Source: ../../pim/pim_node.hh
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// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*-
// Copyright (c) 2001-2009 XORP, Inc.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License, Version 2, June
// 1991 as published by the Free Software Foundation. Redistribution
// and/or modification of this program under the terms of any other
// version of the GNU General Public License is not permitted.
//
// This program is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For more details,
// see the GNU General Public License, Version 2, a copy of which can be
// found in the XORP LICENSE.gpl file.
//
// XORP Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA;
// http://xorp.net
// $XORP: xorp/pim/pim_node.hh,v 1.71 2009/01/05 18:31:02 jtc Exp $
#ifndef __PIM_PIM_NODE_HH__
#define __PIM_PIM_NODE_HH__
//
// PIM node definition.
//
#include "libxorp/xorp.h"
#include <vector>
#include "libxorp/vif.hh"
#include "libproto/proto_node.hh"
#include "libfeaclient/ifmgr_xrl_mirror.hh"
#include "mrt/buffer.h"
#include "mrt/mifset.hh"
#include "pim_bsr.hh"
#include "pim_mrib_table.hh"
#include "pim_mrt.hh"
#include "pim_rp.hh"
#include "pim_scope_zone_table.hh"
#include "pim_vif.hh"
//
// Constants definitions
//
//
// Structures/classes, typedefs and macros
//
class EventLoop;
class IPvX;
class IPvXNet;
class PimMrt;
class PimNbr;
class PimVif;
/**
* @short The PIM node class.
*
* There should be one node per PIM instance. There should be
* one instance per address family.
*/
class PimNode : public ProtoNode<PimVif>,
public IfMgrHintObserver,
public ServiceChangeObserverBase {
public:
/**
* Constructor for a given address family, module ID, and event loop.
*
* @param family the address family (AF_INET or AF_INET6 for
* IPv4 and IPv6 respectively).
* @param module_id the module ID (@ref xorp_module_id). Should be
* XORP_MODULE_PIMSM Note: if/after PIM-DM is implemented,
* XORP_MODULE_PIMDM would be allowed as well.
* @param eventloop the event loop to use.
*/
PimNode(int family, xorp_module_id module_id, EventLoop& eventloop);
/**
* Destructor
*/
virtual ~PimNode();
/**
* Start the node operation.
*
* Start the PIM protocol.
* After the startup operations are completed,
* @ref PimNode::final_start() is called internally
* to complete the job.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int start();
/**
* Stop the node operation.
*
* Gracefully stop the PIM protocol.
* The graceful stop will attempt to send Join/Prune, Assert, etc.
* messages for all multicast routing entries to gracefully clean-up
* state with neighbors.
* After the multicast routing entries cleanup is completed,
* @ref PimNode::final_stop() is called internally to complete the job.
* This method, unlike start(), will stop the protocol
* operation on all interfaces.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int stop();
/**
* Completely start the node operation.
*
* This method should be called internally after @ref PimNode::start()
* to complete the job.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int final_start();
/**
* Completely stop the node operation.
*
* This method should be called internally after @ref PimNode::stop()
* to complete the job.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int final_stop();
/**
* Enable node operation.
*
* If an unit is not enabled, it cannot be start, or pending-start.
*/
void enable();
/**
* Disable node operation.
*
* If an unit is disabled, it cannot be start or pending-start.
* If the unit was runnning, it will be stop first.
*/
void disable();
/**
* Get the IP protocol number.
*
* @return the IP protocol number.
*/
uint8_t ip_protocol_number() const;
/**
* Install a new PIM vif.
*
* @param vif vif information about the new PimVif to install.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int add_vif(const Vif& vif, string& error_msg);
/**
* Install a new PIM vif.
*
* @param vif_name the name of the new vif.
* @param vif_index the vif index of the new vif.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int add_vif(const string& vif_name, uint32_t vif_index,
string& error_msg);
/**
* Delete an existing PIM vif.
*
* @param vif_name the name of the vif to delete.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int delete_vif(const string& vif_name, string& error_msg);
/**
* Set flags to a vif.
*
* @param vif_name the name of the vif.
* @param is_pim_register true if this is a PIM Register vif.
* @param is_p2p true if this is a point-to-point vif.
* @param is_loopback true if this is a loopback interface.
* @param is_multicast rue if the vif is multicast-capable.
* @param is_broadcast true if the vif is broadcast-capable.
* @param is_up true if the vif is UP and running.
* @param mtu the MTU of the vif.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int set_vif_flags(const string& vif_name,
bool is_pim_register, bool is_p2p,
bool is_loopback, bool is_multicast,
bool is_broadcast, bool is_up, uint32_t mtu,
string& error_msg);
/**
* Add a new address to a vif, or update an existing address.
*
* @param vif_name the name of the vif.
* @param addr the unicast address to add.
* @param subnet_addr the subnet address to add.
* @param broadcast_addr the broadcast address (when applicable).
* @param peer_addr the peer address (when applicable).
