src/vpp-api/vom/nat_binding.hpp - fdio/vpp - Gitiles

 /*
  * Copyright (c) 2017 Cisco and/or its affiliates.
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at:
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef __VOM_NAT_BINDING_H__
 #define __VOM_NAT_BINDING_H__

 #include "vom/hw.hpp"
 #include "vom/interface.hpp"
 #include "vom/object_base.hpp"
 #include "vom/om.hpp"
 #include "vom/singular_db.hpp"

 namespace VOM {
 /**
  * A Class representing the binding of an L2 interface to a bridge-domain
  * and the properties of that binding.
  */
 class nat_binding : public object_base
 {
 public:
   /**
    * NAT Zoness
    */
   struct zone_t : public enum_base<zone_t>
   {
     /**
      * Constructor
      */
     zone_t(int v, const std::string s);

     /**
      * Destructor
      */
     ~zone_t() = default;

     /**
      * Permit Zone
      */
     const static zone_t INSIDE;

     /**
      * Deny Zone
      */
     const static zone_t OUTSIDE;

     const static zone_t& from_vpp(u8 is_inside);
   };

   /**
    * The key for a NAT Binding.
    *  The zoe is not included, since the same interface is never inside
    * and outside.
    */
   typedef std::tuple<interface::key_t, direction_t, l3_proto_t> key_t;

   /**
    * Construct a new object matching the desried state
    *  @param itf The interface onto which we bind/apply the feature
    *  @param dir The direction (input/output)
    *  @param proto The L3 proto used inside.
    *  @param zone The NAT zone for the link
    */
   nat_binding(const interface& itf,
               const direction_t& dir,
               const l3_proto_t& proto,
               const zone_t& zone);

   /**
    * Copy Constructor
    */
   nat_binding(const nat_binding& o);

   /**
    * Destructor
    */
   ~nat_binding();

   /**
    * Comparison operator - for UT
    */
   bool operator==(const nat_binding& n) const;

   /**
    * Return the binding's key
    */
   const key_t key() const;

   /**
    * Return the 'singular instance' of the L2 config that matches this
    * object
    */
   std::shared_ptr<nat_binding> singular() const;

   /**
    * convert to string format for debug purposes
    */
   std::string to_string() const;

   /**
    * Static function to find the bridge_domain in the model
    */
   static std::shared_ptr<nat_binding> find(const key_t& key);

   /**
    * Dump all nat_bindings into the stream provided
    */
   static void dump(std::ostream& os);

 private:
   /**
    * Class definition for listeners to OM events
    */
   class event_handler : public OM::listener, public inspect::command_handler
   {
   public:
     event_handler();
     virtual ~event_handler() = default;

     /**
      * Handle a populate event
      */
     void handle_populate(const client_db::key_t& key);

     /**
      * Handle a replay event
      */
     void handle_replay();

     /**
      * Show the object in the Singular DB
      */
     void show(std::ostream& os);

     /**
      * Get the sortable Id of the listener
      */
     dependency_t order() const;
   };

   /**
    * event_handler to register with OM
    */
   static event_handler m_evh;

   /**
    * Enquue commonds to the VPP command Q for the update
    */
   void update(const nat_binding& obj);

   /**
    * Find or Add the singular instance in the DB
    */
   static std::shared_ptr<nat_binding> find_or_add(const nat_binding& temp);

   /*
    * It's the OM class that calls singular()
    */
   friend class OM;

   /**
    * It's the singular_db class that calls replay()
    */
   friend class singular_db<const key_t, nat_binding>;

   /**
    * Sweep/reap the object if still stale
    */
   void sweep(void);

   /**
    * replay the object to create it in hardware
    */
   void replay(void);

   /**
    * HW configuration for the binding. The bool representing the
    * do/don't bind.
    */
   HW::item<bool> m_binding;

   /**
    * A reference counting pointer the interface that this NAT binding
    * represents. By holding the reference here, we can guarantee that
    * this object will outlive the interface
    */
   const std::shared_ptr<interface> m_itf;

   /**
    * The direction in which the feature applies
    */
   direction_t m_dir;

   /**
    * The L3 protocol used on the inside
    */
   l3_proto_t m_proto;

   /**
    * The NAT zone the interface is in
    */
   zone_t m_zone;

   /**
    * A map of all L2 interfaces key against the interface's handle_t
    */
   static singular_db<const key_t, nat_binding> m_db;
 };

 std::ostream& operator<<(std::ostream& os, const nat_binding::key_t& key);
 };

