_error status = global_func_table_.wifi_get_tx_pkt_fates(
848 getIfaceHandle(iface_name), tx_pkt_fates.data(), tx_pkt_fates.size(),
849 &num_fates);
850 CHECK(num_fates <= MAX_FATE_LOG_LEN);
851 tx_pkt_fates.resize(num_fates);
852 return {status, std::move(tx_pkt_fates)};
853 }
854
getRxPktFates(const std::string & iface_name)855 std::pair<wifi_error, std::vector<wifi_rx_report>> WifiLegacyHal::getRxPktFates(
856 const std::string& iface_name) {
857 std::vector<wifi_rx_report> rx_pkt_fates;
858 rx_pkt_fates.resize(MAX_FATE_LOG_LEN);
859 size_t num_fates = 0;
860 wifi_error status = global_func_table_.wifi_get_rx_pkt_fates(
861 getIfaceHandle(iface_name), rx_pkt_fates.data(), rx_pkt_fates.size(),
862 &num_fates);
863 CHECK(num_fates <= MAX_FATE_LOG_LEN);
864 rx_pkt_fates.resize(num_fates);
865 return {status, std::move(rx_pkt_fates)};
866 }
867
getWakeReasonStats(const std::string & iface_name)868 std::pair<wifi_error, WakeReasonStats> WifiLegacyHal::getWakeReasonStats(
869 const std::string& iface_name) {
870 WakeReasonStats stats;
871 stats.cmd_event_wake_cnt.resize(kMaxWakeReasonStatsArraySize);
872 stats.driver_fw_local_wake_cnt.resize(kMaxWakeReasonStatsArraySize);
873
874 // This legacy struct needs separate memory to store the variable sized wake
875 // reason types.
876 stats.wake_reason_cnt.cmd_event_wake_cnt =
877 reinterpret_cast<int32_t*>(stats.cmd_event_wake_cnt.data());
878 stats.wake_reason_cnt.cmd_event_wake_cnt_sz =
879 stats.cmd_event_wake_cnt.size();
880 stats.wake_reason_cnt.cmd_event_wake_cnt_used = 0;
881 stats.wake_reason_cnt.driver_fw_local_wake_cnt =
882 reinterpret_cast<int32_t*>(stats.driver_fw_local_wake_cnt.data());
883 stats.wake_reason_cnt.driver_fw_local_wake_cnt_sz =
884 stats.driver_fw_local_wake_cnt.size();
885 stats.wake_reason_cnt.driver_fw_local_wake_cnt_used = 0;
886
887 wifi_error status = global_func_table_.wifi_get_wake_reason_stats(
888 getIfaceHandle(iface_name), &stats.wake_reason_cnt);
889
890 CHECK(
891 stats.wake_reason_cnt.cmd_event_wake_cnt_used >= 0 &&
892 static_cast<uint32_t>(stats.wake_reason_cnt.cmd_event_wake_cnt_used) <=
893 kMaxWakeReasonStatsArraySize);
894 stats.cmd_event_wake_cnt.resize(
895 stats.wake_reason_cnt.cmd_event_wake_cnt_used);
896 stats.wake_reason_cnt.cmd_event_wake_cnt = nullptr;
897
898 CHECK(stats.wake_reason_cnt.driver_fw_local_wake_cnt_used >= 0 &&
899 static_cast<uint32_t>(
900 stats.wake_reason_cnt.driver_fw_local_wake_cnt_used) <=
901 kMaxWakeReasonStatsArraySize);
902 stats.driver_fw_local_wake_cnt.resize(
903 stats.wake_reason_cnt.driver_fw_local_wake_cnt_used);
904 stats.wake_reason_cnt.driver_fw_local_wake_cnt = nullptr;
905
906 return {status, stats};
907 }
908
registerRingBufferCallbackHandler(const std::string & iface_name,const on_ring_buffer_data_callback & on_user_data_callback)909 wifi_error WifiLegacyHal::registerRingBufferCallbackHandler(
910 const std::string& iface_name,
911 const on_ring_buffer_data_callback& on_user_data_callback) {
912 if (on_ring_buffer_data_internal_callback) {
913 return WIFI_ERROR_NOT_AVAILABLE;
914 }
915 on_ring_buffer_data_internal_callback =
916 [on_user_data_callback](char* ring_name, char* buffer, int buffer_size,
917 wifi_ring_buffer_status* status) {
918 if (status && buffer) {
919 std::vector<uint8_t> buffer_vector(
920 reinterpret_cast<uint8_t*>(buffer),
921 reinterpret_cast<uint8_t*>(buffer) + buffer_size);
922 on_user_data_callback(ring_name, buffer_vector, *status);
923 }
924 };
925 wifi_error status = global_func_table_.wifi_set_log_handler(
