• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #ifdef HAVE_CONFIG_H
12 #include "config.h"
13 #endif
14 
15 #include "webrtc/base/network.h"
16 
17 #if defined(WEBRTC_POSIX)
18 // linux/if.h can't be included at the same time as the posix sys/if.h, and
19 // it's transitively required by linux/route.h, so include that version on
20 // linux instead of the standard posix one.
21 #if defined(WEBRTC_LINUX)
22 #include <linux/if.h>
23 #include <linux/route.h>
24 #elif !defined(__native_client__)
25 #include <net/if.h>
26 #endif
27 #endif  // WEBRTC_POSIX
28 
29 #if defined(WEBRTC_WIN)
30 #include "webrtc/base/win32.h"
31 #include <Iphlpapi.h>
32 #elif !defined(__native_client__)
33 #include "webrtc/base/ifaddrs_converter.h"
34 #endif
35 
36 #include <stdio.h>
37 
38 #include <algorithm>
39 
40 #include "webrtc/base/logging.h"
41 #include "webrtc/base/networkmonitor.h"
42 #include "webrtc/base/scoped_ptr.h"
43 #include "webrtc/base/socket.h"  // includes something that makes windows happy
44 #include "webrtc/base/stream.h"
45 #include "webrtc/base/stringencode.h"
46 #include "webrtc/base/thread.h"
47 
48 namespace rtc {
49 namespace {
50 
51 // Turning on IPv6 could make many IPv6 interfaces available for connectivity
52 // check and delay the call setup time. kMaxIPv6Networks is the default upper
53 // limit of IPv6 networks but could be changed by set_max_ipv6_networks().
54 const int kMaxIPv6Networks = 5;
55 
56 const uint32_t kUpdateNetworksMessage = 1;
57 const uint32_t kSignalNetworksMessage = 2;
58 
59 // Fetch list of networks every two seconds.
60 const int kNetworksUpdateIntervalMs = 2000;
61 
62 const int kHighestNetworkPreference = 127;
63 
64 typedef struct {
65   Network* net;
66   std::vector<InterfaceAddress> ips;
67 } AddressList;
68 
CompareNetworks(const Network * a,const Network * b)69 bool CompareNetworks(const Network* a, const Network* b) {
70   if (a->prefix_length() == b->prefix_length()) {
71     if (a->name() == b->name()) {
72       return a->prefix() < b->prefix();
73     }
74   }
75   return a->name() < b->name();
76 }
77 
SortNetworks(const Network * a,const Network * b)78 bool SortNetworks(const Network* a, const Network* b) {
79   // Network types will be preferred above everything else while sorting
80   // Networks.
81 
82   // Networks are sorted first by type.
83   if (a->type() != b->type()) {
84     return a->type() < b->type();
85   }
86 
87   IPAddress ip_a = a->GetBestIP();
88   IPAddress ip_b = b->GetBestIP();
89 
90   // After type, networks are sorted by IP address precedence values
91   // from RFC 3484-bis
92   if (IPAddressPrecedence(ip_a) != IPAddressPrecedence(ip_b)) {
93     return IPAddressPrecedence(ip_a) > IPAddressPrecedence(ip_b);
94   }
95 
96   // TODO(mallinath) - Add VPN and Link speed conditions while sorting.
97 
98   // Networks are sorted last by key.
99   return a->key() > b->key();
100 }
101 
AdapterTypeToString(AdapterType type)102 std::string AdapterTypeToString(AdapterType type) {
103   switch (type) {
104     case ADAPTER_TYPE_UNKNOWN:
105       return "Unknown";
106     case ADAPTER_TYPE_ETHERNET:
107       return "Ethernet";
108     case ADAPTER_TYPE_WIFI:
109       return "Wifi";
110     case ADAPTER_TYPE_CELLULAR:
111       return "Cellular";
112     case ADAPTER_TYPE_VPN:
113       return "VPN";
114     case ADAPTER_TYPE_LOOPBACK:
115       return "Loopback";
116     default:
117       RTC_DCHECK(false) << "Invalid type " << type;
118       return std::string();
119   }
120 }
121 
122 #if !defined(__native_client__)
IsIgnoredIPv6(const InterfaceAddress & ip)123 bool IsIgnoredIPv6(const InterfaceAddress& ip) {
124   if (ip.family() != AF_INET6) {
125     return false;
126   }
127 
128   // Link-local addresses require scope id to be bound successfully.
129   // However, our IPAddress structure doesn't carry that so the
130   // information is lost and causes binding failure.
