ZeroTierOne/attic/netconf-service/netconf-master.js

625 lines
19 KiB
JavaScript

//
// ZeroTier One - Network Virtualization Everywhere
// Copyright (C) 2011-2015 ZeroTier, Inc.
//
// 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/
//
var config = require('./config.js');
// Fields in netconf response dictionary
var ZT_NETWORKCONFIG_DICT_KEY_ALLOWED_ETHERNET_TYPES = "et";
var ZT_NETWORKCONFIG_DICT_KEY_NETWORK_ID = "nwid";
var ZT_NETWORKCONFIG_DICT_KEY_TIMESTAMP = "ts";
var ZT_NETWORKCONFIG_DICT_KEY_ISSUED_TO = "id";
var ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_LIMIT = "ml";
var ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_RATES = "mr";
var ZT_NETWORKCONFIG_DICT_KEY_PRIVATE = "p";
var ZT_NETWORKCONFIG_DICT_KEY_NAME = "n";
var ZT_NETWORKCONFIG_DICT_KEY_DESC = "d";
var ZT_NETWORKCONFIG_DICT_KEY_IPV4_STATIC = "v4s";
var ZT_NETWORKCONFIG_DICT_KEY_IPV6_STATIC = "v6s";
var ZT_NETWORKCONFIG_DICT_KEY_CERTIFICATE_OF_MEMBERSHIP = "com";
var ZT_NETWORKCONFIG_DICT_KEY_ENABLE_BROADCAST = "eb";
var ZT_NETWORKCONFIG_DICT_KEY_ALLOW_PASSIVE_BRIDGING = "pb";
var ZT_NETWORKCONFIG_DICT_KEY_ACTIVE_BRIDGES = "ab";
// Path to zerotier-idtool binary, invoked to enerate certificates of membership
var ZEROTIER_IDTOOL = '/usr/local/bin/zerotier-idtool';
// From Constants.hpp in node/
var ZT_NETWORK_AUTOCONF_DELAY = 60000;
var ZT_NETWORK_CERTIFICATE_TTL_WINDOW = (ZT_NETWORK_AUTOCONF_DELAY * 4);
// Connect to redis, assuming database 0 and no auth (for now)
var async = require('async');
var redis = require('redis');
var DB = redis.createClient();
DB.on("error",function(err) { console.error('redis query error: '+err); });
DB.select(config.redisDb,function() {});
// Global variables -- these are initialized on startup or netconf-init message
var netconfSigningIdentity = null; // identity of netconf master, with private key portion
// spawn() function to launch sub-processes
var spawn = require('child_process').spawn;
// Returns true for fields that are "true" according to ZT redis schema
function ztDbTrue(v) { return ((v === '1')||(v === 'true')||(v > 0)); }
//
// ZeroTier One Dictionary -- encoding-compatible with Dictionary in C++ code base
//
function Dictionary(fromStr)
{
var self = this;
this.data = {};
this._esc = function(data) {
var es = '';
for(var i=0;i<data.length;++i) {
var c = data.charAt(i);
switch(c) {
case '\0': es += '\\0'; break;
case '\r': es += '\\r'; break;
case '\n': es += '\\n'; break;
case '\\': es += '\\\\'; break;
case '=': es += '\\='; break;
default: es += c; break;
}
}
return es;
};
this._unesc = function(s) {
if (typeof s !== 'string')
return '';
var uns = '';
var escapeState = false;
for(var i=0;i<s.length;++i) {
var c = s.charAt(i);
if (escapeState) {
escapeState = false;
switch(c) {
case '0': uns += '\0'; break;
case 'r': uns += '\r'; break;
case 'n': uns += '\n'; break;
default: uns += c; break;
}
} else{
if ((c !== '\r')&&(c !== '\n')&&(c !== '\0')) {
if (c === '\\')
escapeState = true;
else uns += c;
}
}
}
return uns;
};
this.toString = function() {
var str = '';
for(var key in self.data) {
str += self._esc(key);
str += '=';
var value = self.data[key];
if (value)
str += self._esc(value.toString());
str += '\n';
}
return str;
};
this.fromString = function(str) {
self.data = {};
if (typeof str !== 'string')
return self;
var lines = str.split('\n');
for(var l=0;l<lines.length;++l) {
var escapeState = false;
var eqAt = 0;
for(;eqAt<lines[l].length;++eqAt) {
var c = lines[l].charAt(eqAt);
if (escapeState)
escapeState = false;
else if (c === '\\')
escapeState = true;
else if (c === '=')
break;
}
var k = self._unesc(lines[l].substr(0,eqAt));
++eqAt;
if ((k)&&(k.length > 0))
self.data[k] = self._unesc((eqAt < lines[l].length) ? lines[l].substr(eqAt) : '');
