1 /*
2  * Copyright (C) 2008 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 package com.android.server.wifi;
18 
19 import android.net.NetworkInfo;
20 import android.net.wifi.SupplicantState;
21 import android.net.wifi.WifiEnterpriseConfig;
22 import android.net.wifi.WifiManager;
23 import android.net.wifi.WifiSsid;
24 import android.net.wifi.p2p.WifiP2pConfig;
25 import android.net.wifi.p2p.WifiP2pDevice;
26 import android.net.wifi.p2p.WifiP2pGroup;
27 import android.net.wifi.p2p.WifiP2pProvDiscEvent;
28 import android.net.wifi.p2p.nsd.WifiP2pServiceResponse;
29 import android.os.Message;
30 import android.text.TextUtils;
31 import android.util.LocalLog;
32 import android.util.Log;
33 
34 import com.android.server.wifi.hotspot2.Utils;
35 import com.android.server.wifi.p2p.WifiP2pServiceImpl.P2pStatus;
36 
37 import com.android.internal.util.Protocol;
38 import com.android.internal.util.StateMachine;
39 
40 import java.util.HashMap;
41 import java.util.List;
42 import java.util.regex.Matcher;
43 import java.util.regex.Pattern;
44 
45 /**
46  * Listens for events from the wpa_supplicant server, and passes them on
47  * to the {@link StateMachine} for handling. Runs in its own thread.
48  *
49  * @hide
50  */
51 public class WifiMonitor {
52 
53     private static boolean DBG = false;
54     private static final boolean VDBG = false;
55     private static final String TAG = "WifiMonitor";
56 
57     /** Events we receive from the supplicant daemon */
58 
59     private static final int CONNECTED    = 1;
60     private static final int DISCONNECTED = 2;
61     private static final int STATE_CHANGE = 3;
62     private static final int SCAN_RESULTS = 4;
63     private static final int LINK_SPEED   = 5;
64     private static final int TERMINATING  = 6;
65     private static final int DRIVER_STATE = 7;
66     private static final int EAP_FAILURE  = 8;
67     private static final int ASSOC_REJECT = 9;
68     private static final int SSID_TEMP_DISABLE = 10;
69     private static final int SSID_REENABLE = 11;
70     private static final int BSS_ADDED    = 12;
71     private static final int BSS_REMOVED  = 13;
72     private static final int UNKNOWN      = 14;
73     private static final int SCAN_FAILED  = 15;
74 
75     /** All events coming from the supplicant start with this prefix */
76     private static final String EVENT_PREFIX_STR = "CTRL-EVENT-";
77     private static final int EVENT_PREFIX_LEN_STR = EVENT_PREFIX_STR.length();
78 
79     /** All events coming from the supplicant start with this prefix */
80     private static final String REQUEST_PREFIX_STR = "CTRL-REQ-";
81     private static final int REQUEST_PREFIX_LEN_STR = REQUEST_PREFIX_STR.length();
82 
83 
84     /** All WPA events coming from the supplicant start with this prefix */
85     private static final String WPA_EVENT_PREFIX_STR = "WPA:";
86     private static final String PASSWORD_MAY_BE_INCORRECT_STR =
87        "pre-shared key may be incorrect";
88 
89     /* WPS events */
90     private static final String WPS_SUCCESS_STR = "WPS-SUCCESS";
91 
92     /* Format: WPS-FAIL msg=%d [config_error=%d] [reason=%d (%s)] */
93     private static final String WPS_FAIL_STR    = "WPS-FAIL";
94     private static final String WPS_FAIL_PATTERN =
95             "WPS-FAIL msg=\\d+(?: config_error=(\\d+))?(?: reason=(\\d+))?";
96 
97     /* config error code values for config_error=%d */
98     private static final int CONFIG_MULTIPLE_PBC_DETECTED = 12;
99     private static final int CONFIG_AUTH_FAILURE = 18;
100 
101     /* reason code values for reason=%d */
102     private static final int REASON_TKIP_ONLY_PROHIBITED = 1;
103     private static final int REASON_WEP_PROHIBITED = 2;
104 
105     private static final String WPS_OVERLAP_STR = "WPS-OVERLAP-DETECTED";
106     private static final String WPS_TIMEOUT_STR = "WPS-TIMEOUT";
107 
108     /* Hotspot 2.0 ANQP query events */
109     private static final String GAS_QUERY_PREFIX_STR = "GAS-QUERY-";
110     private static final String GAS_QUERY_START_STR = "GAS-QUERY-START";
111     private static final String GAS_QUERY_DONE_STR = "GAS-QUERY-DONE";
112     private static final String RX_HS20_ANQP_ICON_STR = "RX-HS20-ANQP-ICON";
113     private static final int RX_HS20_ANQP_ICON_STR_LEN = RX_HS20_ANQP_ICON_STR.length();
114 
115     /* Hotspot 2.0 events */
116     private static final String HS20_PREFIX_STR = "HS20-";
117     private static final String HS20_SUB_REM_STR = "HS20-SUBSCRIPTION-REMEDIATION";
118     private static final String HS20_DEAUTH_STR = "HS20-DEAUTH-IMMINENT-NOTICE";
119 
120     private static final String IDENTITY_STR = "IDENTITY";
121 
122     private static final String SIM_STR = "SIM";
123 
124 
125     //used to debug and detect if we miss an event
126     private static int eventLogCounter = 0;
127 
128     /**
129      * Names of events from wpa_supplicant (minus the prefix). In the
130      * format descriptions, * &quot;<code>x</code>&quot;
131      * designates a dynamic value that needs to be parsed out from the event
132      * string
133      */
134     /**
135      * <pre>
136      * CTRL-EVENT-CONNECTED - Connection to xx:xx:xx:xx:xx:xx completed
137      * </pre>
138      * <code>xx:xx:xx:xx:xx:xx</code> is the BSSID of the associated access point
139      */
140     private static final String CONNECTED_STR =    "CONNECTED";
141     /**
142      * <pre>
143      * CTRL-EVENT-DISCONNECTED - Disconnect event - remove keys
144      * </pre>
145      */
146     private static final String DISCONNECTED_STR = "DISCONNECTED";
147     /**
148      * <pre>
149      * CTRL-EVENT-STATE-CHANGE x
150      * </pre>
151      * <code>x</code> is the numerical value of the new state.
152      */
153     private static final String STATE_CHANGE_STR =  "STATE-CHANGE";
154     /**
155      * <pre>
156      * CTRL-EVENT-SCAN-RESULTS ready
157      * </pre>
158      */
159     private static final String SCAN_RESULTS_STR =  "SCAN-RESULTS";
160 
161     /**
162      * <pre>
163      * CTRL-EVENT-SCAN-FAILED ret=code[ retry=1]
164      * </pre>
165      */
166     private static final String SCAN_FAILED_STR =  "SCAN-FAILED";
167 
168     /**
169      * <pre>
170      * CTRL-EVENT-LINK-SPEED x Mb/s
171      * </pre>
172      * {@code x} is the link speed in Mb/sec.
173      */
174     private static final String LINK_SPEED_STR = "LINK-SPEED";
175     /**
176      * <pre>
177      * CTRL-EVENT-TERMINATING - signal x
178      * </pre>
179      * <code>x</code> is the signal that caused termination.
180      */
181     private static final String TERMINATING_STR =  "TERMINATING";
182     /**
183      * <pre>
184      * CTRL-EVENT-DRIVER-STATE state
185      * </pre>
186      * <code>state</code> can be HANGED
187      */
188     private static final String DRIVER_STATE_STR = "DRIVER-STATE";
189     /**
190      * <pre>
191      * CTRL-EVENT-EAP-FAILURE EAP authentication failed
192      * </pre>
193      */
194     private static final String EAP_FAILURE_STR = "EAP-FAILURE";
195 
196     /**
197      * This indicates an authentication failure on EAP FAILURE event
198      */
199     private static final String EAP_AUTH_FAILURE_STR = "EAP authentication failed";
200 
201     /* EAP authentication timeout events */
202     private static final String AUTH_EVENT_PREFIX_STR = "Authentication with";
203     private static final String AUTH_TIMEOUT_STR = "timed out.";
204 
205     /**
206      * This indicates an assoc reject event
207      */
208     private static final String ASSOC_REJECT_STR = "ASSOC-REJECT";
209 
210     /**
211      * This indicates auth or association failure bad enough so as network got disabled
212      * - WPA_PSK auth failure suspecting shared key mismatch
213      * - failed multiple Associations
214      */
215     private static final String TEMP_DISABLED_STR = "SSID-TEMP-DISABLED";
216 
217     /**
218      * This indicates a previously disabled SSID was reenabled by supplicant
219      */
220     private static final String REENABLED_STR = "SSID-REENABLED";
221 
222     /**
223      * This indicates supplicant found a given BSS
224      */
225     private static final String BSS_ADDED_STR = "BSS-ADDED";
226 
227     /**
228      * This indicates supplicant removed a given BSS
229      */
230     private static final String BSS_REMOVED_STR = "BSS-REMOVED";
231 
232     /**
233      * Regex pattern for extracting an Ethernet-style MAC address from a string.