131   if (IPIsLinkLocal(ip)) {
132     return true;
133   }
134 
135   // Any MAC based IPv6 should be avoided to prevent the MAC tracking.
136   if (IPIsMacBased(ip)) {
137     return true;
138   }
139 
140   // Ignore deprecated IPv6.
141   if (ip.ipv6_flags() & IPV6_ADDRESS_FLAG_DEPRECATED) {
142     return true;
143   }
144 
145   return false;
146 }
147 #endif  // !defined(__native_client__)
148 
149 }  // namespace
150 
151 // These addresses are used as the targets to find out the default local address
152 // on a multi-homed endpoint. They are actually DNS servers.
153 const char kPublicIPv4Host[] = "8.8.8.8";
154 const char kPublicIPv6Host[] = "2001:4860:4860::8888";
155 const int kPublicPort = 53;  // DNS port.
156 
MakeNetworkKey(const std::string & name,const IPAddress & prefix,int prefix_length)157 std::string MakeNetworkKey(const std::string& name, const IPAddress& prefix,
158                            int prefix_length) {
159   std::ostringstream ost;
160   ost << name << "%" << prefix.ToString() << "/" << prefix_length;
161   return ost.str();
162 }
163 
NetworkManager()164 NetworkManager::NetworkManager() {
165 }
166 
~NetworkManager()167 NetworkManager::~NetworkManager() {
168 }
169 
enumeration_permission() const170 NetworkManager::EnumerationPermission NetworkManager::enumeration_permission()
171     const {
172   return ENUMERATION_ALLOWED;
173 }
174 
GetDefaultLocalAddress(int family,IPAddress * addr) const175 bool NetworkManager::GetDefaultLocalAddress(int family, IPAddress* addr) const {
176   return false;
177 }
178 
NetworkManagerBase()179 NetworkManagerBase::NetworkManagerBase()
180     : enumeration_permission_(NetworkManager::ENUMERATION_ALLOWED),
181       max_ipv6_networks_(kMaxIPv6Networks),
182       ipv6_enabled_(true) {
183 }
184 
~NetworkManagerBase()185 NetworkManagerBase::~NetworkManagerBase() {
186   for (const auto& kv : networks_map_) {
187     delete kv.second;
188   }
189 }
190 
191 NetworkManager::EnumerationPermission
enumeration_permission() const192 NetworkManagerBase::enumeration_permission() const {
193   return enumeration_permission_;
194 }
195 
GetAnyAddressNetworks(NetworkList * networks)196 void NetworkManagerBase::GetAnyAddressNetworks(NetworkList* networks) {
197   if (!ipv4_any_address_network_) {
198     const rtc::IPAddress ipv4_any_address(INADDR_ANY);
199     ipv4_any_address_network_.reset(
200         new rtc::Network("any", "any", ipv4_any_address, 0));
201     ipv4_any_address_network_->set_default_local_address_provider(this);
202     ipv4_any_address_network_->AddIP(ipv4_any_address);
203   }
204   networks->push_back(ipv4_any_address_network_.get());
205 
206   if (ipv6_enabled()) {
207     if (!ipv6_any_address_network_) {
208       const rtc::IPAddress ipv6_any_address(in6addr_any);
209       ipv6_any_address_network_.reset(
210           new rtc::Network("any", "any", ipv6_any_address, 0));
211       ipv6_any_address_network_->set_default_local_address_provider(this);
212       ipv6_any_address_network_->AddIP(ipv6_any_address);
213     }
214     networks->push_back(ipv6_any_address_network_.get());
215   }
216 }
217 
GetNetworks(NetworkList * result) const218 void NetworkManagerBase::GetNetworks(NetworkList* result) const {
219   int ipv6_networks = 0;
220   result->clear();
221   for (Network* network : networks_) {
222     // Keep the number of IPv6 networks under |max_ipv6_networks_|.
223     if (network->prefix().family() == AF_INET6) {
224       if (ipv6_networks >= max_ipv6_networks_) {
225         continue;
226       }
227       ++ipv6_networks;
228     }
229     result->push_back(network);
230   }
231 }
232 
MergeNetworkList(const NetworkList & new_networks,bool * changed)233 void NetworkManagerBase::MergeNetworkList(const NetworkList& new_networks,
234                                           bool* changed) {
235   NetworkManager::Stats stats;
236   MergeNetworkList(new_networks, changed, &stats);
237 }
238 
MergeNetworkList(const NetworkList & new_networks,bool * changed,NetworkManager::Stats * stats)239 void NetworkManagerBase::MergeNetworkList(const NetworkList& new_networks,
240                                           bool* changed,
241                                           NetworkManager::Stats* stats) {
242   *changed = false;
243   // AddressList in this map will track IP addresses for all Networks
244   // with the same key.