}
return self;
};
if ((typeof fromStr === 'string')&&(fromStr.length > 0))
self.fromString(fromStr);
};
//
// Identity implementation using zerotier-idtool as subprocess to do actual crypto work
//
function Identity(idstr)
{
var self = this;
this.str = '';
this.fields = [];
this.toString = function() {
return self.str;
};
this.address = function() {
return ((self.fields.length > 0) ? self.fields[0] : '0000000000');
};
this.fromString = function(str) {
self.str = '';
self.fields = [];
if (typeof str !== 'string')
return;
for(var i=0;i<str.length;++i) {
if ("0123456789abcdef:".indexOf(str.charAt(i)) < 0)
return; // invalid character in identity
}
var fields = str.split(':');
if ((fields.length < 3)||(fields[0].length !== 10)||(fields[1] !== '0'))
return;
self.str = str;
self.fields = fields;
};
this.isValid = function() {
return (! ((self.fields.length < 3)||(self.fields[0].length !== 10)||(self.fields[1] !== '0')) );
};
this.hasPrivate = function() {
return ((self.isValid())&&(self.fields.length >= 4));
};
if (typeof idstr === 'string')
self.fromString(idstr);
};
//
// Invokes zerotier-idtool to generate certificates for private networks
//
function generateCertificateOfMembership(nwid,peerAddress,callback)
{
// The first fields of these COM tuples come from
// CertificateOfMembership.hpp's enum of required
// certificate default fields.
var comTimestamp = '0,' + Date.now().toString(16) + ',' + ZT_NETWORK_CERTIFICATE_TTL_WINDOW.toString(16);
var comNwid = '1,' + nwid + ',0';
var comIssuedTo = '2,' + peerAddress + ',ffffffffffffffff';
var cert = '';
var certErr = '';
var idtool = spawn(ZEROTIER_IDTOOL,[ 'mkcom',netconfSigningIdentity,comTimestamp,comNwid,comIssuedTo ]);
idtool.stdout.on('data',function(data) {
cert += data;
});
idtool.stderr.on('data',function(data) {
certErr += data;
});
idtool.on('close',function(exitCode) {
if (certErr.length > 0)
console.error('zerotier-idtool stderr returned: '+certErr);
return callback((cert.length > 0) ? cert : null,exitCode);
});
}
//
// Message handler for messages over ZeroTier One service bus
//
function doNetconfInit(message)
{
netconfSigningIdentity = new Identity(message.data['netconfId']);
if (!netconfSigningIdentity.hasPrivate()) {
netconfSigningIdentity = null;
console.error('got invalid netconf signing identity in netconf-init');
} // else console.error('got netconf-init, running! id: '+netconfSigningIdentity.address());
}
function doNetconfRequest(message)
{
if ((netconfSigningIdentity === null)||(!netconfSigningIdentity.hasPrivate())) {
console.error('got netconf-request before netconf-init, ignored');
return;
}
var peerId = new Identity(message.data['peerId']);
var nwid = message.data['nwid'];
var requestId = message.data['requestId'];
if ((!peerId)||(!peerId.isValid())||(!nwid)||(nwid.length !== 16)||(!requestId)) {
console.error('missing one or more required fields in netconf-request');
return;
}
var networkKey = 'zt1:network:'+nwid+':~';
var memberKey = 'zt1:network:'+nwid+':member:'+peerId.address()+':~';
var ipAssignmentsKey = 'zt1:network:'+nwid+':ipAssignments';
var network = null;
var member = null;
var authorized = false;
var v4NeedAssign = false;
var v6NeedAssign = false;
var v4Assignments = [];
var v6Assignments = [];
var ipAssignments = []; // both v4 and v6
var activeBridges = '';
async.series([function(next) {
// network lookup
DB.hgetall(networkKey,function(err,obj) {
if ((!err)&&(obj)&&(obj.id === nwid))
network = obj;
return next(null);
});
},function(next) {
// member lookup
if (!network)
return next(null);
DB.hgetall(memberKey,function(err,obj) {
if (err)
return next(err);
if (obj) {
// Update existing member record with new last seen time, etc.