* @param should_send_pim_hello a return-by-reference flag that is set to
* true if the caller should send a PIM Hello message.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int add_vif_addr(const string& vif_name,
const IPvX& addr,
const IPvXNet& subnet_addr,
const IPvX& broadcast_addr,
const IPvX& peer_addr,
bool& should_send_pim_hello,
string& error_msg);
/**
* Delete an address from a vif.
*
* @param vif_name the name of the vif.
* @param addr the unicast address to delete.
* @param should_send_pim_hello a return-by-reference flag that is set to
* true if the caller should send a PIM Hello message.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int delete_vif_addr(const string& vif_name,
const IPvX& addr,
bool& should_send_pim_hello,
string& error_msg);
/**
* Enable an existing PIM vif.
*
* @param vif_name the name of the vif to enable.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int enable_vif(const string& vif_name, string& error_msg);
/**
* Disable an existing PIM vif.
*
* @param vif_name the name of the vif to disable.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int disable_vif(const string& vif_name, string& error_msg);
/**
* Start an existing PIM vif.
*
* @param vif_name the name of the vif to start.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int start_vif(const string& vif_name, string& error_msg);
/**
* Stop an existing PIM vif.
*
* @param vif_name the name of the vif to start.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int stop_vif(const string& vif_name, string& error_msg);
/**
* Start PIM on all enabled interfaces.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int start_all_vifs();
/**
* Stop PIM on all interfaces it was running on.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int stop_all_vifs();
/**
* Enable PIM on all interfaces.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int enable_all_vifs();
/**
* Disable PIM on all interfaces.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int disable_all_vifs();
/**
* Delete all PIM vifs.
*/
void delete_all_vifs();
/**
* A method called when a vif has completed its shutdown.
*
* @param vif_name the name of the vif that has completed its shutdown.
*/
void vif_shutdown_completed(const string& vif_name);
/**
* Receive a protocol packet.
*
* @param if_name the interface name the packet arrived on.
* @param vif_name the vif name the packet arrived on.
* @param src_address the IP source address.
* @param dst_address the IP destination address.
* @param ip_protocol the IP protocol number.
* @param ip_ttl the IP TTL (hop-limit). If it has a negative value, then
* the received value is unknown.
* @param ip_tos the Type of Service (Diffserv/ECN bits for IPv4). If it
* has a negative value, then the received value is unknown.
* @param ip_router_alert if true, the IP Router Alert option was included
* in the IP packet.
* @param ip_internet_control if true, then this is IP control traffic.
* @param payload the payload, everything after the IP header and options.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int proto_recv(const string& if_name,
const string& vif_name,
const IPvX& src_address,
const IPvX& dst_address,
uint8_t ip_protocol,
int32_t ip_ttl,
int32_t ip_tos,
bool ip_router_alert,
bool ip_internet_control,
const vector<uint8_t>& payload,
string& error_msg);
/**
* Send a protocol packet.
*
* @param if_name the interface to send the packet on. It is essential for
* multicast. In the unicast case this field may be empty.
* @param vif_name the vif to send the packet on. It is essential for
* multicast. In the unicast case this field may be empty.
* @param src_address the IP source address.
* @param dst_address the IP destination address.
* @param ip_protocol the IP protocol number. It must be between 1 and
* 255.
* @param ip_ttl the IP TTL (hop-limit). If it has a negative value, the
* TTL will be set internally before transmission.
* @param ip_tos the Type Of Service (Diffserv/ECN bits for IPv4). If it
* has a negative value, the TOS will be set internally before
* transmission.
* @param ip_router_alert if true, then add the IP Router Alert option to
* the IP packet.
* @param ip_internet_control if true, then this is IP control traffic.
* @param buffer the data buffer with the packet to send.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int pim_send(const string& if_name,
const string& vif_name,
const IPvX& src_address,
const IPvX& dst_address,
uint8_t ip_protocol,
int32_t ip_ttl,
int32_t ip_tos,
bool ip_router_alert,
bool ip_internet_control,
buffer_t *buffer,
string& error_msg);
/**
* Receive a signal message from the kernel.
*
* @param src_module_instance_name the module instance name of the
* module-origin of the message.
*
* @param message_type the message type.
* Currently, the type of messages received from the kernel are:
*
<pre>
#define MFEA_KERNEL_MESSAGE_NOCACHE 1
#define MFEA_KERNEL_MESSAGE_WRONGVIF 2
#define MFEA_KERNEL_MESSAGE_WHOLEPKT 3
</pre>
*
*
* @param vif_index the vif index of the related interface
* (message-specific relation).
*
* @param src the source address in the message.
*
* @param dst the destination address in the message.
*
* @param rcvbuf the data buffer with the additional information in
* the message.
* @param rcvlen the data length in @ref rcvbuf.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int signal_message_recv(const string& src_module_instance_name,
int message_type,
uint32_t vif_index,
const IPvX& src,
const IPvX& dst,
const uint8_t *rcvbuf,
size_t rcvlen);
/**
* Send signal message: not used by PIM.