245   std::map<std::string, AddressList> consolidated_address_list;
246   NetworkList list(new_networks);
247   std::sort(list.begin(), list.end(), CompareNetworks);
248   // First, build a set of network-keys to the ipaddresses.
249   for (Network* network : list) {
250     bool might_add_to_merged_list = false;
251     std::string key = MakeNetworkKey(network->name(),
252                                      network->prefix(),
253                                      network->prefix_length());
254     if (consolidated_address_list.find(key) ==
255         consolidated_address_list.end()) {
256       AddressList addrlist;
257       addrlist.net = network;
258       consolidated_address_list[key] = addrlist;
259       might_add_to_merged_list = true;
260     }
261     const std::vector<InterfaceAddress>& addresses = network->GetIPs();
262     AddressList& current_list = consolidated_address_list[key];
263     for (const InterfaceAddress& address : addresses) {
264       current_list.ips.push_back(address);
265     }
266     if (!might_add_to_merged_list) {
267       delete network;
268     } else {
269       if (current_list.ips[0].family() == AF_INET) {
270         stats->ipv4_network_count++;
271       } else {
272         ASSERT(current_list.ips[0].family() == AF_INET6);
273         stats->ipv6_network_count++;
274       }
275     }
276   }
277 
278   // Next, look for existing network objects to re-use.
279   // Result of Network merge. Element in this list should have unique key.
280   NetworkList merged_list;
281   for (const auto& kv : consolidated_address_list) {
282     const std::string& key = kv.first;
283     Network* net = kv.second.net;
284     auto existing = networks_map_.find(key);
285     if (existing == networks_map_.end()) {
286       // This network is new. Place it in the network map.
287       merged_list.push_back(net);
288       networks_map_[key] = net;
289       // Also, we might have accumulated IPAddresses from the first
290       // step, set it here.
291       net->SetIPs(kv.second.ips, true);
292       *changed = true;
293     } else {
294       // This network exists in the map already. Reset its IP addresses.
295       Network* existing_net = existing->second;
296       *changed = existing_net->SetIPs(kv.second.ips, *changed);
297       merged_list.push_back(existing_net);
298       // If the existing network was not active, networks have changed.
299       if (!existing_net->active()) {
300         *changed = true;
301       }
302       ASSERT(net->active());
303       if (existing_net != net) {
304         delete net;
305       }
306     }
307   }
308   // It may still happen that the merged list is a subset of |networks_|.
309   // To detect this change, we compare their sizes.
310   if (merged_list.size() != networks_.size()) {
311     *changed = true;
312   }
313 
314   // If the network list changes, we re-assign |networks_| to the merged list
315   // and re-sort it.
316   if (*changed) {
317     networks_ = merged_list;
318     // Reset the active states of all networks.
319     for (const auto& kv : networks_map_) {
320       kv.second->set_active(false);
321     }
322     for (Network* network : networks_) {
323       network->set_active(true);
324     }
325     std::sort(networks_.begin(), networks_.end(), SortNetworks);
326     // Now network interfaces are sorted, we should set the preference value
327     // for each of the interfaces we are planning to use.
328     // Preference order of network interfaces might have changed from previous
329     // sorting due to addition of higher preference network interface.
330     // Since we have already sorted the network interfaces based on our
331     // requirements, we will just assign a preference value starting with 127,
332     // in decreasing order.
