学习源码-Retrofit

构建Retrofit对象

简单的使用

Retrofit retrofit = new Retrofit.Builder()
                .baseUrl(Config.serverUrl())
                .client(okHttpClient)
                .addCallAdapterFactory(RxJava2CallAdapterFactory.create())
                .addConverterFactory(GsonConverterFactory.create())
                .build();

逐行分析

我们按照先后顺序逐行分析:

  public static final class Builder {
    private final Platform platform;
    private @Nullable okhttp3.Call.Factory callFactory;
    private HttpUrl baseUrl;
    private final List<Converter.Factory> converterFactories = new ArrayList<>();
    private final List<CallAdapter.Factory> adapterFactories = new ArrayList<>();
    private @Nullable Executor callbackExecutor;
    private boolean validateEagerly;

    Builder(Platform platform) {
      this.platform = platform;
      // Add the built-in converter factory first. This prevents overriding its behavior but also
      // ensures correct behavior when using converters that consume all types.
      converterFactories.add(new BuiltInConverters());
    }

    public Builder() {
      this(Platform.get());
    }

    Builder(Retrofit retrofit) {
      platform = Platform.get();
      callFactory = retrofit.callFactory;
      baseUrl = retrofit.baseUrl;
      converterFactories.addAll(retrofit.converterFactories);
      adapterFactories.addAll(retrofit.adapterFactories);
      // Remove the default, platform-aware call adapter added by build().
      adapterFactories.remove(adapterFactories.size() - 1);
      callbackExecutor = retrofit.callbackExecutor;
      validateEagerly = retrofit.validateEagerly;
    }
    ......
        /**
     * Create the {@link Retrofit} instance using the configured values.
     * <p>
     * Note: If neither {@link #client} nor {@link #callFactory} is called a default {@link
     * OkHttpClient} will be created and used.
     */
    public Retrofit build() {
      if (baseUrl == null) {
        throw new IllegalStateException("Base URL required.");
      }

      okhttp3.Call.Factory callFactory = this.callFactory;
      if (callFactory == null) {
        callFactory = new OkHttpClient();
      }

      Executor callbackExecutor = this.callbackExecutor;
      if (callbackExecutor == null) {
        callbackExecutor = platform.defaultCallbackExecutor();
      }

      // Make a defensive copy of the adapters and add the default Call adapter.
      List<CallAdapter.Factory> adapterFactories = new ArrayList<>(this.adapterFactories);
      adapterFactories.add(platform.defaultCallAdapterFactory(callbackExecutor));

      // Make a defensive copy of the converters.
      List<Converter.Factory> converterFactories = new ArrayList<>(this.converterFactories);

      return new Retrofit(callFactory, baseUrl, converterFactories, adapterFactories,
          callbackExecutor, validateEagerly);
    }
}

创建Builder对象的时候,会自动生成一个Platform对象,而在build()方法中BuilderPlatform中得到了的配置对象:defaultCallbackExecutor()。配置了默认的CallFactory:OkHttpClient(),等等......
那么我们接下来查看Platform对象的源码,看看它做了什么。

class Platform {
  private static final Platform PLATFORM = findPlatform();

  static Platform get() {
    return PLATFORM;
  }

  private static Platform findPlatform() {
    try {
      Class.forName("android.os.Build");
      if (Build.VERSION.SDK_INT != 0) {
        return new Android();
      }
    } catch (ClassNotFoundException ignored) {
    }
    try {
      Class.forName("java.util.Optional");
      return new Java8();
    } catch (ClassNotFoundException ignored) {
    }
    return new Platform();
  }

  @Nullable Executor defaultCallbackExecutor() {
    return null;
  }

  CallAdapter.Factory defaultCallAdapterFactory(@Nullable Executor callbackExecutor) {
    if (callbackExecutor != null) {
      return new ExecutorCallAdapterFactory(callbackExecutor);
    }
    return DefaultCallAdapterFactory.INSTANCE;
  }

  boolean isDefaultMethod(Method method) {
    return false;
  }

  @Nullable Object invokeDefaultMethod(Method method, Class<?> declaringClass, Object object,
      @Nullable Object... args) throws Throwable {
    throw new UnsupportedOperationException();
  }

