[android] Android에서 프로그래밍 방식으로 WEP / EAP WiFi 구성을 만들고 읽는 방법은 무엇입니까?
WEP/EAP WiFi configurationsAndroid에서 프로그래밍 방식으로 만들고 읽는 방법은 무엇입니까?
저는 다양한 포럼과 커뮤니티 전체에서이 질문에 대해 고군분투하는 많은 사람들을 보았습니다. 내가 똑같은 것을 이루고 싶을 때 나도 많은 어려움을 겪었 기 때문에 이것이 이해하기가 그렇게 간단하지 않다는 것을 알고 있습니다. 마침내 목표를 달성 할 수있었습니다. 모든 크레딧은 수많은 오픈 소스 프로젝트와 개발자에게 돌아갑니다.
저는이 지식을 모든 사람과 공유하고 싶습니다. SO 는 다음과 같이 권장 합니다. “당신이 위험에 처한 척하는 한 자신의 질문을 묻고 대답하는 것도 완벽하게 괜찮습니다. 질문의 형태로 표현하십시오.”
1 부 : 프로그래밍 방식으로 WEP WiFi 구성 만들기.
2 부 : 프로그래밍 방식으로 WEP WiFi 구성을 읽습니다.
3 부 : EAP WiFi 구성을 프로그래밍 방식으로 읽습니다.
파트 4 : 프로그래밍 방식으로 EAP WiFi 구성을 저장합니다.
답변
1 부 : 프로그래밍 방식으로 WEP WiFi 구성 만들기
이것은 매우 간단합니다. WifiConfiguration 은 인터페이스를 노출하여 동일하게 만듭니다. 다음은 샘플 코드입니다.
void saveWepConfig()
{
WifiManager wifi = (WifiManager) getSystemService(Context.WIFI_SERVICE);
WifiConfiguration wc = new WifiConfiguration();
wc.SSID = "\"SSID_NAME\""; //IMP! This should be in Quotes!!
wc.hiddenSSID = true;
wc.status = WifiConfiguration.Status.DISABLED;
wc.priority = 40;
wc.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.NONE);
wc.allowedProtocols.set(WifiConfiguration.Protocol.RSN);
wc.allowedProtocols.set(WifiConfiguration.Protocol.WPA);
wc.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN);
wc.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.SHARED);
wc.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.CCMP);
wc.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.TKIP);
wc.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP40);
wc.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP104);
wc.wepKeys[0] = "\"aaabbb1234\""; //This is the WEP Password
wc.wepTxKeyIndex = 0;
WifiManager wifiManag = (WifiManager) this.getSystemService(WIFI_SERVICE);
boolean res1 = wifiManag.setWifiEnabled(true);
int res = wifi.addNetwork(wc);
Log.d("WifiPreference", "add Network returned " + res );
boolean es = wifi.saveConfiguration();
Log.d("WifiPreference", "saveConfiguration returned " + es );
boolean b = wifi.enableNetwork(res, true);
Log.d("WifiPreference", "enableNetwork returned " + b );
}AndroidManifest.xml에 필요한 권한 따르기
<uses-permission android:name="android.permission.ACCESS_WIFI_STATE">
</uses-permission>
<uses-permission android:name="android.permission.ACCESS_NETWORK_STATE">
</uses-permission>
<uses-permission android:name="android.permission.CHANGE_WIFI_STATE">
</uses-permission>2 부 : WEP WiFi 구성을 프로그래밍 방식으로
Straighforward 다시 읽습니다. 다음은 샘플 코드입니다.