926 0, getIfaceHandle(iface_name), {onAsyncRingBufferData});
927 if (status != WIFI_SUCCESS) {
928 on_ring_buffer_data_internal_callback = nullptr;
929 }
930 return status;
931 }
932
deregisterRingBufferCallbackHandler(const std::string & iface_name)933 wifi_error WifiLegacyHal::deregisterRingBufferCallbackHandler(
934 const std::string& iface_name) {
935 if (!on_ring_buffer_data_internal_callback) {
936 return WIFI_ERROR_NOT_AVAILABLE;
937 }
938 on_ring_buffer_data_internal_callback = nullptr;
939 return global_func_table_.wifi_reset_log_handler(
940 0, getIfaceHandle(iface_name));
941 }
942
943 std::pair<wifi_error, std::vector<wifi_ring_buffer_status>>
getRingBuffersStatus(const std::string & iface_name)944 WifiLegacyHal::getRingBuffersStatus(const std::string& iface_name) {
945 std::vector<wifi_ring_buffer_status> ring_buffers_status;
946 ring_buffers_status.resize(kMaxRingBuffers);
947 uint32_t num_rings = kMaxRingBuffers;
948 wifi_error status = global_func_table_.wifi_get_ring_buffers_status(
949 getIfaceHandle(iface_name), &num_rings, ring_buffers_status.data());
950 CHECK(num_rings <= kMaxRingBuffers);
951 ring_buffers_status.resize(num_rings);
952 return {status, std::move(ring_buffers_status)};
953 }
954
startRingBufferLogging(const std::string & iface_name,const std::string & ring_name,uint32_t verbose_level,uint32_t max_interval_sec,uint32_t min_data_size)955 wifi_error WifiLegacyHal::startRingBufferLogging(const std::string& iface_name,
956 const std::string& ring_name,
957 uint32_t verbose_level,
958 uint32_t max_interval_sec,
959 uint32_t min_data_size) {
960 return global_func_table_.wifi_start_logging(
961 getIfaceHandle(iface_name), verbose_level, 0, max_interval_sec,
962 min_data_size, makeCharVec(ring_name).data());
963 }
964
getRingBufferData(const std::string & iface_name,const std::string & ring_name)965 wifi_error WifiLegacyHal::getRingBufferData(const std::string& iface_name,
966 const std::string& ring_name) {
967 return global_func_table_.wifi_get_ring_data(getIfaceHandle(iface_name),
968 makeCharVec(ring_name).data());
969 }
970
registerErrorAlertCallbackHandler(const std::string & iface_name,const on_error_alert_callback & on_user_alert_callback)971 wifi_error WifiLegacyHal::registerErrorAlertCallbackHandler(
972 const std::string& iface_name,
973 const on_error_alert_callback& on_user_alert_callback) {
974 if (on_error_alert_internal_callback) {
975 return WIFI_ERROR_NOT_AVAILABLE;
976 }
977 on_error_alert_internal_callback = [on_user_alert_callback](
978 wifi_request_id id, char* buffer,
979 int buffer_size, int err_code) {
980 if (buffer) {
981 CHECK(id == 0);
982 on_user_alert_callback(
983 err_code,
984 std::vector<uint8_t>(
985 reinterpret_cast<uint8_t*>(buffer),
986 reinterpret_cast<uint8_t*>(buffer) + buffer_size));
987 }
988 };
989 wifi_error status = global_func_table_.wifi_set_alert_handler(
990 0, getIfaceHandle(iface_name), {onAsyncErrorAlert});
991 if (status != WIFI_SUCCESS) {
992 on_error_alert_internal_callback = nullptr;
993 }
994 return status;
995 }
996
deregisterErrorAlertCallbackHandler(const std::string & iface_name)997 wifi_error WifiLegacyHal::deregisterErrorAlertCallbackHandler(
998 const std::string& iface_name) {
999 if (!on_error_alert_internal_callback) {
1000 return WIFI_ERROR_NOT_AVAILABLE;
1001 }
1002 on_error_alert_internal_callback = nullptr;
1003 return global_func_table_.wifi_reset_alert_handler(
1004 0, getIfaceHandle(iface_name));
1005 }
1006