  @IgnoreJRERequirement // Only classloaded and used on Java 8.
  static class Java8 extends Platform {
    @Override boolean isDefaultMethod(Method method) {
      return method.isDefault();
    }

    @Override Object invokeDefaultMethod(Method method, Class<?> declaringClass, Object object,
        @Nullable Object... args) throws Throwable {
      // Because the service interface might not be public, we need to use a MethodHandle lookup
      // that ignores the visibility of the declaringClass.
      Constructor<Lookup> constructor = Lookup.class.getDeclaredConstructor(Class.class, int.class);
      constructor.setAccessible(true);
      return constructor.newInstance(declaringClass, -1 /* trusted */)
          .unreflectSpecial(method, declaringClass)
          .bindTo(object)
          .invokeWithArguments(args);
    }
  }

  static class Android extends Platform {
    @Override public Executor defaultCallbackExecutor() {
      return new MainThreadExecutor();
    }

    @Override CallAdapter.Factory defaultCallAdapterFactory(@Nullable Executor callbackExecutor) {
      if (callbackExecutor == null) throw new AssertionError();
      return new ExecutorCallAdapterFactory(callbackExecutor);
    }

    static class MainThreadExecutor implements Executor {
      private final Handler handler = new Handler(Looper.getMainLooper());

      @Override public void execute(Runnable r) {
        handler.post(r);
      }
    }
  }
}

这是一个单例,它自动检测了使用Retrofit的平台,创建了Android : Platform,其中定义了默认的回调执行器MainThreadExecutor,而MainThreadExecutor在内部使用了Handler作为回调主线程的工具。除此之外,它还提供了默认的ExecutorCallAdapterFactory用来包装Call请求。
我们代码中传入的是RxJava2CallAdapterFactory,我们来跟踪一下它的代码具体做了什么工作。

public final class RxJava2CallAdapterFactory extends CallAdapter.Factory {
  /**
   * Returns an instance which creates synchronous observables that do not operate on any scheduler
   * by default.
   */
  public static RxJava2CallAdapterFactory create() {
    return new RxJava2CallAdapterFactory(null, false);
  }

  /**
   * Returns an instance which creates asynchronous observables. Applying
   * {@link Observable#subscribeOn} has no effect on stream types created by this factory.
   */
  public static RxJava2CallAdapterFactory createAsync() {
    return new RxJava2CallAdapterFactory(null, true);
  }

  /**
   * Returns an instance which creates synchronous observables that
   * {@linkplain Observable#subscribeOn(Scheduler) subscribe on} {@code scheduler} by default.
   */
  @SuppressWarnings("ConstantConditions") // Guarding public API nullability.
  public static RxJava2CallAdapterFactory createWithScheduler(Scheduler scheduler) {
    if (scheduler == null) throw new NullPointerException("scheduler == null");
    return new RxJava2CallAdapterFactory(scheduler, false);
  }

  private final @Nullable Scheduler scheduler;
  private final boolean isAsync;

  private RxJava2CallAdapterFactory(@Nullable Scheduler scheduler, boolean isAsync) {
    this.scheduler = scheduler;
    this.isAsync = isAsync;
  }

  @Override
  public CallAdapter<?, ?> get(Type returnType, Annotation[] annotations, Retrofit retrofit) {
    Class<?> rawType = getRawType(returnType);

    if (rawType == Completable.class) {
      // Completable is not parameterized (which is what the rest of this method deals with) so it
      // can only be created with a single configuration.
      return new RxJava2CallAdapter(Void.class, scheduler, isAsync, false, true, false, false,
          false, true);
    }

    boolean isFlowable = rawType == Flowable.class;
    boolean isSingle = rawType == Single.class;
    boolean isMaybe = rawType == Maybe.class;
    if (rawType != Observable.class && !isFlowable && !isSingle && !isMaybe) {
      return null;
    }

    boolean isResult = false;
    boolean isBody = false;
    Type responseType;
    if (!(returnType instanceof ParameterizedType)) {
      String name = isFlowable ? "Flowable"
          : isSingle ? "Single"
          : isMaybe ? "Maybe" : "Observable";
      throw new IllegalStateException(name + " return type must be parameterized"
          + " as " + name + "<Foo> or " + name + "<? extends Foo>");
    }