void readWepConfig()
{
WifiManager wifi = (WifiManager) getSystemService(Context.WIFI_SERVICE);
List<WifiConfiguration> item = wifi.getConfiguredNetworks();
int i = item.size();
Log.d("WifiPreference", "NO OF CONFIG " + i );
Iterator<WifiConfiguration> iter = item.iterator();
WifiConfiguration config = item.get(0);
Log.d("WifiPreference", "SSID" + config.SSID);
Log.d("WifiPreference", "PASSWORD" + config.preSharedKey);
Log.d("WifiPreference", "ALLOWED ALGORITHMS");
Log.d("WifiPreference", "LEAP" + config.allowedAuthAlgorithms.get(AuthAlgorithm.LEAP));
Log.d("WifiPreference", "OPEN" + config.allowedAuthAlgorithms.get(AuthAlgorithm.OPEN));
Log.d("WifiPreference", "SHARED" + config.allowedAuthAlgorithms.get(AuthAlgorithm.SHARED));
Log.d("WifiPreference", "GROUP CIPHERS");
Log.d("WifiPreference", "CCMP" + config.allowedGroupCiphers.get(GroupCipher.CCMP));
Log.d("WifiPreference", "TKIP" + config.allowedGroupCiphers.get(GroupCipher.TKIP));
Log.d("WifiPreference", "WEP104" + config.allowedGroupCiphers.get(GroupCipher.WEP104));
Log.d("WifiPreference", "WEP40" + config.allowedGroupCiphers.get(GroupCipher.WEP40));
Log.d("WifiPreference", "KEYMGMT");
Log.d("WifiPreference", "IEEE8021X" + config.allowedKeyManagement.get(KeyMgmt.IEEE8021X));
Log.d("WifiPreference", "NONE" + config.allowedKeyManagement.get(KeyMgmt.NONE));
Log.d("WifiPreference", "WPA_EAP" + config.allowedKeyManagement.get(KeyMgmt.WPA_EAP));
Log.d("WifiPreference", "WPA_PSK" + config.allowedKeyManagement.get(KeyMgmt.WPA_PSK));
Log.d("WifiPreference", "PairWiseCipher");
Log.d("WifiPreference", "CCMP" + config.allowedPairwiseCiphers.get(PairwiseCipher.CCMP));
Log.d("WifiPreference", "NONE" + config.allowedPairwiseCiphers.get(PairwiseCipher.NONE));
Log.d("WifiPreference", "TKIP" + config.allowedPairwiseCiphers.get(PairwiseCipher.TKIP));
Log.d("WifiPreference", "Protocols");
Log.d("WifiPreference", "RSN" + config.allowedProtocols.get(Protocol.RSN));
Log.d("WifiPreference", "WPA" + config.allowedProtocols.get(Protocol.WPA));
Log.d("WifiPreference", "WEP Key Strings");
String[] wepKeys = config.wepKeys;
Log.d("WifiPreference", "WEP KEY 0" + wepKeys[0]);
Log.d("WifiPreference", "WEP KEY 1" + wepKeys[1]);
Log.d("WifiPreference", "WEP KEY 2" + wepKeys[2]);
Log.d("WifiPreference", "WEP KEY 3" + wepKeys[3]);
}파트 3 : 프로그래밍 방식으로 EAP WiFi 구성 읽기
이제 이것은 까다 롭습니다. WifiDialog.java 에서 바닐라 Android UI를 통해 EAP WiFi 구성을 저장하는 코드를 찾을 수 있습니다. 충분히 쉽습니다. 응용 프로그램에서 동일한 코드를 사용할 수 있습니다. 이 작업을 시도하면 기호를 찾을 수 없다는 오류가 표시됩니다eap.phase,client_cert등. 조금 자세한 조사를 통해클래스내부의 EnterpriseField를 알 수 있으며 찾을 수없는 모든 기호는 유형입니다. 우리는 장애물에 부딪 혔습니다. EAP 구성을 읽고 저장하려면 이러한 필드가 필요하지만 프로그래밍 방식으로 액세스 할 수 없습니다! is privateWiFiConfigurationEnterpriseField
Java Reflection API구조를 위해
글쎄요 저는 Java 전문가가 아니므로 Reflection API에 대한 자세한 내용은 다루지 않을 것입니다. Google에서 자습서를 보거나 여기에서 자세한 정보를 얻을 수 있습니다 . 짧고 깔끔하게 유지하기 위해 Reflection API를 사용하면 컴파일 타임에 클래스, 메서드 등의 이름을 몰라도 런타임에 클래스, 인터페이스, 필드 및 메서드를 검사 할 수 있습니다. 리플렉션을 사용하여 새 개체를 인스턴스화하고 메서드를 호출하고 필드 값을 가져 오거나 설정할 수도 있습니다. 그리고 중요하게 리플렉션을 사용 하면 클래스 내부의 개인 데이터 멤버에 액세스하는 데 도움이 될 수 있습니다. 이게 필요하지 않나요? 🙂
이제 Reflection Api를 사용하여 EAP WiFi 구성을 읽는 방법을 보여주는 코드 예제를 확인해 보겠습니다. 보너스로 스 니펫은 구성을 파일에 기록하고 SD 카드에 저장합니다 …. 아주 매끄럽게 ..eh;) Reflection Api에 대한 약간의 개요를 살펴보면 아래 코드를 쉽게 파악할 수 있습니다.
