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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 "wificond/scanning/scanner_impl.h"
18 
19 #include <set>
20 #include <string>
21 #include <vector>
22 
23 #include <android-base/logging.h>
24 
25 #include "wificond/client_interface_impl.h"
26 #include "wificond/scanning/scan_utils.h"
27 
28 using android::binder::Status;
29 using android::sp;
30 using android::net::wifi::nl80211::IPnoScanEvent;
31 using android::net::wifi::nl80211::IScanEvent;
32 using android::net::wifi::nl80211::IWifiScannerImpl;
33 using android::net::wifi::nl80211::NativeScanResult;
34 using android::net::wifi::nl80211::PnoSettings;
35 using android::net::wifi::nl80211::SingleScanSettings;
36 
37 using std::string;
38 using std::vector;
39 using std::weak_ptr;
40 using std::shared_ptr;
41 
42 using namespace std::placeholders;
43 
44 namespace {
45 using android::wificond::WiphyFeatures;
IsScanTypeSupported(int scan_type,const WiphyFeatures & wiphy_features)46 bool IsScanTypeSupported(int scan_type, const WiphyFeatures& wiphy_features) {
47   switch(scan_type) {
48     case IWifiScannerImpl::SCAN_TYPE_LOW_SPAN:
49       return wiphy_features.supports_low_span_oneshot_scan;
50     case IWifiScannerImpl::SCAN_TYPE_LOW_POWER:
51       return wiphy_features.supports_low_power_oneshot_scan;
52     case IWifiScannerImpl::SCAN_TYPE_HIGH_ACCURACY:
53       return wiphy_features.supports_high_accuracy_oneshot_scan;
54     default:
55       CHECK(0) << "Invalid scan type received: " << scan_type;
56   }
57   return {};
58 }
59 
60 constexpr const int kPercentNetworksWithFreq = 30;
61 constexpr const int32_t kPnoScanDefaultFreqs2G[] = {2412, 2417, 2422, 2427, 2432, 2437, 2447, 2452,
62     2457, 2462};
63 constexpr const int32_t kPnoScanDefaultFreqs5G[] = {5180, 5200, 5220, 5240, 5745, 5765, 5785, 5805};
64 } // namespace
65 
66 namespace android {
67 namespace wificond {
68 
ScannerImpl(uint32_t interface_index,const ScanCapabilities & scan_capabilities,const WiphyFeatures & wiphy_features,ClientInterfaceImpl * client_interface,ScanUtils * scan_utils)69 ScannerImpl::ScannerImpl(uint32_t interface_index,
70                          const ScanCapabilities& scan_capabilities,
71                          const WiphyFeatures& wiphy_features,
72                          ClientInterfaceImpl* client_interface,
73                          ScanUtils* scan_utils)
74     : valid_(true),
75       scan_started_(false),
76       pno_scan_started_(false),
77       nodev_counter_(0),
78       interface_index_(interface_index),
79       scan_capabilities_(scan_capabilities),
80       wiphy_features_(wiphy_features),
81       client_interface_(client_interface),
82       scan_utils_(scan_utils),
83       scan_event_handler_(nullptr) {
84   // Subscribe one-shot scan result notification from kernel.
85   LOG(INFO) << "subscribe scan result for interface with index: "
86             << (int)interface_index_;
87   scan_utils_->SubscribeScanResultNotification(
88       interface_index_,
89       std::bind(&ScannerImpl::OnScanResultsReady, this, _1, _2, _3, _4));
90   // Subscribe scheduled scan result notification from kernel.
91   scan_utils_->SubscribeSchedScanResultNotification(
92       interface_index_,
93       std::bind(&ScannerImpl::OnSchedScanResultsReady,
94                 this,
95                 _1, _2));
96 }
97 
~ScannerImpl()98 ScannerImpl::~ScannerImpl() {}
99 
Invalidate()100 void ScannerImpl::Invalidate() {
101   LOG(INFO) << "Unsubscribe scan result for interface with index: "
102             << (int)interface_index_;
103   scan_utils_->UnsubscribeScanResultNotification(interface_index_);
104   scan_utils_->UnsubscribeSchedScanResultNotification(interface_index_);
105   valid_ = false;