    Type observableType = getParameterUpperBound(0, (ParameterizedType) returnType);
    Class<?> rawObservableType = getRawType(observableType);
    if (rawObservableType == Response.class) {
      if (!(observableType instanceof ParameterizedType)) {
        throw new IllegalStateException("Response must be parameterized"
            + " as Response<Foo> or Response<? extends Foo>");
      }
      responseType = getParameterUpperBound(0, (ParameterizedType) observableType);
    } else if (rawObservableType == Result.class) {
      if (!(observableType instanceof ParameterizedType)) {
        throw new IllegalStateException("Result must be parameterized"
            + " as Result<Foo> or Result<? extends Foo>");
      }
      responseType = getParameterUpperBound(0, (ParameterizedType) observableType);
      isResult = true;
    } else {
      responseType = observableType;
      isBody = true;
    }

    return new RxJava2CallAdapter(responseType, scheduler, isAsync, isResult, isBody, isFlowable,
        isSingle, isMaybe, false);
  }
}

我们主要关注一下它实现的get方法,该方法经过一系列的参数初始化,返回了一个新的RxJava2CallAdapter对象。我们继续查看一下这个类。

final class RxJava2CallAdapter<R> implements CallAdapter<R, Object> {
  private final Type responseType;
  private final @Nullable Scheduler scheduler;
  private final boolean isAsync;
  private final boolean isResult;
  private final boolean isBody;
  private final boolean isFlowable;
  private final boolean isSingle;
  private final boolean isMaybe;
  private final boolean isCompletable;

  RxJava2CallAdapter(Type responseType, @Nullable Scheduler scheduler, boolean isAsync,
      boolean isResult, boolean isBody, boolean isFlowable, boolean isSingle, boolean isMaybe,
      boolean isCompletable) {
    this.responseType = responseType;
    this.scheduler = scheduler;
    this.isAsync = isAsync;
    this.isResult = isResult;
    this.isBody = isBody;
    this.isFlowable = isFlowable;
    this.isSingle = isSingle;
    this.isMaybe = isMaybe;
    this.isCompletable = isCompletable;
  }

  @Override public Type responseType() {
    return responseType;
  }

  @Override public Object adapt(Call<R> call) {
    Observable<Response<R>> responseObservable = isAsync
        ? new CallEnqueueObservable<>(call)
        : new CallExecuteObservable<>(call);

    Observable<?> observable;
    if (isResult) {
      observable = new ResultObservable<>(responseObservable);
    } else if (isBody) {
      observable = new BodyObservable<>(responseObservable);
    } else {
      observable = responseObservable;
    }

    if (scheduler != null) {
      observable = observable.subscribeOn(scheduler);
    }

    if (isFlowable) {
      return observable.toFlowable(BackpressureStrategy.LATEST);
    }
    if (isSingle) {
      return observable.singleOrError();
    }
    if (isMaybe) {
      return observable.singleElement();
    }
    if (isCompletable) {
      return observable.ignoreElements();
    }
    return observable;
  }
}

该对象根据传进来的参数,返回了对应的observable结果对象。
综上所述:RxJava2CallAdapterFactory的作用是将Retrofit生成的Call包装成为RxJava2Observable对象。

现在我们来到了addConverterFactory(GsonConverterFactory.create()),我们依据前面的经验,对它进行分析。

public final class GsonConverterFactory extends Converter.Factory {
  /**
   * Create an instance using a default {@link Gson} instance for conversion. Encoding to JSON and
   * decoding from JSON (when no charset is specified by a header) will use UTF-8.
   */
  public static GsonConverterFactory create() {
    return create(new Gson());
  }

  /**
   * Create an instance using {@code gson} for conversion. Encoding to JSON and
   * decoding from JSON (when no charset is specified by a header) will use UTF-8.
   */
  @SuppressWarnings("ConstantConditions") // Guarding public API nullability.
  public static GsonConverterFactory create(Gson gson) {
    if (gson == null) throw new NullPointerException("gson == null");
    return new GsonConverterFactory(gson);
  }

  private final Gson gson;

  private GsonConverterFactory(Gson gson) {
    this.gson = gson;
  }

  @Override
  public Converter<ResponseBody, ?> responseBodyConverter(Type type, Annotation[] annotations,
      Retrofit retrofit) {
    TypeAdapter<?> adapter = gson.getAdapter(TypeToken.get(type));
    return new GsonResponseBodyConverter<>(gson, adapter);
  }