private static final String INT_PRIVATE_KEY = "private_key";
private static final String INT_PHASE2 = "phase2";
private static final String INT_PASSWORD = "password";
private static final String INT_IDENTITY = "identity";
private static final String INT_EAP = "eap";
private static final String INT_CLIENT_CERT = "client_cert";
private static final String INT_CA_CERT = "ca_cert";
private static final String INT_ANONYMOUS_IDENTITY = "anonymous_identity";
final String INT_ENTERPRISEFIELD_NAME = "android.net.wifi.WifiConfiguration$EnterpriseField";readEapConfig()함수 를 호출하기 전에 SD 카드에 로그 파일을 생성하는 코드 입니다.
BufferedWriter out = null;
try
{
File root = Environment.getExternalStorageDirectory();
Toast toast = Toast.makeText(this, "SD CARD mounted and writable? " + root.canWrite(), 5000);
toast.show();
if (root.canWrite())
{
File gpxfile = new File(root, "ReadConfigLog.txt");
FileWriter gpxwriter = new FileWriter(gpxfile);
out = new BufferedWriter(gpxwriter);
out.write("Hello world");
//out.close();
}
} catch (IOException e)
{
Toast toast = Toast.makeText(this, "Problem reading SD CARD", 3000);
Toast toast2 = Toast.makeText(this, "Please take logs using Logcat", 5000);
Log.e("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "Could not write file " + e.getMessage());
}이제 readEapConfig()함수 자체 :
void readEapConfig(BufferedWriter out)
{
/*Get the WifiService */
WifiManager wifi = (WifiManager)getSystemService(WIFI_SERVICE);
/*Get All WIfi configurations*/
List<WifiConfiguration> configList = wifi.getConfiguredNetworks();
/*Now we need to search appropriate configuration i.e. with name SSID_Name*/
for(int i = 0;i<configList.size();i++)
{
if(configList.get(i).SSID.contentEquals("\"SSID_NAME\""))
{
/*We found the appropriate config now read all config details*/
Iterator<WifiConfiguration> iter = configList.iterator();
WifiConfiguration config = configList.get(i);
/*I dont think these fields have anything to do with EAP config but still will
* print these to be on safe side*/
try {
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[SSID]" + config.SSID);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[SSID]" + config.SSID);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[BSSID]" + config.BSSID);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" +"[BSSID]" + config.BSSID);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[HIDDEN SSID]" + config.hiddenSSID);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[HIDDEN SSID]" + config.hiddenSSID);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[PASSWORD]" + config.preSharedKey);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>"+ "[PASSWORD]" + config.preSharedKey);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[ALLOWED ALGORITHMS]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>"+ "[ALLOWED ALGORITHMS]");
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[LEAP]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.LEAP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[LEAP]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.LEAP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[OPEN]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.OPEN));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[OPEN]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.OPEN));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[SHARED]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.SHARED));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[SHARED]" + config.allowedAuthAlgorithms.get(AuthAlgorithm.SHARED));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[GROUP CIPHERS]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[GROUP CIPHERS]");
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[CCMP]" + config.allowedGroupCiphers.get(GroupCipher.CCMP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[CCMP]" + config.allowedGroupCiphers.get(GroupCipher.CCMP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" , "[TKIP]" + config.allowedGroupCiphers.get(GroupCipher.TKIP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>"+ "[TKIP]" + config.allowedGroupCiphers.get(GroupCipher.TKIP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP104]" + config.allowedGroupCiphers.get(GroupCipher.WEP104));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP104]" + config.allowedGroupCiphers.get(GroupCipher.WEP104));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP40]" + config.allowedGroupCiphers.get(GroupCipher.WEP40));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP40]" + config.allowedGroupCiphers.get(GroupCipher.WEP40));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[KEYMGMT]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[KEYMGMT]");