106 }
107 
CheckIsValid()108 bool ScannerImpl::CheckIsValid() {
109   if (!valid_) {
110     LOG(DEBUG) << "Calling on a invalid scanner object."
111                << "Underlying client interface object was destroyed.";
112   }
113   return valid_;
114 }
115 
getScanResults(vector<NativeScanResult> * out_scan_results)116 Status ScannerImpl::getScanResults(vector<NativeScanResult>* out_scan_results) {
117   if (!CheckIsValid()) {
118     return Status::ok();
119   }
120   if (!scan_utils_->GetScanResult(interface_index_, out_scan_results)) {
121     LOG(ERROR) << "Failed to get scan results via NL80211";
122   }
123   return Status::ok();
124 }
125 
getPnoScanResults(vector<NativeScanResult> * out_scan_results)126 Status ScannerImpl::getPnoScanResults(
127     vector<NativeScanResult>* out_scan_results) {
128   if (!CheckIsValid()) {
129     return Status::ok();
130   }
131   if (!scan_utils_->GetScanResult(interface_index_, out_scan_results)) {
132     LOG(ERROR) << "Failed to get scan results via NL80211";
133   }
134   return Status::ok();
135 }
136 
scan(const SingleScanSettings & scan_settings,bool * out_success)137 Status ScannerImpl::scan(const SingleScanSettings& scan_settings,
138                          bool* out_success) {
139   if (!CheckIsValid()) {
140     *out_success = false;
141     return Status::ok();
142   }
143 
144   if (scan_started_) {
145     LOG(WARNING) << "Scan already started";
146   }
147   // Only request MAC address randomization when station is not associated.
148   bool request_random_mac =
149       wiphy_features_.supports_random_mac_oneshot_scan &&
150       !client_interface_->IsAssociated();
151   int scan_type = scan_settings.scan_type_;
152   if (!IsScanTypeSupported(scan_settings.scan_type_, wiphy_features_)) {
153     LOG(DEBUG) << "Ignoring scan type because device does not support it";
154     scan_type = SCAN_TYPE_DEFAULT;
155   }
156 
157   // Initialize it with an empty ssid for a wild card scan.
158   vector<vector<uint8_t>> ssids = {{}};
159 
160   vector<vector<uint8_t>> skipped_scan_ssids;
161   vector<vector<uint8_t>> skipped_long_ssids;
162   for (auto& network : scan_settings.hidden_networks_) {
163     if (ssids.size() + 1 > scan_capabilities_.max_num_scan_ssids) {
164       skipped_scan_ssids.emplace_back(network.ssid_);
165       continue;
166     }
167     if (network.ssid_.size() > 32) {
168         skipped_long_ssids.emplace_back(network.ssid_);
169         continue;
170     }
171     ssids.push_back(network.ssid_);
172   }
173 
174   LogSsidList(skipped_scan_ssids, "Skip scan ssid for single scan");
175   LogSsidList(skipped_long_ssids, "Skip too long ssid");
176 
177   vector<uint32_t> freqs;
178   for (auto& channel : scan_settings.channel_settings_) {
179     freqs.push_back(channel.frequency_);
180   }
181 
182   int error_code = 0;
183   if (!scan_utils_->Scan(interface_index_, request_random_mac, scan_type,
184                          scan_settings.enable_6ghz_rnr_, ssids, freqs, &error_code)) {
185     if (error_code == ENODEV) {
186         nodev_counter_ ++;
187         LOG(WARNING) << "Scan failed with error=nodev. counter=" << nodev_counter_;
188     }
189     CHECK(error_code != ENODEV || nodev_counter_ <= 3)
190         << "Driver is in a bad state, restarting wificond";
191     *out_success = false;
192     return Status::ok();
193   }
194   nodev_counter_ = 0;
195   scan_started_ = true;
196   *out_success = true;
197   return Status::ok();
198 }
199 
startPnoScan(const PnoSettings & pno_settings,bool * out_success)200 Status ScannerImpl::startPnoScan(const PnoSettings& pno_settings,
201                                  bool* out_success) {
202   pno_settings_ = pno_settings;
203   LOG(VERBOSE) << "startPnoScan";
204   *out_success = StartPnoScanDefault(pno_settings);
205   return Status::ok();
206 }
207 
ParsePnoSettings(const PnoSettings & pno_settings,vector<vector<uint8_t>> * scan_ssids,vector<vector<uint8_t>> * match_ssids,vector<uint32_t> * freqs,vector<uint8_t> * match_security)208 void ScannerImpl::ParsePnoSettings(const PnoSettings& pno_settings,
209                                    vector<vector<uint8_t>>* scan_ssids,
210                                    vector<vector<uint8_t>>* match_ssids,
211                                    vector<uint32_t>* freqs,
212                                    vector<uint8_t>* match_security) {
213   // TODO provide actionable security match parameters
214   const uint8_t kNetworkFlagsDefault = 0;
215   vector<vector<uint8_t>> skipped_scan_ssids;
216   vector<vector<uint8_t>> skipped_match_ssids;
217   std::set<int32_t> unique_frequencies;
218   int num_networks_no_freqs = 0;
219   for (auto& network : pno_settings.pno_networks_) {
220     // Add hidden network ssid.