333     int pref = kHighestNetworkPreference;
334     for (Network* network : networks_) {
335       network->set_preference(pref);
336       if (pref > 0) {
337         --pref;
338       } else {
339         LOG(LS_ERROR) << "Too many network interfaces to handle!";
340         break;
341       }
342     }
343   }
344 }
345 
set_default_local_addresses(const IPAddress & ipv4,const IPAddress & ipv6)346 void NetworkManagerBase::set_default_local_addresses(const IPAddress& ipv4,
347                                                      const IPAddress& ipv6) {
348   if (ipv4.family() == AF_INET) {
349     default_local_ipv4_address_ = ipv4;
350   }
351   if (ipv6.family() == AF_INET6) {
352     default_local_ipv6_address_ = ipv6;
353   }
354 }
355 
GetDefaultLocalAddress(int family,IPAddress * ipaddr) const356 bool NetworkManagerBase::GetDefaultLocalAddress(int family,
357                                                 IPAddress* ipaddr) const {
358   if (family == AF_INET && !default_local_ipv4_address_.IsNil()) {
359     *ipaddr = default_local_ipv4_address_;
360     return true;
361   } else if (family == AF_INET6 && !default_local_ipv6_address_.IsNil()) {
362     *ipaddr = default_local_ipv6_address_;
363     return true;
364   }
365   return false;
366 }
367 
BasicNetworkManager()368 BasicNetworkManager::BasicNetworkManager()
369     : thread_(NULL), sent_first_update_(false), start_count_(0),
370       ignore_non_default_routes_(false) {
371 }
372 
~BasicNetworkManager()373 BasicNetworkManager::~BasicNetworkManager() {
374 }
375 
OnNetworksChanged()376 void BasicNetworkManager::OnNetworksChanged() {
377   LOG(LS_VERBOSE) << "Network change was observed at the network manager";
378   UpdateNetworksOnce();
379 }
380 
381 #if defined(__native_client__)
382 
CreateNetworks(bool include_ignored,NetworkList * networks) const383 bool BasicNetworkManager::CreateNetworks(bool include_ignored,
384                                          NetworkList* networks) const {
385   ASSERT(false);
386   LOG(LS_WARNING) << "BasicNetworkManager doesn't work on NaCl yet";
387   return false;
388 }
389 
390 #elif defined(WEBRTC_POSIX)
ConvertIfAddrs(struct ifaddrs * interfaces,IfAddrsConverter * ifaddrs_converter,bool include_ignored,NetworkList * networks) const391 void BasicNetworkManager::ConvertIfAddrs(struct ifaddrs* interfaces,
392                                          IfAddrsConverter* ifaddrs_converter,
393                                          bool include_ignored,
394                                          NetworkList* networks) const {
395   NetworkMap current_networks;
396 
397   for (struct ifaddrs* cursor = interfaces;
398        cursor != NULL; cursor = cursor->ifa_next) {
399     IPAddress prefix;
400     IPAddress mask;
401     InterfaceAddress ip;
402     int scope_id = 0;
403 
404     // Some interfaces may not have address assigned.
405     if (!cursor->ifa_addr || !cursor->ifa_netmask) {
406       continue;
407     }
408     // Skip ones which are down.
409     if (!(cursor->ifa_flags & IFF_RUNNING)) {
410       continue;
411     }
412     // Skip unknown family.
413     if (cursor->ifa_addr->sa_family != AF_INET &&
414         cursor->ifa_addr->sa_family != AF_INET6) {
415       continue;
416     }
417     // Skip IPv6 if not enabled.
418     if (cursor->ifa_addr->sa_family == AF_INET6 && !ipv6_enabled()) {
419       continue;
420     }
421     // Convert to InterfaceAddress.
422     if (!ifaddrs_converter->ConvertIfAddrsToIPAddress(cursor, &ip, &mask)) {
423       continue;
424     }
425 
426     // Special case for IPv6 address.
427     if (cursor->ifa_addr->sa_family == AF_INET6) {
428       if (IsIgnoredIPv6(ip)) {
429         continue;
430       }
431       scope_id =
432           reinterpret_cast<sockaddr_in6*>(cursor->ifa_addr)->sin6_scope_id;
433     }
434 
435     int prefix_length = CountIPMaskBits(mask);
436     prefix = TruncateIP(ip, prefix_length);
437     std::string key = MakeNetworkKey(std::string(cursor->ifa_name),
438                                      prefix, prefix_length);
439     auto existing_network = current_networks.find(key);
440     if (existing_network == current_networks.end()) {
441       AdapterType adapter_type = ADAPTER_TYPE_UNKNOWN;
442       if (cursor->ifa_flags & IFF_LOOPBACK) {
443         adapter_type = ADAPTER_TYPE_LOOPBACK;
444       }
445 #if defined(WEBRTC_IOS)
446       // Cell networks are pdp_ipN on iOS.
447       if (strncmp(cursor->ifa_name, "pdp_ip", 6) == 0) {
448         adapter_type = ADAPTER_TYPE_CELLULAR;
449       }
450 #endif
451       // TODO(phoglund): Need to recognize other types as well.