*/
int signal_message_send(const string&, // dst_module_instance_name,
int , // message_type,
uint32_t , // vif_index,
const IPvX& , // src,
const IPvX& , // dst,
const uint8_t * , // sndbuf,
size_t // sndlen
) { XLOG_UNREACHABLE(); return (XORP_ERROR); }
/**
* Register as a receiver to receive packets.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param if_name the interface through which packets should be accepted.
* @param vif_name the vif through which packets should be accepted.
* @param ip_protocol the IP protocol number that the receiver is
* interested in. It must be between 0 and 255. A protocol number of 0 is
* used to specify all protocols.
* @param enable_multicast_loopback if true then enable delivering
* of multicast datagrams back to this host (assuming the host is
* a member of the same multicast group).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int register_receiver(const string& if_name,
const string& vif_name,
uint8_t ip_protocol,
bool enable_multicast_loopback) = 0;
/**
* Unregister as a receiver to receive packets.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param if_name the interface through which packets should not be
* accepted.
* @param vif_name the vif through which packets should not be accepted.
* @param ip_protocol the IP Protocol number that the receiver is
* not interested in anymore. It must be between 0 and 255. A protocol
* number of 0 is used to specify all protocols.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int unregister_receiver(const string& if_name,
const string& vif_name,
uint8_t ip_protocol) = 0;
/**
* Register a protocol on an interface in the Multicast FEA.
*
* @param if_name the name of the interface to register for the
* particular protocol.
* @param vif_name the name of the vif to register for the
* particular protocol.
* @param ip_protocol the IP protocol number. It must be between
* 1 and 255.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int register_protocol(const string& if_name,
const string& vif_name,
uint8_t ip_protocol) = 0;
/**
* Unregister a protocol on an interface in the Multicast FEA.
*
* @param if_name the name of the interface to unregister for the
* particular protocol.
* @param vif_name the name of the vif to unregister for the
* particular protocol.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int unregister_protocol(const string& if_name,
const string& vif_name) = 0;
/**
* Join a multicast group on an interface.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* TODO: add a source address as well!!
*
* @param if_name the interface name to join.
* @param vif_name the vif name to join.
* @param ip_protocol the IP protocol number that the receiver is
* interested in.
* @param group_address the multicast group address to join.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int join_multicast_group(const string& if_name,
const string& vif_name,
uint8_t ip_protocol,
const IPvX& group_address) = 0;
/**
* Leave a multicast group on an interface.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* TODO: add a source address as well!!
*
* @param if_name the interface name to leave.
* @param vif_name the vif name to leave.
* @param ip_protocol the IP protocol number that the receiver is
* not interested in anymore.
* @param group_address the multicast group address to leave.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int leave_multicast_group(const string& if_name,
const string& vif_name,
uint8_t ip_protocol,
const IPvX& group_address) = 0;
/**
* Add a Multicast Forwarding Cache to the kernel.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param pim_mfc the @ref PimMfc entry to add.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int add_mfc_to_kernel(const PimMfc& pim_mfc) = 0;
/**
* Delete a Multicast Forwarding Cache to the kernel.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param pim_mfc the @ref PimMfc entry to delete.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int delete_mfc_from_kernel(const PimMfc& pim_mfc) = 0;
/**
* Add a dataflow monitor to the MFEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes
* (or both) must be true.
* Note: either @ref is_geq_upcall or @ref is_leq_upcall
* (but not both) must be true.
*
* @param source the source address.
*
* @param group the group address.
*
* @param threshold_interval_sec the dataflow threshold interval
* (seconds).
*
* @param threshold_interval_usec the dataflow threshold interval
* (microseconds).
*
* @param threshold_packets the threshold (in number of packets) to
* compare against.
*
* @param threshold_bytes the threshold (in number of bytes) to
* compare against.
*
* @param is_threshold_in_packets if true, @ref threshold_packets is valid.
*
* @param is_threshold_in_bytes if true, @ref threshold_bytes is valid.
*
* @param is_geq_upcall if true, the operation for comparison is ">=".
*
* @param is_leq_upcall if true, the operation for comparison is "<=".
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int add_dataflow_monitor(const IPvX& source_addr,
const IPvX& group_addr,
uint32_t threshold_interval_sec,
uint32_t threshold_interval_usec,
uint32_t threshold_packets,
uint32_t threshold_bytes,
bool is_threshold_in_packets,
bool is_threshold_in_bytes,
bool is_geq_upcall,
bool is_leq_upcall) = 0;
/**
* Delete a dataflow monitor from the MFEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* Note: either @ref is_threshold_in_packets or @ref is_threshold_in_bytes
* (or both) must be true.
* Note: either @ref is_geq_upcall or @ref is_leq_upcall
* (but not both) must be true.
*
* @param source the source address.
*
* @param group the group address.