member = obj;
authorized = ((!ztDbTrue(network['private'])) || ztDbTrue(member['authorized']));
var updatedFields = {
'lastSeen': Date.now(),
'authorized': authorized ? '1' : '0' // reset authorized to unhide in UI, since UI uses -1 to hide
};
if (!('identity' in member))
updatedFields['identity'] = peerId.toString();
if (!('firstSeen' in member))
updatedFields['firstSeen'] = Date.now();
if (message.data['from'])
updatedFields['lastAt'] = message.data['from'];
if (message.data['clientVersion'])
updatedFields['clientVersion'] = message.data['clientVersion'];
if (message.data['clientOs'])
updatedFields['clientOs'] = message.data['clientOs'];
DB.hmset(memberKey,updatedFields,next);
} else {
// Add member record to network for newly seen peer
authorized = ztDbTrue(network['private']) ? false : true; // public networks authorize everyone by default
var now = Date.now().toString();
member = {
'id': peerId.address(),
'nwid': nwid,
'authorized': authorized ? '1' : '0',
'identity': peerId.toString(),
'firstSeen': now,
'lastSeen': now
};
if (message.data['from'])
member['lastAt'] = message.data['from'];
if (message.data['clientVersion'])
member['clientVersion'] = message.data['clientVersion'];
if (message.data['clientOs'])
member['clientOs'] = message.data['clientOs'];
DB.hmset(memberKey,member,next);
}
});
},function(next) {
// Figure out which IP address auto-assignments we need to look up or make
if ((!network)||(!authorized))
return next(null);
v4NeedAssign = (network['v4AssignMode'] === 'zt');
v6NeedAssign = (network['v6AssignMode'] === 'zt');
var ipacsv = member['ipAssignments'];
if (ipacsv) {
var ipa = ipacsv.split(',');
for(var i=0;i<ipa.length;++i) {
if (ipa[i]) {
ipAssignments.push(ipa[i]);
if ((ipa[i].indexOf('.') > 0)&&(v4NeedAssign))
v4Assignments.push(ipa[i]);
else if ((ipa[i].indexOf(':') > 0)&&(v6NeedAssign))
v6Assignments.push(ipa[i]);
}
}
}
return next(null);
},function(next) {
// assign IPv4 if needed
if ((!network)||(!authorized)||(!v4NeedAssign)||(v4Assignments.length > 0))
return next(null);
var peerAddress = peerId.address();
var ipnetwork = 0;
var netmask = 0;
var netmaskBits = 0;
var v4pool = network['v4AssignPool']; // technically csv but only one netblock currently supported
if (v4pool) {
var v4poolSplit = v4pool.split('/');
if (v4poolSplit.length === 2) {
var networkSplit = v4poolSplit[0].split('.');
if (networkSplit.length === 4) {
ipnetwork |= (parseInt(networkSplit[0],10) << 24) & 0xff000000;
ipnetwork |= (parseInt(networkSplit[1],10) << 16) & 0x00ff0000;
ipnetwork |= (parseInt(networkSplit[2],10) << 8) & 0x0000ff00;
ipnetwork |= parseInt(networkSplit[3],10) & 0x000000ff;
netmaskBits = parseInt(v4poolSplit[1],10);
if (netmaskBits > 32)
netmaskBits = 32; // sanity check
for(var i=0;i<netmaskBits;++i)
netmask |= (0x80000000 >> i);
netmask &= 0xffffffff;
}
}
}
if ((ipnetwork === 0)||(netmask === 0xffffffff))
return next(null);
var invmask = netmask ^ 0xffffffff;
var abcd = 0;
var ipAssignmentAttempts = 0;
async.whilst(
function() { return ((v4Assignments.length === 0)&&(ipAssignmentAttempts < 1000)); },
function(next2) {
++ipAssignmentAttempts;
// Generate or increment IP address source bits
if (abcd === 0) {
var a = parseInt(peerAddress.substr(2,2),16) & 0xff;