  @Override
  public Converter<?, RequestBody> requestBodyConverter(Type type,
      Annotation[] parameterAnnotations, Annotation[] methodAnnotations, Retrofit retrofit) {
    TypeAdapter<?> adapter = gson.getAdapter(TypeToken.get(type));
    return new GsonRequestBodyConverter<>(gson, adapter);
  }
}



final class GsonResponseBodyConverter<T> implements Converter<ResponseBody, T> {
  private final Gson gson;
  private final TypeAdapter<T> adapter;

  GsonResponseBodyConverter(Gson gson, TypeAdapter<T> adapter) {
    this.gson = gson;
    this.adapter = adapter;
  }

  @Override public T convert(ResponseBody value) throws IOException {
    JsonReader jsonReader = gson.newJsonReader(value.charStream());
    try {
      return adapter.read(jsonReader);
    } finally {
      value.close();
    }
  }
}




final class GsonRequestBodyConverter<T> implements Converter<T, RequestBody> {
  private static final MediaType MEDIA_TYPE = MediaType.parse("application/json; charset=UTF-8");
  private static final Charset UTF_8 = Charset.forName("UTF-8");

  private final Gson gson;
  private final TypeAdapter<T> adapter;

  GsonRequestBodyConverter(Gson gson, TypeAdapter<T> adapter) {
    this.gson = gson;
    this.adapter = adapter;
  }

  @Override public RequestBody convert(T value) throws IOException {
    Buffer buffer = new Buffer();
    Writer writer = new OutputStreamWriter(buffer.outputStream(), UTF_8);
    JsonWriter jsonWriter = gson.newJsonWriter(writer);
    adapter.write(jsonWriter, value);
    jsonWriter.close();
    return RequestBody.create(MEDIA_TYPE, buffer.readByteString());
  }
}

我们这里不再赘述,直接总结我们得到的结论:GsonConvertFactory使用GsonRequestBody以及ResponseBody进行Json解析。

创建请求

public interface IIndexApi {

    @GET("/rest/api/index")
    Observable<HeadData> getData(@Header("x-token") String tokenStr,@Query("type") String type);

    @FormUrlEncoded
    @POST("/rest/api/myNewInvest")
    Observable<AssetData> getData(@Header("x-token") String tokenStr, @Field("isStorage") String isStorage);
}

    Observable<HeadData> = retrofit.create(IIndexApi.class).getData(tokenStr,type);

    Observable<AssetData> = retrofit.create(IIndexApi.class).getData(tokenStr,isStorage);

我们使用interface生命接口,用@GET等注解生命请求方式和添加参数,Retrofit通过.create方法创建了这个接口,并在后面调用其包含的具体接口。
我们先从.create方法入手。

 @SuppressWarnings("unchecked") // Single-interface proxy creation guarded by parameter safety.
  public <T> T create(final Class<T> service) {
    Utils.validateServiceInterface(service);
    if (validateEagerly) {
      eagerlyValidateMethods(service);
    }
    return (T) Proxy.newProxyInstance(service.getClassLoader(), new Class<?>[] { service },
        new InvocationHandler() {
          private final Platform platform = Platform.get();

          @Override public Object invoke(Object proxy, Method method, @Nullable Object[] args)
              throws Throwable {
            // If the method is a method from Object then defer to normal invocation.
            if (method.getDeclaringClass() == Object.class) {
              return method.invoke(this, args);
            }
            if (platform.isDefaultMethod(method)) {
              return platform.invokeDefaultMethod(method, service, proxy, args);
            }
            ServiceMethod<Object, Object> serviceMethod =
                (ServiceMethod<Object, Object>) loadServiceMethod(method);
            OkHttpCall<Object> okHttpCall = new OkHttpCall<>(serviceMethod, args);
            return serviceMethod.callAdapter.adapt(okHttpCall);
          }
        });
  }

  private void eagerlyValidateMethods(Class<?> service) {
    Platform platform = Platform.get();
    for (Method method : service.getDeclaredMethods()) {
      if (!platform.isDefaultMethod(method)) {
        loadServiceMethod(method);
      }
    }
  }