234      * Matches a strings like the following:<pre>
235      * CTRL-EVENT-CONNECTED - Connection to 00:1e:58:ec:d5:6d completed (reauth) [id=1 id_str=]</pre>
236      */
237     private static Pattern mConnectedEventPattern =
238         Pattern.compile("((?:[0-9a-f]{2}:){5}[0-9a-f]{2}) .* \\[id=([0-9]+) ");
239 
240     /**
241      * Regex pattern for extracting an Ethernet-style MAC address from a string.
242      * Matches a strings like the following:<pre>
243      * CTRL-EVENT-DISCONNECTED - bssid=ac:22:0b:24:70:74 reason=3 locally_generated=1
244      */
245     private static Pattern mDisconnectedEventPattern =
246             Pattern.compile("((?:[0-9a-f]{2}:){5}[0-9a-f]{2}) +" +
247                     "reason=([0-9]+) +locally_generated=([0-1])");
248 
249     /**
250      * Regex pattern for extracting an Ethernet-style MAC address from a string.
251      * Matches a strings like the following:<pre>
252      * CTRL-EVENT-ASSOC-REJECT - bssid=ac:22:0b:24:70:74 status_code=1
253      */
254     private static Pattern mAssocRejectEventPattern =
255             Pattern.compile("((?:[0-9a-f]{2}:){5}[0-9a-f]{2}) +" +
256                     "status_code=([0-9]+)");
257 
258     /**
259      * Regex pattern for extracting an Ethernet-style MAC address from a string.
260      * Matches a strings like the following:<pre>
261      * IFNAME=wlan0 Trying to associate with 6c:f3:7f:ae:87:71
262      */
263     private static final String TARGET_BSSID_STR =  "Trying to associate with ";
264 
265     private static Pattern mTargetBSSIDPattern =
266             Pattern.compile("Trying to associate with ((?:[0-9a-f]{2}:){5}[0-9a-f]{2}).*");
267 
268     /**
269      * Regex pattern for extracting an Ethernet-style MAC address from a string.
270      * Matches a strings like the following:<pre>
271      * IFNAME=wlan0 Associated with 6c:f3:7f:ae:87:71
272      */
273     private static final String ASSOCIATED_WITH_STR =  "Associated with ";
274 
275     private static Pattern mAssociatedPattern =
276             Pattern.compile("Associated with ((?:[0-9a-f]{2}:){5}[0-9a-f]{2}).*");
277 
278     /**
279      * Regex pattern for extracting an external GSM sim authentication request from a string.
280      * Matches a strings like the following:<pre>
281      * CTRL-REQ-SIM-<network id>:GSM-AUTH:<RAND1>:<RAND2>[:<RAND3>] needed for SSID <SSID>
282      * This pattern should find
283      *    0 - id
284      *    1 - Rand1
285      *    2 - Rand2
286      *    3 - Rand3
287      *    4 - SSID
288      */
289     private static Pattern mRequestGsmAuthPattern =
290             Pattern.compile("SIM-([0-9]*):GSM-AUTH((:[0-9a-f]+)+) needed for SSID (.+)");
291 
292     /**
293      * Regex pattern for extracting an external 3G sim authentication request from a string.
294      * Matches a strings like the following:<pre>
295      * CTRL-REQ-SIM-<network id>:UMTS-AUTH:<RAND>:<AUTN> needed for SSID <SSID>
296      * This pattern should find
297      *    1 - id
298      *    2 - Rand
299      *    3 - Autn
300      *    4 - SSID
301      */
302     private static Pattern mRequestUmtsAuthPattern =
303             Pattern.compile("SIM-([0-9]*):UMTS-AUTH:([0-9a-f]+):([0-9a-f]+) needed for SSID (.+)");
304 
305     /**
306      * Regex pattern for extracting SSIDs from request identity string.
307      * Matches a strings like the following:<pre>
308      * CTRL-REQ-IDENTITY-xx:Identity needed for SSID XXXX</pre>
309      */
310     private static Pattern mRequestIdentityPattern =
311             Pattern.compile("IDENTITY-([0-9]+):Identity needed for SSID (.+)");
312 
313     /** P2P events */
314     private static final String P2P_EVENT_PREFIX_STR = "P2P";
315 
316     /* P2P-DEVICE-FOUND fa:7b:7a:42:02:13 p2p_dev_addr=fa:7b:7a:42:02:13 pri_dev_type=1-0050F204-1
317        name='p2p-TEST1' config_methods=0x188 dev_capab=0x27 group_capab=0x0 */
318     private static final String P2P_DEVICE_FOUND_STR = "P2P-DEVICE-FOUND";
319 
320     /* P2P-DEVICE-LOST p2p_dev_addr=42:fc:89:e1:e2:27 */
321     private static final String P2P_DEVICE_LOST_STR = "P2P-DEVICE-LOST";
322 
323     /* P2P-FIND-STOPPED */
324     private static final String P2P_FIND_STOPPED_STR = "P2P-FIND-STOPPED";
325 
326     /* P2P-GO-NEG-REQUEST 42:fc:89:a8:96:09 dev_passwd_id=4 */
327     private static final String P2P_GO_NEG_REQUEST_STR = "P2P-GO-NEG-REQUEST";
328 
329     private static final String P2P_GO_NEG_SUCCESS_STR = "P2P-GO-NEG-SUCCESS";
330 
331     /* P2P-GO-NEG-FAILURE status=x */
332     private static final String P2P_GO_NEG_FAILURE_STR = "P2P-GO-NEG-FAILURE";
333 
334     private static final String P2P_GROUP_FORMATION_SUCCESS_STR =
335             "P2P-GROUP-FORMATION-SUCCESS";
336 
337     private static final String P2P_GROUP_FORMATION_FAILURE_STR =
338             "P2P-GROUP-FORMATION-FAILURE";
339 
340     /* P2P-GROUP-STARTED p2p-wlan0-0 [client|GO] ssid="DIRECT-W8" freq=2437
341        [psk=2182b2e50e53f260d04f3c7b25ef33c965a3291b9b36b455a82d77fd82ca15bc|passphrase="fKG4jMe3"]
342        go_dev_addr=fa:7b:7a:42:02:13 [PERSISTENT] */
343     private static final String P2P_GROUP_STARTED_STR = "P2P-GROUP-STARTED";
344 
345     /* P2P-GROUP-REMOVED p2p-wlan0-0 [client|GO] reason=REQUESTED */
346     private static final String P2P_GROUP_REMOVED_STR = "P2P-GROUP-REMOVED";
347 
348     /* P2P-INVITATION-RECEIVED sa=fa:7b:7a:42:02:13 go_dev_addr=f8:7b:7a:42:02:13
349         bssid=fa:7b:7a:42:82:13 unknown-network */
350     private static final String P2P_INVITATION_RECEIVED_STR = "P2P-INVITATION-RECEIVED";
351 
352     /* P2P-INVITATION-RESULT status=1 */
353     private static final String P2P_INVITATION_RESULT_STR = "P2P-INVITATION-RESULT";
354 
355     /* P2P-PROV-DISC-PBC-REQ 42:fc:89:e1:e2:27 p2p_dev_addr=42:fc:89:e1:e2:27
356        pri_dev_type=1-0050F204-1 name='p2p-TEST2' config_methods=0x188 dev_capab=0x27
357        group_capab=0x0 */
358     private static final String P2P_PROV_DISC_PBC_REQ_STR = "P2P-PROV-DISC-PBC-REQ";
359 
360     /* P2P-PROV-DISC-PBC-RESP 02:12:47:f2:5a:36 */
361     private static final String P2P_PROV_DISC_PBC_RSP_STR = "P2P-PROV-DISC-PBC-RESP";
362 
363     /* P2P-PROV-DISC-ENTER-PIN 42:fc:89:e1:e2:27 p2p_dev_addr=42:fc:89:e1:e2:27
364        pri_dev_type=1-0050F204-1 name='p2p-TEST2' config_methods=0x188 dev_capab=0x27
365        group_capab=0x0 */
366     private static final String P2P_PROV_DISC_ENTER_PIN_STR = "P2P-PROV-DISC-ENTER-PIN";
367     /* P2P-PROV-DISC-SHOW-PIN 42:fc:89:e1:e2:27 44490607 p2p_dev_addr=42:fc:89:e1:e2:27
368        pri_dev_type=1-0050F204-1 name='p2p-TEST2' config_methods=0x188 dev_capab=0x27
369        group_capab=0x0 */
370     private static final String P2P_PROV_DISC_SHOW_PIN_STR = "P2P-PROV-DISC-SHOW-PIN";
371     /* P2P-PROV-DISC-FAILURE p2p_dev_addr=42:fc:89:e1:e2:27 */
372     private static final String P2P_PROV_DISC_FAILURE_STR = "P2P-PROV-DISC-FAILURE";
373 
374     /*
375      * Protocol format is as follows.<br>
376      * See the Table.62 in the WiFi Direct specification for the detail.