registerRadioModeChangeCallbackHandler(const std::string & iface_name,const on_radio_mode_change_callback & on_user_change_callback)1007 wifi_error WifiLegacyHal::registerRadioModeChangeCallbackHandler(
1008 const std::string& iface_name,
1009 const on_radio_mode_change_callback& on_user_change_callback) {
1010 if (on_radio_mode_change_internal_callback) {
1011 return WIFI_ERROR_NOT_AVAILABLE;
1012 }
1013 on_radio_mode_change_internal_callback = [on_user_change_callback](
1014 wifi_request_id /* id */,
1015 uint32_t num_macs,
1016 wifi_mac_info* mac_infos_arr) {
1017 if (num_macs > 0 && mac_infos_arr) {
1018 std::vector<WifiMacInfo> mac_infos_vec;
1019 for (uint32_t i = 0; i < num_macs; i++) {
1020 WifiMacInfo mac_info;
1021 mac_info.wlan_mac_id = mac_infos_arr[i].wlan_mac_id;
1022 mac_info.mac_band = mac_infos_arr[i].mac_band;
1023 for (int32_t j = 0; j < mac_infos_arr[i].num_iface; j++) {
1024 WifiIfaceInfo iface_info;
1025 iface_info.name = mac_infos_arr[i].iface_info[j].iface_name;
1026 iface_info.channel = mac_infos_arr[i].iface_info[j].channel;
1027 mac_info.iface_infos.push_back(iface_info);
1028 }
1029 mac_infos_vec.push_back(mac_info);
1030 }
1031 on_user_change_callback(mac_infos_vec);
1032 }
1033 };
1034 wifi_error status = global_func_table_.wifi_set_radio_mode_change_handler(
1035 0, getIfaceHandle(iface_name), {onAsyncRadioModeChange});
1036 if (status != WIFI_SUCCESS) {
1037 on_radio_mode_change_internal_callback = nullptr;
1038 }
1039 return status;
1040 }
1041
startRttRangeRequest(const std::string & iface_name,wifi_request_id id,const std::vector<wifi_rtt_config> & rtt_configs,const on_rtt_results_callback & on_results_user_callback)1042 wifi_error WifiLegacyHal::startRttRangeRequest(
1043 const std::string& iface_name, wifi_request_id id,
1044 const std::vector<wifi_rtt_config>& rtt_configs,
1045 const on_rtt_results_callback& on_results_user_callback) {
1046 if (on_rtt_results_internal_callback) {
1047 return WIFI_ERROR_NOT_AVAILABLE;
1048 }
1049
1050 on_rtt_results_internal_callback =
1051 [on_results_user_callback](wifi_request_id id, unsigned num_results,
1052 wifi_rtt_result* rtt_results[]) {
1053 if (num_results > 0 && !rtt_results) {
1054 LOG(ERROR) << "Unexpected nullptr in RTT results";
1055 return;
1056 }
1057 std::vector<const wifi_rtt_result*> rtt_results_vec;
1058 std::copy_if(rtt_results, rtt_results + num_results,
1059 back_inserter(rtt_results_vec),
1060 [](wifi_rtt_result* rtt_result) {
1061 return rtt_result != nullptr;
1062 });
1063 on_results_user_callback(id, rtt_results_vec);
1064 };
1065
1066 std::vector<wifi_rtt_config> rtt_configs_internal(rtt_configs);
1067 wifi_error status = global_func_table_.wifi_rtt_range_request(
1068 id, getIfaceHandle(iface_name), rtt_configs.size(),
1069 rtt_configs_internal.data(), {onAsyncRttResults});
1070 if (status != WIFI_SUCCESS) {
1071 on_rtt_results_internal_callback = nullptr;
1072 }
1073 return status;
1074 }
1075
cancelRttRangeRequest(const std::string & iface_name,wifi_request_id id,const std::vector<std::array<uint8_t,6>> & mac_addrs)1076 wifi_error WifiLegacyHal::cancelRttRangeRequest(
1077 const std::string& iface_name, wifi_request_id id,
1078 const std::vector<std::array<uint8_t, 6>>& mac_addrs) {
1079 if (!on_rtt_results_internal_callback) {
1080 return WIFI_ERROR_NOT_AVAILABLE;
1081 }
1082 static_assert(sizeof(mac_addr) == sizeof(std::array<uint8_t, 6>),
1083 "MAC address size mismatch");
1084 // TODO: How do we handle partial cancels (i.e only a subset of enabled mac
1085 // addressed are cancelled).