  ServiceMethod<?, ?> loadServiceMethod(Method method) {
    ServiceMethod<?, ?> result = serviceMethodCache.get(method);
    if (result != null) return result;

    synchronized (serviceMethodCache) {
      result = serviceMethodCache.get(method);
      if (result == null) {
        result = new ServiceMethod.Builder<>(this, method).build();
        serviceMethodCache.put(method, result);
      }
    }
    return result;
  }

create方法返回了使用动态代理Proxy.newProxyInstance生成的Observable<>(由RxJava2CallAdapterokHttpCall转化为Observable<>),而okHttpCall是由serviceMethod作为参数声明的类。我们查看一下OkHttpCall类的具体内容:

  @Override public Response<T> execute() throws IOException {
    okhttp3.Call call;

    synchronized (this) {
      if (executed) throw new IllegalStateException("Already executed.");
      executed = true;

      if (creationFailure != null) {
        if (creationFailure instanceof IOException) {
          throw (IOException) creationFailure;
        } else {
          throw (RuntimeException) creationFailure;
        }
      }

      call = rawCall;
      if (call == null) {
        try {
          call = rawCall = createRawCall();
        } catch (IOException | RuntimeException e) {
          creationFailure = e;
          throw e;
        }
      }
    }

    if (canceled) {
      call.cancel();
    }

    return parseResponse(call.execute());
  }

  private okhttp3.Call createRawCall() throws IOException {
    Request request = serviceMethod.toRequest(args);
    okhttp3.Call call = serviceMethod.callFactory.newCall(request);
    if (call == null) {
      throw new NullPointerException("Call.Factory returned null.");
    }
    return call;
  }

我们省略了一些代码,直接找到OKhttp3.Call的创建代码。
它是由serviceMethod.toRequest(args)得到了Request对象,然后再由callFactory.newCall以得到的Request为参数构建了call
接下来我们在查看一下ServiceMethod的源码,由于代码较多,我们从上一节中Retrofit.create()入手,找到result = new ServiceMethod.Builder<>(this, method).build();这个方法,我们跟踪进去查看一下:

  static final class Builder<T, R> {
    final Retrofit retrofit;
    final Method method;
    final Annotation[] methodAnnotations;
    final Annotation[][] parameterAnnotationsArray;
    final Type[] parameterTypes;

    Type responseType;
    boolean gotField;
    boolean gotPart;
    boolean gotBody;
    boolean gotPath;
    boolean gotQuery;
    boolean gotUrl;
    String httpMethod;
    boolean hasBody;
    boolean isFormEncoded;
    boolean isMultipart;
    String relativeUrl;
    Headers headers;
    MediaType contentType;
    Set<String> relativeUrlParamNames;
    ParameterHandler<?>[] parameterHandlers;
    Converter<ResponseBody, T> responseConverter;
    CallAdapter<T, R> callAdapter;

    Builder(Retrofit retrofit, Method method) {
      this.retrofit = retrofit;
      this.method = method;
      this.methodAnnotations = method.getAnnotations();
      this.parameterTypes = method.getGenericParameterTypes();
      this.parameterAnnotationsArray = method.getParameterAnnotations();
    }

    public ServiceMethod build() {
      callAdapter = createCallAdapter();
      responseType = callAdapter.responseType();
      if (responseType == Response.class || responseType == okhttp3.Response.class) {
        throw methodError("'"
            + Utils.getRawType(responseType).getName()
            + "' is not a valid response body type. Did you mean ResponseBody?");
      }
      responseConverter = createResponseConverter();

      for (Annotation annotation : methodAnnotations) {
        parseMethodAnnotation(annotation);
      }
      ......
    }
    ......
  