377      * ______________________________________________________________
378      * |           Length(2byte)     | Type(1byte) | TransId(1byte)}|
379      * ______________________________________________________________
380      * | status(1byte)  |            vendor specific(variable)      |
381      *
382      * P2P-SERV-DISC-RESP 42:fc:89:e1:e2:27 1 0300000101
383      * length=3, service type=0(ALL Service), transaction id=1,
384      * status=1(service protocol type not available)<br>
385      *
386      * P2P-SERV-DISC-RESP 42:fc:89:e1:e2:27 1 0300020201
387      * length=3, service type=2(UPnP), transaction id=2,
388      * status=1(service protocol type not available)
389      *
390      * P2P-SERV-DISC-RESP 42:fc:89:e1:e2:27 1 990002030010757569643a3131323
391      * 2646534652d383537342d353961622d393332322d3333333435363738393034343a3
392      * a75726e3a736368656d61732d75706e702d6f72673a736572766963653a436f6e746
393      * 56e744469726563746f72793a322c757569643a36383539646564652d383537342d3
394      * 53961622d393333322d3132333435363738393031323a3a75706e703a726f6f74646
395      * 576696365
396      * length=153,type=2(UPnP),transaction id=3,status=0
397      *
398      * UPnP Protocol format is as follows.
399      * ______________________________________________________
400      * |  Version (1)  |          USN (Variable)            |
401      *
402      * version=0x10(UPnP1.0) data=usn:uuid:1122de4e-8574-59ab-9322-33345678
403      * 9044::urn:schemas-upnp-org:service:ContentDirectory:2,usn:uuid:6859d
404      * ede-8574-59ab-9332-123456789012::upnp:rootdevice
405      *
406      * P2P-SERV-DISC-RESP 58:17:0c:bc:dd:ca 21 1900010200045f6970
407      * 70c00c000c01094d795072696e746572c027
408      * length=25, type=1(Bonjour),transaction id=2,status=0
409      *
410      * Bonjour Protocol format is as follows.
411      * __________________________________________________________
412      * |DNS Name(Variable)|DNS Type(1)|Version(1)|RDATA(Variable)|
413      *
414      * DNS Name=_ipp._tcp.local.,DNS type=12(PTR), Version=1,
415      * RDATA=MyPrinter._ipp._tcp.local.
416      *
417      */
418     private static final String P2P_SERV_DISC_RESP_STR = "P2P-SERV-DISC-RESP";
419 
420     private static final String HOST_AP_EVENT_PREFIX_STR = "AP";
421     /* AP-STA-CONNECTED 42:fc:89:a8:96:09 dev_addr=02:90:4c:a0:92:54 */
422     private static final String AP_STA_CONNECTED_STR = "AP-STA-CONNECTED";
423     /* AP-STA-DISCONNECTED 42:fc:89:a8:96:09 */
424     private static final String AP_STA_DISCONNECTED_STR = "AP-STA-DISCONNECTED";
425     private static final String ANQP_DONE_STR = "ANQP-QUERY-DONE";
426 
427     /* Supplicant events reported to a state machine */
428     private static final int BASE = Protocol.BASE_WIFI_MONITOR;
429 
430     /* Connection to supplicant established */
431     public static final int SUP_CONNECTION_EVENT                 = BASE + 1;
432     /* Connection to supplicant lost */
433     public static final int SUP_DISCONNECTION_EVENT              = BASE + 2;
434    /* Network connection completed */
435     public static final int NETWORK_CONNECTION_EVENT             = BASE + 3;
436     /* Network disconnection completed */
437     public static final int NETWORK_DISCONNECTION_EVENT          = BASE + 4;
438     /* Scan results are available */
439     public static final int SCAN_RESULTS_EVENT                   = BASE + 5;
440     /* Supplicate state changed */
441     public static final int SUPPLICANT_STATE_CHANGE_EVENT        = BASE + 6;
442     /* Password failure and EAP authentication failure */
443     public static final int AUTHENTICATION_FAILURE_EVENT         = BASE + 7;
444     /* WPS success detected */
445     public static final int WPS_SUCCESS_EVENT                    = BASE + 8;
446     /* WPS failure detected */
447     public static final int WPS_FAIL_EVENT                       = BASE + 9;
448      /* WPS overlap detected */
449     public static final int WPS_OVERLAP_EVENT                    = BASE + 10;
450      /* WPS timeout detected */
451     public static final int WPS_TIMEOUT_EVENT                    = BASE + 11;
452     /* Driver was hung */
453     public static final int DRIVER_HUNG_EVENT                    = BASE + 12;
454     /* SSID was disabled due to auth failure or excessive
455      * connection failures */
456     public static final int SSID_TEMP_DISABLED                   = BASE + 13;
457     /* SSID reenabled by supplicant */
458     public static final int SSID_REENABLED                       = BASE + 14;
459 
460     /* Request Identity */
461     public static final int SUP_REQUEST_IDENTITY                 = BASE + 15;
462 
463     /* Request SIM Auth */
464     public static final int SUP_REQUEST_SIM_AUTH                 = BASE + 16;
465 
466     public static final int SCAN_FAILED_EVENT                    = BASE + 17;
467 
468     /* P2P events */
469     public static final int P2P_DEVICE_FOUND_EVENT               = BASE + 21;
470     public static final int P2P_DEVICE_LOST_EVENT                = BASE + 22;
471     public static final int P2P_GO_NEGOTIATION_REQUEST_EVENT     = BASE + 23;
472     public static final int P2P_GO_NEGOTIATION_SUCCESS_EVENT     = BASE + 25;
473     public static final int P2P_GO_NEGOTIATION_FAILURE_EVENT     = BASE + 26;
474     public static final int P2P_GROUP_FORMATION_SUCCESS_EVENT    = BASE + 27;
475     public static final int P2P_GROUP_FORMATION_FAILURE_EVENT    = BASE + 28;
476     public static final int P2P_GROUP_STARTED_EVENT              = BASE + 29;
477     public static final int P2P_GROUP_REMOVED_EVENT              = BASE + 30;
478     public static final int P2P_INVITATION_RECEIVED_EVENT        = BASE + 31;
479     public static final int P2P_INVITATION_RESULT_EVENT          = BASE + 32;
480     public static final int P2P_PROV_DISC_PBC_REQ_EVENT          = BASE + 33;
481     public static final int P2P_PROV_DISC_PBC_RSP_EVENT          = BASE + 34;
482     public static final int P2P_PROV_DISC_ENTER_PIN_EVENT        = BASE + 35;
483     public static final int P2P_PROV_DISC_SHOW_PIN_EVENT         = BASE + 36;
484     public static final int P2P_FIND_STOPPED_EVENT               = BASE + 37;
485     public static final int P2P_SERV_DISC_RESP_EVENT             = BASE + 38;
486     public static final int P2P_PROV_DISC_FAILURE_EVENT          = BASE + 39;
487 
488     /* hostap events */
489     public static final int AP_STA_DISCONNECTED_EVENT            = BASE + 41;
490     public static final int AP_STA_CONNECTED_EVENT               = BASE + 42;
491 
492     /* Indicates assoc reject event */
493     public static final int ASSOCIATION_REJECTION_EVENT          = BASE + 43;
494     public static final int ANQP_DONE_EVENT                      = BASE + 44;
495 
496     /* hotspot 2.0 ANQP events */
497     public static final int GAS_QUERY_START_EVENT                = BASE + 51;
498     public static final int GAS_QUERY_DONE_EVENT                 = BASE + 52;
499     public static final int RX_HS20_ANQP_ICON_EVENT              = BASE + 53;
500 
501     /* hotspot 2.0 events */
502     public static final int HS20_REMEDIATION_EVENT               = BASE + 61;
503     public static final int HS20_DEAUTH_EVENT                    = BASE + 62;
504 
505     /**
506      * This indicates a read error on the monitor socket conenction
507      */
508     private static final String WPA_RECV_ERROR_STR = "recv error";
509 
510     /**
511      * Max errors before we close supplicant connection
512      */
513     private static final int MAX_RECV_ERRORS    = 10;
514 
515     private final String mInterfaceName;
516     private final WifiNative mWifiNative;
517     private final StateMachine mStateMachine;
518     private StateMachine mStateMachine2;
519     private boolean mMonitoring;
520 
521     // This is a global counter, since it's not monitor specific. However, the existing
522     // implementation forwards all "global" control events like CTRL-EVENT-TERMINATING
523     // to the p2p0 monitor. Is that expected ? It seems a bit surprising.
524     //
525     // TODO: If the p2p0 monitor isn't registered, the behaviour is even more surprising.
526     // The event will be dispatched to all monitors, and each of them will end up incrementing
527     // it in their dispatchXXX method. If we have 5 registered monitors (say), 2 consecutive
528     // recv errors will cause us to disconnect from the supplicant (instead of the intended 10).