*
* @param threshold_interval_sec the dataflow threshold interval
* (seconds).
*
* @param threshold_interval_usec the dataflow threshold interval
* (microseconds).
*
* @param threshold_packets the threshold (in number of packets) to
* compare against.
*
* @param threshold_bytes the threshold (in number of bytes) to
* compare against.
*
* @param is_threshold_in_packets if true, @ref threshold_packets is valid.
*
* @param is_threshold_in_bytes if true, @ref threshold_bytes is valid.
*
* @param is_geq_upcall if true, the operation for comparison is ">=".
*
* @param is_leq_upcall if true, the operation for comparison is "<=".
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int delete_dataflow_monitor(const IPvX& source_addr,
const IPvX& group_addr,
uint32_t threshold_interval_sec,
uint32_t threshold_interval_usec,
uint32_t threshold_packets,
uint32_t threshold_bytes,
bool is_threshold_in_packets,
bool is_threshold_in_bytes,
bool is_geq_upcall,
bool is_leq_upcall) = 0;
/**
* Delete all dataflow monitors for a given source and group address from
* the MFEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param source_addr the source address.
* @param group_addr the group address.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int delete_all_dataflow_monitor(const IPvX& source_addr,
const IPvX& group_addr) = 0;
/**
* Register this protocol with the MLD/IGMP module.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* By registering this protocol with the MLD/IGMP module, it will
* be notified about multicast group membership events.
*
* @param vif_index the vif index of the interface to register with
* the MLD/IGMP module.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int add_protocol_mld6igmp(uint32_t vif_index) = 0;
/**
* Deregister this protocol with the MLD/IGMP module.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @param vif_index the vif index of the interface to deregister with
* the MLD/IGMP module.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
virtual int delete_protocol_mld6igmp(uint32_t vif_index) = 0;
/**
* Receive "add membership" from the MLD/IGMP module.
*
* @param vif_index the vif index of the interface with membership change.
* @param source the source address of the (S,G) or (*,G) entry that has
* changed membership. In case of Any-Source Multicast, it is IPvX::ZERO().
* @param group the group address.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int add_membership(uint32_t vif_index, const IPvX& source,
const IPvX& group);
/**
* Receive "delete membership" from the MLD/IGMP module.
*
* @param vif_index the vif index of the interface with membership change.
* @param source the source address of the (S,G) or (*,G) entry that has
* changed membership. In case of Any-Source Multicast, it is IPvX::ZERO().
* @param group the group address.
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int delete_membership(uint32_t vif_index, const IPvX& source,
const IPvX& group);
/**
* Test if an address is directly connected to a specified virtual
* interface.
*
* Note that the virtual interface the address is directly connected to
* must be UP.
*
* @param pim_vif the virtual interface to test against.
* @param ipaddr_test the address to test.
* @return true if @ref ipaddr_test is directly connected to @ref vif,
* otherwise false.
*/
bool is_directly_connected(const PimVif& pim_vif,
const IPvX& ipaddr_test) const;
/**
* Get the PIM-Register virtual interface.
*
* @return the PIM-Register virtual interface if exists, otherwise NULL.
*/
PimVif *vif_find_pim_register() const;
/**
* Get the vif index of the PIM-Register virtual interface.
*
* @return the vif index of the PIM-Register virtual interface if exists,
* otherwise @ref Vif::VIF_INDEX_INVALID.
*/
uint32_t pim_register_vif_index() const { return (_pim_register_vif_index); }
/**
* Get the PIM Multicast Routing Table.
*
* @return a reference to the PIM Multicast Routing Table (@ref PimMrt).
*/
PimMrt& pim_mrt() { return (_pim_mrt); }
/**
* Get the table with the Multicast Routing Information Base used by PIM.
*
* @return a reference to the table with the Multicast Routing Information
* Base used by PIM (@ref PimMribTable).
*/
PimMribTable& pim_mrib_table() { return (_pim_mrib_table); }
/**
* Get the PIM Bootstrap entity.
*
* @return a reference to the PIM Bootstrap entity (@ref PimBsr).
*/
PimBsr& pim_bsr() { return (_pim_bsr); }
/**
* Get the PIM RP table.
*
* @return a reference to the PIM RP table (@ref RpTable).
*/
RpTable& rp_table() { return (_rp_table); }
/**
* Get the PIM Scope-Zone table.
*
* @return a reference to the PIM Scope-Zone table.
*/
PimScopeZoneTable& pim_scope_zone_table() { return (_pim_scope_zone_table); }
/**
* Get the set of vifs for which this PIM note is a Designated Router.
*
* @return the @ref Mifset indicating the vifs for which this PIM node is
* a Designated Router.
*/
Mifset& pim_vifs_dr() { return (_pim_vifs_dr); }
/**
* Set/reset a virtual interface as a Designated Router.
*
* @param vif_index the vif index of the virtual interface to set/reset as
* a Designated Router.
