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Alexander Afanasyev3ba44e52011-11-10 16:38:10 -08001// -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*-
2//
3// Copyright (c) 2008 University of Washington
4//
5// This program is free software; you can redistribute it and/or modify
6// it under the terms of the GNU General Public License version 2 as
7// published by the Free Software Foundation;
8//
9// This program is distributed in the hope that it will be useful,
10// but WITHOUT ANY WARRANTY; without even the implied warranty of
11// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12// GNU General Public License for more details.
13//
14// You should have received a copy of the GNU General Public License
15// along with this program; if not, write to the Free Software
16// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
17//
18
19#include "ns3/names.h"
20#include "ns3/node.h"
21#include "ns3/log.h"
22#include "ns3/simulator.h"
23#include "ns3/object.h"
24#include "ns3/packet.h"
25#include "ns3/net-device.h"
26#include "ns3/ipv4-route.h"
27#include "ipv4-global-routing-unordered-nexthops.h"
28
29#include <iomanip>
30
Alexander Afanasyev918839c2011-11-10 17:02:06 -080031#ifndef UINT32_MAX
32# define UINT32_MAX (4294967295U)
33#endif
34
Alexander Afanasyev3ba44e52011-11-10 16:38:10 -080035NS_LOG_COMPONENT_DEFINE ("Ipv4GlobalRoutingUnorderedNexthops");
36
37namespace ns3 {
38
39NS_OBJECT_ENSURE_REGISTERED (Ipv4GlobalRoutingUnorderedNexthops);
40
41TypeId
42Ipv4GlobalRoutingUnorderedNexthops::GetTypeId (void)
43{
44 static TypeId tid = TypeId ("ns3::Ipv4GlobalRoutingUnorderedNexthops")
45 .SetParent<Ipv4GlobalRouting> ()
46 .AddConstructor<Ipv4GlobalRoutingUnorderedNexthops> ()
47 ;
48 return tid;
49}
50
51Ipv4GlobalRoutingUnorderedNexthops::Ipv4GlobalRoutingUnorderedNexthops ()
52: m_numLogicalEntries (1)
53{
54}
55
56void
57Ipv4GlobalRoutingUnorderedNexthops::FixRoutes ()
58{
59 for (Ipv4AddressTrieMap::iterator route = m_routes.begin ();
60 route != m_routes.end ();
61 route ++)
62 {
63 if (route->second->size () < m_numLogicalEntries)
64 {
65 NS_LOG_WARN ("Not all entries got a new routing entry. Making one based on previous set");
66 route->second->push_back (route->second->back ());
67 route->second->back ().SetMetric (UINT32_MAX); // just to ensure we have consistency across the sets
68 }
69 }
70 m_numLogicalEntries ++;
71}
72
73void
74Ipv4GlobalRoutingUnorderedNexthops::AddRouteTo (Ipv4Address dest,
75 Ipv4Mask destMask,
76 Ipv4Address nextHop,
77 uint32_t interface,
78 uint32_t metric/*=0*/)
79{
80 NS_LOG_FUNCTION (dest << destMask << nextHop << interface << metric);
81
82 // First, make sure we don't try to add route to ourselves
83 int32_t iface = m_ipv4->GetInterfaceForPrefix (dest, destMask);
84 NS_LOG_LOGIC ("Iface " << iface << " for " << dest);
85 if (destMask != Ipv4Mask::GetZero () && iface >= 0)
86 {
87 NS_LOG_LOGIC ("Do not add route to ourselves");
88 return;
89 }
90
91 // Second, there is no reason to add p2p route that equals to the next hop
92 if (destMask == Ipv4Mask::GetOnes () && dest == nextHop)
93 {
94 NS_LOG_LOGIC ("Ignore route to nexthop via nexhop");
95 return;
96 }
97
98 Ptr<EntryContainer> nextHops = 0;
99
100 Ipv4AddressTrieMap::iterator route =
101 m_routes.find (dest.CombineMask (destMask));
102 if (route == m_routes.end ())
103 {
104 nextHops = Create<EntryContainer> ();
105 m_routes[dest.CombineMask (destMask)] = nextHops;
106 }
107 else
108 {
109 nextHops = route->second;
110 }
111