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[IEEE8021X]" + config.allowedKeyManagement.get(KeyMgmt.IEEE8021X));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>"+ "[IEEE8021X]" + config.allowedKeyManagement.get(KeyMgmt.IEEE8021X));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[NONE]" + config.allowedKeyManagement.get(KeyMgmt.NONE));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[NONE]" + config.allowedKeyManagement.get(KeyMgmt.NONE));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WPA_EAP]" + config.allowedKeyManagement.get(KeyMgmt.WPA_EAP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WPA_EAP]" + config.allowedKeyManagement.get(KeyMgmt.WPA_EAP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WPA_PSK]" + config.allowedKeyManagement.get(KeyMgmt.WPA_PSK));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WPA_PSK]" + config.allowedKeyManagement.get(KeyMgmt.WPA_PSK));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[PairWiseCipher]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[PairWiseCipher]");
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[CCMP]" + config.allowedPairwiseCiphers.get(PairwiseCipher.CCMP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[CCMP]" + config.allowedPairwiseCiphers.get(PairwiseCipher.CCMP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[NONE]" + config.allowedPairwiseCiphers.get(PairwiseCipher.NONE));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[NONE]" + config.allowedPairwiseCiphers.get(PairwiseCipher.NONE));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[TKIP]" + config.allowedPairwiseCiphers.get(PairwiseCipher.TKIP));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[TKIP]" + config.allowedPairwiseCiphers.get(PairwiseCipher.TKIP));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[Protocols]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[Protocols]");
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[RSN]" + config.allowedProtocols.get(Protocol.RSN));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[RSN]" + config.allowedProtocols.get(Protocol.RSN));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WPA]" + config.allowedProtocols.get(Protocol.WPA));
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WPA]" + config.allowedProtocols.get(Protocol.WPA));
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[PRE_SHARED_KEY]" + config.preSharedKey);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[PRE_SHARED_KEY]" + config.preSharedKey);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP Key Strings]");
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP Key Strings]");
String[] wepKeys = config.wepKeys;
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP KEY 0]" + wepKeys[0]);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP KEY 0]" + wepKeys[0]);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP KEY 1]" + wepKeys[1]);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP KEY 1]" + wepKeys[1]);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP KEY 2]" + wepKeys[2]);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP KEY 2]" + wepKeys[2]);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[WEP KEY 3]" + wepKeys[3]);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[WEP KEY 3]" + wepKeys[3]);
}
catch(IOException e)
{
Toast toast1 = Toast.makeText(this, "Failed to write Logs to ReadConfigLog.txt", 3000);
Toast toast2 = Toast.makeText(this, "Please take logs using Logcat", 5000);
Log.e("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "Could not write to ReadConfigLog.txt" + e.getMessage());
}
/*reflection magic*/
/*These are the fields we are really interested in*/
try
{
// Let the magic start
Class[] wcClasses = WifiConfiguration.class.getClasses();
// null for overzealous java compiler
Class wcEnterpriseField = null;
for (Class wcClass : wcClasses)
if (wcClass.getName().equals(INT_ENTERPRISEFIELD_NAME))
{
wcEnterpriseField = wcClass;
break;
}
boolean noEnterpriseFieldType = false;
if(wcEnterpriseField == null)
noEnterpriseFieldType = true; // Cupcake/Donut access enterprise settings directly
