ZeroTierOne/node/Network.hpp

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/*
* ZeroTier One - Global Peer to Peer Ethernet
* Copyright (C) 2012-2013 ZeroTier Networks LLC
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* 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. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* --
*
* ZeroTier may be used and distributed under the terms of the GPLv3, which
* are available at: http://www.gnu.org/licenses/gpl-3.0.html
*
* If you would like to embed ZeroTier into a commercial application or
* redistribute it in a modified binary form, please contact ZeroTier Networks
* LLC. Start here: http://www.zerotier.com/
*/
#ifndef _ZT_NETWORK_HPP
#define _ZT_NETWORK_HPP
#include <stdint.h>
#include <string>
#include <set>
#include <map>
#include <vector>
#include <stdexcept>
#include "Constants.hpp"
#include "Utils.hpp"
#include "EthernetTap.hpp"
#include "Address.hpp"
#include "Mutex.hpp"
#include "SharedPtr.hpp"
#include "AtomicCounter.hpp"
#include "MulticastGroup.hpp"
#include "NonCopyable.hpp"
#include "MAC.hpp"
#include "Dictionary.hpp"
#include "Identity.hpp"
#include "InetAddress.hpp"
#include "BandwidthAccount.hpp"
namespace ZeroTier {
class RuntimeEnvironment;
class NodeConfig;
/**
* A virtual LAN
*
* Networks can be open or closed. Each network has an ID whose most
* significant 40 bits are the ZeroTier address of the node that should
* be contacted for network configuration. The least significant 24
* bits are arbitrary, allowing up to 2^24 networks per managing
* node.
*
* Open networks do not track membership. Anyone is allowed to communicate
* over them.
*
* Closed networks track membership by way of timestamped signatures. When
* the network requests its configuration, one of the fields returned is
* a signature for the identity of the peer on the network. This signature
* includes a timestamp. When a peer communicates with other peers on a
* closed network, it periodically (and pre-emptively) propagates this
* signature to the peers with which it is communicating. Peers reject
* packets with an error if no recent signature is on file.
*/
class Network : NonCopyable
{
friend class SharedPtr<Network>;
friend class NodeConfig;
public:
/**
* Certificate of network membership
*
* The COM consists of a series of three-element 64-bit tuples. These values
* are an id, a value, and a maximum delta. The ID is arbitrary and should be
* assigned using a scheme that makes every ID globally unique for a given
* type of parameter. ID 0 is reserved for the always-present timestamp
* parameter. The value is parameter-specific. The maximum delta is the
* maximum difference that is permitted between two values for determining
* whether a certificate permits two peers to speak to one another. A value
* of zero indicates that the values must equal.
*
* Certificates of membership must be signed by the netconf master for the
* network in question. This permits members to verify these certs against
* the netconf master's public key before testing them.
*/
class CertificateOfMembership
{
public:
CertificateOfMembership() throw() {}
CertificateOfMembership(const char *s) { fromString(s); }
CertificateOfMembership(const std::string &s) { fromString(s.c_str()); }
/**
* Add a paramter to this certificate
*
* @param id Parameter ID
* @param value Parameter value
* @param maxDelta Parameter maximum difference with others
*/
void addParameter(uint64_t id,uint64_t value,uint64_t maxDelta);
/**
* @return Hex-serialized representation of this certificate (minus signature)
*/
std::string toString() const;
/**
* Set this certificate equal to the hex-serialized string
*
* Invalid strings will result in invalid or undefined certificate
* contents. These will subsequently fail validation and comparison.
*
* @param s String to deserialize
*/
void fromString(const char *s);
inline void fromString(const std::string &s) { fromString(s.c_str()); }
/**
* Compare two certificates for parameter agreement
*
* This compares this certificate with the other and returns true if all
* paramters in this cert are present in the other and if they agree to
* within this cert's max delta value for each given parameter.