1086 std::vector<std::array<uint8_t, 6>> mac_addrs_internal(mac_addrs);
1087 wifi_error status = global_func_table_.wifi_rtt_range_cancel(
1088 id, getIfaceHandle(iface_name), mac_addrs.size(),
1089 reinterpret_cast<mac_addr*>(mac_addrs_internal.data()));
1090 // If the request Id is wrong, don't stop the ongoing range request. Any
1091 // other error should be treated as the end of rtt ranging.
1092 if (status != WIFI_ERROR_INVALID_REQUEST_ID) {
1093 on_rtt_results_internal_callback = nullptr;
1094 }
1095 return status;
1096 }
1097
getRttCapabilities(const std::string & iface_name)1098 std::pair<wifi_error, wifi_rtt_capabilities> WifiLegacyHal::getRttCapabilities(
1099 const std::string& iface_name) {
1100 wifi_rtt_capabilities rtt_caps;
1101 wifi_error status = global_func_table_.wifi_get_rtt_capabilities(
1102 getIfaceHandle(iface_name), &rtt_caps);
1103 return {status, rtt_caps};
1104 }
1105
getRttResponderInfo(const std::string & iface_name)1106 std::pair<wifi_error, wifi_rtt_responder> WifiLegacyHal::getRttResponderInfo(
1107 const std::string& iface_name) {
1108 wifi_rtt_responder rtt_responder;
1109 wifi_error status = global_func_table_.wifi_rtt_get_responder_info(
1110 getIfaceHandle(iface_name), &rtt_responder);
1111 return {status, rtt_responder};
1112 }
1113
enableRttResponder(const std::string & iface_name,wifi_request_id id,const wifi_channel_info & channel_hint,uint32_t max_duration_secs,const wifi_rtt_responder & info)1114 wifi_error WifiLegacyHal::enableRttResponder(
1115 const std::string& iface_name, wifi_request_id id,
1116 const wifi_channel_info& channel_hint, uint32_t max_duration_secs,
1117 const wifi_rtt_responder& info) {
1118 wifi_rtt_responder info_internal(info);
1119 return global_func_table_.wifi_enable_responder(
1120 id, getIfaceHandle(iface_name), channel_hint, max_duration_secs,
1121 &info_internal);
1122 }
1123
disableRttResponder(const std::string & iface_name,wifi_request_id id)1124 wifi_error WifiLegacyHal::disableRttResponder(const std::string& iface_name,
1125 wifi_request_id id) {
1126 return global_func_table_.wifi_disable_responder(
1127 id, getIfaceHandle(iface_name));
1128 }
1129
setRttLci(const std::string & iface_name,wifi_request_id id,const wifi_lci_information & info)1130 wifi_error WifiLegacyHal::setRttLci(const std::string& iface_name,
1131 wifi_request_id id,
1132 const wifi_lci_information& info) {
1133 wifi_lci_information info_internal(info);
1134 return global_func_table_.wifi_set_lci(id, getIfaceHandle(iface_name),
1135 &info_internal);
1136 }
1137
setRttLcr(const std::string & iface_name,wifi_request_id id,const wifi_lcr_information & info)1138 wifi_error WifiLegacyHal::setRttLcr(const std::string& iface_name,
1139 wifi_request_id id,
1140 const wifi_lcr_information& info) {
1141 wifi_lcr_information info_internal(info);
1142 return global_func_table_.wifi_set_lcr(id, getIfaceHandle(iface_name),
1143 &info_internal);
1144 }
1145
nanRegisterCallbackHandlers(const std::string & iface_name,const NanCallbackHandlers & user_callbacks)1146 wifi_error WifiLegacyHal::nanRegisterCallbackHandlers(
1147 const std::string& iface_name, const NanCallbackHandlers& user_callbacks) {
1148 on_nan_notify_response_user_callback = user_callbacks.on_notify_response;
1149 on_nan_event_publish_terminated_user_callback =
1150 user_callbacks.on_event_publish_terminated;
1151 on_nan_event_match_user_callback = user_callbacks.on_event_match;
1152 on_nan_event_match_expired_user_callback =