Field wcefAnonymousId = null, wcefCaCert = null, wcefClientCert = null, wcefEap = null, wcefIdentity = null, wcefPassword = null, wcefPhase2 = null, wcefPrivateKey = null;
Field[] wcefFields = WifiConfiguration.class.getFields();
// Dispatching Field vars
for (Field wcefField : wcefFields)
{
if (wcefField.getName().trim().equals(INT_ANONYMOUS_IDENTITY))
wcefAnonymousId = wcefField;
else if (wcefField.getName().trim().equals(INT_CA_CERT))
wcefCaCert = wcefField;
else if (wcefField.getName().trim().equals(INT_CLIENT_CERT))
wcefClientCert = wcefField;
else if (wcefField.getName().trim().equals(INT_EAP))
wcefEap = wcefField;
else if (wcefField.getName().trim().equals(INT_IDENTITY))
wcefIdentity = wcefField;
else if (wcefField.getName().trim().equals(INT_PASSWORD))
wcefPassword = wcefField;
else if (wcefField.getName().trim().equals(INT_PHASE2))
wcefPhase2 = wcefField;
else if (wcefField.getName().trim().equals(INT_PRIVATE_KEY))
wcefPrivateKey = wcefField;
}
Method wcefValue = null;
if(!noEnterpriseFieldType)
{
for(Method m: wcEnterpriseField.getMethods())
//System.out.println(m.getName());
if(m.getName().trim().equals("value")){
wcefValue = m;
break;
}
}
/*EAP Method*/
String result = null;
Object obj = null;
if(!noEnterpriseFieldType)
{
obj = wcefValue.invoke(wcefEap.get(config), null);
String retval = (String)obj;
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP METHOD]" + retval);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP METHOD]" + retval);
}
else
{
obj = wcefEap.get(config);
String retval = (String)obj;
}
/*phase 2*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefPhase2.get(config), null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP PHASE 2 AUTHENTICATION]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP PHASE 2 AUTHENTICATION]" + result);
}
else
{
result = (String) wcefPhase2.get(config);
}
/*Anonymous Identity*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefAnonymousId.get(config),null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP ANONYMOUS IDENTITY]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP ANONYMOUS IDENTITY]" + result);
}
else
{
result = (String) wcefAnonymousId.get(config);
}
/*CA certificate*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefCaCert.get(config), null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP CA CERTIFICATE]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP CA CERTIFICATE]" + result);
}
else
{
result = (String)wcefCaCert.get(config);
}
/*private key*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefPrivateKey.get(config),null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP PRIVATE KEY]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP PRIVATE KEY]" + result);
}
else
{
result = (String)wcefPrivateKey.get(config);
}
/*Identity*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefIdentity.get(config), null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP IDENTITY]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP IDENTITY]" + result);
}
else
{
result = (String)wcefIdentity.get(config);
}
/*Password*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefPassword.get(config), null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP PASSWORD]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP PASSWORD]" + result);
}
else
{
result = (String)wcefPassword.get(config);
}
/*client certificate*/
if(!noEnterpriseFieldType)
{
result = (String) wcefValue.invoke(wcefClientCert.get(config), null);
Log.d("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "[EAP CLIENT CERT]" + result);
out.write("<<<<<<<<<<WifiPreference>>>>>>>>>>>>" + "[EAP CLIENT CERT]" + result);
Toast toast1 = Toast.makeText(this, "All config data logged to ReadConfigLog.txt", 3000);
Toast toast2 = Toast.makeText(this, "Extract ReadConfigLog.txt from SD CARD", 5000);
}
else
{
result = (String)wcefClientCert.get(config);
}
out.close();
}
catch(IOException e)
{
Toast toast1 = Toast.makeText(this, "Failed to write Logs to ReadConfigLog.txt", 3000);
Toast toast2 = Toast.makeText(this, "Please take logs using Logcat", 5000);
Log.e("<<<<<<<<<<WifiPreference>>>>>>>>>>>>", "Could not write to ReadConfigLog.txt" + e.getMessage());
}
catch(Exception e)
{
e.printStackTrace();
}
}
}
}답변
Ahh 편집 공간이 부족하여 여기에 나머지 부분을 추가합니다.
4 부 : 프로그래밍 방식으로 EAP WiFi 구성 저장
이미 파트 3을 읽었다면 여기에서 작동하는 Reflection 매직을 이미 이해 한 것입니다.이 섹션으로 바로 이동하는 경우 파트 3의 코드 스 니펫 앞에 소개를 읽어 보면 여기에서 코드를 빠르게 살펴볼 수 있습니다. !