*
* @param other Cert to compare with
* @return True if certs agree and 'other' may be communicated with
*/
bool compare(const CertificateOfMembership &other) const
throw();
private:
struct _Parameter
{
_Parameter() throw() {}
_Parameter(uint64_t i,uint64_t v,uint64_t m) throw() :
id(i),
value(v),
maxDelta(m) {}
uint64_t id;
uint64_t value;
uint64_t maxDelta;
};
// Used with std::sort to ensure that _params are sorted
struct _SortByIdComparison
{
inline bool operator()(const _Parameter &a,const _Parameter &b) const
throw()
{
return (a.id < b.id);
}
};
std::vector<_Parameter> _params;
};
/**
* Preload and rates of accrual for multicast group bandwidth limits
*
* Key is multicast group in lower case hex format: MAC (without :s) /
* ADI (hex). Value is preload, maximum balance, and rate of accrual in
* hex.
*/
class MulticastRates : private Dictionary
{
public:
/**
* Preload and accrual parameter tuple
*/
struct Rate
{
Rate() {}
Rate(int32_t pl,int32_t maxb,int32_t acc)
{
preload = pl;
maxBalance = maxb;
accrual = acc;
}
int32_t preload;
int32_t maxBalance;
int32_t accrual;
};
MulticastRates() {}
MulticastRates(const char *s) : Dictionary(s) {}
MulticastRates(const std::string &s) : Dictionary(s) {}
inline std::string toString() const { return Dictionary::toString(); }
/**
* A very minimal default rate, fast enough for ARP
*/
static const Rate GLOBAL_DEFAULT_RATE;
/**
* @return Default rate, or GLOBAL_DEFAULT_RATE if not specified
*/
inline Rate defaultRate() const
{
Rate r;
const_iterator dfl(find("*"));
if (dfl == end())
return GLOBAL_DEFAULT_RATE;
return _toRate(dfl->second);
}
/**
* Get the rate for a given multicast group
*
* @param mg Multicast group
* @return Rate or default() rate if not specified
*/
inline Rate get(const MulticastGroup &mg) const
{
const_iterator r(find(mg.toString()));
if (r == end())
return defaultRate();
return _toRate(r->second);
}
private:
static inline Rate _toRate(const std::string &s)
{
char tmp[16384];
Utils::scopy(tmp,sizeof(tmp),s.c_str());
Rate r(0,0,0);
char *saveptr = (char *)0;
unsigned int fn = 0;
for(char *f=Utils::stok(tmp,",",&saveptr);(f);f=Utils::stok((char *)0,",",&saveptr)) {
switch(fn++) {
case 0:
r.preload = (int32_t)Utils::hexStrToLong(f);
break;
case 1:
r.maxBalance = (int32_t)Utils::hexStrToLong(f);
break;
case 2:
r.accrual = (int32_t)Utils::hexStrToLong(f);
break;
}
}
return r;
}
};
/**
* A network configuration for a given node
*
* Configuration fields:
*
* nwid=<hex network ID> (required)
* name=short name
* desc=long(er) description
* com=Certificate (serialized dictionary)
* mr=MulticastRates (serialized dictionary)
* o=open network? (1 or 0, default false if missing)
* et=ethertype whitelist (comma-delimited list of ethertypes in decimal)
* v4s=IPv4 static assignments / netmasks (comma-delimited)
* v6s=IPv6 static assignments / netmasks (comma-delimited)
*/
class Config : private Dictionary
{
public:
Config() {}
Config(const char *s) : Dictionary(s) {}
Config(const std::string &s) : Dictionary(s) {}
inline std::string toString() const { return Dictionary::toString(); }
/**
* @return True if configuration is valid and contains required fields
*/
inline operator bool() const throw() { return (find("nwid") != end()); }
/**
* @return Network ID
* @throws std::invalid_argument Network ID field missing
*/
inline uint64_t networkId() const
throw(std::invalid_argument)
{
return Utils::hexStrToU64(get("nwid").c_str());
}
/**
* Get this network's short name, or its ID in hex if unspecified
*
* @return Short name of this network (e.g. "earth")
*/
inline std::string name() const
{
const_iterator n(find("name"));
if (n == end())
return get("nwid");
return n->second;
}
/**
* @return Long description of network or empty string if not present
*/
inline std::string desc() const
{
return get("desc",std::string());
}
/**
* @return Certificate of membership for this network, or empty cert if none