    private void parseMethodAnnotation(Annotation annotation) {
      if (annotation instanceof DELETE) {
        parseHttpMethodAndPath("DELETE", ((DELETE) annotation).value(), false);
      } else if (annotation instanceof GET) {
        parseHttpMethodAndPath("GET", ((GET) annotation).value(), false);
      } else if (annotation instanceof HEAD) {
        parseHttpMethodAndPath("HEAD", ((HEAD) annotation).value(), false);
        if (!Void.class.equals(responseType)) {
          throw methodError("HEAD method must use Void as response type.");
        }
      } else if (annotation instanceof PATCH) {
        parseHttpMethodAndPath("PATCH", ((PATCH) annotation).value(), true);
      } else if (annotation instanceof POST) {
        parseHttpMethodAndPath("POST", ((POST) annotation).value(), true);
      } else if (annotation instanceof PUT) {
        parseHttpMethodAndPath("PUT", ((PUT) annotation).value(), true);
      } else if (annotation instanceof OPTIONS) {
        parseHttpMethodAndPath("OPTIONS", ((OPTIONS) annotation).value(), false);
      } else if (annotation instanceof HTTP) {
        HTTP http = (HTTP) annotation;
        parseHttpMethodAndPath(http.method(), http.path(), http.hasBody());
      } else if (annotation instanceof retrofit2.http.Headers) {
        String[] headersToParse = ((retrofit2.http.Headers) annotation).value();
        if (headersToParse.length == 0) {
          throw methodError("@Headers annotation is empty.");
        }
        headers = parseHeaders(headersToParse);
      } else if (annotation instanceof Multipart) {
        if (isFormEncoded) {
          throw methodError("Only one encoding annotation is allowed.");
        }
        isMultipart = true;
      } else if (annotation instanceof FormUrlEncoded) {
        if (isMultipart) {
          throw methodError("Only one encoding annotation is allowed.");
        }
        isFormEncoded = true;
      }
    }
    ......
  }

我们在它的Build()方法中找到了,解析注解的代码parseMethodAnnotation(annotation)。跟踪代码,我们最终找到,ServiceMethod解析注解,并生成对应的Request对象的方式。

Retrofit如何选择使用哪个CallAdapter的呢?

在ServiceMethod源码中有这样一段

    private CallAdapter<T, R> createCallAdapter() {
      Type returnType = method.getGenericReturnType();
      if (Utils.hasUnresolvableType(returnType)) {
        throw methodError(
            "Method return type must not include a type variable or wildcard: %s", returnType);
      }
      if (returnType == void.class) {
        throw methodError("Service methods cannot return void.");
      }
      Annotation[] annotations = method.getAnnotations();
      try {
        //noinspection unchecked
        return (CallAdapter<T, R>) retrofit.callAdapter(returnType, annotations);
      } catch (RuntimeException e) { // Wide exception range because factories are user code.
        throw methodError(e, "Unable to create call adapter for %s", returnType);
      }
    }

通过method对象根据我们所定义的接口方法的返回类型得到returnType,然后将它作为参数传入retrofit.callAdapter

  public CallAdapter<?, ?> callAdapter(Type returnType, Annotation[] annotations) {
    return nextCallAdapter(null, returnType, annotations);
  }

  /**
   * Returns the {@link CallAdapter} for {@code returnType} from the available {@linkplain
   * #callAdapterFactories() factories} except {@code skipPast}.
   *
   * @throws IllegalArgumentException if no call adapter available for {@code type}.
   */
  public CallAdapter<?, ?> nextCallAdapter(@Nullable CallAdapter.Factory skipPast, Type returnType,
      Annotation[] annotations) {
    checkNotNull(returnType, "returnType == null");
    checkNotNull(annotations, "annotations == null");

    int start = adapterFactories.indexOf(skipPast) + 1;
    for (int i = start, count = adapterFactories.size(); i < count; i++) {
      CallAdapter<?, ?> adapter = adapterFactories.get(i).get(returnType, annotations, this);
      if (adapter != null) {
        return adapter;
      }
    }

    StringBuilder builder = new StringBuilder("Could not locate call adapter for ")
        .append(returnType)
        .append(".\n");
    if (skipPast != null) {
      builder.append("  Skipped:");
      for (int i = 0; i < start; i++) {
        builder.append("\n   * ").append(adapterFactories.get(i).getClass().getName());
      }
      builder.append('\n');
    }
    builder.append("  Tried:");
    for (int i = start, count = adapterFactories.size(); i < count; i++) {
      builder.append("\n   * ").append(adapterFactories.get(i).getClass().getName());
    }
    throw new IllegalArgumentException(builder.toString());
  }

最终通过遍历adapterFactories并传入returnType,annotations等作为参数,得到adapter,如果无法得到,则抛出异常。

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