var b = parseInt(peerAddress.substr(4,2),16) & 0xff;
var c = parseInt(peerAddress.substr(6,2),16) & 0xff;
var d = parseInt(peerAddress.substr(8,2),16) & 0xff;
abcd = (a << 24) | (b << 16) | (c << 8) | d;
} else ++abcd;
if ((abcd & 0xff) === 0)
abcd |= 1;
abcd &= 0xffffffff;
// Derive an IP to test and generate assignment ip/bits string
var ip = (abcd & invmask) | (ipnetwork & netmask);
var assignment = ((ip >> 24) & 0xff).toString(10) + '.' + ((ip >> 16) & 0xff).toString(10) + '.' + ((ip >> 8) & 0xff).toString(10) + '.' + (ip & 0xff).toString(10) + '/' + netmaskBits.toString(10);
// Check :ipAssignments to see if this IP is already taken
DB.hget(ipAssignmentsKey,assignment,function(err,value) {
if (err)
return next2(err);
// IP is already taken, try again via async.whilst()
if ((value)&&(value !== peerAddress))
return next2(null); // if someone's already got this IP, keep looking
v4Assignments.push(assignment);
ipAssignments.push(assignment);
// Save assignment to :ipAssignments hash
DB.hset(ipAssignmentsKey,assignment,peerAddress,function(err) {
if (err)
return next2(err);
// Save updated CSV list of assignments to member record
var ipacsv = ipAssignments.join(',');
member['ipAssignments'] = ipacsv;
DB.hset(memberKey,'ipAssignments',ipacsv,next2);
});
});
},
next
);
},function(next) {
// assign IPv6 if needed -- TODO
if ((!network)||(!authorized)||(!v6NeedAssign)||(v6Assignments.length > 0))
return next(null);
return next(null);
},function(next) {
// Get active bridges
if ((!network)||(!authorized))
return next(null);
DB.keys('zt1:network:'+nwid+':member:*:~',function(err,keys) {
if (keys) {
async.eachSeries(keys,function(key,nextKey) {
DB.hgetall(key,function(err,abr) {
if ( (abr) &&
(abr.id) &&
(abr.id.length === 10) &&
( (!ztDbTrue(network['private'])) || ztDbTrue(abr['authorized']) ) &&
(ztDbTrue(abr['activeBridge'])) ) {
if (activeBridges.length)
activeBridges += ',';
activeBridges += abr.id;
}
return nextKey(null);
});
},next);
} else return next(null);
});
}],function(err) {
if (err) {
console.error('error answering netconf-request for '+peerId.address()+': '+err);
return;
}
var response = new Dictionary();
response.data['peer'] = peerId.address();
response.data['nwid'] = nwid;
response.data['type'] = 'netconf-response';
response.data['requestId'] = requestId;
if ((network)&&(authorized)) {
var certificateOfMembership = null;
var privateNetwork = ztDbTrue(network['private']);
async.series([function(next) {
// Generate certificate of membership if necessary
if (privateNetwork) {
generateCertificateOfMembership(nwid,peerId.address(),function(cert,exitCode) {
if (cert) {
certificateOfMembership = cert;
return next(null);
} else return next(new Error('zerotier-idtool returned '+exitCode));
});
} else return next(null);
}],function(err) {
// Send response to parent process
if (err) {
console.error('unable to generate certificate for peer '+peerId.address()+' on network '+nwid+': '+err);
response.data['error'] = 'ACCESS_DENIED'; // unable to generate certificate
} else {
var netconf = new Dictionary();
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_ALLOWED_ETHERNET_TYPES] = network['etherTypes'];
