// This file is generated by DispatcherBase_h.template. // Copyright 2016 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef {{"_".join(config.protocol.namespace)}}_DispatcherBase_h #define {{"_".join(config.protocol.namespace)}}_DispatcherBase_h //#include "Forward.h" //#include "ErrorSupport.h" //#include "Values.h" {% for namespace in config.protocol.namespace %} namespace {{namespace}} { {% endfor %} class WeakPtr; class {{config.lib.export_macro}} DispatchResponse { public: enum Status { kSuccess = 0, kError = 1, kFallThrough = 2, }; // For historical reasons, these error codes correspond to commonly used // XMLRPC codes (e.g. see METHOD_NOT_FOUND in // https://github.com/python/cpython/blob/master/Lib/xmlrpc/client.py). enum ErrorCode { kParseError = -32700, kInvalidRequest = -32600, kMethodNotFound = -32601, kInvalidParams = -32602, kInternalError = -32603, kServerError = -32000, }; Status status() const { return m_status; } const String& errorMessage() const { return m_errorMessage; } ErrorCode errorCode() const { return m_errorCode; } bool isSuccess() const { return m_status == kSuccess; } static DispatchResponse OK(); static DispatchResponse Error(const String&); static DispatchResponse InternalError(); static DispatchResponse InvalidParams(const String&); static DispatchResponse FallThrough(); private: Status m_status; String m_errorMessage; ErrorCode m_errorCode; }; class {{config.lib.export_macro}} DispatcherBase { PROTOCOL_DISALLOW_COPY(DispatcherBase); public: static const char kInvalidParamsString[]; class {{config.lib.export_macro}} WeakPtr { public: explicit WeakPtr(DispatcherBase*); ~WeakPtr(); DispatcherBase* get() { return m_dispatcher; } void dispose() { m_dispatcher = nullptr; } private: DispatcherBase* m_dispatcher; }; class {{config.lib.export_macro}} Callback { public: Callback(std::unique_ptr backendImpl, int callId, const String& method, const ProtocolMessage& message); virtual ~Callback(); void dispose(); protected: void sendIfActive(std::unique_ptr partialMessage, const DispatchResponse& response); void fallThroughIfActive(); private: std::unique_ptr m_backendImpl; int m_callId; String m_method; ProtocolMessage m_message; }; explicit DispatcherBase(FrontendChannel*); virtual ~DispatcherBase(); virtual bool canDispatch(const String& method) = 0; virtual void dispatch(int callId, const String& method, const ProtocolMessage& rawMessage, std::unique_ptr messageObject) = 0; FrontendChannel* channel() { return m_frontendChannel; } void sendResponse(int callId, const DispatchResponse&, std::unique_ptr result); void sendResponse(int callId, const DispatchResponse&); void reportProtocolError(int callId, DispatchResponse::ErrorCode, const String& errorMessage, ErrorSupport* errors); void clearFrontend(); std::unique_ptr weakPtr(); private: FrontendChannel* m_frontendChannel; std::unordered_set m_weakPtrs; }; class {{config.lib.export_macro}} UberDispatcher { PROTOCOL_DISALLOW_COPY(UberDispatcher); public: explicit UberDispatcher(FrontendChannel*); void registerBackend(const String& name, std::unique_ptr); void setupRedirects(const std::unordered_map&); bool parseCommand(Value* message, int* callId, String* method); bool canDispatch(const String& method); void dispatch(int callId, const String& method, std::unique_ptr message, const ProtocolMessage& rawMessage); FrontendChannel* channel() { return m_frontendChannel; } virtual ~UberDispatcher(); private: protocol::DispatcherBase* findDispatcher(const String& method); FrontendChannel* m_frontendChannel; std::unordered_map m_redirects; std::unordered_map> m_dispatchers; }; class InternalResponse : public Serializable { PROTOCOL_DISALLOW_COPY(InternalResponse); public: static std::unique_ptr createResponse(int callId, std::unique_ptr params); static std::unique_ptr createNotification(const char* method, std::unique_ptr params = nullptr); static std::unique_ptr createErrorResponse(int callId, DispatchResponse::ErrorCode code, const String& message); void AppendSerialized(std::vector* out) const override; ~InternalResponse() override {} private: InternalResponse(int callId, const char* method, std::unique_ptr params); int m_callId; const char* m_method = nullptr; std::unique_ptr m_params; }; class InternalRawNotification : public Serializable { public: static std::unique_ptr fromBinary(std::vector notification) { return std::unique_ptr(new InternalRawNotification(std::move(notification))); } ~InternalRawNotification() override {} std::vector TakeSerialized() && override { return std::move(m_binaryNotification); } void AppendSerialized(std::vector* out) const override { out->insert(out->end(), m_binaryNotification.begin(), m_binaryNotification.end()); } private: explicit InternalRawNotification(std::vector notification) : m_binaryNotification(std::move(notification)) { } std::vector m_binaryNotification; }; {% for namespace in config.protocol.namespace %} } // namespace {{namespace}} {% endfor %} #endif // !defined({{"_".join(config.protocol.namespace)}}_DispatcherBase_h)