1153 user_callbacks.on_event_match_expired;
1154 on_nan_event_subscribe_terminated_user_callback =
1155 user_callbacks.on_event_subscribe_terminated;
1156 on_nan_event_followup_user_callback = user_callbacks.on_event_followup;
1157 on_nan_event_disc_eng_event_user_callback =
1158 user_callbacks.on_event_disc_eng_event;
1159 on_nan_event_disabled_user_callback = user_callbacks.on_event_disabled;
1160 on_nan_event_tca_user_callback = user_callbacks.on_event_tca;
1161 on_nan_event_beacon_sdf_payload_user_callback =
1162 user_callbacks.on_event_beacon_sdf_payload;
1163 on_nan_event_data_path_request_user_callback =
1164 user_callbacks.on_event_data_path_request;
1165 on_nan_event_data_path_confirm_user_callback =
1166 user_callbacks.on_event_data_path_confirm;
1167 on_nan_event_data_path_end_user_callback =
1168 user_callbacks.on_event_data_path_end;
1169 on_nan_event_transmit_follow_up_user_callback =
1170 user_callbacks.on_event_transmit_follow_up;
1171 on_nan_event_range_request_user_callback =
1172 user_callbacks.on_event_range_request;
1173 on_nan_event_range_report_user_callback =
1174 user_callbacks.on_event_range_report;
1175 on_nan_event_schedule_update_user_callback =
1176 user_callbacks.on_event_schedule_update;
1177
1178 return global_func_table_.wifi_nan_register_handler(
1179 getIfaceHandle(iface_name),
1180 {onAysncNanNotifyResponse, onAysncNanEventPublishReplied,
1181 onAysncNanEventPublishTerminated, onAysncNanEventMatch,
1182 onAysncNanEventMatchExpired, onAysncNanEventSubscribeTerminated,
1183 onAysncNanEventFollowup, onAysncNanEventDiscEngEvent,
1184 onAysncNanEventDisabled, onAysncNanEventTca,
1185 onAysncNanEventBeaconSdfPayload, onAysncNanEventDataPathRequest,
1186 onAysncNanEventDataPathConfirm, onAysncNanEventDataPathEnd,
1187 onAysncNanEventTransmitFollowUp, onAysncNanEventRangeRequest,
1188 onAysncNanEventRangeReport, onAsyncNanEventScheduleUpdate});
1189 }
1190
nanEnableRequest(const std::string & iface_name,transaction_id id,const NanEnableRequest & msg)1191 wifi_error WifiLegacyHal::nanEnableRequest(const std::string& iface_name,
1192 transaction_id id,
1193 const NanEnableRequest& msg) {
1194 NanEnableRequest msg_internal(msg);
1195 return global_func_table_.wifi_nan_enable_request(
1196 id, getIfaceHandle(iface_name), &msg_internal);
1197 }
1198
nanDisableRequest(const std::string & iface_name,transaction_id id)1199 wifi_error WifiLegacyHal::nanDisableRequest(const std::string& iface_name,
1200 transaction_id id) {
1201 return global_func_table_.wifi_nan_disable_request(
1202 id, getIfaceHandle(iface_name));
1203 }
1204
nanPublishRequest(const std::string & iface_name,transaction_id id,const NanPublishRequest & msg)1205 wifi_error WifiLegacyHal::nanPublishRequest(const std::string& iface_name,
1206 transaction_id id,
1207 const NanPublishRequest& msg) {
1208 NanPublishRequest msg_internal(msg);
1209 return global_func_table_.wifi_nan_publish_request(
1210 id, getIfaceHandle(iface_name), &msg_internal);
1211 }
1212
nanPublishCancelRequest(const std::string & iface_name,transaction_id id,const NanPublishCancelRequest & msg)1213 wifi_error WifiLegacyHal::nanPublishCancelRequest(
1214 const std::string& iface_name, transaction_id id,
1215 const NanPublishCancelRequest& msg) {
1216 NanPublishCancelRequest msg_internal(msg);
1217 return global_func_table_.wifi_nan_publish_cancel_request(
1218 id, getIfaceHandle(iface_name), &msg_internal);
1219 }
1220