*/
inline CertificateOfMembership certificateOfMembership() const
{
const_iterator cm(find("com"));
if (cm == end())
return CertificateOfMembership();
else return CertificateOfMembership(cm->second);
}
/**
* @return Multicast rates for this network
*/
inline MulticastRates multicastRates() const
{
const_iterator mr(find("mr"));
if (mr == end())
return MulticastRates();
else return MulticastRates(mr->second);
}
/**
* @return True if this is an open non-access-controlled network
*/
inline bool isOpen() const
{
const_iterator o(find("o"));
if (o == end())
return false;
else if (!o->second.length())
return false;
else return (o->second[0] == '1');
}
/**
* @return Network ethertype whitelist
*/
inline std::set<unsigned int> etherTypes() const
{
char tmp[16384];
char *saveptr = (char *)0;
std::set<unsigned int> et;
if (!Utils::scopy(tmp,sizeof(tmp),get("et","").c_str()))
return et; // sanity check, packet can't really be that big
for(char *f=Utils::stok(tmp,",",&saveptr);(f);f=Utils::stok((char *)0,",",&saveptr)) {
2013-09-06 19:06:51 +00:00
unsigned int t = Utils::hexStrToUInt(f);
if (t)
et.insert(t);
}
return et;
}
/**
* @return All static addresses / netmasks, IPv4 or IPv6
*/
inline std::set<InetAddress> staticAddresses() const
{
std::set<InetAddress> sa;
std::vector<std::string> ips(Utils::split(get("v4s","").c_str(),",","",""));
for(std::vector<std::string>::const_iterator i(ips.begin());i!=ips.end();++i)
sa.insert(InetAddress(*i));
ips = Utils::split(get("v6s","").c_str(),",","","");
for(std::vector<std::string>::const_iterator i(ips.begin());i!=ips.end();++i)
sa.insert(InetAddress(*i));
return sa;
}
};
/**
* Status for networks
*/
enum Status
{
NETWORK_WAITING_FOR_FIRST_AUTOCONF,
NETWORK_OK,
NETWORK_ACCESS_DENIED
};
/**
* @param s Status
* @return String description
*/
static const char *statusString(const Status s)
throw();
private:
// Only NodeConfig can create, only SharedPtr can delete
// Actual construction happens in newInstance()
Network()
throw() :
_tap((EthernetTap *)0)
{
}
~Network();
/**
* Create a new Network instance and restore any saved state
*
* If there is no saved state, a dummy .conf is created on disk to remember
* this network across restarts.
*
* @param renv Runtime environment
* @param id Network ID
* @return Reference counted pointer to new network
* @throws std::runtime_error Unable to create tap device or other fatal error
*/
static SharedPtr<Network> newInstance(const RuntimeEnvironment *renv,uint64_t id)
throw(std::runtime_error);
/**
* Causes all persistent disk presence to be erased on delete
*/
inline void destroyOnDelete()
{
_destroyOnDelete = true;
}
public:
/**
* @return Network ID
*/
inline uint64_t id() const throw() { return _id; }
/**
* @return Ethernet tap
*/
inline EthernetTap &tap() throw() { return *_tap; }
/**
* @return Address of network's controlling node
*/
inline Address controller() throw() { return Address(_id >> 24); }
/**
* @return Network ID in hexadecimal form
*/
inline std::string toString()
{
char buf[64];
Utils::snprintf(buf,sizeof(buf),"%.16llx",(unsigned long long)_id);
return std::string(buf);
}
/**
* @return True if network is open (no membership required)
*/
inline bool isOpen() const
throw()
{
try {
Mutex::Lock _l(_lock);
return _configuration.isOpen();
} catch ( ... ) {
return false;
}
}
/**
* Update multicast groups for this network's tap
*
* @return True if internal multicast group set has changed
*/
inline bool updateMulticastGroups()
{
Mutex::Lock _l(_lock);
return _tap->updateMulticastGroups(_multicastGroups);
}
/**
* @return Latest set of multicast groups for this network's tap
*/
inline std::set<MulticastGroup> multicastGroups() const
{
Mutex::Lock _l(_lock);
return _multicastGroups;
}
/**
* Set or update this network's configuration
*
* This is called by PacketDecoder when an update comes over the wire, or
* internally when an old config is reloaded from disk.
