parent
654d510efd
commit
b8bc0e8b59
@ -0,0 +1,58 @@ |
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package io.legado.app.base |
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|
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import android.app.Application |
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import androidx.lifecycle.AndroidViewModel |
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import kotlinx.coroutines.* |
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import kotlin.coroutines.CoroutineContext |
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open class BaseViewModel(application: Application) : AndroidViewModel(application), CoroutineScope { |
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override val coroutineContext: CoroutineContext |
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get() = Dispatchers.Main |
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private val launchManager: MutableList<Job> = mutableListOf() |
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protected fun launchOnUI( |
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tryBlock: suspend CoroutineScope.() -> Unit, |
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cacheBlock: suspend CoroutineScope.(Throwable) -> Unit, |
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finallyBlock: suspend CoroutineScope.() -> Unit, |
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handleCancellationExceptionManually: Boolean |
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) { |
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launchOnUI { |
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tryCatch(tryBlock, cacheBlock, finallyBlock, handleCancellationExceptionManually) |
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} |
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} |
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|
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/** |
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* add launch task to [launchManager] |
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*/ |
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private fun launchOnUI(block: suspend CoroutineScope.() -> Unit) { |
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val job = launch { block() } |
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launchManager.add(job) |
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job.invokeOnCompletion { launchManager.remove(job) } |
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} |
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|
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private suspend fun tryCatch( |
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tryBlock: suspend CoroutineScope.() -> Unit, |
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catchBlock: suspend CoroutineScope.(Throwable) -> Unit, |
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finallyBlock: suspend CoroutineScope.() -> Unit, |
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handleCancellationExceptionManually: Boolean = false |
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) { |
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try { |
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coroutineScope { tryBlock() } |
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} catch (e: Throwable) { |
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if (e !is CancellationException || handleCancellationExceptionManually) { |
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coroutineScope { catchBlock(e) } |
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} else { |
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throw e |
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} |
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} finally { |
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coroutineScope { finallyBlock() } |
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} |
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} |
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|
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override fun onCleared() { |
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super.onCleared() |
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launchManager.clear() |
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} |
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} |
@ -0,0 +1,107 @@ |
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package io.legado.app.help.http |
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import kotlinx.coroutines.CompletableDeferred |
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import kotlinx.coroutines.Deferred |
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import retrofit2.* |
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import java.lang.reflect.ParameterizedType |
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import java.lang.reflect.Type |
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class CoroutineCallAdapterFactory private constructor() : CallAdapter.Factory() { |
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companion object { |
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@JvmStatic @JvmName("create") |
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operator fun invoke() = CoroutineCallAdapterFactory() |
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} |
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|
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override fun get( |
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returnType: Type, |
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annotations: Array<out Annotation>, |
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retrofit: Retrofit |
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): CallAdapter<*, *>? { |
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if (Deferred::class.java != getRawType(returnType)) { |
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return null |
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} |
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if (returnType !is ParameterizedType) { |
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throw IllegalStateException( |
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"Deferred return type must be parameterized as Deferred<Foo> or Deferred<out Foo>") |
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} |
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val responseType = getParameterUpperBound(0, returnType) |
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val rawDeferredType = getRawType(responseType) |
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return if (rawDeferredType == Response::class.java) { |
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if (responseType !is ParameterizedType) { |
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throw IllegalStateException( |
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"Response must be parameterized as Response<Foo> or Response<out Foo>") |
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} |
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ResponseCallAdapter<Any>( |
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getParameterUpperBound( |
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0, |
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responseType |
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) |
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) |
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} else { |
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BodyCallAdapter<Any>(responseType) |
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} |
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} |
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private class BodyCallAdapter<T>( |
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private val responseType: Type |
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) : CallAdapter<T, Deferred<T>> { |
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override fun responseType() = responseType |
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override fun adapt(call: Call<T>): Deferred<T> { |
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val deferred = CompletableDeferred<T>() |
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deferred.invokeOnCompletion { |
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if (deferred.isCancelled) { |
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call.cancel() |
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} |
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} |
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|
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call.enqueue(object : Callback<T> { |
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override fun onFailure(call: Call<T>, t: Throwable) { |
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deferred.completeExceptionally(t) |
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} |
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override fun onResponse(call: Call<T>, response: Response<T>) { |
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if (response.isSuccessful) { |
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deferred.complete(response.body()!!) |
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} else { |
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deferred.completeExceptionally(HttpException(response)) |
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} |
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} |
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}) |
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return deferred |
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} |
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} |
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private class ResponseCallAdapter<T>( |