529     //
530     // This variable is always accessed and modified under a WifiMonitorSingleton lock.
531     private static int sRecvErrors;
532 
WifiMonitor(StateMachine stateMachine, WifiNative wifiNative)533     public WifiMonitor(StateMachine stateMachine, WifiNative wifiNative) {
534         if (DBG) Log.d(TAG, "Creating WifiMonitor");
535         mWifiNative = wifiNative;
536         mInterfaceName = wifiNative.mInterfaceName;
537         mStateMachine = stateMachine;
538         mStateMachine2 = null;
539         mMonitoring = false;
540 
541         WifiMonitorSingleton.sInstance.registerInterfaceMonitor(mInterfaceName, this);
542     }
543 
enableVerboseLogging(int verbose)544     void enableVerboseLogging(int verbose) {
545         if (verbose > 0) {
546             DBG = true;
547         } else {
548             DBG = false;
549         }
550     }
551 
552         // TODO: temporary hack, should be handle by supplicant manager (new component in future)
setStateMachine2(StateMachine stateMachine)553     public void setStateMachine2(StateMachine stateMachine) {
554         mStateMachine2 = stateMachine;
555     }
556 
startMonitoring()557     public void startMonitoring() {
558         WifiMonitorSingleton.sInstance.startMonitoring(mInterfaceName);
559     }
560 
stopMonitoring()561     public void stopMonitoring() {
562         WifiMonitorSingleton.sInstance.stopMonitoring(mInterfaceName);
563     }
564 
stopSupplicant()565     public void stopSupplicant() {
566         WifiMonitorSingleton.sInstance.stopSupplicant();
567     }
568 
killSupplicant(boolean p2pSupported)569     public void killSupplicant(boolean p2pSupported) {
570         WifiMonitorSingleton.sInstance.killSupplicant(p2pSupported);
571     }
572 
573     private static class WifiMonitorSingleton {
574         private static final WifiMonitorSingleton sInstance = new WifiMonitorSingleton();
575 
576         private final HashMap<String, WifiMonitor> mIfaceMap = new HashMap<String, WifiMonitor>();
577         private boolean mConnected = false;
578         private WifiNative mWifiNative;
579 
WifiMonitorSingleton()580         private WifiMonitorSingleton() {
581         }
582 
startMonitoring(String iface)583         public synchronized void startMonitoring(String iface) {
584             WifiMonitor m = mIfaceMap.get(iface);
585             if (m == null) {
586                 Log.e(TAG, "startMonitor called with unknown iface=" + iface);
587                 return;
588             }
589 
590             Log.d(TAG, "startMonitoring(" + iface + ") with mConnected = " + mConnected);
591 
592             if (mConnected) {
593                 m.mMonitoring = true;
594                 m.mStateMachine.sendMessage(SUP_CONNECTION_EVENT);
595             } else {
596                 if (DBG) Log.d(TAG, "connecting to supplicant");
597                 int connectTries = 0;
598                 while (true) {
599                     if (mWifiNative.connectToSupplicant()) {
600                         m.mMonitoring = true;
601                         m.mStateMachine.sendMessage(SUP_CONNECTION_EVENT);
602                         mConnected = true;
603                         new MonitorThread(mWifiNative, this).start();
604                         break;
605                     }
606                     if (connectTries++ < 5) {
607                         try {
608                             Thread.sleep(1000);
609                         } catch (InterruptedException ignore) {
610                         }
611                     } else {
612                         m.mStateMachine.sendMessage(SUP_DISCONNECTION_EVENT);
613                         Log.e(TAG, "startMonitoring(" + iface + ") failed!");
614                         break;
615                     }
616                 }
617             }
618         }
619 
stopMonitoring(String iface)620         public synchronized void stopMonitoring(String iface) {
621             WifiMonitor m = mIfaceMap.get(iface);
622             if (DBG) Log.d(TAG, "stopMonitoring(" + iface + ") = " + m.mStateMachine);
623             m.mMonitoring = false;
624             m.mStateMachine.sendMessage(SUP_DISCONNECTION_EVENT);
625         }
626 
registerInterfaceMonitor(String iface, WifiMonitor m)627         public synchronized void registerInterfaceMonitor(String iface, WifiMonitor m) {
628             if (DBG) Log.d(TAG, "registerInterface(" + iface + "+" + m.mStateMachine + ")");
629             mIfaceMap.put(iface, m);
630             if (mWifiNative == null) {
631                 mWifiNative = m.mWifiNative;
632             }
633         }
634 
unregisterInterfaceMonitor(String iface)635         public synchronized void unregisterInterfaceMonitor(String iface) {
636             // REVIEW: When should we call this? If this isn't called, then WifiMonitor
637             // objects will remain in the mIfaceMap; and won't ever get deleted
638 
639             WifiMonitor m = mIfaceMap.remove(iface);
640             if (DBG) Log.d(TAG, "unregisterInterface(" + iface + "+" + m.mStateMachine + ")");
641         }
642 
stopSupplicant()643         public synchronized void stopSupplicant() {
644             mWifiNative.stopSupplicant();
645         }
646 
killSupplicant(boolean p2pSupported)647         public synchronized void killSupplicant(boolean p2pSupported) {
648             String suppState = System.getProperty("init.svc.wpa_supplicant");
649             if (suppState == null) suppState = "unknown";
650             String p2pSuppState = System.getProperty("init.svc.p2p_supplicant");
651             if (p2pSuppState == null) p2pSuppState = "unknown";
652 
653             Log.e(TAG, "killSupplicant p2p" + p2pSupported
654                     + " init.svc.wpa_supplicant=" + suppState
655                     + " init.svc.p2p_supplicant=" + p2pSuppState);
656             WifiNative.killSupplicant(p2pSupported);
657             mConnected = false;
658             for (WifiMonitor m : mIfaceMap.values()) {
659                 m.mMonitoring = false;
660             }
661         }
662 
dispatchEvent(String eventStr)663         private synchronized boolean dispatchEvent(String eventStr) {
664             String iface;
665             // IFNAME=wlan0 ANQP-QUERY-DONE addr=18:cf:5e:26:a4:88 result=SUCCESS
666             if (eventStr.startsWith("IFNAME=")) {
667                 int space = eventStr.indexOf(' ');
668                 if (space != -1) {
669                     iface = eventStr.substring(7, space);
670                     if (!mIfaceMap.containsKey(iface) && iface.startsWith("p2p-")) {
671                         // p2p interfaces are created dynamically, but we have
672                         // only one P2p state machine monitoring all of them; look
673                         // for it explicitly, and send messages there ..
674                         iface = "p2p0";
675                     }
676                     eventStr = eventStr.substring(space + 1);
677                 } else {
678                     // No point dispatching this event to any interface, the dispatched
679                     // event string will begin with "IFNAME=" which dispatchEvent can't really
680                     // do anything about.