*
* @param conf Configuration in key/value dictionary form
*/
void setConfiguration(const Config &conf);
/**
* Causes this network to request an updated configuration from its master node now
*/
void requestConfiguration();
/**
* Add or update a peer's membership certificate
*
* The certificate must already have been validated via signature checking.
*
* @param peer Peer that owns certificate
* @param cert Certificate itself
*/
void addMembershipCertificate(const Address &peer,const CertificateOfMembership &cert);
/**
* @param peer Peer address to check
* @return True if peer is allowed to communicate on this network
*/
bool isAllowed(const Address &peer) const;
/**
* Perform cleanup and possibly save state
*/
void clean();
/**
* @return Time of last updated configuration or 0 if none
*/
inline uint64_t lastConfigUpdate() const
throw()
{
return _lastConfigUpdate;
}
/**
* @return Status of this network
*/
Status status() const;
/**
* Determine whether frames of a given ethernet type are allowed on this network
*
* @param etherType Ethernet frame type
* @return True if network permits this type
*/
inline bool permitsEtherType(unsigned int etherType) const
throw()
{
if (!etherType)
return false;
else if (etherType > 65535)
return false;
else return ((_etWhitelist[etherType / 8] & (unsigned char)(1 << (etherType % 8))) != 0);
}
/**
* Update multicast balance for an address and multicast group, return whether packet is allowed
*
* @param a Address that wants to send/relay packet
* @param mg Multicast group
* @param bytes Size of packet
* @return True if packet is within budget
*/
inline bool updateAndCheckMulticastBalance(const Address &a,const MulticastGroup &mg,unsigned int bytes)
{
Mutex::Lock _l(_lock);
std::pair<Address,MulticastGroup> k(a,mg);
std::map< std::pair<Address,MulticastGroup>,BandwidthAccount >::iterator bal(_multicastRateAccounts.find(k));
if (bal == _multicastRateAccounts.end()) {
MulticastRates::Rate r(_mcRates.get(mg));
bal = _multicastRateAccounts.insert(std::pair< std::pair<Address,MulticastGroup>,BandwidthAccount >(k,BandwidthAccount(r.preload,r.maxBalance,r.accrual))).first;
}
return (bal->second.update((int32_t)bytes) >= 0);
}
private:
static void _CBhandleTapData(void *arg,const MAC &from,const MAC &to,unsigned int etherType,const Buffer<4096> &data);
void _restoreState();
const RuntimeEnvironment *_r;
// Multicast bandwidth accounting for peers on this network
std::map< std::pair<Address,MulticastGroup>,BandwidthAccount > _multicastRateAccounts;
// Tap and tap multicast memberships for this node on this network
EthernetTap *_tap;
std::set<MulticastGroup> _multicastGroups;
// Membership certificates supplied by other peers on this network
std::map<Address,CertificateOfMembership> _membershipCertificates;
// Configuration from network master node
Config _configuration;
CertificateOfMembership _myCertificate; // memoized from _configuration
MulticastRates _mcRates; // memoized from _configuration
// Ethertype whitelist bit field, set from config, for really fast lookup
unsigned char _etWhitelist[65536 / 8];
uint64_t _id;
volatile uint64_t _lastConfigUpdate;
volatile bool _destroyOnDelete;
volatile bool _ready;
Mutex _lock;
AtomicCounter __refCount;
};
} // naemspace ZeroTier
#endif