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private val responseType: Type |
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) : CallAdapter<T, Deferred<Response<T>>> { |
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override fun responseType() = responseType |
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override fun adapt(call: Call<T>): Deferred<Response<T>> { |
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val deferred = CompletableDeferred<Response<T>>() |
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deferred.invokeOnCompletion { |
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if (deferred.isCancelled) { |
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call.cancel() |
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} |
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} |
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call.enqueue(object : Callback<T> { |
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override fun onFailure(call: Call<T>, t: Throwable) { |
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deferred.completeExceptionally(t) |
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} |
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override fun onResponse(call: Call<T>, response: Response<T>) { |
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deferred.complete(response) |
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} |
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}) |
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return deferred |
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} |
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} |
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} |
@ -0,0 +1,49 @@ |
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package io.legado.app.help.http |
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import okhttp3.* |
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import java.util.* |
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import java.util.concurrent.TimeUnit |
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object HttpHelper { |
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val client: OkHttpClient = getOkHttpClient() |
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private fun getOkHttpClient(): OkHttpClient { |
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val cs = ConnectionSpec.Builder(ConnectionSpec.MODERN_TLS) |
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.tlsVersions(TlsVersion.TLS_1_2) |
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.build() |
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val specs = ArrayList<ConnectionSpec>() |
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specs.add(cs) |
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specs.add(ConnectionSpec.COMPATIBLE_TLS) |
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specs.add(ConnectionSpec.CLEARTEXT) |
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val sslParams = SSLHelper.getSslSocketFactory() |
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return OkHttpClient.Builder() |
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.connectTimeout(15, TimeUnit.SECONDS) |
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.writeTimeout(15, TimeUnit.SECONDS) |
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.readTimeout(15, TimeUnit.SECONDS) |
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.retryOnConnectionFailure(true) |
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.sslSocketFactory(sslParams.sSLSocketFactory, sslParams.trustManager) |
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.hostnameVerifier(SSLHelper.unsafeHostnameVerifier) |
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.connectionSpecs(specs) |
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.followRedirects(true) |
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.followSslRedirects(true) |
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.protocols(listOf(Protocol.HTTP_1_1)) |
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.addInterceptor(getHeaderInterceptor()) |
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.build() |
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} |
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private fun getHeaderInterceptor(): Interceptor { |
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return Interceptor { chain -> |
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val request = chain.request() |
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.newBuilder() |
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.addHeader("Keep-Alive", "300") |
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.addHeader("Connection", "Keep-Alive") |
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.addHeader("Cache-Control", "no-cache") |
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.build() |
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chain.proceed(request) |
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} |
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} |
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} |
@ -0,0 +1,175 @@ |
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package io.legado.app.help.http |
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import javax.net.ssl.* |
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import java.io.IOException |
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import java.io.InputStream |
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import java.security.KeyManagementException |
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import java.security.KeyStore |
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import java.security.NoSuchAlgorithmException |
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import java.security.cert.CertificateException |
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import java.security.cert.CertificateFactory |
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import java.security.cert.X509Certificate |
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object SSLHelper { |
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val sslSocketFactory: SSLParams |
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get() = getSslSocketFactoryBase(null, null, null) |
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/** |
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* 为了解决客户端不信任服务器数字证书的问题,网络上大部分的解决方案都是让客户端不对证书做任何检查, |
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* 这是一种有很大安全漏洞的办法 |
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*/ |
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val unsafeTrustManager: X509TrustManager = object : X509TrustManager { |
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@Throws(CertificateException::class) |
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override fun checkClientTrusted(chain: Array<X509Certificate>, authType: String) { |
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} |
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@Throws(CertificateException::class) |
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override fun checkServerTrusted(chain: Array<X509Certificate>, authType: String) { |
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} |
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override fun getAcceptedIssuers(): Array<X509Certificate> { |
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return arrayOf() |
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} |
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} |
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/** |
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* 此类是用于主机名验证的基接口。 在握手期间,如果 URL 的主机名和服务器的标识主机名不匹配, |
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* 则验证机制可以回调此接口的实现程序来确定是否应该允许此连接。策略可以是基于证书的或依赖于其他验证方案。 |
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* 当验证 URL 主机名使用的默认规则失败时使用这些回调。如果主机名是可接受的,则返回 true |
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*/ |
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val unsafeHostnameVerifier: HostnameVerifier = HostnameVerifier { _, _ -> true } |
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class SSLParams { |
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var sSLSocketFactory: SSLSocketFactory? = null |
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var trustManager: X509TrustManager? = null |
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} |
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/** |
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* https单向认证 |
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* 可以额外配置信任服务端的证书策略,否则默认是按CA证书去验证的,若不是CA可信任的证书,则无法通过验证 |
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*/ |
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fun getSslSocketFactory(trustManager: X509TrustManager): SSLParams { |
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return getSslSocketFactoryBase(trustManager, null, null) |
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} |
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/** |
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* https单向认证 |
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* 用含有服务端公钥的证书校验服务端证书 |
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*/ |
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fun getSslSocketFactory(vararg certificates: InputStream): SSLParams { |
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return getSslSocketFactoryBase(null, null, null, *certificates) |
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} |
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/** |
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* https双向认证 |
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* bksFile 和 password -> 客户端使用bks证书校验服务端证书 |
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* certificates -> 用含有服务端公钥的证书校验服务端证书 |
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*/ |
