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/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2013, Regents of the University of California
* Alexander Afanasyev
*
* GNU v3.0 license, See the LICENSE file for more information
*
* Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
*/
#ifndef NDN_NDNCXX_DETAIL_TIMEOUTS_POLICY_H_
#define NDN_NDNCXX_DETAIL_TIMEOUTS_POLICY_H_
#include <boost/intrusive/options.hpp>
#include <boost/intrusive/list.hpp>
#include <ns3/nstime.h>
#include <ns3/simulator.h>
namespace ns3 {
namespace ndn {
namespace detail {
/**
* @brief Traits for timeouts policy
*/
struct timeouts_policy_traits
{
/// @brief Name that can be used to identify the policy (for NS-3 object model and logging)
static std::string GetName () { return "Timeouts"; }
struct policy_hook_type : public boost::intrusive::set_member_hook<> { Time timeWhenShouldExpire; };
template<class Container>
struct container_hook
{
typedef boost::intrusive::member_hook< Container,
policy_hook_type,
&Container::policy_hook_ > type;
};
template<class Base,
class Container,
class Hook>
struct policy
{
static Time& get_timeout (typename Container::iterator item)
{
return static_cast<typename policy_container::value_traits::hook_type*>
(policy_container::value_traits::to_node_ptr(*item))->timeWhenShouldExpire;
}
static const Time& get_timeout (typename Container::const_iterator item)
{
return static_cast<const typename policy_container::value_traits::hook_type*>
(policy_container::value_traits::to_node_ptr(*item))->timeWhenShouldExpire;
}
template<class Key>
struct MemberHookLess
{
bool operator () (const Key &a, const Key &b) const
{
return get_timeout (&a) < get_timeout (&b);
}
};
typedef boost::intrusive::multiset< Container,
boost::intrusive::compare< MemberHookLess< Container > >,
Hook > policy_container;
class type : public policy_container
{
public:
typedef policy policy_base; // to get access to get_timeout methods from outside
typedef Container parent_trie;
type (Base &base)
: m_base (base)
{
}
inline void
update (typename parent_trie::iterator item)
{
// do nothing
}
inline bool
insert (typename parent_trie::iterator item)
{
Time timeout = item->payload ()->GetInterest ()->GetInterestLifetime ();
if (timeout.IsZero ()) timeout = Seconds (4.0);
get_timeout (item) = Simulator::Now () + timeout;
policy_container::insert (*item);
if (policy_container::s_iterator_to (*item) == policy_container::begin ())
{
if (m_timeoutEvent.IsRunning ())
{
Simulator::Remove (m_timeoutEvent); // just canceling would not clean up list of events
}
m_timeoutEvent = Simulator::Schedule (timeout, &type::ProcessTimeoutEntry, this, item);
}
return true;
}
inline void
lookup (typename parent_trie::iterator item)
{
// do nothing. it's random policy
}
inline void
erase (typename parent_trie::iterator item)
{
bool needRescheduling = false;
if (policy_container::s_iterator_to (*item) == policy_container::begin ())
{
if (m_timeoutEvent.IsRunning ())
{
Simulator::Remove (m_timeoutEvent); // just canceling would not clean up list of events
}
needRescheduling = true;
}
// erase only if freshness is non zero (otherwise an item is not in the policy
policy_container::erase (policy_container::s_iterator_to (*item));
if (needRescheduling && !policy_container::empty ())
{
Time timeout = get_timeout (&*policy_container::begin ()) - Simulator::Now ();
m_timeoutEvent = Simulator::Schedule (timeout, &type::ProcessTimeoutEntry, this, &*policy_container::begin ());
}
}
inline void
clear ()
{
policy_container::clear ();
}
inline void
ProcessTimeoutEntry (typename parent_trie::iterator item)
{
item->payload ()->ProcessOnTimeout (item->payload ()->GetInterest ());
m_base.erase (item);
}
private:
type () : m_base (*((Base*)0)) { };
private:
Base &m_base;
EventId m_timeoutEvent;
};
};
};
} // detail
} // ndn
} // ns3
#endif // NDN_NDNCXX_DETAIL_TIMEOUTS_STATS_POLICY_H