* @param v if true, set the virtual interface as a Designated Router,
* otherwise reset it.
*/
void set_pim_vifs_dr(uint32_t vif_index, bool v);
/**
* Find the RPF virtual interface for a given destination address.
*
* @param dst_addr the destination address to lookup.
* @return the RPF virtual interface (@ref PimVif) toward @ref dst_addr
* if found, otherwise NULL.
*/
PimVif *pim_vif_rpf_find(const IPvX& dst_addr);
/**
* Find the RPF PIM neighbor for a given destination address.
*
* @param dst_addr the destination address to lookup.
* @return the RPF PIM neighbor (@ref PimNbr) toward @ref dst_addr
* if found, otherwise NULL.
*/
PimNbr *pim_nbr_rpf_find(const IPvX& dst_addr);
/**
* Find the RPF PIM neighbor for a given destination address, and
* already known @ref Mrib entry.
*
* @param dst_addr the destination address to lookup.
* @param mrib the already known @ref Mrib entry.
* @return the RPF PIM neighbor (@ref PimNbr) toward @ref dst_addr
* if found, otherwise NULL.
*/
PimNbr *pim_nbr_rpf_find(const IPvX& dst_addr, const Mrib *mrib);
/**
* Find a PIM neighbor by its address.
*
* Note: this method should be used in very limited cases, because
* in case of IPv6 a neighbor's IP address may be non-unique within
* the PIM neighbor database due to scope issues.
*
* @param nbr_addr the address of the PIM neighbor.
* @return the PIM neighbor (@ref PimNbr) if found, otherwise NULL.
*/
PimNbr *pim_nbr_find_global(const IPvX& nbr_addr);
/**
* Enable the PIM Bootstrap mechanism.
*/
void enable_bsr() { pim_bsr().enable(); }
/**
* Disable the PIM Bootstrap mechanism.
*/
void disable_bsr() { pim_bsr().disable(); }
/**
* Start the Bootstrap mechanism.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int start_bsr() { return (pim_bsr().start()); }
/**
* Stop the Bootstrap mechanism.
*
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int stop_bsr() { return (pim_bsr().stop()); }
//
// Configuration methods
//
/**
* Complete the set of vif configuration changes.
*
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int set_config_all_vifs_done(string& error_msg);
/**
* Get the protocol version on an interface.
*
* @param vif_name the name of the vif to get the protocol version of.
* @param proto_version the return-by-reference protocol version.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int get_vif_proto_version(const string& vif_name,
int& proto_version,
string& error_msg);
/**
* Set the protocol version on an interface.
*
* @param vif_name the name of the vif to set the protocol version of.
* @param proto_version the new protocol version.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int set_vif_proto_version(const string& vif_name,
int proto_version,
string& error_msg);
/**
* Reset the protocol version on an interface to its default value.
*
* @param vif_name the name of the vif to reset the protocol version of
* to its default value.
* @param error_msg the error message (if error).
* @return XORP_OK on success, otherwise XORP_ERROR.
*/
int reset_vif_proto_version(const string& vif_name,
string& error_msg);
//
int get_vif_hello_triggered_delay(const string& vif_name,
uint16_t& hello_triggered_delay,
string& error_msg);
int set_vif_hello_triggered_delay(const string& vif_name,
uint16_t hello_triggered_delay,
string& error_msg);
int reset_vif_hello_triggered_delay(const string& vif_name,
string& error_msg);
//
int get_vif_hello_period(const string& vif_name,
uint16_t& hello_period,
string& error_msg);
int set_vif_hello_period(const string& vif_name,
uint16_t hello_period,
string& error_msg);
int reset_vif_hello_period(const string& vif_name,
string& error_msg);
//
int get_vif_hello_holdtime(const string& vif_name,
uint16_t& hello_holdtime,
string& error_msg);
int set_vif_hello_holdtime(const string& vif_name,
uint16_t hello_holdtime,
string& error_msg);
int reset_vif_hello_holdtime(const string& vif_name,
string& error_msg);
//
int get_vif_dr_priority(const string& vif_name,
uint32_t& dr_priority,
string& error_msg);
int set_vif_dr_priority(const string& vif_name,
uint32_t dr_priority,