681                     Log.e(TAG, "Dropping malformed event (unparsable iface): " + eventStr);
682                     return false;
683                 }
684             } else {
685                 // events without prefix belong to p2p0 monitor
686                 iface = "p2p0";
687             }
688 
689             if (VDBG) Log.d(TAG, "Dispatching event to interface: " + iface);
690 
691             WifiMonitor m = mIfaceMap.get(iface);
692             if (m != null) {
693                 if (m.mMonitoring) {
694                     if (m.dispatchEvent(eventStr, iface)) {
695                         mConnected = false;
696                         return true;
697                     }
698 
699                     return false;
700                 } else {
701                     if (DBG) Log.d(TAG, "Dropping event because (" + iface + ") is stopped");
702                     return false;
703                 }
704             } else {
705                 if (DBG) Log.d(TAG, "Sending to all monitors because there's no matching iface");
706                 boolean done = false;
707                 boolean isMonitoring = false;
708                 boolean isTerminating = false;
709                 if (eventStr.startsWith(EVENT_PREFIX_STR)
710                         && eventStr.contains(TERMINATING_STR)) {
711                     isTerminating = true;
712                 }
713                 for (WifiMonitor monitor : mIfaceMap.values()) {
714                     if (monitor.mMonitoring) {
715                         isMonitoring = true;
716                         if (monitor.dispatchEvent(eventStr, iface)) {
717                             done = true;
718                         }
719                     }
720                 }
721 
722                 if (!isMonitoring && isTerminating) {
723                     done = true;
724                 }
725 
726                 if (done) {
727                     mConnected = false;
728                 }
729 
730                 return done;
731             }
732         }
733     }
734 
735     private static class MonitorThread extends Thread {
736         private final WifiNative mWifiNative;
737         private final WifiMonitorSingleton mWifiMonitorSingleton;
738         private final LocalLog mLocalLog = WifiNative.getLocalLog();
739 
MonitorThread(WifiNative wifiNative, WifiMonitorSingleton wifiMonitorSingleton)740         public MonitorThread(WifiNative wifiNative, WifiMonitorSingleton wifiMonitorSingleton) {
741             super("WifiMonitor");
742             mWifiNative = wifiNative;
743             mWifiMonitorSingleton = wifiMonitorSingleton;
744         }
745 
run()746         public void run() {
747             if (DBG) {
748                 Log.d(TAG, "MonitorThread start with mConnected=" +
749                      mWifiMonitorSingleton.mConnected);
750             }
751             //noinspection InfiniteLoopStatement
752             for (;;) {
753                 if (!mWifiMonitorSingleton.mConnected) {
754                     if (DBG) Log.d(TAG, "MonitorThread exit because mConnected is false");
755                     break;
756                 }
757                 String eventStr = mWifiNative.waitForEvent();
758 
759                 // Skip logging the common but mostly uninteresting events
760                 if (eventStr.indexOf(BSS_ADDED_STR) == -1
761                         && eventStr.indexOf(BSS_REMOVED_STR) == -1) {
762                     if (DBG) Log.d(TAG, "Event [" + eventStr + "]");
763                     mLocalLog.log("Event [" + eventStr + "]");
764                 }
765 
766                 if (mWifiMonitorSingleton.dispatchEvent(eventStr)) {
767                     if (DBG) Log.d(TAG, "Disconnecting from the supplicant, no more events");
768                     break;
769                 }
770             }
771         }
772     }
773 
logDbg(String debug)774     private void logDbg(String debug) {
775         Log.e(TAG, debug/*+ " stack:" + Thread.currentThread().getStackTrace()[2].getMethodName()
776                 +" - "+ Thread.currentThread().getStackTrace()[3].getMethodName()
777                 +" - "+ Thread.currentThread().getStackTrace()[4].getMethodName()
778                 +" - "+ Thread.currentThread().getStackTrace()[5].getMethodName()*/);
779     }
780 
781     /* @return true if the event was supplicant disconnection */
dispatchEvent(String eventStr, String iface)782     private boolean dispatchEvent(String eventStr, String iface) {
783 
784         if (DBG) {
785             // Dont log CTRL-EVENT-BSS-ADDED which are too verbose and not handled
786             if (eventStr != null && !eventStr.contains("CTRL-EVENT-BSS-ADDED")) {
787                 logDbg("WifiMonitor:" + iface + " cnt=" + Integer.toString(eventLogCounter)
788                         + " dispatchEvent: " + eventStr);
789             }
790         }
791 
792         if (!eventStr.startsWith(EVENT_PREFIX_STR)) {
793             if (eventStr.startsWith(WPA_EVENT_PREFIX_STR) &&
794                     0 < eventStr.indexOf(PASSWORD_MAY_BE_INCORRECT_STR)) {
795                mStateMachine.sendMessage(AUTHENTICATION_FAILURE_EVENT, eventLogCounter);
796             } else if (eventStr.startsWith(WPS_SUCCESS_STR)) {
797                 mStateMachine.sendMessage(WPS_SUCCESS_EVENT);
798             } else if (eventStr.startsWith(WPS_FAIL_STR)) {
799                 handleWpsFailEvent(eventStr);
800             } else if (eventStr.startsWith(WPS_OVERLAP_STR)) {
801                 mStateMachine.sendMessage(WPS_OVERLAP_EVENT);
802             } else if (eventStr.startsWith(WPS_TIMEOUT_STR)) {
803                 mStateMachine.sendMessage(WPS_TIMEOUT_EVENT);
804             } else if (eventStr.startsWith(P2P_EVENT_PREFIX_STR)) {
805                 handleP2pEvents(eventStr);
806             } else if (eventStr.startsWith(HOST_AP_EVENT_PREFIX_STR)) {
807                 handleHostApEvents(eventStr);
808             } else if (eventStr.startsWith(ANQP_DONE_STR)) {
809                 try {
810                     handleAnqpResult(eventStr);
811                 }
812                 catch (IllegalArgumentException iae) {
813                     Log.e(TAG, "Bad ANQP event string: '" + eventStr + "': " + iae);
814                 }
815             } else if (eventStr.startsWith(GAS_QUERY_PREFIX_STR)) {        // !!! clean >>End
816                 handleGasQueryEvents(eventStr);
817             } else if (eventStr.startsWith(RX_HS20_ANQP_ICON_STR)) {
818                 if (mStateMachine2 != null)
819                     mStateMachine2.sendMessage(RX_HS20_ANQP_ICON_EVENT,
820                             eventStr.substring(RX_HS20_ANQP_ICON_STR_LEN + 1));
821             } else if (eventStr.startsWith(HS20_PREFIX_STR)) {                  // !!! <<End
822                 handleHs20Events(eventStr);
823             } else if (eventStr.startsWith(REQUEST_PREFIX_STR)) {
824                 handleRequests(eventStr);
825             } else if (eventStr.startsWith(TARGET_BSSID_STR)) {
826                 handleTargetBSSIDEvent(eventStr);
827             } else if (eventStr.startsWith(ASSOCIATED_WITH_STR)) {
828                 handleAssociatedBSSIDEvent(eventStr);
829             } else if (eventStr.startsWith(AUTH_EVENT_PREFIX_STR) &&
830                     eventStr.endsWith(AUTH_TIMEOUT_STR)) {
831                 mStateMachine.sendMessage(AUTHENTICATION_FAILURE_EVENT);
832             } else {
833                 if (DBG) Log.w(TAG, "couldn't identify event type - " + eventStr);
834             }
835             eventLogCounter++;
836             return false;
837         }
838 
839         String eventName = eventStr.substring(EVENT_PREFIX_LEN_STR);
840         int nameEnd = eventName.indexOf(' ');
841         if (nameEnd != -1)
842             eventName = eventName.substring(0, nameEnd);
843         if (eventName.length() == 0) {
844             if (DBG) Log.i(TAG, "Received wpa_supplicant event with empty event name");
845             eventLogCounter++;
846             return false;
847         }
848         /*
849         * Map event name into event enum
850         */
851         int event;
852         if (eventName.equals(CONNECTED_STR))
853             event = CONNECTED;
854         else if (eventName.equals(DISCONNECTED_STR))
855             event = DISCONNECTED;
856         else if (eventName.equals(STATE_CHANGE_STR))
857             event = STATE_CHANGE;
858         else if (eventName.equals(SCAN_RESULTS_STR))
859             event = SCAN_RESULTS;
860         else if (eventName.equals(SCAN_FAILED_STR))
861             event = SCAN_FAILED;
862         else if (eventName.equals(LINK_SPEED_STR))
863             event = LINK_SPEED;
864         else if (eventName.equals(TERMINATING_STR))
865             event = TERMINATING;
866         else if (eventName.equals(DRIVER_STATE_STR))
867             event = DRIVER_STATE;
868         else if (eventName.equals(EAP_FAILURE_STR))
869             event = EAP_FAILURE;
870         else if (eventName.equals(ASSOC_REJECT_STR))
871             event = ASSOC_REJECT;
872         else if (eventName.equals(TEMP_DISABLED_STR)) {
873             event = SSID_TEMP_DISABLE;
874         } else if (eventName.equals(REENABLED_STR)) {
875             event = SSID_REENABLE;
876         } else if (eventName.equals(BSS_ADDED_STR)) {
877             event = BSS_ADDED;
878         } else if (eventName.equals(BSS_REMOVED_STR)) {
879             event = BSS_REMOVED;
880         } else
881             event = UNKNOWN;
882 
883         String eventData = eventStr;
884         if (event == DRIVER_STATE || event == LINK_SPEED)
885             eventData = eventData.split(" ")[1];
886         else if (event == STATE_CHANGE || event == EAP_FAILURE) {
887             int ind = eventStr.indexOf(" ");
888             if (ind != -1) {
889                 eventData = eventStr.substring(ind + 1);
890             }
891         } else {
892             int ind = eventStr.indexOf(" - ");
893             if (ind != -1) {
894                 eventData = eventStr.substring(ind + 3);
895             }
896         }
897 
898         if ((event == SSID_TEMP_DISABLE)||(event == SSID_REENABLE)) {
899             String substr = null;
900             int netId = -1;
901             int ind = eventStr.indexOf(" ");
902             if (ind != -1) {
903                 substr = eventStr.substring(ind + 1);
904             }
905             if (substr != null) {
906                 String status[] = substr.split(" ");
907                 for (String key : status) {
908                     if (key.regionMatches(0, "id=", 0, 3)) {
909                         int idx = 3;
910                         netId = 0;
911                         while (idx < key.length()) {
912                             char c = key.charAt(idx);
913                             if ((c >= 0x30) && (c <= 0x39)) {
914                                 netId *= 10;
915                                 netId += c - 0x30;
916                                 idx++;
917                             } else {
918                                 break;
919                             }
920                         }
921                     }
922                 }
923             }
924             mStateMachine.sendMessage((event == SSID_TEMP_DISABLE)?
