Source: ../../pim/pim_mfc.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_mfc.hh,v 1.17 2009/01/05 18:31:02 jtc Exp $
#ifndef __PIM_PIM_MFC_HH__
#define __PIM_PIM_MFC_HH__
//
// PIM Multicast Forwarding Cache definitions.
//
#include "mrt/mifset.hh"
#include "mrt/mrt.hh"
//
// Constants definitions
//
//
// Structures/classes, typedefs and macros
//
class IPvX;
class PimMre;
class PimMrt;
class PimNode;
// PIM-specific Multicast Forwarding Cache
class PimMfc : public Mre<PimMfc> {
public:
PimMfc(PimMrt& pim_mrt, const IPvX& source, const IPvX& group);
~PimMfc();
// General info: PimNode, PimMrt, family, etc.
PimNode& pim_node() const;
PimMrt& pim_mrt() const { return (_pim_mrt); }
int family() const;
const IPvX& rp_addr() const { return (_rp_addr); }
void set_rp_addr(const IPvX& v);
void uncond_set_rp_addr(const IPvX& v);
uint32_t iif_vif_index() const { return (_iif_vif_index); }
void set_iif_vif_index(uint32_t v) { _iif_vif_index = v; }
const Mifset& olist() const { return (_olist); }
const Mifset& olist_disable_wrongvif() const {
return (_olist_disable_wrongvif);
}
bool is_set_oif(uint32_t vif_index) const {
return (_olist.test(vif_index));
}
void set_olist(const Mifset& v) { _olist = v; }
void set_olist_disable_wrongvif(const Mifset& v) {
_olist_disable_wrongvif = v;
}
void set_oif(uint32_t vif_index, bool v) {
if (v)
_olist.set(vif_index);
else
_olist.reset(vif_index);
}
void recompute_rp_mfc();
void recompute_iif_olist_mfc();
bool recompute_update_sptbit_mfc();
void recompute_spt_switch_threshold_changed_mfc();
void recompute_monitoring_switch_to_spt_desired_mfc();
void install_spt_switch_dataflow_monitor_mfc(PimMre *pim_mre);
void update_mfc(uint32_t new_iif_vif_index,
const Mifset& new_olist,
const PimMre* pim_mre_sg);
int add_mfc_to_kernel();
int delete_mfc_from_kernel();
int add_dataflow_monitor(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);
int delete_dataflow_monitor(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);
int delete_all_dataflow_monitor();
bool entry_try_remove();
bool entry_can_remove() const;
void remove_pim_mfc_entry_mfc();
bool is_task_delete_pending() const { return (_flags & PIM_MFC_TASK_DELETE_PENDING); }
void set_is_task_delete_pending(bool v) {
if (v)
_flags |= PIM_MFC_TASK_DELETE_PENDING;
else
_flags &= ~PIM_MFC_TASK_DELETE_PENDING;
}
bool is_task_delete_done() const { return (_flags & PIM_MFC_TASK_DELETE_DONE); }
void set_is_task_delete_done(bool v) {
if (v)
_flags |= PIM_MFC_TASK_DELETE_DONE;
else
_flags &= ~PIM_MFC_TASK_DELETE_DONE;
}
bool has_idle_dataflow_monitor() const { return (_flags & PIM_MFC_HAS_IDLE_DATAFLOW_MONITOR); }
void set_has_idle_dataflow_monitor(bool v) {
if (v)
_flags |= PIM_MFC_HAS_IDLE_DATAFLOW_MONITOR;
else
_flags &= ~PIM_MFC_HAS_IDLE_DATAFLOW_MONITOR;
}
bool has_spt_switch_dataflow_monitor() const { return (_flags & PIM_MFC_HAS_SPT_SWITCH_DATAFLOW_MONITOR); }
void set_has_spt_switch_dataflow_monitor(bool v) {
if (v)
_flags |= PIM_MFC_HAS_SPT_SWITCH_DATAFLOW_MONITOR;
else
_flags &= ~PIM_MFC_HAS_SPT_SWITCH_DATAFLOW_MONITOR;
}
bool has_forced_deletion() const { return (_flags & PIM_MFC_HAS_FORCED_DELETION); }
void set_has_forced_deletion(bool v) {
if (v)
_flags |= PIM_MFC_HAS_FORCED_DELETION;
else
_flags &= ~PIM_MFC_HAS_FORCED_DELETION;
}
private:
PimMrt& _pim_mrt; // The PIM MRT (yuck!)
IPvX _rp_addr; // The RP address
uint32_t _iif_vif_index; // The incoming interface
Mifset _olist; // The outgoing interfaces
Mifset _olist_disable_wrongvif;// The outgoing interfaces for which
// the WRONGVIF kernel signal is
// disabled.
// PimMfc _flags
enum {
PIM_MFC_TASK_DELETE_PENDING = 1 << 0, // Entry is pending deletion
PIM_MFC_TASK_DELETE_DONE = 1 << 1, // Entry is ready to be deleted
PIM_MFC_HAS_IDLE_DATAFLOW_MONITOR = 1 << 2, // Entry has an idle dataflow monitor
PIM_MFC_HAS_SPT_SWITCH_DATAFLOW_MONITOR = 1 << 3, // Entry has a SPT-switch dataflow monitor
PIM_MFC_HAS_FORCED_DELETION = 1 << 4 // Entry is forced to be deleted
};
uint32_t _flags; // Various flags (see PIM_MFC_* above)
};
//
// Global variables
//
//
// Global functions prototypes
//
#endif // __PIM_PIM_MFC_HH__
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