452       scoped_ptr<Network> network(new Network(cursor->ifa_name,
453                                               cursor->ifa_name, prefix,
454                                               prefix_length, adapter_type));
455       network->set_default_local_address_provider(this);
456       network->set_scope_id(scope_id);
457       network->AddIP(ip);
458       network->set_ignored(IsIgnoredNetwork(*network));
459       if (include_ignored || !network->ignored()) {
460         current_networks[key] = network.get();
461         networks->push_back(network.release());
462       }
463     } else {
464       (*existing_network).second->AddIP(ip);
465     }
466   }
467 }
468 
CreateNetworks(bool include_ignored,NetworkList * networks) const469 bool BasicNetworkManager::CreateNetworks(bool include_ignored,
470                                          NetworkList* networks) const {
471   struct ifaddrs* interfaces;
472   int error = getifaddrs(&interfaces);
473   if (error != 0) {
474     LOG_ERR(LERROR) << "getifaddrs failed to gather interface data: " << error;
475     return false;
476   }
477 
478   rtc::scoped_ptr<IfAddrsConverter> ifaddrs_converter(CreateIfAddrsConverter());
479   ConvertIfAddrs(interfaces, ifaddrs_converter.get(), include_ignored,
480                  networks);
481 
482   freeifaddrs(interfaces);
483   return true;
484 }
485 
486 #elif defined(WEBRTC_WIN)
487 
GetPrefix(PIP_ADAPTER_PREFIX prefixlist,const IPAddress & ip,IPAddress * prefix)488 unsigned int GetPrefix(PIP_ADAPTER_PREFIX prefixlist,
489               const IPAddress& ip, IPAddress* prefix) {
490   IPAddress current_prefix;
491   IPAddress best_prefix;
492   unsigned int best_length = 0;
493   while (prefixlist) {
494     // Look for the longest matching prefix in the prefixlist.
495     if (prefixlist->Address.lpSockaddr == NULL ||
496         prefixlist->Address.lpSockaddr->sa_family != ip.family()) {
497       prefixlist = prefixlist->Next;
498       continue;
499     }
500     switch (prefixlist->Address.lpSockaddr->sa_family) {
501       case AF_INET: {
502         sockaddr_in* v4_addr =
503             reinterpret_cast<sockaddr_in*>(prefixlist->Address.lpSockaddr);
504         current_prefix = IPAddress(v4_addr->sin_addr);
505         break;
506       }
507       case AF_INET6: {
508           sockaddr_in6* v6_addr =
509               reinterpret_cast<sockaddr_in6*>(prefixlist->Address.lpSockaddr);
510           current_prefix = IPAddress(v6_addr->sin6_addr);
511           break;
512       }
513       default: {
514         prefixlist = prefixlist->Next;
515         continue;
516       }
517     }
518     if (TruncateIP(ip, prefixlist->PrefixLength) == current_prefix &&
519         prefixlist->PrefixLength > best_length) {
520       best_prefix = current_prefix;
521       best_length = prefixlist->PrefixLength;
522     }
523     prefixlist = prefixlist->Next;
524   }
525   *prefix = best_prefix;
526   return best_length;
527 }
528 
CreateNetworks(bool include_ignored,NetworkList * networks) const529 bool BasicNetworkManager::CreateNetworks(bool include_ignored,
530                                          NetworkList* networks) const {
531   NetworkMap current_networks;
532   // MSDN recommends a 15KB buffer for the first try at GetAdaptersAddresses.
533   size_t buffer_size = 16384;
534   scoped_ptr<char[]> adapter_info(new char[buffer_size]);
535   PIP_ADAPTER_ADDRESSES adapter_addrs =
536       reinterpret_cast<PIP_ADAPTER_ADDRESSES>(adapter_info.get());
537   int adapter_flags = (GAA_FLAG_SKIP_DNS_SERVER | GAA_FLAG_SKIP_ANYCAST |
538                        GAA_FLAG_SKIP_MULTICAST | GAA_FLAG_INCLUDE_PREFIX);
539   int ret = 0;
540   do {
541     adapter_info.reset(new char[buffer_size]);
542     adapter_addrs = reinterpret_cast<PIP_ADAPTER_ADDRESSES>(adapter_info.get());
543     ret = GetAdaptersAddresses(AF_UNSPEC, adapter_flags,
544                                0, adapter_addrs,
545                                reinterpret_cast<PULONG>(&buffer_size));
546   } while (ret == ERROR_BUFFER_OVERFLOW);
547   if (ret != ERROR_SUCCESS) {
548     return false;
549   }
550   int count = 0;
551   while (adapter_addrs) {
552     if (adapter_addrs->OperStatus == IfOperStatusUp) {
553       PIP_ADAPTER_UNICAST_ADDRESS address = adapter_addrs->FirstUnicastAddress;
554       PIP_ADAPTER_PREFIX prefixlist = adapter_addrs->FirstPrefix;
555       std::string name;
556       std::string description;