925                     SSID_TEMP_DISABLED:SSID_REENABLED, netId, 0, substr);
926         } else if (event == STATE_CHANGE) {
927             handleSupplicantStateChange(eventData);
928         } else if (event == DRIVER_STATE) {
929             handleDriverEvent(eventData);
930         } else if (event == TERMINATING) {
931             /**
932              * Close the supplicant connection if we see
933              * too many recv errors
934              */
935             if (eventData.startsWith(WPA_RECV_ERROR_STR)) {
936                 if (++sRecvErrors > MAX_RECV_ERRORS) {
937                     if (DBG) {
938                         Log.d(TAG, "too many recv errors, closing connection");
939                     }
940                 } else {
941                     eventLogCounter++;
942                     return false;
943                 }
944             }
945 
946             // Notify and exit
947             mStateMachine.sendMessage(SUP_DISCONNECTION_EVENT, eventLogCounter);
948             return true;
949         } else if (event == EAP_FAILURE) {
950             if (eventData.startsWith(EAP_AUTH_FAILURE_STR)) {
951                 logDbg("WifiMonitor send auth failure (EAP_AUTH_FAILURE) ");
952                 mStateMachine.sendMessage(AUTHENTICATION_FAILURE_EVENT, eventLogCounter);
953             }
954         } else if (event == ASSOC_REJECT) {
955             Matcher match = mAssocRejectEventPattern.matcher(eventData);
956             String BSSID = "";
957             int status = -1;
958             if (!match.find()) {
959                 if (DBG) Log.d(TAG, "Assoc Reject: Could not parse assoc reject string");
960             } else {
961                 BSSID = match.group(1);
962                 try {
963                     status = Integer.parseInt(match.group(2));
964                 } catch (NumberFormatException e) {
965                     status = -1;
966                 }
967             }
968             mStateMachine.sendMessage(ASSOCIATION_REJECTION_EVENT, eventLogCounter, status, BSSID);
969         } else if (event == BSS_ADDED && !VDBG) {
970             // Ignore that event - it is not handled, and dont log it as it is too verbose
971         } else if (event == BSS_REMOVED && !VDBG) {
972             // Ignore that event - it is not handled, and dont log it as it is too verbose
973         }  else {
974                 handleEvent(event, eventData);
975         }
976         sRecvErrors = 0;
977         eventLogCounter++;
978         return false;
979     }
980 
handleDriverEvent(String state)981     private void handleDriverEvent(String state) {
982         if (state == null) {
983             return;
984         }
985         if (state.equals("HANGED")) {
986             mStateMachine.sendMessage(DRIVER_HUNG_EVENT);
987         }
988     }
989 
990     /**
991      * Handle all supplicant events except STATE-CHANGE
992      * @param event the event type
993      * @param remainder the rest of the string following the
994      * event name and &quot;&#8195;&#8212;&#8195;&quot;
995      */
handleEvent(int event, String remainder)996     void handleEvent(int event, String remainder) {
997         if (DBG) {
998             logDbg("handleEvent " + Integer.toString(event) + "  " + remainder);
999         }
1000         switch (event) {
1001             case DISCONNECTED:
1002                 handleNetworkStateChange(NetworkInfo.DetailedState.DISCONNECTED, remainder);
1003                 break;
1004 
1005             case CONNECTED:
1006                 handleNetworkStateChange(NetworkInfo.DetailedState.CONNECTED, remainder);
1007                 break;
1008 
1009             case SCAN_RESULTS:
1010                 mStateMachine.sendMessage(SCAN_RESULTS_EVENT);
1011                 break;
1012 
1013             case SCAN_FAILED:
1014                 mStateMachine.sendMessage(SCAN_FAILED_EVENT);
1015                 break;
1016 
1017             case UNKNOWN:
1018                 if (DBG) {
1019                     logDbg("handleEvent unknown: " + Integer.toString(event) + "  " + remainder);
1020                 }
1021                 break;
1022             default:
1023                 break;
1024         }
1025     }
1026 
handleTargetBSSIDEvent(String eventStr)1027     private void handleTargetBSSIDEvent(String eventStr) {
1028         String BSSID = null;
1029         Matcher match = mTargetBSSIDPattern.matcher(eventStr);
1030         if (match.find()) {
1031             BSSID = match.group(1);
1032         }
1033         mStateMachine.sendMessage(WifiStateMachine.CMD_TARGET_BSSID, eventLogCounter, 0, BSSID);
1034     }
1035 
handleAssociatedBSSIDEvent(String eventStr)1036     private void handleAssociatedBSSIDEvent(String eventStr) {
1037         String BSSID = null;
1038         Matcher match = mAssociatedPattern.matcher(eventStr);
1039         if (match.find()) {
1040             BSSID = match.group(1);
1041         }
1042         mStateMachine.sendMessage(WifiStateMachine.CMD_ASSOCIATED_BSSID, eventLogCounter, 0, BSSID);
1043     }
1044 
1045 
handleWpsFailEvent(String dataString)1046     private void handleWpsFailEvent(String dataString) {
1047         final Pattern p = Pattern.compile(WPS_FAIL_PATTERN);
1048         Matcher match = p.matcher(dataString);
1049         int reason = 0;
1050         if (match.find()) {
1051             String cfgErrStr = match.group(1);
1052             String reasonStr = match.group(2);
1053 
1054             if (reasonStr != null) {
1055                 int reasonInt = Integer.parseInt(reasonStr);
1056                 switch(reasonInt) {
1057                     case REASON_TKIP_ONLY_PROHIBITED:
1058                         mStateMachine.sendMessage(mStateMachine.obtainMessage(WPS_FAIL_EVENT,
1059                                 WifiManager.WPS_TKIP_ONLY_PROHIBITED, 0));
1060                         return;
1061                     case REASON_WEP_PROHIBITED:
1062                         mStateMachine.sendMessage(mStateMachine.obtainMessage(WPS_FAIL_EVENT,
1063                                 WifiManager.WPS_WEP_PROHIBITED, 0));
1064                         return;
1065                     default:
1066                         reason = reasonInt;
1067                         break;
1068                 }
1069             }
1070             if (cfgErrStr != null) {
1071                 int cfgErrInt = Integer.parseInt(cfgErrStr);
1072                 switch(cfgErrInt) {
1073                     case CONFIG_AUTH_FAILURE:
1074                         mStateMachine.sendMessage(mStateMachine.obtainMessage(WPS_FAIL_EVENT,
1075                                 WifiManager.WPS_AUTH_FAILURE, 0));
1076                         return;
1077                     case CONFIG_MULTIPLE_PBC_DETECTED:
1078                         mStateMachine.sendMessage(mStateMachine.obtainMessage(WPS_FAIL_EVENT,
1079                                 WifiManager.WPS_OVERLAP_ERROR, 0));
1080                         return;
1081                     default:
1082                         if (reason == 0) reason = cfgErrInt;
1083                         break;
1084                 }
1085             }
1086         }
1087         //For all other errors, return a generic internal error
1088         mStateMachine.sendMessage(mStateMachine.obtainMessage(WPS_FAIL_EVENT,
1089                 WifiManager.ERROR, reason));
1090     }
1091 
1092     /* <event> status=<err> and the special case of <event> reason=FREQ_CONFLICT */
p2pError(String dataString)1093     private P2pStatus p2pError(String dataString) {
1094         P2pStatus err = P2pStatus.UNKNOWN;
1095         String[] tokens = dataString.split(" ");
1096         if (tokens.length < 2) return err;
1097         String[] nameValue = tokens[1].split("=");
1098         if (nameValue.length != 2) return err;
1099 
1100         /* Handle the special case of reason=FREQ+CONFLICT */
1101         if (nameValue[1].equals("FREQ_CONFLICT")) {
1102             return P2pStatus.NO_COMMON_CHANNEL;
1103         }
1104         try {
1105             err = P2pStatus.valueOf(Integer.parseInt(nameValue[1]));
1106         } catch (NumberFormatException e) {
1107             e.printStackTrace();
1108         }
1109         return err;
1110     }
1111 
getWifiP2pDevice(String dataString)1112     WifiP2pDevice getWifiP2pDevice(String dataString) {
1113         try {
1114             WifiP2pDevice device = new WifiP2pDevice(dataString);
1115             return device;
1116         } catch (IllegalArgumentException e) {
1117             return null;
1118         }
1119     }
1120 
getWifiP2pGroup(String dataString)1121     WifiP2pGroup getWifiP2pGroup(String dataString) {
1122         try {
1123             WifiP2pGroup group = new WifiP2pGroup(dataString);
1124             return group;
1125         } catch (IllegalArgumentException e) {
1126             return null;