string& error_msg);
int reset_vif_dr_priority(const string& vif_name,
string& error_msg);
//
int get_vif_propagation_delay(const string& vif_name,
uint16_t& propagation_delay,
string& error_msg);
int set_vif_propagation_delay(const string& vif_name,
uint16_t propagation_delay,
string& error_msg);
int reset_vif_propagation_delay(const string& vif_name,
string& error_msg);
//
int get_vif_override_interval(const string& vif_name,
uint16_t& override_interval,
string& error_msg);
int set_vif_override_interval(const string& vif_name,
uint16_t override_interval,
string& error_msg);
int reset_vif_override_interval(const string& vif_name,
string& error_msg);
//
int get_vif_is_tracking_support_disabled(const string& vif_name,
bool& is_tracking_support_disabled,
string& error_msg);
int set_vif_is_tracking_support_disabled(const string& vif_name,
bool is_tracking_support_disabled,
string& error_msg);
int reset_vif_is_tracking_support_disabled(const string& vif_name,
string& error_msg);
//
int get_vif_accept_nohello_neighbors(const string& vif_name,
bool& accept_nohello_neighbors,
string& error_msg);
int set_vif_accept_nohello_neighbors(const string& vif_name,
bool accept_nohello_neighbors,
string& error_msg);
int reset_vif_accept_nohello_neighbors(const string& vif_name,
string& error_msg);
//
int get_vif_join_prune_period(const string& vif_name,
uint16_t& join_prune_period,
string& error_msg);
int set_vif_join_prune_period(const string& vif_name,
uint16_t join_prune_period,
string& error_msg);
int reset_vif_join_prune_period(const string& vif_name,
string& error_msg);
//
int get_switch_to_spt_threshold(bool& is_enabled,
uint32_t& interval_sec,
uint32_t& bytes,
string& error_msg);
int set_switch_to_spt_threshold(bool is_enabled,
uint32_t interval_sec,
uint32_t bytes,
string& error_msg);
int reset_switch_to_spt_threshold(string& error_msg);
//
int add_config_scope_zone_by_vif_name(const IPvXNet& scope_zone_id,
const string& vif_name,
string& error_msg);
int add_config_scope_zone_by_vif_addr(const IPvXNet& scope_zone_id,
const IPvX& vif_addr,
string& error_msg);
int delete_config_scope_zone_by_vif_name(const IPvXNet& scope_zone_id,
const string& vif_name,
string& error_msg);
int delete_config_scope_zone_by_vif_addr(const IPvXNet& scope_zone_id,
const IPvX& vif_addr,
string& error_msg);
//
int add_config_cand_bsr(const IPvXNet& scope_zone_id,
bool is_scope_zone,
const string& vif_name,
const IPvX& vif_addr,
uint8_t bsr_priority,
uint8_t hash_mask_len,
string& error_msg);
int delete_config_cand_bsr(const IPvXNet& scope_zone_id,
bool is_scope_zone,
string& error_msg);
int add_config_cand_rp(const IPvXNet& group_prefix,
bool is_scope_zone,
const string& vif_name,
const IPvX& vif_addr,
uint8_t rp_priority,
uint16_t rp_holdtime,
string& error_msg);
int delete_config_cand_rp(const IPvXNet& group_prefix,
bool is_scope_zone,
const string& vif_name,
const IPvX& vif_addr,
string& error_msg);
int add_config_static_rp(const IPvXNet& group_prefix,
const IPvX& rp_addr,
uint8_t rp_priority,
uint8_t hash_mask_len,
string& error_msg);
int delete_config_static_rp(const IPvXNet& group_prefix,
const IPvX& rp_addr,
string& error_msg);
int delete_config_all_static_group_prefixes_rp(const IPvX& rp_addr,
string& error_msg);
int delete_config_all_static_rps(string& error_msg);
int config_static_rp_done(string& error_msg);
int add_alternative_subnet(const string& vif_name,
const IPvXNet& subnet,
string& error_msg);
int delete_alternative_subnet(const string& vif_name,
const IPvXNet& subnet,
string& error_msg);
int remove_all_alternative_subnets(const string& vif_name,
string& error_msg);
//
// Debug-related methods
//
/**
* Test if trace log is enabled.
*
* This method is used to test whether to output trace log debug messges.
*
* @return true if trace log is enabled, otherwise false.
*/
bool is_log_trace() const { return (_is_log_trace); }
/**
* Enable/disable trace log.
*
* This method is used to enable/disable trace log debug messages output.
*
* @param is_enabled if true, trace log is enabled, otherwise is disabled.
