NS-3 based Named Data Networking (NDN) simulator
ndnSIM 2.5: NDN, CCN, CCNx, content centric networks
API Documentation
network-interface.cpp
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1 /* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
24 #include "network-interface.hpp"
26 #include "../util/logger.hpp"
27 #include "../util/string-helper.hpp"
28 
29 #include <net/if.h>
30 
31 NDN_LOG_INIT(ndn.NetworkMonitor);
32 
33 namespace ndn {
34 namespace net {
35 
36 NetworkInterface::NetworkInterface()
37  : m_index(0)
38  , m_type(InterfaceType::UNKNOWN)
39  , m_flags(0)
40  , m_state(InterfaceState::UNKNOWN)
41  , m_mtu(0)
42 {
43 }
44 
45 bool
46 NetworkInterface::addNetworkAddress(const NetworkAddress& address)
47 {
48  if (!address.getIp().is_unspecified()) {
49  // need to erase the existing address before inserting
50  // because the address flags may have changed
51  bool isNew = m_netAddresses.erase(address) == 0;
52  m_netAddresses.insert(address);
53  if (isNew) {
54  NDN_LOG_DEBUG("added address " << address << " to " << m_name);
55  onAddressAdded(address);
56  return true;
57  }
58  }
59  return false;
60 }
61 
62 bool
63 NetworkInterface::removeNetworkAddress(const NetworkAddress& address)
64 {
65  if (m_netAddresses.erase(address) > 0) {
66  NDN_LOG_DEBUG("removed address " << address << " from " << m_name);
67  onAddressRemoved(address);
68  return true;
69  }
70  return false;
71 }
72 
73 void
74 NetworkInterface::setIndex(int index)
75 {
76  m_index = index;
77 }
78 
79 void
80 NetworkInterface::setName(const std::string& name)
81 {
82  BOOST_ASSERT(!name.empty());
83  m_name = name;
84 }
85 
86 void
87 NetworkInterface::setType(InterfaceType type)
88 {
89  m_type = type;
90 }
91 
92 void
93 NetworkInterface::setFlags(uint32_t flags)
94 {
95  m_flags = flags;
96 }
97 
98 void
99 NetworkInterface::setState(InterfaceState state)
100 {
101  if (m_state != state) {
102  std::swap(m_state, state);
103  onStateChanged(state, m_state);
104  }
105 }
106 
107 void
108 NetworkInterface::setMtu(uint32_t mtu)
109 {
110  if (m_mtu != mtu) {
111  std::swap(m_mtu, mtu);
112  onMtuChanged(mtu, m_mtu);
113  }
114 }
115 
116 void
117 NetworkInterface::setEthernetAddress(const ethernet::Address& address)
118 {
119  m_etherAddress = address;
120 }
121 
122 void
123 NetworkInterface::setEthernetBroadcastAddress(const ethernet::Address& address)
124 {
125  m_etherBrdAddress = address;
126 }
127 
128 std::ostream&
129 operator<<(std::ostream& os, InterfaceType type)
130 {
131  switch (type) {
132  case InterfaceType::UNKNOWN:
133  return os << "unknown";
134  case InterfaceType::LOOPBACK:
135  return os << "loopback";
136  case InterfaceType::ETHERNET:
137  return os << "ether";
138  }
139  return os;
140 }
141 
142 std::ostream&
143 operator<<(std::ostream& os, InterfaceState state)
144 {
145  switch (state) {
146  case InterfaceState::UNKNOWN:
147  return os << "unknown";
148  case InterfaceState::DOWN:
149  return os << "down";
150  case InterfaceState::NO_CARRIER:
151  return os << "no-carrier";
152  case InterfaceState::DORMANT:
153  return os << "dormant";
154  case InterfaceState::RUNNING:
155  return os << "running";
156  }
157  return os;
158 }
159 
160 static void
161 printFlag(std::ostream& os, uint32_t& flags, uint32_t flagVal, const char* flagStr)
162 {
163  if (flags & flagVal) {
164  flags &= ~flagVal;
165  os << flagStr << (flags ? "," : "");
166  }
167 }
168 
169 std::ostream&
170 operator<<(std::ostream& os, const NetworkInterface& netif)
171 {
172  os << netif.getIndex() << ": " << netif.getName() << ": ";
173 
174  auto flags = netif.getFlags();
175  os << "<";
176 #define PRINT_IFF(flag) printFlag(os, flags, IFF_##flag, #flag)