112 // NS_LOG_ERROR ("numLogicalEntries: " << m_numLogicalEntries << ", nextHops->size: " << nextHops->size ());
113 NS_ASSERT_MSG (nextHops->size ()==m_numLogicalEntries ||
114 nextHops->size ()==m_numLogicalEntries-1,
115 "Number of entries in nextHops should be either equal to number of logical entries, or one smaller");
116
117 if (nextHops->size ()==m_numLogicalEntries-1)
118 {
119 // new entry
120 nextHops->push_back (Ipv4RoutingTableEntry::CreateNetworkRouteTo (dest, destMask, nextHop, interface, metric));
121 }
122 else
123 {
124 if (nextHops->back ().GetMetric () > metric)
125 {
126 // update entry if new metric is smaller
127 nextHops->back () = Ipv4RoutingTableEntry::CreateNetworkRouteTo (dest, destMask, nextHop, interface, metric);
128 }
129 }
130}
131
132Ptr<Ipv4Route>
133Ipv4GlobalRoutingUnorderedNexthops::LookupGlobal (uint32_t entryNum, Ipv4Address dest, Ptr<NetDevice> oif)
134{
135 NS_LOG_FUNCTION_NOARGS ();
136 NS_LOG_LOGIC ("Looking for route for destination " << dest);
137
138 NS_ASSERT_MSG (m_numLogicalEntries > 0,
139 "Number of logical entries should be at least one");
140
141 NS_ASSERT_MSG (entryNum < m_numLogicalEntries,
142 "Number of requested logical entry should be smaller than total number of logical entries");
143
144 Ipv4AddressTrieMap::const_iterator longest_prefix_map = m_routes.longest_prefix_match (dest);
145 if (longest_prefix_map == m_routes.end ())
146 {
147 return 0;
148 }
149
150 const Ipv4RoutingTableEntry & entry = (*longest_prefix_map->second)[entryNum];
151
152 if (oif != 0 && oif == m_ipv4->GetNetDevice (entry.GetInterface ()))
153 {
154 NS_LOG_LOGIC ("Route points to the incoming interface. Return empty route");
155 return 0;
156 }
157
158 // create a Ipv4Route object from the selected routing table entry
159 Ptr<Ipv4Route> rtentry = Create<Ipv4Route> ();
160 rtentry->SetDestination (entry.GetDest ());
161 rtentry->SetSource (m_ipv4->GetAddress (entry.GetInterface (), 0).GetLocal ());
162 rtentry->SetGateway (entry.GetGateway ());
163 rtentry->SetOutputDevice (m_ipv4->GetNetDevice (entry.GetInterface ()));
164 return rtentry;
165}
166
167void
168Ipv4GlobalRoutingUnorderedNexthops::DeleteRoutes ()
169{
170 m_routes.clear ();
171}
172
173void
174Ipv4GlobalRoutingUnorderedNexthops::PrintRoutingTable (Ptr<OutputStreamWrapper> stream) const
175{
176 std::ostream* os = stream->GetStream ();
177 if (m_routes.size () > 0)
178 {
179 *os << "Destination Iface(Metric),...,Iface(Metric)" << std::endl;
180 for (Ipv4AddressTrieMap::const_iterator i=m_routes.begin (); i != m_routes.end (); i++)
181 {
182 if (i->second->size ()==0) continue;
183 const Ipv4RoutingTableEntry &route = i->second->front ();
184
185 std::ostringstream dest;
186 dest << route.GetDest () << "/" << route.GetDestNetworkMask().GetPrefixLength ();
187 *os << std::setiosflags (std::ios::left) << std::setw (15) << dest.str ();
188
189 for (EntryContainer::iterator entry = i->second->begin ();
190 entry != i->second->end ();
191 entry ++)
192 {
193 if (entry != i->second->begin ())
194 *os << ",";
195 *os << entry->GetInterface () << "(" << entry->GetMetric () << ")";
196 }
197
198 *os << std::endl;
199 }
200 }
201}
202
203Ptr<Ipv4Route>
204Ipv4GlobalRoutingUnorderedNexthops::RouteOutput (Ptr<Packet> p, const Ipv4Header &header,
205 Ptr<NetDevice> oif, Socket::SocketErrno &sockerr)
206{
207//
208// First, see if this is a multicast packet we have a route for. If we
209// have a route, then send the packet down each of the specified interfaces.