221     if (network.is_hidden_) {
222       if (scan_ssids->size() + 1 >
223           scan_capabilities_.max_num_sched_scan_ssids) {
224         skipped_scan_ssids.emplace_back(network.ssid_);
225         continue;
226       }
227       scan_ssids->push_back(network.ssid_);
228     }
229 
230     if (match_ssids->size() + 1 > scan_capabilities_.max_match_sets) {
231       skipped_match_ssids.emplace_back(network.ssid_);
232       continue;
233     }
234     match_ssids->push_back(network.ssid_);
235     match_security->push_back(kNetworkFlagsDefault);
236 
237     // build the set of unique frequencies to scan for.
238     for (const auto& frequency : network.frequencies_) {
239       unique_frequencies.insert(frequency);
240     }
241     if (network.frequencies_.empty()) {
242       num_networks_no_freqs++;
243     }
244   }
245 
246   // Also scan the default frequencies if there is frequency data passed down but more than 30% of
247   // networks don't have frequency data.
248   if (unique_frequencies.size() > 0 && num_networks_no_freqs * 100 / match_ssids->size()
249       > kPercentNetworksWithFreq) {
250     // Filter out frequencies not supported by chip.
251     const auto band_2g = client_interface_->GetBandInfo().band_2g;
252     for (const auto frequency : kPnoScanDefaultFreqs2G) {
253       if (std::find(band_2g.begin(), band_2g.end(), frequency) != band_2g.end()) {
254         unique_frequencies.insert(frequency);
255       }
256     }
257     // Note: kPnoScanDefaultFreqs5G doesn't contain DFS frequencies.
258     const auto band_5g = client_interface_->GetBandInfo().band_5g;
259     for (const auto frequency : kPnoScanDefaultFreqs5G) {
260       if (std::find(band_5g.begin(), band_5g.end(), frequency) != band_5g.end()) {
261         unique_frequencies.insert(frequency);
262       }
263     }
264   }
265   for (const auto& frequency : unique_frequencies) {
266     freqs->push_back(frequency);
267   }
268   LogSsidList(skipped_scan_ssids, "Skip scan ssid for pno scan");
269   LogSsidList(skipped_match_ssids, "Skip match ssid for pno scan");
270 }
271 
StartPnoScanDefault(const PnoSettings & pno_settings)272 bool ScannerImpl::StartPnoScanDefault(const PnoSettings& pno_settings) {
273   if (!CheckIsValid()) {
274     return false;
275   }
276   if (pno_scan_started_) {
277     LOG(WARNING) << "Pno scan already started";
278   }
279   // An empty ssid for a wild card scan.
280   vector<vector<uint8_t>> scan_ssids = {{}};
281   vector<vector<uint8_t>> match_ssids;
282   vector<uint8_t> unused;
283   // Empty frequency list: scan all frequencies.
284   vector<uint32_t> freqs;
285 
286   ParsePnoSettings(pno_settings, &scan_ssids, &match_ssids, &freqs, &unused);
287   // Only request MAC address randomization when station is not associated.
288   bool request_random_mac = wiphy_features_.supports_random_mac_sched_scan &&
289       !client_interface_->IsAssociated();
290   // Always request a low power scan for PNO, if device supports it.