nanSubscribeRequest(const std::string & iface_name,transaction_id id,const NanSubscribeRequest & msg)1221 wifi_error WifiLegacyHal::nanSubscribeRequest(const std::string& iface_name,
1222 transaction_id id,
1223 const NanSubscribeRequest& msg) {
1224 NanSubscribeRequest msg_internal(msg);
1225 return global_func_table_.wifi_nan_subscribe_request(
1226 id, getIfaceHandle(iface_name), &msg_internal);
1227 }
1228
nanSubscribeCancelRequest(const std::string & iface_name,transaction_id id,const NanSubscribeCancelRequest & msg)1229 wifi_error WifiLegacyHal::nanSubscribeCancelRequest(
1230 const std::string& iface_name, transaction_id id,
1231 const NanSubscribeCancelRequest& msg) {
1232 NanSubscribeCancelRequest msg_internal(msg);
1233 return global_func_table_.wifi_nan_subscribe_cancel_request(
1234 id, getIfaceHandle(iface_name), &msg_internal);
1235 }
1236
nanTransmitFollowupRequest(const std::string & iface_name,transaction_id id,const NanTransmitFollowupRequest & msg)1237 wifi_error WifiLegacyHal::nanTransmitFollowupRequest(
1238 const std::string& iface_name, transaction_id id,
1239 const NanTransmitFollowupRequest& msg) {
1240 NanTransmitFollowupRequest msg_internal(msg);
1241 return global_func_table_.wifi_nan_transmit_followup_request(
1242 id, getIfaceHandle(iface_name), &msg_internal);
1243 }
1244
nanStatsRequest(const std::string & iface_name,transaction_id id,const NanStatsRequest & msg)1245 wifi_error WifiLegacyHal::nanStatsRequest(const std::string& iface_name,
1246 transaction_id id,
1247 const NanStatsRequest& msg) {
1248 NanStatsRequest msg_internal(msg);
1249 return global_func_table_.wifi_nan_stats_request(
1250 id, getIfaceHandle(iface_name), &msg_internal);
1251 }
1252
nanConfigRequest(const std::string & iface_name,transaction_id id,const NanConfigRequest & msg)1253 wifi_error WifiLegacyHal::nanConfigRequest(const std::string& iface_name,
1254 transaction_id id,
1255 const NanConfigRequest& msg) {
1256 NanConfigRequest msg_internal(msg);
1257 return global_func_table_.wifi_nan_config_request(
1258 id, getIfaceHandle(iface_name), &msg_internal);
1259 }
1260
nanTcaRequest(const std::string & iface_name,transaction_id id,const NanTCARequest & msg)1261 wifi_error WifiLegacyHal::nanTcaRequest(const std::string& iface_name,
1262 transaction_id id,
1263 const NanTCARequest& msg) {
1264 NanTCARequest msg_internal(msg);
1265 return global_func_table_.wifi_nan_tca_request(
1266 id, getIfaceHandle(iface_name), &msg_internal);
1267 }
1268
nanBeaconSdfPayloadRequest(const std::string & iface_name,transaction_id id,const NanBeaconSdfPayloadRequest & msg)1269 wifi_error WifiLegacyHal::nanBeaconSdfPayloadRequest(
1270 const std::string& iface_name, transaction_id id,
1271 const NanBeaconSdfPayloadRequest& msg) {
1272 NanBeaconSdfPayloadRequest msg_internal(msg);
1273 return global_func_table_.wifi_nan_beacon_sdf_payload_request(
1274 id, getIfaceHandle(iface_name), &msg_internal);
1275 }
1276
nanGetVersion()1277 std::pair<wifi_error, NanVersion> WifiLegacyHal::nanGetVersion() {
1278 NanVersion version;
1279 wifi_error status =
1280 global_func_table_.wifi_nan_get_version(global_handle_, &version);
1281 return {status, version};
1282 }
1283
nanGetCapabilities(const std::string & iface_name,transaction_id id)1284 wifi_error WifiLegacyHal::nanGetCapabilities(const std::string& iface_name,
1285 transaction_id id) {
1286 return global_func_table_.wifi_nan_get_capabilities(
1287 id, getIfaceHandle(iface_name));
1288 }
1289
nanDataInterfaceCreate(const std::string & iface_name,transaction_id id,const std::string & data_iface_name)1290 wifi_error WifiLegacyHal::nanDataInterfaceCreate(
