include/weave/provider/http_server.h - weave/libweave - Git at Google

 // Copyright 2015 The Weave 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 LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_
 #define LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_

 #include <string>
 #include <vector>

 #include <base/callback.h>
 #include <base/time/time.h>
 #include <weave/stream.h>

 namespace weave {
 namespace provider {

 // This interface should be implemented by the user of libweave and
 // provided during device creation in Device::Create(...)
 // libweave will use this interface to handle HTTP / HTTPS requests for Privet
 // APIs.
 //
 // This interface consist of 2 parts that need to be implemented by the
 // libweave user: HttpServer and HttpServer::Request. HttpServer provides
 // interface to control webserver, and is used to initialize Device object.
 // Request provides an abstraction for a specific HTTP request and may be a
 // short-lived object.
 //
 // Implementation of AddHttpsRequestHandler(...) method should follow the
 // same guidelines as implementation of AddHttpRequestHandler(...) with the
 // only difference, it is for HTTPS connection (not HTTP).
 //
 // Implementation of GetHttpPort() method should return port number on
 // which HTTP server will be listening. Normally it is port 80, but this
 // allows implementer to choose different port if necessary and tell it to
 // libweave.
 //
 // Implementation of GetHttpsPort() should follow the same guidelines as
 // GetHttpPort(). Default HTTPS port is 443, but could be changed and
 // communicated to libweave using this method.
 //
 // Implementation of GetHttpsCertificateFingerprint() method should
 // compute fingerprint of the certificate that HTTPS web server will be using.
 // Method of computing fingerprint is the following:
 //   fingerprint = SHA256 ( DER certificate )
 // You can see example implementation in HttpServerImpl::GenerateX509()
 // in libweave/examples/provider/event_http_server.cc
 //
 // Implementation of AddHttpRequestHandler(...) method should add path
 // to the list of the exposed entry points for the webserver and store
 // path and callback pair somewhere. Once webserver receives an HTTP request,
 // it should check if there is a libweave-registered handler corresponding to
 // the path in the request. If there is one, implementation should invoke
 // the callback associated with this path. If there is no callback associated
 // with request path, webserver should return HTTP status code 404.
 //
 // For example, let's say local IP is "192.168.0.1" and libweave called
 //   AddHttpRequestHandler("/privet/info", InfoHandlerCallback);
 // If webserver receives "http://192.168.0.1/privet/info" request, HttpServer
 // implementation must invoke InfoHandlerCallback.
 // If webserver receives "http://192.168.0.1/privet/auth" request, it must
 // return HTTP status code 404 response.
 //
 // As everywhere else, invoking callbacks have some limitations:
 //   - callback should not be called before AddHttpRequestHandler() returns
 //   - callback should be called on the same thread
 //
 // Once HttpServer implementation invokes a registered callback, it should
 // provide the Request interface implementation to access a request data.
 //
 // Implementation of GetPath() method should return path of the HTTP
 // request. For example, "/privet/info".
 //
 // Implementation of the GetFirstHeader(...) method should return the first
 // header in the request matching name parameter of this method.
 // For example, GetFirstHeader("Content-Length") may return "3495".
 //
 // Implementation of GetData() method should return full request data
 // in a binary format wrapped into std::string object.
 //
 // Implementation of the SendReply(...) method should send request response
 // message with specified parameters:
 //   status_code - standard HTTP status code, for example 200 to indicate
 //     successful response.
 //   data - binary data of the response body wrapped into std::string object.
 //   mime_type - MIME type of the response, that should be transferred into
 //     "Content-Type" HTTP header.
 // Implementation of the SendReply(...) method may also add other standard
 // HTTP headers, like "Content-Length" or "Transfer-Encoding" depending on
 // capabilities of the server and client which made this request.
 //
 // In case a device has multiple networking interfaces, the device developer
 // needs to make a decision where local APIs (Privet) are necessary and where
 // they are not needed. For example, it may not make sense to expose local
 // APIs on any external-facing network interface (cellular or WAN).
 //
 // In some cases, there might be more then one network interface where local
 // APIs makes sense. For example, a device may have both WiFi and Ethernet
 // connections. In such case, webserver should start on both interfaces
 // simultaneously, and allow requests from both interfaces to be handled by
 // libweave.
 //
 // From libweave perspective, it always looks like there is only one network
 // interface. It is the job of HttpServer implementation to hide network
 // complexity from libweave and to bring webserver up on the same port on all
 // interfaces.