1127         }
1128     }
1129 
1130     /**
1131      * Handle p2p events
1132      */
handleP2pEvents(String dataString)1133     private void handleP2pEvents(String dataString) {
1134         if (dataString.startsWith(P2P_DEVICE_FOUND_STR)) {
1135             WifiP2pDevice device = getWifiP2pDevice(dataString);
1136             if (device != null) mStateMachine.sendMessage(P2P_DEVICE_FOUND_EVENT, device);
1137         } else if (dataString.startsWith(P2P_DEVICE_LOST_STR)) {
1138             WifiP2pDevice device = getWifiP2pDevice(dataString);
1139             if (device != null) mStateMachine.sendMessage(P2P_DEVICE_LOST_EVENT, device);
1140         } else if (dataString.startsWith(P2P_FIND_STOPPED_STR)) {
1141             mStateMachine.sendMessage(P2P_FIND_STOPPED_EVENT);
1142         } else if (dataString.startsWith(P2P_GO_NEG_REQUEST_STR)) {
1143             mStateMachine.sendMessage(P2P_GO_NEGOTIATION_REQUEST_EVENT,
1144                     new WifiP2pConfig(dataString));
1145         } else if (dataString.startsWith(P2P_GO_NEG_SUCCESS_STR)) {
1146             mStateMachine.sendMessage(P2P_GO_NEGOTIATION_SUCCESS_EVENT);
1147         } else if (dataString.startsWith(P2P_GO_NEG_FAILURE_STR)) {
1148             mStateMachine.sendMessage(P2P_GO_NEGOTIATION_FAILURE_EVENT, p2pError(dataString));
1149         } else if (dataString.startsWith(P2P_GROUP_FORMATION_SUCCESS_STR)) {
1150             mStateMachine.sendMessage(P2P_GROUP_FORMATION_SUCCESS_EVENT);
1151         } else if (dataString.startsWith(P2P_GROUP_FORMATION_FAILURE_STR)) {
1152             mStateMachine.sendMessage(P2P_GROUP_FORMATION_FAILURE_EVENT, p2pError(dataString));
1153         } else if (dataString.startsWith(P2P_GROUP_STARTED_STR)) {
1154             WifiP2pGroup group = getWifiP2pGroup(dataString);
1155             if (group != null) mStateMachine.sendMessage(P2P_GROUP_STARTED_EVENT, group);
1156         } else if (dataString.startsWith(P2P_GROUP_REMOVED_STR)) {
1157             WifiP2pGroup group = getWifiP2pGroup(dataString);
1158             if (group != null) mStateMachine.sendMessage(P2P_GROUP_REMOVED_EVENT, group);
1159         } else if (dataString.startsWith(P2P_INVITATION_RECEIVED_STR)) {
1160             mStateMachine.sendMessage(P2P_INVITATION_RECEIVED_EVENT,
1161                     new WifiP2pGroup(dataString));
1162         } else if (dataString.startsWith(P2P_INVITATION_RESULT_STR)) {
1163             mStateMachine.sendMessage(P2P_INVITATION_RESULT_EVENT, p2pError(dataString));
1164         } else if (dataString.startsWith(P2P_PROV_DISC_PBC_REQ_STR)) {
1165             mStateMachine.sendMessage(P2P_PROV_DISC_PBC_REQ_EVENT,
1166                     new WifiP2pProvDiscEvent(dataString));
1167         } else if (dataString.startsWith(P2P_PROV_DISC_PBC_RSP_STR)) {
1168             mStateMachine.sendMessage(P2P_PROV_DISC_PBC_RSP_EVENT,
1169                     new WifiP2pProvDiscEvent(dataString));
1170         } else if (dataString.startsWith(P2P_PROV_DISC_ENTER_PIN_STR)) {
1171             mStateMachine.sendMessage(P2P_PROV_DISC_ENTER_PIN_EVENT,
1172                     new WifiP2pProvDiscEvent(dataString));
1173         } else if (dataString.startsWith(P2P_PROV_DISC_SHOW_PIN_STR)) {
1174             mStateMachine.sendMessage(P2P_PROV_DISC_SHOW_PIN_EVENT,
1175                     new WifiP2pProvDiscEvent(dataString));
1176         } else if (dataString.startsWith(P2P_PROV_DISC_FAILURE_STR)) {
1177             mStateMachine.sendMessage(P2P_PROV_DISC_FAILURE_EVENT);
1178         } else if (dataString.startsWith(P2P_SERV_DISC_RESP_STR)) {
1179             List<WifiP2pServiceResponse> list = WifiP2pServiceResponse.newInstance(dataString);
1180             if (list != null) {
1181                 mStateMachine.sendMessage(P2P_SERV_DISC_RESP_EVENT, list);
1182             } else {
1183                 Log.e(TAG, "Null service resp " + dataString);
1184             }
1185         }
1186     }
1187 
1188     /**
1189      * Handle hostap events
1190      */
handleHostApEvents(String dataString)1191     private void handleHostApEvents(String dataString) {
1192         String[] tokens = dataString.split(" ");
1193         /* AP-STA-CONNECTED 42:fc:89:a8:96:09 p2p_dev_addr=02:90:4c:a0:92:54 */
1194         if (tokens[0].equals(AP_STA_CONNECTED_STR)) {
1195             mStateMachine.sendMessage(AP_STA_CONNECTED_EVENT, new WifiP2pDevice(dataString));
1196             /* AP-STA-DISCONNECTED 42:fc:89:a8:96:09 p2p_dev_addr=02:90:4c:a0:92:54 */
1197         } else if (tokens[0].equals(AP_STA_DISCONNECTED_STR)) {
1198             mStateMachine.sendMessage(AP_STA_DISCONNECTED_EVENT, new WifiP2pDevice(dataString));
1199         }
1200     }
1201 
1202     private static final String ADDR_STRING = "addr=";
1203     private static final String RESULT_STRING = "result=";
1204 
1205     // ANQP-QUERY-DONE addr=18:cf:5e:26:a4:88 result=SUCCESS
1206 
handleAnqpResult(String eventStr)1207     private void handleAnqpResult(String eventStr) {
1208         int addrPos = eventStr.indexOf(ADDR_STRING);
1209         int resPos = eventStr.indexOf(RESULT_STRING);
1210         if (addrPos < 0 || resPos < 0) {
1211             throw new IllegalArgumentException("Unexpected ANQP result notification");
1212         }
1213         int eoaddr = eventStr.indexOf(' ', addrPos + ADDR_STRING.length());
1214         if (eoaddr < 0) {
1215             eoaddr = eventStr.length();
1216         }
1217         int eoresult = eventStr.indexOf(' ', resPos + RESULT_STRING.length());
1218         if (eoresult < 0) {
1219             eoresult = eventStr.length();
1220         }
1221 
1222         try {
1223             long bssid = Utils.parseMac(eventStr.substring(addrPos + ADDR_STRING.length(), eoaddr));
1224             int result = eventStr.substring(
1225                     resPos + RESULT_STRING.length(), eoresult).equalsIgnoreCase("success") ? 1 : 0;
1226 
1227             mStateMachine.sendMessage(ANQP_DONE_EVENT, result, 0, bssid);
1228         }
1229         catch (IllegalArgumentException iae) {
1230             Log.e(TAG, "Bad MAC address in ANQP response: " + iae.getMessage());
1231         }
1232     }
1233 
1234     /**
1235      * Handle ANQP events
1236      */
handleGasQueryEvents(String dataString)1237     private void handleGasQueryEvents(String dataString) {
1238         // hs20
1239         if (mStateMachine2 == null) return;
1240         if (dataString.startsWith(GAS_QUERY_START_STR)) {
1241             mStateMachine2.sendMessage(GAS_QUERY_START_EVENT);
1242         } else if (dataString.startsWith(GAS_QUERY_DONE_STR)) {
1243             String[] dataTokens = dataString.split(" ");
1244             String bssid = null;
1245             int success = 0;
1246             for (String token : dataTokens) {
1247                 String[] nameValue = token.split("=");
1248                 if (nameValue.length != 2) {
1249                     continue;
1250                 }
1251                 if (nameValue[0].equals("addr")) {
1252                     bssid = nameValue[1];
1253                     continue;
1254                 }
1255                 if (nameValue[0].equals("result"))  {
1256                     success = nameValue[1].equals("SUCCESS") ? 1 : 0;
1257                     continue;
1258                 }
1259             }
1260             mStateMachine2.sendMessage(GAS_QUERY_DONE_EVENT, success, 0, bssid);
1261         } else {
1262             if (DBG) Log.d(TAG, "Unknown GAS query event: " + dataString);
1263         }
1264     }
1265 
1266     /**
1267      * Handle HS20 events
1268      */
handleHs20Events(String dataString)1269     private void handleHs20Events(String dataString) {
1270         if (mStateMachine2 == null) return;
1271         if (dataString.startsWith(HS20_SUB_REM_STR)) {
1272             // format: HS20-SUBSCRIPTION-REMEDIATION osu_method, url
1273             String[] dataTokens = dataString.split(" ");
1274             int method = -1;
1275             String url = null;
1276             if (dataTokens.length >= 3) {
1277                 method = Integer.parseInt(dataTokens[1]);
1278                 url = dataTokens[2];
1279             }
1280             mStateMachine2.sendMessage(HS20_REMEDIATION_EVENT, method, 0, url);
1281         } else if (dataString.startsWith(HS20_DEAUTH_STR)) {
1282             // format: HS20-DEAUTH-IMMINENT-NOTICE code, delay, url
1283             int code = -1;
1284             int delay = -1;
1285             String url = null;
1286             String[] dataTokens = dataString.split(" ");
1287             if (dataTokens.length >= 4) {
1288                 code = Integer.parseInt(dataTokens[1]);
1289                 delay = Integer.parseInt(dataTokens[2]);
1290                 url = dataTokens[3];
1291             }
1292             mStateMachine2.sendMessage(HS20_DEAUTH_EVENT, code, delay, url);
1293         } else {