1291 const std::string& iface_name, transaction_id id,
1292 const std::string& data_iface_name) {
1293 return global_func_table_.wifi_nan_data_interface_create(
1294 id, getIfaceHandle(iface_name), makeCharVec(data_iface_name).data());
1295 }
1296
nanDataInterfaceDelete(const std::string & iface_name,transaction_id id,const std::string & data_iface_name)1297 wifi_error WifiLegacyHal::nanDataInterfaceDelete(
1298 const std::string& iface_name, transaction_id id,
1299 const std::string& data_iface_name) {
1300 return global_func_table_.wifi_nan_data_interface_delete(
1301 id, getIfaceHandle(iface_name), makeCharVec(data_iface_name).data());
1302 }
1303
nanDataRequestInitiator(const std::string & iface_name,transaction_id id,const NanDataPathInitiatorRequest & msg)1304 wifi_error WifiLegacyHal::nanDataRequestInitiator(
1305 const std::string& iface_name, transaction_id id,
1306 const NanDataPathInitiatorRequest& msg) {
1307 NanDataPathInitiatorRequest msg_internal(msg);
1308 return global_func_table_.wifi_nan_data_request_initiator(
1309 id, getIfaceHandle(iface_name), &msg_internal);
1310 }
1311
nanDataIndicationResponse(const std::string & iface_name,transaction_id id,const NanDataPathIndicationResponse & msg)1312 wifi_error WifiLegacyHal::nanDataIndicationResponse(
1313 const std::string& iface_name, transaction_id id,
1314 const NanDataPathIndicationResponse& msg) {
1315 NanDataPathIndicationResponse msg_internal(msg);
1316 return global_func_table_.wifi_nan_data_indication_response(
1317 id, getIfaceHandle(iface_name), &msg_internal);
1318 }
1319
1320 typedef struct {
1321 u8 num_ndp_instances;
1322 NanDataPathId ndp_instance_id;
1323 } NanDataPathEndSingleNdpIdRequest;
1324
nanDataEnd(const std::string & iface_name,transaction_id id,uint32_t ndpInstanceId)1325 wifi_error WifiLegacyHal::nanDataEnd(const std::string& iface_name,
1326 transaction_id id,
1327 uint32_t ndpInstanceId) {
1328 NanDataPathEndSingleNdpIdRequest msg;
1329 msg.num_ndp_instances = 1;
1330 msg.ndp_instance_id = ndpInstanceId;
1331 wifi_error status = global_func_table_.wifi_nan_data_end(
1332 id, getIfaceHandle(iface_name), (NanDataPathEndRequest*)&msg);
1333 return status;
1334 }
1335
setCountryCode(const std::string & iface_name,std::array<int8_t,2> code)1336 wifi_error WifiLegacyHal::setCountryCode(const std::string& iface_name,
1337 std::array<int8_t, 2> code) {
1338 std::string code_str(code.data(), code.data() + code.size());
1339 return global_func_table_.wifi_set_country_code(getIfaceHandle(iface_name),
1340 code_str.c_str());
1341 }
1342
retrieveIfaceHandles()1343 wifi_error WifiLegacyHal::retrieveIfaceHandles() {
1344 wifi_interface_handle* iface_handles = nullptr;
1345 int num_iface_handles = 0;
1346 wifi_error status = global_func_table_.wifi_get_ifaces(
1347 global_handle_, &num_iface_handles, &iface_handles);
1348 if (status != WIFI_SUCCESS) {
1349 LOG(ERROR) << "Failed to enumerate interface handles";
1350 return status;
1351 }
1352 for (int i = 0; i < num_iface_handles; ++i) {
1353 std::array<char, IFNAMSIZ> iface_name_arr = {};
1354 status = global_func_table_.wifi_get_iface_name(
1355 iface_handles[i], iface_name_arr.data(), iface_name_arr.size());
1356 if (status != WIFI_SUCCESS) {
1357 LOG(WARNING) << "Failed to get interface handle name";
1358 continue;
1359 }
1360 // Assuming the interface name is null terminated since the legacy HAL
1361 // API does not return a size.