 class HttpServer {
  public:
   class Request {
    public:
     virtual ~Request() {}

     virtual std::string GetPath() const = 0;
     virtual std::string GetFirstHeader(const std::string& name) const = 0;
     virtual std::string GetData() = 0;

     virtual void SendReply(int status_code,
                            const std::string& data,
                            const std::string& mime_type) = 0;
   };

   // Callback type for AddRequestHandler.
   using RequestHandlerCallback =
       base::Callback<void(std::unique_ptr<Request> request)>;

   // Adds callback called on new http/https requests with the given path.
   virtual void AddHttpRequestHandler(
       const std::string& path,
       const RequestHandlerCallback& callback) = 0;
   virtual void AddHttpsRequestHandler(
       const std::string& path,
       const RequestHandlerCallback& callback) = 0;

   virtual void RemoveHttpRequestHandler(const std::string& path) = 0;
   virtual void RemoveHttpsRequestHandler(const std::string& path) = 0;

   virtual uint16_t GetHttpPort() const = 0;
   virtual uint16_t GetHttpsPort() const = 0;
   virtual std::vector<uint8_t> GetHttpsCertificateFingerprint() const = 0;

   // Specifies request timeout, after which the web server automatically aborts
   // requests. Should return base::TimeDelta::Max() if there is no timeout.
   virtual base::TimeDelta GetRequestTimeout() const = 0;

  protected:
   virtual ~HttpServer() {}
 };

 }  // namespace provider
 }  // namespace weave

 #endif  // LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_
	// Copyright 2015 The Weave 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 LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_
	#define LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_

	#include <string>
	#include <vector>

	#include <base/callback.h>
	#include <base/time/time.h>
	#include <weave/stream.h>