557 #if !defined(NDEBUG)
558       name = ToUtf8(adapter_addrs->FriendlyName,
559                     wcslen(adapter_addrs->FriendlyName));
560 #endif
561       description = ToUtf8(adapter_addrs->Description,
562                            wcslen(adapter_addrs->Description));
563       for (; address; address = address->Next) {
564 #if defined(NDEBUG)
565         name = rtc::ToString(count);
566 #endif
567 
568         IPAddress ip;
569         int scope_id = 0;
570         scoped_ptr<Network> network;
571         switch (address->Address.lpSockaddr->sa_family) {
572           case AF_INET: {
573             sockaddr_in* v4_addr =
574                 reinterpret_cast<sockaddr_in*>(address->Address.lpSockaddr);
575             ip = IPAddress(v4_addr->sin_addr);
576             break;
577           }
578           case AF_INET6: {
579             if (ipv6_enabled()) {
580               sockaddr_in6* v6_addr =
581                   reinterpret_cast<sockaddr_in6*>(address->Address.lpSockaddr);
582               scope_id = v6_addr->sin6_scope_id;
583               ip = IPAddress(v6_addr->sin6_addr);
584 
585               if (IsIgnoredIPv6(ip)) {
586                 continue;
587               }
588 
589               break;
590             } else {
591               continue;
592             }
593           }
594           default: {
595             continue;
596           }
597         }
598 
599         IPAddress prefix;
600         int prefix_length = GetPrefix(prefixlist, ip, &prefix);
601         std::string key = MakeNetworkKey(name, prefix, prefix_length);
602         auto existing_network = current_networks.find(key);
603         if (existing_network == current_networks.end()) {
604           AdapterType adapter_type = ADAPTER_TYPE_UNKNOWN;
605           if (adapter_addrs->IfType == IF_TYPE_SOFTWARE_LOOPBACK) {
606             // TODO(phoglund): Need to recognize other types as well.
607             adapter_type = ADAPTER_TYPE_LOOPBACK;
608           }
609           scoped_ptr<Network> network(new Network(name, description, prefix,
610                                                   prefix_length, adapter_type));
611           network->set_default_local_address_provider(this);
612           network->set_scope_id(scope_id);
613           network->AddIP(ip);
614           bool ignored = IsIgnoredNetwork(*network);
615           network->set_ignored(ignored);
616           if (include_ignored || !network->ignored()) {
617             current_networks[key] = network.get();
618             networks->push_back(network.release());
619           }
620         } else {
621           (*existing_network).second->AddIP(ip);
622         }
623       }
624       // Count is per-adapter - all 'Networks' created from the same
625       // adapter need to have the same name.
626       ++count;
627     }
628     adapter_addrs = adapter_addrs->Next;
629   }
630   return true;
631 }
632 #endif  // WEBRTC_WIN
633 
634 #if defined(WEBRTC_LINUX)
IsDefaultRoute(const std::string & network_name)635 bool IsDefaultRoute(const std::string& network_name) {
636   FileStream fs;
637   if (!fs.Open("/proc/net/route", "r", NULL)) {
638     LOG(LS_WARNING) << "Couldn't read /proc/net/route, skipping default "
639                     << "route check (assuming everything is a default route).";
640     return true;
641   } else {
642     std::string line;
643     while (fs.ReadLine(&line) == SR_SUCCESS) {
644       char iface_name[256];
645       unsigned int iface_ip, iface_gw, iface_mask, iface_flags;
646       if (sscanf(line.c_str(),
647                  "%255s %8X %8X %4X %*d %*u %*d %8X",
648                  iface_name, &iface_ip, &iface_gw,
649                  &iface_flags, &iface_mask) == 5 &&
650           network_name == iface_name &&
651           iface_mask == 0 &&
652           (iface_flags & (RTF_UP | RTF_HOST)) == RTF_UP) {
653         return true;
654       }
655     }
656   }
657   return false;
658 }
659 #endif
660 
IsIgnoredNetwork(const Network & network) const661 bool BasicNetworkManager::IsIgnoredNetwork(const Network& network) const {
662   // Ignore networks on the explicit ignore list.
663   for (const std::string& ignored_name : network_ignore_list_) {
664     if (network.name() == ignored_name) {
665       return true;
666     }
667   }
668 
669 #if defined(WEBRTC_POSIX)
670   // Filter out VMware/VirtualBox interfaces, typically named vmnet1,
671   // vmnet8, or vboxnet0.