*/
void set_log_trace(bool is_enabled) { _is_log_trace = is_enabled; }
//
// Test-related methods
//
// Join/Prune test-related methods
int add_test_jp_entry(const IPvX& source_addr,
const IPvX& group_addr,
uint8_t group_mask_len,
mrt_entry_type_t mrt_entry_type,
action_jp_t action_jp, uint16_t holdtime,
bool is_new_group);
int send_test_jp_entry(const string& vif_name,
const IPvX& nbr_addr,
string& error_msg);
// Assert test-related methods
int send_test_assert(const string& vif_name,
const IPvX& source_addr,
const IPvX& group_addr,
bool rpt_bit,
uint32_t metric_preference,
uint32_t metric,
string& error_msg);
// Bootstrap test-related methods
int add_test_bsr_zone(const PimScopeZoneId& zone_id,
const IPvX& bsr_addr,
uint8_t bsr_priority,
uint8_t hash_mask_len,
uint16_t fragment_tag);
int add_test_bsr_group_prefix(const PimScopeZoneId& zone_id,
const IPvXNet& group_prefix,
bool is_scope_zone,
uint8_t expected_rp_count);
int add_test_bsr_rp(const PimScopeZoneId& zone_id,
const IPvXNet& group_prefix,
const IPvX& rp_addr,
uint8_t rp_priority,
uint16_t rp_holdtime);
int send_test_bootstrap(const string& vif_name, string& error_msg);
int send_test_bootstrap_by_dest(const string& vif_name,
const IPvX& dest_addr,
string& error_msg);
int send_test_cand_rp_adv();
//
// PimNbr-related methods
//
void add_pim_mre_no_pim_nbr(PimMre *pim_mre);
void delete_pim_mre_no_pim_nbr(PimMre *pim_mre);
list<PimNbr *>& processing_pim_nbr_list() {
return (_processing_pim_nbr_list);
}
void init_processing_pim_mre_rp(uint32_t vif_index,
const IPvX& pim_nbr_addr);
void init_processing_pim_mre_wc(uint32_t vif_index,
const IPvX& pim_nbr_addr);
void init_processing_pim_mre_sg(uint32_t vif_index,
const IPvX& pim_nbr_addr);
void init_processing_pim_mre_sg_rpt(uint32_t vif_index,
const IPvX& pim_nbr_addr);
PimNbr *find_processing_pim_mre_rp(uint32_t vif_index,
const IPvX& pim_nbr_addr);
PimNbr *find_processing_pim_mre_wc(uint32_t vif_index,
const IPvX& pim_nbr_addr);
PimNbr *find_processing_pim_mre_sg(uint32_t vif_index,
const IPvX& pim_nbr_addr);
PimNbr *find_processing_pim_mre_sg_rpt(uint32_t vif_index,
const IPvX& pim_nbr_addr);
//
// Configuration parameters
//
ConfigParam<bool>& is_switch_to_spt_enabled() {
return (_is_switch_to_spt_enabled);
}
ConfigParam<uint32_t>& switch_to_spt_threshold_interval_sec() {
return (_switch_to_spt_threshold_interval_sec);
}
ConfigParam<uint32_t>& switch_to_spt_threshold_bytes() {
return (_switch_to_spt_threshold_bytes);
}
//
// Statistics-related counters and values
//
void clear_pim_statistics();
int clear_pim_statistics_per_vif(const string& vif_name,
string& error_msg);
//
uint32_t pimstat_hello_messages_received() const;
uint32_t pimstat_hello_messages_sent() const;
uint32_t pimstat_hello_messages_rx_errors() const;
uint32_t pimstat_register_messages_received() const;
uint32_t pimstat_register_messages_sent() const;
uint32_t pimstat_register_messages_rx_errors() const;
uint32_t pimstat_register_stop_messages_received() const;
uint32_t pimstat_register_stop_messages_sent() const;
uint32_t pimstat_register_stop_messages_rx_errors() const;
uint32_t pimstat_join_prune_messages_received() const;
uint32_t pimstat_join_prune_messages_sent() const;
uint32_t pimstat_join_prune_messages_rx_errors() const;
uint32_t pimstat_bootstrap_messages_received() const;
uint32_t pimstat_bootstrap_messages_sent() const;
uint32_t pimstat_bootstrap_messages_rx_errors() const;
uint32_t pimstat_assert_messages_received() const;
uint32_t pimstat_assert_messages_sent() const;
uint32_t pimstat_assert_messages_rx_errors() const;
uint32_t pimstat_graft_messages_received() const;
uint32_t pimstat_graft_messages_sent() const;
uint32_t pimstat_graft_messages_rx_errors() const;
uint32_t pimstat_graft_ack_messages_received() const;
uint32_t pimstat_graft_ack_messages_sent() const;
uint32_t pimstat_graft_ack_messages_rx_errors() const;
uint32_t pimstat_candidate_rp_messages_received() const;
uint32_t pimstat_candidate_rp_messages_sent() const;
uint32_t pimstat_candidate_rp_messages_rx_errors() const;
//
uint32_t pimstat_unknown_type_messages() const;
uint32_t pimstat_unknown_version_messages() const;
uint32_t pimstat_neighbor_unknown_messages() const;
uint32_t pimstat_bad_length_messages() const;
uint32_t pimstat_bad_checksum_messages() const;
uint32_t pimstat_bad_receive_interface_messages() const;
uint32_t pimstat_rx_interface_disabled_messages() const;
uint32_t pimstat_rx_register_not_rp() const;
uint32_t pimstat_rp_filtered_source() const;
uint32_t pimstat_unknown_register_stop() const;
uint32_t pimstat_rx_join_prune_no_state() const;
uint32_t pimstat_rx_graft_graft_ack_no_state() const;
uint32_t pimstat_rx_graft_on_upstream_interface() const;
uint32_t pimstat_rx_candidate_rp_not_bsr() const;
uint32_t pimstat_rx_bsr_when_bsr() const;
uint32_t pimstat_rx_bsr_not_rpf_interface() const;
uint32_t pimstat_rx_unknown_hello_option() const;
uint32_t pimstat_rx_data_no_state() const;
uint32_t pimstat_rx_rp_no_state() const;
uint32_t pimstat_rx_aggregate() const;
uint32_t pimstat_rx_malformed_packet() const;
uint32_t pimstat_no_rp() const;
uint32_t pimstat_no_route_upstream() const;
uint32_t pimstat_rp_mismatch() const;
uint32_t pimstat_rpf_neighbor_unknown() const;
//
uint32_t pimstat_rx_join_rp() const;
uint32_t pimstat_rx_prune_rp() const;
uint32_t pimstat_rx_join_wc() const;
uint32_t pimstat_rx_prune_wc() const;
uint32_t pimstat_rx_join_sg() const;
uint32_t pimstat_rx_prune_sg() const;
uint32_t pimstat_rx_join_sg_rpt() const;
uint32_t pimstat_rx_prune_sg_rpt() const;
//
//