1294             if (DBG) Log.d(TAG, "Unknown HS20 event: " + dataString);
1295         }
1296     }
1297 
1298     /**
1299      * Handle Supplicant Requests
1300      */
handleRequests(String dataString)1301     private void handleRequests(String dataString) {
1302         String SSID = null;
1303         int reason = -2;
1304         String requestName = dataString.substring(REQUEST_PREFIX_LEN_STR);
1305         if (TextUtils.isEmpty(requestName)) {
1306             return;
1307         }
1308         if (requestName.startsWith(IDENTITY_STR)) {
1309             Matcher match = mRequestIdentityPattern.matcher(requestName);
1310             if (match.find()) {
1311                 SSID = match.group(2);
1312                 try {
1313                     reason = Integer.parseInt(match.group(1));
1314                 } catch (NumberFormatException e) {
1315                     reason = -1;
1316                 }
1317             } else {
1318                 Log.e(TAG, "didn't find SSID " + requestName);
1319             }
1320             mStateMachine.sendMessage(SUP_REQUEST_IDENTITY, eventLogCounter, reason, SSID);
1321         } else if (requestName.startsWith(SIM_STR)) {
1322             Matcher matchGsm = mRequestGsmAuthPattern.matcher(requestName);
1323             Matcher matchUmts = mRequestUmtsAuthPattern.matcher(requestName);
1324             WifiStateMachine.SimAuthRequestData data =
1325                     new WifiStateMachine.SimAuthRequestData();
1326             if (matchGsm.find()) {
1327                 data.networkId = Integer.parseInt(matchGsm.group(1));
1328                 data.protocol = WifiEnterpriseConfig.Eap.SIM;
1329                 data.ssid = matchGsm.group(4);
1330                 data.data = matchGsm.group(2).split(":");
1331                 mStateMachine.sendMessage(SUP_REQUEST_SIM_AUTH, data);
1332             } else if (matchUmts.find()) {
1333                 data.networkId = Integer.parseInt(matchUmts.group(1));
1334                 data.protocol = WifiEnterpriseConfig.Eap.AKA;
1335                 data.ssid = matchUmts.group(4);
1336                 data.data = new String[2];
1337                 data.data[0] = matchUmts.group(2);
1338                 data.data[1] = matchUmts.group(3);
1339                 mStateMachine.sendMessage(SUP_REQUEST_SIM_AUTH, data);
1340             } else {
1341                 Log.e(TAG, "couldn't parse SIM auth request - " + requestName);
1342             }
1343 
1344         } else {
1345             if (DBG) Log.w(TAG, "couldn't identify request type - " + dataString);
1346         }
1347     }
1348 
1349     /**
1350      * Handle the supplicant STATE-CHANGE event
1351      * @param dataString New supplicant state string in the format:
1352      * id=network-id state=new-state
1353      */
handleSupplicantStateChange(String dataString)1354     private void handleSupplicantStateChange(String dataString) {
1355         WifiSsid wifiSsid = null;
1356         int index = dataString.lastIndexOf("SSID=");
1357         if (index != -1) {
1358             wifiSsid = WifiSsid.createFromAsciiEncoded(
1359                     dataString.substring(index + 5));
1360         }
1361         String[] dataTokens = dataString.split(" ");
1362 
1363         String BSSID = null;
1364         int networkId = -1;
1365         int newState  = -1;
1366         for (String token : dataTokens) {
1367             String[] nameValue = token.split("=");
1368             if (nameValue.length != 2) {
1369                 continue;
1370             }
1371 
1372             if (nameValue[0].equals("BSSID")) {
1373                 BSSID = nameValue[1];
1374                 continue;
1375             }
1376 
1377             int value;
1378             try {
1379                 value = Integer.parseInt(nameValue[1]);
1380             } catch (NumberFormatException e) {
1381                 continue;
1382             }
1383 
1384             if (nameValue[0].equals("id")) {
1385                 networkId = value;
1386             } else if (nameValue[0].equals("state")) {
1387                 newState = value;
1388             }
1389         }
1390 
1391         if (newState == -1) return;
1392 
1393         SupplicantState newSupplicantState = SupplicantState.INVALID;
1394         for (SupplicantState state : SupplicantState.values()) {
1395             if (state.ordinal() == newState) {
1396                 newSupplicantState = state;
1397                 break;
1398             }
1399         }
1400         if (newSupplicantState == SupplicantState.INVALID) {
1401             Log.w(TAG, "Invalid supplicant state: " + newState);
1402         }
1403         notifySupplicantStateChange(networkId, wifiSsid, BSSID, newSupplicantState);
1404     }
1405 
handleNetworkStateChange(NetworkInfo.DetailedState newState, String data)1406     private void handleNetworkStateChange(NetworkInfo.DetailedState newState, String data) {
1407         String BSSID = null;
1408         int networkId = -1;
1409         int reason = 0;
1410         int ind = -1;
1411         int local = 0;
1412         Matcher match;
1413         if (newState == NetworkInfo.DetailedState.CONNECTED) {
1414             match = mConnectedEventPattern.matcher(data);
1415             if (!match.find()) {
1416                if (DBG) Log.d(TAG, "handleNetworkStateChange: Couldnt find BSSID in event string");
1417             } else {
1418                 BSSID = match.group(1);
1419                 try {
1420                     networkId = Integer.parseInt(match.group(2));
1421                 } catch (NumberFormatException e) {
1422                     networkId = -1;
1423                 }
1424             }
1425             notifyNetworkStateChange(newState, BSSID, networkId, reason);
1426         } else if (newState == NetworkInfo.DetailedState.DISCONNECTED) {
1427             match = mDisconnectedEventPattern.matcher(data);
1428             if (!match.find()) {
1429                if (DBG) Log.d(TAG, "handleNetworkStateChange: Could not parse disconnect string");
1430             } else {
1431                 BSSID = match.group(1);
1432                 try {
1433                     reason = Integer.parseInt(match.group(2));
1434                 } catch (NumberFormatException e) {
1435                     reason = -1;
1436                 }
1437                 try {
1438                     local = Integer.parseInt(match.group(3));
1439                 } catch (NumberFormatException e) {
1440                     local = -1;
1441                 }
1442             }
1443             notifyNetworkStateChange(newState, BSSID, local, reason);
1444         }
1445     }
1446 
1447     /**
1448      * Send the state machine a notification that the state of Wifi connectivity
1449      * has changed.
1450      * @param newState the new network state
1451      * @param BSSID when the new state is {@link NetworkInfo.DetailedState#CONNECTED},
1452      * this is the MAC address of the access point. Otherwise, it
1453      * is {@code null}.
1454      * @param netId the configured network on which the state change occurred
1455      */
notifyNetworkStateChange(NetworkInfo.DetailedState newState, String BSSID, int netId, int reason)1456     void notifyNetworkStateChange(NetworkInfo.DetailedState newState,
1457                                   String BSSID, int netId, int reason) {
1458         if (newState == NetworkInfo.DetailedState.CONNECTED) {
1459             Message m = mStateMachine.obtainMessage(NETWORK_CONNECTION_EVENT,
1460                     netId, reason, BSSID);
1461             mStateMachine.sendMessage(m);
1462         } else {
1463 
1464             Message m = mStateMachine.obtainMessage(NETWORK_DISCONNECTION_EVENT,
1465                     netId, reason, BSSID);
1466             if (DBG) logDbg("WifiMonitor notify network disconnect: "
1467                     + BSSID
1468                     + " reason=" + Integer.toString(reason));
1469             mStateMachine.sendMessage(m);
1470         }
1471     }
1472 
1473     /**
1474      * Send the state machine a notification that the state of the supplicant
1475      * has changed.
1476      * @param networkId the configured network on which the state change occurred
1477      * @param wifiSsid network name
1478      * @param BSSID network address
1479      * @param newState the new {@code SupplicantState}
1480      */
notifySupplicantStateChange(int networkId, WifiSsid wifiSsid, String BSSID, SupplicantState newState)1481     void notifySupplicantStateChange(int networkId, WifiSsid wifiSsid, String BSSID,
1482             SupplicantState newState) {
1483         mStateMachine.sendMessage(mStateMachine.obtainMessage(SUPPLICANT_STATE_CHANGE_EVENT,
1484                 eventLogCounter, 0,
1485                 new StateChangeResult(networkId, wifiSsid, BSSID, newState)));
1486     }
1487 }
1488