672   if (strncmp(network.name().c_str(), "vmnet", 5) == 0 ||
673       strncmp(network.name().c_str(), "vnic", 4) == 0 ||
674       strncmp(network.name().c_str(), "vboxnet", 7) == 0) {
675     return true;
676   }
677 #if defined(WEBRTC_LINUX)
678   // Make sure this is a default route, if we're ignoring non-defaults.
679   if (ignore_non_default_routes_ && !IsDefaultRoute(network.name())) {
680     return true;
681   }
682 #endif
683 #elif defined(WEBRTC_WIN)
684   // Ignore any HOST side vmware adapters with a description like:
685   // VMware Virtual Ethernet Adapter for VMnet1
686   // but don't ignore any GUEST side adapters with a description like:
687   // VMware Accelerated AMD PCNet Adapter #2
688   if (strstr(network.description().c_str(), "VMnet") != NULL) {
689     return true;
690   }
691 #endif
692 
693   // Ignore any networks with a 0.x.y.z IP
694   if (network.prefix().family() == AF_INET) {
695     return (network.prefix().v4AddressAsHostOrderInteger() < 0x01000000);
696   }
697 
698   return false;
699 }
700 
StartUpdating()701 void BasicNetworkManager::StartUpdating() {
702   thread_ = Thread::Current();
703   if (start_count_) {
704     // If network interfaces are already discovered and signal is sent,
705     // we should trigger network signal immediately for the new clients
706     // to start allocating ports.
707     if (sent_first_update_)
708       thread_->Post(this, kSignalNetworksMessage);
709   } else {
710     thread_->Post(this, kUpdateNetworksMessage);
711     StartNetworkMonitor();
712   }
713   ++start_count_;
714 }
715 
StopUpdating()716 void BasicNetworkManager::StopUpdating() {
717   ASSERT(Thread::Current() == thread_);
718   if (!start_count_)
719     return;
720 
721   --start_count_;
722   if (!start_count_) {
723     thread_->Clear(this);
724     sent_first_update_ = false;
725     StopNetworkMonitor();
726   }
727 }
728 
StartNetworkMonitor()729 void BasicNetworkManager::StartNetworkMonitor() {
730   NetworkMonitorFactory* factory = NetworkMonitorFactory::GetFactory();
731   if (factory == nullptr) {
732     return;
733   }
734   network_monitor_.reset(factory->CreateNetworkMonitor());
735   if (!network_monitor_) {
736     return;
737   }
738   network_monitor_->SignalNetworksChanged.connect(
739       this, &BasicNetworkManager::OnNetworksChanged);
740   network_monitor_->Start();
741 }
742 
StopNetworkMonitor()743 void BasicNetworkManager::StopNetworkMonitor() {
744   if (!network_monitor_) {
745     return;
746   }
747   network_monitor_->Stop();
748   network_monitor_.reset();
749 }
750 
OnMessage(Message * msg)751 void BasicNetworkManager::OnMessage(Message* msg) {
752   switch (msg->message_id) {
753     case kUpdateNetworksMessage: {
754       UpdateNetworksContinually();
755       break;
756     }
757     case kSignalNetworksMessage:  {
758       SignalNetworksChanged();
759       break;
760     }
761     default:
762       ASSERT(false);
763   }
764 }
765 
QueryDefaultLocalAddress(int family) const766 IPAddress BasicNetworkManager::QueryDefaultLocalAddress(int family) const {
767   ASSERT(thread_ == Thread::Current());
768   ASSERT(thread_->socketserver() != nullptr);
769   ASSERT(family == AF_INET || family == AF_INET6);
770 
771   scoped_ptr<AsyncSocket> socket(
772       thread_->socketserver()->CreateAsyncSocket(family, SOCK_DGRAM));
773   if (!socket) {
774     return IPAddress();
775   }
776 
777   if (!socket->Connect(
778           SocketAddress(family == AF_INET ? kPublicIPv4Host : kPublicIPv6Host,
779                         kPublicPort))) {
780     return IPAddress();
781   }
782   return socket->GetLocalAddress().ipaddr();
783 }
784 
UpdateNetworksOnce()785 void BasicNetworkManager::UpdateNetworksOnce() {
786   if (!start_count_)
787     return;
788 
789   ASSERT(Thread::Current() == thread_);
790 
791   NetworkList list;
792   if (!CreateNetworks(false, &list)) {
793     SignalError();
794   } else {
795     bool changed;
796     NetworkManager::Stats stats;
797     MergeNetworkList(list, &changed, &stats);
798     set_default_local_addresses(QueryDefaultLocalAddress(AF_INET),
799                                 QueryDefaultLocalAddress(AF_INET6));
800     if (changed || !sent_first_update_) {
801       SignalNetworksChanged();
802       sent_first_update_ = true;