210//
211 if (header.GetDestination ().IsMulticast ())
212 {
213 NS_LOG_LOGIC ("Multicast destination-- returning false");
214 return 0; // Let other routing protocols try to handle this
215 }
216//
217// See if this is a unicast packet we have a route for.
218//
219 NS_LOG_LOGIC ("Unicast destination- looking up");
220 Ptr<Ipv4Route> rtentry = LookupGlobal (0, header.GetDestination (), oif);
221 if (rtentry)
222 {
223 sockerr = Socket::ERROR_NOTERROR;
224 }
225 else
226 {
227 sockerr = Socket::ERROR_NOROUTETOHOST;
228 }
229 return rtentry;
230}
231
232bool
233Ipv4GlobalRoutingUnorderedNexthops::RouteInput (Ptr<const Packet> p, const Ipv4Header &header,
234 Ptr<const NetDevice> idev,
235 UnicastForwardCallback ucb, MulticastForwardCallback mcb,
236 LocalDeliverCallback lcb, ErrorCallback ecb)
237{
238
239 NS_LOG_FUNCTION (this << p << header << header.GetSource () << header.GetDestination () << idev);
240 // Check if input device supports IP
241 NS_ASSERT (m_ipv4->GetInterfaceForDevice (idev) >= 0);
242 uint32_t iif = m_ipv4->GetInterfaceForDevice (idev);
243
244 if (header.GetDestination ().IsMulticast ())
245 {
246 NS_LOG_LOGIC ("Multicast destination-- returning false");
247 return false; // Let other routing protocols try to handle this
248 }
249
250 if (header.GetDestination ().IsBroadcast ())
251 {
252 NS_LOG_LOGIC ("For me (Ipv4Addr broadcast address)");
253 // TODO: Local Deliver for broadcast
254 // TODO: Forward broadcast
255 }
256
257 // TODO: Configurable option to enable RFC 1222 Strong End System Model
258 // Right now, we will be permissive and allow a source to send us
259 // a packet to one of our other interface addresses; that is, the
260 // destination unicast address does not match one of the iif addresses,
261 // but we check our other interfaces. This could be an option
262 // (to remove the outer loop immediately below and just check iif).
263 for (uint32_t j = 0; j < m_ipv4->GetNInterfaces (); j++)
264 {
265 for (uint32_t i = 0; i < m_ipv4->GetNAddresses (j); i++)
266 {
267 Ipv4InterfaceAddress iaddr = m_ipv4->GetAddress (j, i);
268 Ipv4Address addr = iaddr.GetLocal ();
269 if (addr.IsEqual (header.GetDestination ()))
270 {
271 if (j == iif)
272 {
273 NS_LOG_LOGIC ("For me (destination " << addr << " match)");
274 }
275 else
276 {
277 NS_LOG_LOGIC ("For me (destination " << addr << " match) on another interface " << header.GetDestination ());
278 }
279 lcb (p, header, iif);
280 return true;
281 }
282 if (header.GetDestination ().IsEqual (iaddr.GetBroadcast ()))
283 {
284 NS_LOG_LOGIC ("For me (interface broadcast address)");
285 lcb (p, header, iif);
286 return true;
287 }
288 NS_LOG_LOGIC ("Address "<< addr << " not a match");
289 }
290 }
291 // Check if input device supports IP forwarding
292 if (m_ipv4->IsForwarding (iif) == false)
293 {
294 NS_LOG_LOGIC ("Forwarding disabled for this interface");
295 ecb (p, header, Socket::ERROR_NOROUTETOHOST);
296 return false;
297 }
298 // Next, try to find a route
299 NS_LOG_LOGIC ("Unicast destination- looking up global route");
300 Ptr<Ipv4Route> rtentry = LookupGlobal (0, header.GetDestination ());
301 if (rtentry != 0)
302 {
303 NS_LOG_LOGIC ("Found unicast destination- calling unicast callback");
304 ucb (rtentry, p, header);
305 return true;
306 }
307 else
308 {
309 NS_LOG_LOGIC ("Did not find unicast destination- returning false");
310 return false; // Let other routing protocols try to handle this
311 // route request.
312 }
313}
314
315} // namespace ns3