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_NETWORK_ID] = nwid;
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_TIMESTAMP] = Date.now().toString(16);
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_ISSUED_TO] = peerId.address();
if (network['multicastLimit'])
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_LIMIT] = network['multicastLimit'];
if (network['multicastRates']) {
var ratesD = new Dictionary();
var ratesJ = JSON.parse(network['multicastRates']);
for(var k in ratesJ) {
if ((k)&&(ratesJ[k]))
ratesD.data[k] = ratesJ[k];
}
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_MULTICAST_RATES] = ratesD.toString();
}
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_PRIVATE] = privateNetwork ? '1' : '0';
if (network['name'])
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_NAME] = network['name'];
if (network['desc'])
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_DESC] = network['desc'];
if ((v4NeedAssign)&&(v4Assignments.length > 0))
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_IPV4_STATIC] = v4Assignments.join(',');
if ((v6NeedAssign)&&(v6Assignments.length > 0))
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_IPV6_STATIC] = v6Assignments.join(',');
if (certificateOfMembership !== null)
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_CERTIFICATE_OF_MEMBERSHIP] = certificateOfMembership;
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_ENABLE_BROADCAST] = ztDbTrue(network['enableBroadcast']) ? '1' : '0';
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_ALLOW_PASSIVE_BRIDGING] = ztDbTrue(network['allowPassiveBridging']) ? '1' : '0';
if ((activeBridges)&&(activeBridges.length > 0))
netconf.data[ZT_NETWORKCONFIG_DICT_KEY_ACTIVE_BRIDGES] = activeBridges; // comma-delimited list
response.data['netconf'] = netconf.toString();
}
process.stdout.write(response.toString()+'\n');
});
} else {
// Peer not authorized to join network or network not found (right now we always send ACCESS_DENIED)
response.data['error'] = 'ACCESS_DENIED';
process.stdout.write(response.toString()+'\n');
}
});
}
function handleMessage(dictStr)
{
var message = new Dictionary(dictStr);
if (!('type' in message.data)) {
console.error('ignored message without request type field');
return;
} else if (message.data['type'] === 'netconf-init') {
doNetconfInit(message);
} else if (message.data['type'] === 'netconf-request') {
doNetconfRequest(message);
} else {
console.error('ignored unrecognized message type: '+message.data['type']);
}
};
//
// Read stream of double-CR-terminated dictionaries from stdin until close/EOF
//
var stdinReadBuffer = '';
process.stdin.on('readable',function() {
var chunk = process.stdin.read();
if (chunk)
stdinReadBuffer += chunk;
for(;;) {
var boundary = stdinReadBuffer.indexOf('\n\n');
if (boundary >= 0) {
handleMessage(stdinReadBuffer.substr(0,boundary + 1));
stdinReadBuffer = stdinReadBuffer.substr(boundary + 2);
} else break;
}
});
process.stdin.on('end',function() {
process.exit(0);
});
process.stdin.on('close',function() {
process.exit(0);
});
process.stdin.on('error',function() {
process.exit(0);
});
// Tell ZeroTier One that the service is running, solicit netconf-init
process.stdout.write('type=ready\n\n');