	namespace weave {
	namespace provider {

	// This interface should be implemented by the user of libweave and
	// provided during device creation in Device::Create(...)
	// libweave will use this interface to handle HTTP / HTTPS requests for Privet
	// APIs.
	//
	// This interface consist of 2 parts that need to be implemented by the
	// libweave user: HttpServer and HttpServer::Request. HttpServer provides
	// interface to control webserver, and is used to initialize Device object.
	// Request provides an abstraction for a specific HTTP request and may be a
	// short-lived object.
	//
	// Implementation of AddHttpsRequestHandler(...) method should follow the
	// same guidelines as implementation of AddHttpRequestHandler(...) with the
	// only difference, it is for HTTPS connection (not HTTP).
	//
	// Implementation of GetHttpPort() method should return port number on
	// which HTTP server will be listening. Normally it is port 80, but this
	// allows implementer to choose different port if necessary and tell it to
	// libweave.
	//
	// Implementation of GetHttpsPort() should follow the same guidelines as
	// GetHttpPort(). Default HTTPS port is 443, but could be changed and
	// communicated to libweave using this method.
	//
	// Implementation of GetHttpsCertificateFingerprint() method should
	// compute fingerprint of the certificate that HTTPS web server will be using.
	// Method of computing fingerprint is the following:
	// fingerprint = SHA256 ( DER certificate )
	// You can see example implementation in HttpServerImpl::GenerateX509()
	// in libweave/examples/provider/event_http_server.cc
	//
	// Implementation of AddHttpRequestHandler(...) method should add path
	// to the list of the exposed entry points for the webserver and store
	// path and callback pair somewhere. Once webserver receives an HTTP request,
	// it should check if there is a libweave-registered handler corresponding to
	// the path in the request. If there is one, implementation should invoke
	// the callback associated with this path. If there is no callback associated
	// with request path, webserver should return HTTP status code 404.
	//
	// For example, let's say local IP is "192.168.0.1" and libweave called
	// AddHttpRequestHandler("/privet/info", InfoHandlerCallback);
	// If webserver receives "http://192.168.0.1/privet/info" request, HttpServer
	// implementation must invoke InfoHandlerCallback.
	// If webserver receives "http://192.168.0.1/privet/auth" request, it must
	// return HTTP status code 404 response.
	//
	// As everywhere else, invoking callbacks have some limitations:
	// - callback should not be called before AddHttpRequestHandler() returns
	// - callback should be called on the same thread
	//
	// Once HttpServer implementation invokes a registered callback, it should
	// provide the Request interface implementation to access a request data.
	//
	// Implementation of GetPath() method should return path of the HTTP
	// request. For example, "/privet/info".
	//
	// Implementation of the GetFirstHeader(...) method should return the first
	// header in the request matching name parameter of this method.
	// For example, GetFirstHeader("Content-Length") may return "3495".
	//
	// Implementation of GetData() method should return full request data
	// in a binary format wrapped into std::string object.
	//
	// Implementation of the SendReply(...) method should send request response
	// message with specified parameters:
	// status_code - standard HTTP status code, for example 200 to indicate
	// successful response.
	// data - binary data of the response body wrapped into std::string object.
	// mime_type - MIME type of the response, that should be transferred into
	// "Content-Type" HTTP header.
	// Implementation of the SendReply(...) method may also add other standard
	// HTTP headers, like "Content-Length" or "Transfer-Encoding" depending on
	// capabilities of the server and client which made this request.
	//
	// In case a device has multiple networking interfaces, the device developer
	// needs to make a decision where local APIs (Privet) are necessary and where
	// they are not needed. For example, it may not make sense to expose local
	// APIs on any external-facing network interface (cellular or WAN).
	//
	// In some cases, there might be more then one network interface where local
	// APIs makes sense. For example, a device may have both WiFi and Ethernet
	// connections. In such case, webserver should start on both interfaces
	// simultaneously, and allow requests from both interfaces to be handled by
	// libweave.
	//
	// From libweave perspective, it always looks like there is only one network
	// interface. It is the job of HttpServer implementation to hide network
	// complexity from libweave and to bring webserver up on the same port on all
	// interfaces.

	class HttpServer {
	public:
	class Request {
	public:
	virtual ~Request() {}

	virtual std::string GetPath() const = 0;
	virtual std::string GetFirstHeader(const std::string& name) const = 0;
	virtual std::string GetData() = 0;

	virtual void SendReply(int status_code,
	const std::string& data,
	const std::string& mime_type) = 0;
	};

	// Callback type for AddRequestHandler.
	using RequestHandlerCallback =
	base::Callback<void(std::unique_ptr<Request> request)>;

	// Adds callback called on new http/https requests with the given path.
	virtual void AddHttpRequestHandler(
	const std::string& path,
	const RequestHandlerCallback& callback) = 0;
	virtual void AddHttpsRequestHandler(
	const std::string& path,
	const RequestHandlerCallback& callback) = 0;

	virtual void RemoveHttpRequestHandler(const std::string& path) = 0;
	virtual void RemoveHttpsRequestHandler(const std::string& path) = 0;

	virtual uint16_t GetHttpPort() const = 0;
	virtual uint16_t GetHttpsPort() const = 0;
	virtual std::vector<uint8_t> GetHttpsCertificateFingerprint() const = 0;

	// Specifies request timeout, after which the web server automatically aborts
	// requests. Should return base::TimeDelta::Max() if there is no timeout.
	virtual base::TimeDelta GetRequestTimeout() const = 0;

	protected:
	virtual ~HttpServer() {}
	};

	} // namespace provider
	} // namespace weave

	#endif // LIBWEAVE_INCLUDE_WEAVE_PROVIDER_HTTP_SERVER_H_