291   bool request_low_power = wiphy_features_.supports_low_power_oneshot_scan;
292 
293   bool request_sched_scan_relative_rssi = wiphy_features_.supports_ext_sched_scan_relative_rssi;
294 
295   int error_code = 0;
296   struct SchedScanReqFlags req_flags = {};
297   req_flags.request_random_mac = request_random_mac;
298   req_flags.request_low_power = request_low_power;
299   req_flags.request_sched_scan_relative_rssi = request_sched_scan_relative_rssi;
300   if (!scan_utils_->StartScheduledScan(interface_index_,
301                                        GenerateIntervalSetting(pno_settings),
302                                        pno_settings.min_2g_rssi_,
303                                        pno_settings.min_5g_rssi_,
304                                        pno_settings.min_6g_rssi_,
305                                        req_flags,
306                                        scan_ssids,
307                                        match_ssids,
308                                        freqs,
309                                        &error_code)) {
310     if (error_code == ENODEV) {
311         nodev_counter_ ++;
312         LOG(WARNING) << "Pno Scan failed with error=nodev. counter=" << nodev_counter_;
313     }
314     LOG(ERROR) << "Failed to start pno scan";
315     CHECK(error_code != ENODEV || nodev_counter_ <= 3)
316         << "Driver is in a bad state, restarting wificond";
317     return false;
318   }
319   string freq_string;
320   if (freqs.empty()) {
321     freq_string = "for all supported frequencies";
322   } else {
323     freq_string = "for frequencies: ";
324     for (uint32_t f : freqs) {
325       freq_string += std::to_string(f) + ", ";
326     }
327   }
328   LOG(INFO) << "Pno scan started " << freq_string;
329   nodev_counter_ = 0;
330   pno_scan_started_ = true;
331   return true;
332 }
333 
stopPnoScan(bool * out_success)334 Status ScannerImpl::stopPnoScan(bool* out_success) {
335   *out_success = StopPnoScanDefault();
336   return Status::ok();
337 }
338 
StopPnoScanDefault()339 bool ScannerImpl::StopPnoScanDefault() {
340   if (!CheckIsValid()) {
341     return false;
342   }
343 
344   if (!pno_scan_started_) {
345     LOG(WARNING) << "No pno scan started";
346   }
347   if (!scan_utils_->StopScheduledScan(interface_index_)) {
348     return false;
349   }
350   LOG(INFO) << "Pno scan stopped";
351   pno_scan_started_ = false;
352   return true;
353 }
354 
abortScan()355 Status ScannerImpl::abortScan() {
356   if (!CheckIsValid()) {
357     return Status::ok();
358   }
359 
360   if (!scan_started_) {
361     LOG(WARNING) << "Scan is not started. Ignore abort request";
362     return Status::ok();
363   }
364   if (!scan_utils_->AbortScan(interface_index_)) {
365     LOG(WARNING) << "Abort scan failed";
366   }
367   return Status::ok();
368 }
369 
subscribeScanEvents(const sp<IScanEvent> & handler)370 Status ScannerImpl::subscribeScanEvents(const sp<IScanEvent>& handler) {
371   if (!CheckIsValid()) {
372     return Status::ok();
373   }
374 
375   if (scan_event_handler_ != nullptr) {
376     LOG(ERROR) << "Found existing scan events subscriber."
377                << " This subscription request will unsubscribe it";
378   }
379   scan_event_handler_ = handler;
380   return Status::ok();
381 }
382 
unsubscribeScanEvents()383 Status ScannerImpl::unsubscribeScanEvents() {
384   scan_event_handler_ = nullptr;
385   return Status::ok();
386 }
387 
subscribePnoScanEvents(const sp<IPnoScanEvent> & handler)388 Status ScannerImpl::subscribePnoScanEvents(const sp<IPnoScanEvent>& handler) {
389   if (!CheckIsValid()) {
390     return Status::ok();