int pimstat_hello_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_hello_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_hello_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_stop_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_stop_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_register_stop_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_join_prune_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_join_prune_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_join_prune_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bootstrap_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bootstrap_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bootstrap_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_assert_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_assert_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_assert_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_ack_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_ack_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_graft_ack_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_candidate_rp_messages_received_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_candidate_rp_messages_sent_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_candidate_rp_messages_rx_errors_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
//
int pimstat_unknown_type_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_unknown_version_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_neighbor_unknown_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bad_length_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bad_checksum_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_bad_receive_interface_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_interface_disabled_messages_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_register_not_rp_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rp_filtered_source_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_unknown_register_stop_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_join_prune_no_state_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_graft_graft_ack_no_state_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_graft_on_upstream_interface_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_candidate_rp_not_bsr_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_bsr_when_bsr_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_bsr_not_rpf_interface_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_unknown_hello_option_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_data_no_state_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_rp_no_state_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_aggregate_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_malformed_packet_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_no_rp_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_no_route_upstream_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rp_mismatch_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rpf_neighbor_unknown_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
//
int pimstat_rx_join_rp_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_prune_rp_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_join_wc_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_prune_wc_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_join_sg_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_prune_sg_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_join_sg_rpt_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
int pimstat_rx_prune_sg_rpt_per_vif(const string& vif_name, uint32_t& result, string& error_msg) const;
protected:
//
// IfMgrHintObserver methods
//
void tree_complete();
void updates_made();
private:
/**
* A method invoked when the status of a service changes.
*
* @param service the service whose status has changed.
* @param old_status the old status.
* @param new_status the new status.
*/
void status_change(ServiceBase* service,
ServiceStatus old_status,
ServiceStatus new_status);
/**
* Get a reference to the service base of the interface manager.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @return a reference to the service base of the interface manager.
*/
virtual const ServiceBase* ifmgr_mirror_service_base() const = 0;
/**
* Get a reference to the interface manager tree.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*
* @return a reference to the interface manager tree.
*/
virtual const IfMgrIfTree& ifmgr_iftree() const = 0;
/**
* Initiate registration with the FEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void fea_register_startup() = 0;
/**
* Initiate registration with the MFEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void mfea_register_startup() = 0;
/**
* Initiate registration with the RIB.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void rib_register_startup() = 0;
/**
* Initiate de-registration with the FEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void fea_register_shutdown() = 0;
/**
* Initiate de-registration with the MFEA.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void mfea_register_shutdown() = 0;
/**
* Initiate de-registration with the RIB.
*
* This is a pure virtual function, and it must be implemented
* by the communication-wrapper class that inherits this base class.
*/
virtual void rib_register_shutdown() = 0;
PimMrt _pim_mrt; // PIM Multicast Routing Table
PimMribTable _pim_mrib_table; // PIM Multicast Routing Information Base table
RpTable _rp_table; // The RP table
PimScopeZoneTable _pim_scope_zone_table; // The scope zone table
PimBsr _pim_bsr; // The BSR state
uint32_t _pim_register_vif_index;// The PIM Register vif index
Mifset _pim_vifs_dr; // The vifs I am the DR
buffer_t *_buffer_recv; // Buffer for receiving messages
list<PimNbr *> _processing_pim_nbr_list; // The list of deleted PimNbr with
// PimMre entries to process.
//
// Configuration parameters
//
ConfigParam<bool> _is_switch_to_spt_enabled;
ConfigParam<uint32_t> _switch_to_spt_threshold_interval_sec;
ConfigParam<uint32_t> _switch_to_spt_threshold_bytes;
//
// A local copy with the interface state information
//
IfMgrIfTree _iftree;
//
// Debug and test-related state
//
bool _is_log_trace; // If true, enable XLOG_TRACE()
list<PimJpHeader> _test_jp_headers_list; // J/P headers to send test J/P messages
};
//
// Global variables
//
//
// Global functions prototypes
//
#endif // __PIM_PIM_NODE_HH__
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