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fun getSslSocketFactory(bksFile: InputStream, password: String, vararg certificates: InputStream): SSLParams { |
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return getSslSocketFactoryBase(null, bksFile, password, *certificates) |
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} |
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/** |
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* https双向认证 |
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* bksFile 和 password -> 客户端使用bks证书校验服务端证书 |
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* X509TrustManager -> 如果需要自己校验,那么可以自己实现相关校验,如果不需要自己校验,那么传null即可 |
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*/ |
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fun getSslSocketFactory(bksFile: InputStream, password: String, trustManager: X509TrustManager): SSLParams { |
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return getSslSocketFactoryBase(trustManager, bksFile, password) |
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} |
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private fun getSslSocketFactoryBase( |
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trustManager: X509TrustManager?, |
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bksFile: InputStream?, |
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password: String?, |
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vararg certificates: InputStream |
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): SSLParams { |
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val sslParams = SSLParams() |
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try { |
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val keyManagers = prepareKeyManager(bksFile, password) |
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val trustManagers = prepareTrustManager(*certificates) |
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val manager: X509TrustManager? |
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manager = //优先使用用户自定义的TrustManager |
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trustManager ?: if (trustManagers != null) { |
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//然后使用默认的TrustManager |
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chooseTrustManager(trustManagers) |
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} else { |
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//否则使用不安全的TrustManager |
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unsafeTrustManager |
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} |
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// 创建TLS类型的SSLContext对象, that uses our TrustManager |
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val sslContext = SSLContext.getInstance("TLS") |
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// 用上面得到的trustManagers初始化SSLContext,这样sslContext就会信任keyStore中的证书 |
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// 第一个参数是授权的密钥管理器,用来授权验证,比如授权自签名的证书验证。第二个是被授权的证书管理器,用来验证服务器端的证书 |
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sslContext.init(keyManagers, manager?.let { arrayOf<TrustManager>(it) }, null) |
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// 通过sslContext获取SSLSocketFactory对象 |
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sslParams.sSLSocketFactory = sslContext.socketFactory |
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sslParams.trustManager = manager |
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return sslParams |
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} catch (e: NoSuchAlgorithmException) { |
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throw AssertionError(e) |
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} catch (e: KeyManagementException) { |
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throw AssertionError(e) |
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} |
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} |
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private fun prepareKeyManager(bksFile: InputStream?, password: String?): Array<KeyManager>? { |
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try { |
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if (bksFile == null || password == null) return null |
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val clientKeyStore = KeyStore.getInstance("BKS") |
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clientKeyStore.load(bksFile, password.toCharArray()) |
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val kmf = KeyManagerFactory.getInstance(KeyManagerFactory.getDefaultAlgorithm()) |
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kmf.init(clientKeyStore, password.toCharArray()) |
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return kmf.keyManagers |
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} catch (e: Exception) { |
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e.printStackTrace() |
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} |
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return null |
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} |
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private fun prepareTrustManager(vararg certificates: InputStream): Array<TrustManager>? { |
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if (certificates.isEmpty()) return null |
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try { |
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val certificateFactory = CertificateFactory.getInstance("X.509") |
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// 创建一个默认类型的KeyStore,存储我们信任的证书 |
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val keyStore = KeyStore.getInstance(KeyStore.getDefaultType()) |
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keyStore.load(null) |
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var index = 0 |
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for (certStream in certificates) { |
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val certificateAlias = Integer.toString(index++) |
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// 证书工厂根据证书文件的流生成证书 cert |
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val cert = certificateFactory.generateCertificate(certStream) |
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// 将 cert 作为可信证书放入到keyStore中 |
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keyStore.setCertificateEntry(certificateAlias, cert) |
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try { |
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certStream?.close() |
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} catch (e: IOException) { |
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e.printStackTrace() |
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} |
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} |
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//我们创建一个默认类型的TrustManagerFactory |
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val tmf = TrustManagerFactory.getInstance(TrustManagerFactory.getDefaultAlgorithm()) |
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//用我们之前的keyStore实例初始化TrustManagerFactory,这样tmf就会信任keyStore中的证书 |
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tmf.init(keyStore) |
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//通过tmf获取TrustManager数组,TrustManager也会信任keyStore中的证书 |
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return tmf.trustManagers |
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} catch (e: Exception) { |
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e.printStackTrace() |
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} |
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return null |
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} |
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|
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private fun chooseTrustManager(trustManagers: Array<TrustManager>): X509TrustManager? { |
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for (trustManager in trustManagers) { |
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if (trustManager is X509TrustManager) { |
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return trustManager |
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} |
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} |
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return null |
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} |
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} |
@ -1,6 +1,18 @@ |
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package io.legado.app.ui.search |
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|
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import android.app.Application |
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import androidx.lifecycle.AndroidViewModel |
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import androidx.lifecycle.LiveData |
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import androidx.lifecycle.MutableLiveData |
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import io.legado.app.base.BaseViewModel |
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import io.legado.app.data.entities.SearchBook |
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|
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class SearchViewModel(application: Application) : AndroidViewModel(application) |
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class SearchViewModel(application: Application) : BaseViewModel(application){ |
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val searchBooks: LiveData<List<SearchBook>> = MutableLiveData() |
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public fun search(){ |
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} |
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|
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} |
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|
Loading…
Reference in new issue