177  PRINT_IFF(UP);
178  PRINT_IFF(BROADCAST);
179  PRINT_IFF(DEBUG);
181  PRINT_IFF(POINTOPOINT);
182 #if defined(IFF_NOTRAILERS)
183  PRINT_IFF(NOTRAILERS);
184 #endif
186  PRINT_IFF(NOARP);
187  PRINT_IFF(PROMISC);
188  PRINT_IFF(ALLMULTI);
189  PRINT_IFF(MULTICAST);
190 #if defined(__linux__)
191  PRINT_IFF(MASTER);
192  PRINT_IFF(SLAVE);
193  PRINT_IFF(PORTSEL);
194  PRINT_IFF(AUTOMEDIA);
195  PRINT_IFF(DYNAMIC);
196 #elif defined(__APPLE__) || defined(__FreeBSD__)
197  PRINT_IFF(OACTIVE);
198  PRINT_IFF(SIMPLEX);
199  PRINT_IFF(LINK0);
200  PRINT_IFF(LINK1);
201  PRINT_IFF(LINK2);
202 #endif
203 #if defined(__FreeBSD__)
204  PRINT_IFF(CANTCONFIG);
205  PRINT_IFF(PPROMISC);
206  PRINT_IFF(MONITOR);
207  PRINT_IFF(STATICARP);
208  PRINT_IFF(DYING);
209  PRINT_IFF(RENAMING);
210 #endif
211 #undef PRINT_IFF
212 #if defined(__linux__)
213 #define PRINT_IF_FLAG(flag) printFlag(os, flags, linux_if::FLAG_##flag, #flag)
214  PRINT_IF_FLAG(LOWER_UP);
215  PRINT_IF_FLAG(DORMANT);
216  PRINT_IF_FLAG(ECHO);
217 #undef PRINT_IF_FLAG
218 #endif
219  if (flags) {
220  // print unknown flags in hex
221  os << AsHex{flags};
222  }
223  os << ">";
224 
225  os << " state " << netif.getState() << " mtu " << netif.getMtu() << "\n"
226  << " link/" << netif.getType() << " " << netif.getEthernetAddress()
227  << " brd " << netif.getEthernetBroadcastAddress() << "\n";
228 
229  for (const auto& addr : netif.getNetworkAddresses()) {
230  os << " " << (addr.getFamily() == AddressFamily::V4 ? "inet " : "inet6 ") << addr;
231  if (netif.canBroadcast() && !addr.getBroadcast().is_unspecified())
232  os << " brd " << addr.getBroadcast();
233  os << " scope " << addr.getScope() << "\n";
234  }
235 
236  return os;
237 }
238 
239 } // namespace net
240 } // namespace ndn
ethernet::Address getEthernetBroadcastAddress() const
Returns the link-layer (Ethernet) broadcast address of the interface.
Copyright (c) 2011-2015 Regents of the University of California.
InterfaceType getType() const
Returns the hardware type of the interface.
#define PRINT_IFF(flag)
InterfaceState getState() const
Returns the current state of the interface.
interface can be used to send and receive packets
boost::asio::ip::address getIp() const
Returns the IP address (v4 or v6)
std::string getName() const
Returns the name of the interface, unique on the system.
Helper class to convert a number to hexadecimal format, for use with stream insertion operators...
InterfaceType
Indicates the hardware type of a network interface.
InterfaceState
Indicates the state of a network interface.
bool canBroadcast() const
Returns true if the interface supports broadcast communication.
std::ostream & operator<<(std::ostream &os, const NetworkInterface &netif)
Represents one network interface attached to the host.
#define NDN_LOG_INIT(name)
declare a log module
Definition: logger.hpp:32
Stores one IP address supported by a network interface.
#define NDN_LOG_DEBUG(expression)
Definition: logger.hpp:35
uint32_t getMtu() const
Returns the MTU (maximum transmission unit) of the interface.
interface has a carrier but it cannot send or receive normal user traffic yet
represents an Ethernet hardware address
Definition: ethernet.hpp:52
ethernet::Address getEthernetAddress() const
Returns the link-layer (Ethernet) address of the interface.
uint32_t getFlags() const
Returns a bitset of platform-specific flags enabled on the interface.
int getIndex() const
Returns an opaque ID that uniquely identifies the interface on the system.
const std::set< NetworkAddress > & getNetworkAddresses() const
Returns a list of all network-layer addresses present on the interface.
static void printFlag(std::ostream &os, uint32_t &flags, uint32_t flagVal, const char *flagStr)