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "mozilla")
  * End:
  */

 #endif
	/*
	* Copyright (c) 2017 Cisco and/or its affiliates.
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at:
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef __VOM_NAT_BINDING_H__
	#define __VOM_NAT_BINDING_H__

	#include "vom/hw.hpp"
	#include "vom/interface.hpp"
	#include "vom/object_base.hpp"
	#include "vom/om.hpp"
	#include "vom/singular_db.hpp"

	namespace VOM {
	/**
	* A Class representing the binding of an L2 interface to a bridge-domain
	* and the properties of that binding.
	*/
	class nat_binding : public object_base
	{
	public:
	/**
	* NAT Zoness
	*/
	struct zone_t : public enum_base<zone_t>
	{
	/**
	* Constructor
	*/
	zone_t(int v, const std::string s);

	/**
	* Destructor
	*/
	~zone_t() = default;

	/**
	* Permit Zone
	*/
	const static zone_t INSIDE;

	/**
	* Deny Zone
	*/
	const static zone_t OUTSIDE;

	const static zone_t& from_vpp(u8 is_inside);
	};

	/**
	* The key for a NAT Binding.
	* The zoe is not included, since the same interface is never inside
	* and outside.
	*/
	typedef std::tuple<interface::key_t, direction_t, l3_proto_t> key_t;

	/**
	* Construct a new object matching the desried state
	* @param itf The interface onto which we bind/apply the feature
	* @param dir The direction (input/output)
	* @param proto The L3 proto used inside.
	* @param zone The NAT zone for the link
	*/
	nat_binding(const interface& itf,
	const direction_t& dir,
	const l3_proto_t& proto,
	const zone_t& zone);

	/**
	* Copy Constructor
	*/
	nat_binding(const nat_binding& o);

	/**
	* Destructor
	*/
	~nat_binding();

	/**
	* Comparison operator - for UT
	*/
	bool operator==(const nat_binding& n) const;

	/**
	* Return the binding's key
	*/
	const key_t key() const;

	/**
	* Return the 'singular instance' of the L2 config that matches this
	* object
	*/
	std::shared_ptr<nat_binding> singular() const;

	/**
	* convert to string format for debug purposes
	*/
	std::string to_string() const;

	/**
	* Static function to find the bridge_domain in the model
	*/
	static std::shared_ptr<nat_binding> find(const key_t& key);

	/**
	* Dump all nat_bindings into the stream provided
	*/
	static void dump(std::ostream& os);

	private:
	/**
	* Class definition for listeners to OM events
	*/
	class event_handler : public OM::listener, public inspect::command_handler
	{
	public:
	event_handler();
	virtual ~event_handler() = default;

	/**
	* Handle a populate event
	*/
	void handle_populate(const client_db::key_t& key);

	/**
	* Handle a replay event
	*/
	void handle_replay();

	/**
	* Show the object in the Singular DB
	*/
	void show(std::ostream& os);

	/**
	* Get the sortable Id of the listener
	*/
	dependency_t order() const;
	};

	/**
	* event_handler to register with OM
	*/
	static event_handler m_evh;

	/**
	* Enquue commonds to the VPP command Q for the update
	*/
	void update(const nat_binding& obj);

	/**
	* Find or Add the singular instance in the DB
	*/
	static std::shared_ptr<nat_binding> find_or_add(const nat_binding& temp);

	/*
	* It's the OM class that calls singular()
	*/
	friend class OM;

	/**
	* It's the singular_db class that calls replay()
	*/
	friend class singular_db<const key_t, nat_binding>;

	/**
	* Sweep/reap the object if still stale
	*/
	void sweep(void);

	/**
	* replay the object to create it in hardware
	*/
	void replay(void);

	/**
	* HW configuration for the binding. The bool representing the
	* do/don't bind.
	*/
	HW::item<bool> m_binding;

	/**
	* A reference counting pointer the interface that this NAT binding
	* represents. By holding the reference here, we can guarantee that
	* this object will outlive the interface
	*/
	const std::shared_ptr<interface> m_itf;

	/**
	* The direction in which the feature applies
	*/
	direction_t m_dir;

	/**
	* The L3 protocol used on the inside
	*/
	l3_proto_t m_proto;

	/**
	* The NAT zone the interface is in
	*/
	zone_t m_zone;

	/**
	* A map of all L2 interfaces key against the interface's handle_t
	*/
	static singular_db<const key_t, nat_binding> m_db;
	};

	std::ostream& operator<<(std::ostream& os, const nat_binding::key_t& key);
	};

	/*
	* fd.io coding-style-patch-verification: ON
	*
	* Local Variables:
	* eval: (c-set-style "mozilla")
	* End:
	*/

	#endif