void saveEapConfig(String passString, String userName)
{
/********************************Configuration Strings****************************************************/
final String ENTERPRISE_EAP = "TLS";
final String ENTERPRISE_CLIENT_CERT = "keystore://USRCERT_CertificateName";
final String ENTERPRISE_PRIV_KEY = "USRPKEY_CertificateName";
//CertificateName = Name given to the certificate while installing it
/*Optional Params- My wireless Doesn't use these*/
final String ENTERPRISE_PHASE2 = "";
final String ENTERPRISE_ANON_IDENT = "ABC";
final String ENTERPRISE_CA_CERT = ""; // If required: "keystore://CACERT_CaCertificateName"
/********************************Configuration Strings****************************************************/
/*Create a WifiConfig*/
WifiConfiguration selectedConfig = new WifiConfiguration();
/*AP Name*/
selectedConfig.SSID = "\"SSID_Name\"";
/*Priority*/
selectedConfig.priority = 40;
/*Enable Hidden SSID*/
selectedConfig.hiddenSSID = true;
/*Key Mgmnt*/
selectedConfig.allowedKeyManagement.clear();
selectedConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.IEEE8021X);
selectedConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_EAP);
/*Group Ciphers*/
selectedConfig.allowedGroupCiphers.clear();
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.CCMP);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP104);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP40);
/*Pairwise ciphers*/
selectedConfig.allowedPairwiseCiphers.clear();
selectedConfig.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.CCMP);
selectedConfig.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.TKIP);
/*Protocols*/
selectedConfig.allowedProtocols.clear();
selectedConfig.allowedProtocols.set(WifiConfiguration.Protocol.RSN);
selectedConfig.allowedProtocols.set(WifiConfiguration.Protocol.WPA);
// Enterprise Settings
// Reflection magic here too, need access to non-public APIs
try {
// Let the magic start
Class[] wcClasses = WifiConfiguration.class.getClasses();
// null for overzealous java compiler
Class wcEnterpriseField = null;
for (Class wcClass : wcClasses)
if (wcClass.getName().equals(INT_ENTERPRISEFIELD_NAME))
{
wcEnterpriseField = wcClass;
break;
}
boolean noEnterpriseFieldType = false;
if(wcEnterpriseField == null)
noEnterpriseFieldType = true; // Cupcake/Donut access enterprise settings directly
Field wcefAnonymousId = null, wcefCaCert = null, wcefClientCert = null, wcefEap = null, wcefIdentity = null, wcefPassword = null, wcefPhase2 = null, wcefPrivateKey = null, wcefEngine = null, wcefEngineId = null;
Field[] wcefFields = WifiConfiguration.class.getFields();
// Dispatching Field vars
for (Field wcefField : wcefFields)
{
if (wcefField.getName().equals(INT_ANONYMOUS_IDENTITY))
wcefAnonymousId = wcefField;
else if (wcefField.getName().equals(INT_CA_CERT))
wcefCaCert = wcefField;
else if (wcefField.getName().equals(INT_CLIENT_CERT))
wcefClientCert = wcefField;
else if (wcefField.getName().equals(INT_EAP))
wcefEap = wcefField;
else if (wcefField.getName().equals(INT_IDENTITY))
wcefIdentity = wcefField;
else if (wcefField.getName().equals(INT_PASSWORD))
wcefPassword = wcefField;
else if (wcefField.getName().equals(INT_PHASE2))
wcefPhase2 = wcefField;
else if (wcefField.getName().equals(INT_PRIVATE_KEY))
wcefPrivateKey = wcefField;
else if (wcefField.getName().equals("engine"))
wcefEngine = wcefField;
else if (wcefField.getName().equals("engine_id"))
wcefEngineId = wcefField;
}
Method wcefSetValue = null;
if(!noEnterpriseFieldType){
for(Method m: wcEnterpriseField.getMethods())
//System.out.println(m.getName());
if(m.getName().trim().equals("setValue"))
wcefSetValue = m;
}
/*EAP Method*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefEap.get(selectedConfig), ENTERPRISE_EAP);
}
else
{
wcefEap.set(selectedConfig, ENTERPRISE_EAP);
}
/*EAP Phase 2 Authentication*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefPhase2.get(selectedConfig), ENTERPRISE_PHASE2);
}
else
{