803     }
804   }
805 }
806 
UpdateNetworksContinually()807 void BasicNetworkManager::UpdateNetworksContinually() {
808   UpdateNetworksOnce();
809   thread_->PostDelayed(kNetworksUpdateIntervalMs, this, kUpdateNetworksMessage);
810 }
811 
DumpNetworks()812 void BasicNetworkManager::DumpNetworks() {
813   NetworkList list;
814   GetNetworks(&list);
815   LOG(LS_INFO) << "NetworkManager detected " << list.size() << " networks:";
816   for (const Network* network : list) {
817     LOG(LS_INFO) << network->ToString() << ": " << network->description()
818                  << ", active ? " << network->active()
819                  << ((network->ignored()) ? ", Ignored" : "");
820   }
821 }
822 
Network(const std::string & name,const std::string & desc,const IPAddress & prefix,int prefix_length)823 Network::Network(const std::string& name,
824                  const std::string& desc,
825                  const IPAddress& prefix,
826                  int prefix_length)
827     : name_(name),
828       description_(desc),
829       prefix_(prefix),
830       prefix_length_(prefix_length),
831       key_(MakeNetworkKey(name, prefix, prefix_length)),
832       scope_id_(0),
833       ignored_(false),
834       type_(ADAPTER_TYPE_UNKNOWN),
835       preference_(0) {}
836 
Network(const std::string & name,const std::string & desc,const IPAddress & prefix,int prefix_length,AdapterType type)837 Network::Network(const std::string& name,
838                  const std::string& desc,
839                  const IPAddress& prefix,
840                  int prefix_length,
841                  AdapterType type)
842     : name_(name),
843       description_(desc),
844       prefix_(prefix),
845       prefix_length_(prefix_length),
846       key_(MakeNetworkKey(name, prefix, prefix_length)),
847       scope_id_(0),
848       ignored_(false),
849       type_(type),
850       preference_(0) {}
851 
852 Network::~Network() = default;
853 
854 // Sets the addresses of this network. Returns true if the address set changed.
855 // Change detection is short circuited if the changed argument is true.
SetIPs(const std::vector<InterfaceAddress> & ips,bool changed)856 bool Network::SetIPs(const std::vector<InterfaceAddress>& ips, bool changed) {
857   // Detect changes with a nested loop; n-squared but we expect on the order
858   // of 2-3 addresses per network.
859   changed = changed || ips.size() != ips_.size();
860   if (!changed) {
861     for (const InterfaceAddress& ip : ips) {
862       if (std::find(ips_.begin(), ips_.end(), ip) == ips_.end()) {
863         changed = true;
864         break;
865       }
866     }
867   }
868 
869   ips_ = ips;
870   return changed;
871 }
872 
873 // Select the best IP address to use from this Network.
GetBestIP() const874 IPAddress Network::GetBestIP() const {
875   if (ips_.size() == 0) {
876     return IPAddress();
877   }
878 
879   if (prefix_.family() == AF_INET) {
880     return static_cast<IPAddress>(ips_.at(0));
881   }
882 
883   InterfaceAddress selected_ip, ula_ip;
884 
885   for (const InterfaceAddress& ip : ips_) {
886     // Ignore any address which has been deprecated already.
887     if (ip.ipv6_flags() & IPV6_ADDRESS_FLAG_DEPRECATED)
888       continue;
889 
890     // ULA address should only be returned when we have no other
891     // global IP.
892     if (IPIsULA(static_cast<const IPAddress&>(ip))) {
893       ula_ip = ip;
894       continue;
895     }
896     selected_ip = ip;
897 
898     // Search could stop once a temporary non-deprecated one is found.
899     if (ip.ipv6_flags() & IPV6_ADDRESS_FLAG_TEMPORARY)
900       break;
901   }
902 
903   // No proper global IPv6 address found, use ULA instead.
904   if (IPIsUnspec(selected_ip) && !IPIsUnspec(ula_ip)) {
905     selected_ip = ula_ip;
906   }
907 
908   return static_cast<IPAddress>(selected_ip);
909 }
910 
ToString() const911 std::string Network::ToString() const {
912   std::stringstream ss;
913   // Print out the first space-terminated token of the network desc, plus
914   // the IP address.
915   ss << "Net[" << description_.substr(0, description_.find(' '))
916      << ":" << prefix_.ToSensitiveString() << "/" << prefix_length_
917      << ":" << AdapterTypeToString(type_) << "]";
918   return ss.str();
919 }
920 
921 }  // namespace rtc
922