391   }
392 
393   if (pno_scan_event_handler_ != nullptr) {
394     LOG(ERROR) << "Found existing pno scan events subscriber."
395                << " This subscription request will unsubscribe it";
396   }
397   pno_scan_event_handler_ = handler;
398 
399   return Status::ok();
400 }
401 
unsubscribePnoScanEvents()402 Status ScannerImpl::unsubscribePnoScanEvents() {
403   pno_scan_event_handler_ = nullptr;
404   return Status::ok();
405 }
406 
OnScanResultsReady(uint32_t interface_index,bool aborted,vector<vector<uint8_t>> & ssids,vector<uint32_t> & frequencies)407 void ScannerImpl::OnScanResultsReady(uint32_t interface_index, bool aborted,
408                                      vector<vector<uint8_t>>& ssids,
409                                      vector<uint32_t>& frequencies) {
410   if (!scan_started_) {
411     LOG(INFO) << "Received external scan result notification from kernel.";
412   }
413   scan_started_ = false;
414   if (scan_event_handler_ != nullptr) {
415     // TODO: Pass other parameters back once we find framework needs them.
416     if (aborted) {
417       LOG(WARNING) << "Scan aborted";
418       scan_event_handler_->OnScanFailed();
419     } else {
420       scan_event_handler_->OnScanResultReady();
421     }
422   } else {
423     LOG(WARNING) << "No scan event handler found.";
424   }
425 }
426 
OnSchedScanResultsReady(uint32_t interface_index,bool scan_stopped)427 void ScannerImpl::OnSchedScanResultsReady(uint32_t interface_index,
428                                           bool scan_stopped) {
429   if (pno_scan_event_handler_ != nullptr) {
430     if (scan_stopped) {
431       // If |pno_scan_started_| is false.
432       // This stop notification might result from our own request.
433       // See the document for NL80211_CMD_SCHED_SCAN_STOPPED in nl80211.h.
434       if (pno_scan_started_) {
435         LOG(WARNING) << "Unexpected pno scan stopped event";
436         pno_scan_event_handler_->OnPnoScanFailed();
437       }
438       pno_scan_started_ = false;
439     } else {
440       LOG(INFO) << "Pno scan result ready event";
441       pno_scan_event_handler_->OnPnoNetworkFound();
442     }
443   }
444 }
445 
GenerateIntervalSetting(const android::net::wifi::nl80211::PnoSettings & pno_settings) const446 SchedScanIntervalSetting ScannerImpl::GenerateIntervalSetting(
447     const android::net::wifi::nl80211::PnoSettings&
448         pno_settings) const {
449   bool support_num_scan_plans = scan_capabilities_.max_num_scan_plans >= 2;
450   bool support_scan_plan_interval =
451       scan_capabilities_.max_scan_plan_interval * 1000 >=
452           pno_settings.interval_ms_ * PnoSettings::kSlowScanIntervalMultiplier;
453   bool support_scan_plan_iterations =
454       scan_capabilities_.max_scan_plan_iterations >=
455                   PnoSettings::kFastScanIterations;
456 
457   uint32_t fast_scan_interval =
458       static_cast<uint32_t>(pno_settings.interval_ms_);
459   if (support_num_scan_plans && support_scan_plan_interval &&
460       support_scan_plan_iterations) {
461     return SchedScanIntervalSetting{
462         {{fast_scan_interval, PnoSettings::kFastScanIterations}},
463         fast_scan_interval * PnoSettings::kSlowScanIntervalMultiplier};
464   } else {
465     // Device doesn't support the provided scan plans.
466     // Specify single interval instead.
467     // In this case, the driver/firmware is expected to implement back off
468     // logic internally using |pno_settings.interval_ms_| as "fast scan"
469     // interval.
470     return SchedScanIntervalSetting{{}, fast_scan_interval};
471   }
472 }
473 
LogSsidList(vector<vector<uint8_t>> & ssid_list,string prefix)474 void ScannerImpl::LogSsidList(vector<vector<uint8_t>>& ssid_list,
475                               string prefix) {
476   if (ssid_list.empty()) {
477     return;
478   }
479   string ssid_list_string;
480   for (auto& ssid : ssid_list) {
481     ssid_list_string += string(ssid.begin(), ssid.end());
482     if (&ssid != &ssid_list.back()) {
483       ssid_list_string += ", ";
484     }
485   }
486   LOG(WARNING) << prefix << ": " << ssid_list_string;
487 }
488 
489 }  // namespace wificond
490 }  // namespace android
491