wcefPhase2.set(selectedConfig, ENTERPRISE_PHASE2);
}
/*EAP Anonymous Identity*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefAnonymousId.get(selectedConfig), ENTERPRISE_ANON_IDENT);
}
else
{
wcefAnonymousId.set(selectedConfig, ENTERPRISE_ANON_IDENT);
}
/*EAP CA Certificate*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefCaCert.get(selectedConfig), ENTERPRISE_CA_CERT);
}
else
{
wcefCaCert.set(selectedConfig, ENTERPRISE_CA_CERT);
}
/*EAP Private key*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefPrivateKey.get(selectedConfig), ENTERPRISE_PRIV_KEY);
}
else
{
wcefPrivateKey.set(selectedConfig, ENTERPRISE_PRIV_KEY);
}
/*EAP Identity*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefIdentity.get(selectedConfig), userName);
}
else
{
wcefIdentity.set(selectedConfig, userName);
}
/*EAP Password*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefPassword.get(selectedConfig), passString);
}
else
{
wcefPassword.set(selectedConfig, passString);
}
/*EAp Client certificate*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefClientCert.get(selectedConfig), ENTERPRISE_CLIENT_CERT);
}
else
{
wcefClientCert.set(selectedConfig, ENTERPRISE_CLIENT_CERT);
}
/*Engine fields*/
if(!noEnterpriseFieldType)
{
wcefSetValue.invoke(wcefEngine.get(wifiConf), "1");
wcefSetValue.invoke(wcefEngineId.get(wifiConf), "keystore");
}
// Adhoc for CM6
// if non-CM6 fails gracefully thanks to nested try-catch
try{
Field wcAdhoc = WifiConfiguration.class.getField("adhocSSID");
Field wcAdhocFreq = WifiConfiguration.class.getField("frequency");
//wcAdhoc.setBoolean(selectedConfig, prefs.getBoolean(PREF_ADHOC,
// false));
wcAdhoc.setBoolean(selectedConfig, false);
int freq = 2462; // default to channel 11
//int freq = Integer.parseInt(prefs.getString(PREF_ADHOC_FREQUENCY,
//"2462")); // default to channel 11
//System.err.println(freq);
wcAdhocFreq.setInt(selectedConfig, freq);
} catch (Exception e)
{
e.printStackTrace();
}
} catch (Exception e)
{
// TODO Auto-generated catch block
// FIXME As above, what should I do here?
e.printStackTrace();
}
WifiManager wifiManag = (WifiManager) getSystemService(Context.WIFI_SERVICE);
boolean res1 = wifiManag.setWifiEnabled(true);
int res = wifiManag.addNetwork(selectedConfig);
Log.d("WifiPreference", "add Network returned " + res );
boolean b = wifiManag.enableNetwork(selectedConfig.networkId, false);
Log.d("WifiPreference", "enableNetwork returned " + b );
boolean c = wifiManag.saveConfiguration();
Log.d("WifiPreference", "Save configuration returned " + c );
boolean d = wifiManag.enableNetwork(res, true);
Log.d("WifiPreference", "enableNetwork returned " + d );
}그게 다야! 그리고 이것이 언젠가 잃어버린 개발자에게 도움이되기를 바랍니다. 🙂
답변
Android는 JellyBean 4.3에 API를 추가했습니다. API 18에서 WIFI를 구성하려면이 옵션을 사용해야합니다.
http://developer.android.com/reference/android/net/wifi/WifiEnterpriseConfig.html
답변
파트 4는 나를 올바른 길로 시작했습니다! 그러나 TLS 구성이 아닌 TTLS를 만들고 싶었습니다.
/********************************Configuration Strings****************************************************/
final String ENTERPRISE_EAP = "TTLS";
/*Optional Params- My wireless Doesn't use these*/
final String ENTERPRISE_PHASE2 = "PAP";
final String ENTERPRISE_ANON_IDENT = "ABC";
final String ENTERPRISE_CA_CERT = "";
/********************************Configuration Strings****************************************************/
/*Create a WifiConfig*/
WifiConfiguration selectedConfig = new WifiConfiguration();
/*AP Name*/
selectedConfig.SSID = "\"EAP_SSID_TEST_CONFIG\"";
/*Priority*/
selectedConfig.priority = 40;
/*Enable Hidden SSID*/
selectedConfig.hiddenSSID = false;
/*Key Mgmnt*/
selectedConfig.allowedKeyManagement.clear();
selectedConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.IEEE8021X);
selectedConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.WPA_EAP);
/*Group Ciphers*/
selectedConfig.allowedGroupCiphers.clear();
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.CCMP);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP104);
selectedConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.WEP40);
/*Pairwise ciphers*/
selectedConfig.allowedPairwiseCiphers.clear();
selectedConfig.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.CCMP);
selectedConfig.allowedPairwiseCiphers.set(WifiConfiguration.PairwiseCipher.TKIP);
/*Protocols*/
selectedConfig.allowedProtocols.clear();
selectedConfig.allowedProtocols.set(WifiConfiguration.Protocol.RSN);
selectedConfig.allowedProtocols.set(WifiConfiguration.Protocol.WPA);
// Enterprise Settings
// Reflection magic here too, need access to non-public APIs
try {
// Let the magic start
Class[] wcClasses = WifiConfiguration.class.getClasses();
// null for overzealous java compiler
Class wcEnterpriseField = null;
for (Class wcClass : wcClasses)
if (wcClass.getName().equals(INT_ENTERPRISEFIELD_NAME))
{
wcEnterpriseField = wcClass;
break;
}
boolean noEnterpriseFieldType = false;
if(wcEnterpriseField == null)
noEnterpriseFieldType = true; // Cupcake/Donut access enterprise settings directly
Field wcefAnonymousId = null, wcefCaCert = null, wcefClientCert = null, wcefEap = null, wcefIdentity = null, wcefPassword = null, wcefPhase2 = null, wcefPrivateKey = null;
Field[] wcefFields = WifiConfiguration.class.getFields();
// Dispatching Field vars
for (Field wcefField : wcefFields)
{
if (wcefField.getName().equals(INT_ANONYMOUS_IDENTITY))
wcefAnonymousId = wcefField;
else if (wcefField.getName().equals(INT_CA_CERT))
wcefCaCert = wcefField;
else if (wcefField.getName().equals(INT_CLIENT_CERT))
wcefClientCert = wcefField;
else if (wcefField.getName().equals(INT_EAP))
wcefEap = wcefField;
else if (wcefField.getName().equals(INT_IDENTITY))
wcefIdentity = wcefField;
else if (wcefField.getName().equals(INT_PASSWORD))
wcefPassword = wcefField;
else if (wcefField.getName().equals(INT_PHASE2))
wcefPhase2 = wcefField;
else if (wcefField.getName().equals(INT_PRIVATE_KEY))
wcefPrivateKey = wcefField;
}
Method wcefSetValue = null;
if(!noEnterpriseFieldType){
for(Method m: wcEnterpriseField.getMethods())
//System.out.println(m.getName());
if(m.getName().trim().equals("setValue"))
wcefSetValue = m;
}
/*EAP Method*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefEap.get(selectedConfig), ENTERPRISE_EAP);
}
/*EAP Phase 2 Authentication*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefPhase2.get(selectedConfig), ENTERPRISE_PHASE2);
}
/*EAP Anonymous Identity*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefAnonymousId.get(selectedConfig), ENTERPRISE_ANON_IDENT);
}
/*EAP CA Certificate*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefCaCert.get(selectedConfig), ENTERPRISE_CA_CERT);
}
/*EAP Identity*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefIdentity.get(selectedConfig), "test user name");
}
/*EAP Password*/
if(!noEnterpriseFieldType){
wcefSetValue.invoke(wcefPassword.get(selectedConfig), "test password");
}
try{
} catch (Exception e)
{
e.printStackTrace();
}
} catch (Exception e)
{
// TODO Auto-generated catch block
e.printStackTrace();
}
WifiManager wifiManag = (WifiManager) getSystemService(Context.WIFI_SERVICE);
boolean res1 = wifiManag.setWifiEnabled(true);
int res = wifiManag.addNetwork(selectedConfig);
Log.d("WifiPreference", "add Network returned " + res );
// boolean b = wifiManag.enableNetwork(selectedConfig.networkId, false);
// Log.d("WifiPreference", "enableNetwork returned " + b );
// boolean c = wifiManag.saveConfiguration();
// Log.d("WifiPreference", "Save configuration returned " + c );
// boolean d = wifiManag.enableNetwork(res, true);
// Log.d("WifiPreference", "enableNetwork returned " + d );
}이것이 도움이되기를 바랍니다. @Android 학습자 adHocFrequency 및 SSID가 충돌을 일으키기 때문에 제거했지만 결과는 여전히 좋았습니다.
답변
WEP 키는 마스킹되어 있으므로 언급 된 코드로는 읽을 수 없습니다.
Log.d("WifiPreference", "WEP KEY 0" + wepKeys[0]);
Log.d("WifiPreference", "WEP KEY 1" + wepKeys[1]);
Log.d("WifiPreference", "WEP KEY 2" + wepKeys[2]);
Log.d("WifiPreference", "WEP KEY 3" + wepKeys[3]);EAP 솔루션과 동일한 방식으로이 문제를 해결할 수있는 방법이 있습니까? 반성?
답변