1362 std::string iface_name(iface_name_arr.data());
1363 LOG(INFO) << "Adding interface handle for " << iface_name;
1364 iface_name_to_handle_[iface_name] = iface_handles[i];
1365 }
1366 return WIFI_SUCCESS;
1367 }
1368
getIfaceHandle(const std::string & iface_name)1369 wifi_interface_handle WifiLegacyHal::getIfaceHandle(
1370 const std::string& iface_name) {
1371 const auto iface_handle_iter = iface_name_to_handle_.find(iface_name);
1372 if (iface_handle_iter == iface_name_to_handle_.end()) {
1373 LOG(ERROR) << "Unknown iface name: " << iface_name;
1374 return nullptr;
1375 }
1376 return iface_handle_iter->second;
1377 }
1378
runEventLoop()1379 void WifiLegacyHal::runEventLoop() {
1380 LOG(DEBUG) << "Starting legacy HAL event loop";
1381 global_func_table_.wifi_event_loop(global_handle_);
1382 const auto lock = hidl_sync_util::acquireGlobalLock();
1383 if (!awaiting_event_loop_termination_) {
1384 LOG(FATAL)
1385 << "Legacy HAL event loop terminated, but HAL was not stopping";
1386 }
1387 LOG(DEBUG) << "Legacy HAL event loop terminated";
1388 awaiting_event_loop_termination_ = false;
1389 stop_wait_cv_.notify_one();
1390 }
1391
1392 std::pair<wifi_error, std::vector<wifi_cached_scan_results>>
getGscanCachedResults(const std::string & iface_name)1393 WifiLegacyHal::getGscanCachedResults(const std::string& iface_name) {
1394 std::vector<wifi_cached_scan_results> cached_scan_results;
1395 cached_scan_results.resize(kMaxCachedGscanResults);
1396 int32_t num_results = 0;
1397 wifi_error status = global_func_table_.wifi_get_cached_gscan_results(
1398 getIfaceHandle(iface_name), true /* always flush */,
1399 cached_scan_results.size(), cached_scan_results.data(), &num_results);
1400 CHECK(num_results >= 0 &&
1401 static_cast<uint32_t>(num_results) <= kMaxCachedGscanResults);
1402 cached_scan_results.resize(num_results);
1403 // Check for invalid IE lengths in these cached scan results and correct it.
1404 for (auto& cached_scan_result : cached_scan_results) {
1405 int num_scan_results = cached_scan_result.num_results;
1406 for (int i = 0; i < num_scan_results; i++) {
1407 auto& scan_result = cached_scan_result.results[i];
1408 if (scan_result.ie_length > 0) {
1409 LOG(DEBUG) << "Cached scan result has non-zero IE length "
1410 << scan_result.ie_length;
1411 scan_result.ie_length = 0;
1412 }
1413 }
1414 }
1415 return {status, std::move(cached_scan_results)};
1416 }
1417
invalidate()1418 void WifiLegacyHal::invalidate() {
1419 global_handle_ = nullptr;
1420 iface_name_to_handle_.clear();
1421 on_driver_memory_dump_internal_callback = nullptr;
1422 on_firmware_memory_dump_internal_callback = nullptr;
1423 on_gscan_event_internal_callback = nullptr;
1424 on_gscan_full_result_internal_callback = nullptr;
1425 on_link_layer_stats_result_internal_callback = nullptr;
1426 on_rssi_threshold_breached_internal_callback = nullptr;
1427 on_ring_buffer_data_internal_callback = nullptr;
1428 on_error_alert_internal_callback = nullptr;
1429 on_radio_mode_change_internal_callback = nullptr;
1430 on_rtt_results_internal_callback = nullptr;
1431 on_nan_notify_response_user_callback = nullptr;
1432 on_nan_event_publish_terminated_user_callback = nullptr;
1433 on_nan_event_match_user_callback = nullptr;
1434 on_nan_event_match_expired_user_callback = nullptr;
1435 on_nan_event_subscribe_terminated_user_callback = nullptr;
1436 on_nan_event_followup_user_callback = nullptr;
1437 on_nan_event_disc_eng_event_user_callback = nullptr;
1438 on_nan_event_disabled_user_callback = nullptr;
1439 on_nan_event_tca_user_callback = nullptr;
1440 on_nan_event_beacon_sdf_payload_user_callback = nullptr;
1441 on_nan_event_data_path_request_user_callback = nullptr;
1442 on_nan_event_data_path_confirm_user_callback = nullptr;
1443 on_nan_event_data_path_end_user_callback = nullptr;
1444 on_nan_event_transmit_follow_up_user_callback = nullptr;
1445 on_nan_event_range_request_user_callback = nullptr;
1446 on_nan_event_range_report_user_callback = nullptr;
1447 on_nan_event_schedule_update_user_callback = nullptr;
1448 }
1449
1450 } // namespace legacy_hal
1451 } // namespace implementation
1452 } // namespace V1_3
1453 } // namespace wifi
1454 } // namespace hardware
1455 } // namespace android
1456