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/ * *
* @ description MeshCentral Intel ( R ) AMT APF over websocket server
* @ author Ylian Saint - Hilaire / Joko Sastriawan
* @ copyright Intel Corporation 2018 - 2019
* @ license Apache - 2.0
* @ version v0 . 0.1
* /
/*jslint node: true */
/*jshint node: true */
/*jshint strict:false */
/*jshint -W097 */
/*jshint esversion: 6 */
"use strict" ;
// Construct a Intel AMT APF server object
module . exports . CreateApfServer = function ( parent , db , args ) {
var obj = { } ;
obj . parent = parent ;
obj . db = db ;
obj . args = args ;
obj . apfConnections = { } ;
const constants = ( require ( 'crypto' ) . constants ? require ( 'crypto' ) . constants : require ( 'constants' ) ) ; // require('constants') is deprecated in Node 11.10, use require('crypto').constants instead.
const common = require ( "./common.js" ) ;
const net = require ( "net" ) ;
const MAX _IDLE = 90000 ; // 90 seconds max idle time, higher than the typical KEEP-ALIVE periode of 60 seconds
const APFProtocol = {
UNKNOWN : 0 ,
DISCONNECT : 1 ,
SERVICE _REQUEST : 5 ,
SERVICE _ACCEPT : 6 ,
USERAUTH _REQUEST : 50 ,
USERAUTH _FAILURE : 51 ,
USERAUTH _SUCCESS : 52 ,
GLOBAL _REQUEST : 80 ,
REQUEST _SUCCESS : 81 ,
REQUEST _FAILURE : 82 ,
CHANNEL _OPEN : 90 ,
CHANNEL _OPEN _CONFIRMATION : 91 ,
CHANNEL _OPEN _FAILURE : 92 ,
CHANNEL _WINDOW _ADJUST : 93 ,
CHANNEL _DATA : 94 ,
CHANNEL _CLOSE : 97 ,
PROTOCOLVERSION : 192 ,
KEEPALIVE _REQUEST : 208 ,
KEEPALIVE _REPLY : 209 ,
KEEPALIVE _OPTIONS _REQUEST : 210 ,
KEEPALIVE _OPTIONS _REPLY : 211
} ;
/ *
const APFDisconnectCode = {
HOST _NOT _ALLOWED _TO _CONNECT : 1 ,
PROTOCOL _ERROR : 2 ,
KEY _EXCHANGE _FAILED : 3 ,
RESERVED : 4 ,
MAC _ERROR : 5 ,
COMPRESSION _ERROR : 6 ,
SERVICE _NOT _AVAILABLE : 7 ,
PROTOCOL _VERSION _NOT _SUPPORTED : 8 ,
HOST _KEY _NOT _VERIFIABLE : 9 ,
CONNECTION _LOST : 10 ,
BY _APPLICATION : 11 ,
TOO _MANY _CONNECTIONS : 12 ,
AUTH _CANCELLED _BY _USER : 13 ,
NO _MORE _AUTH _METHODS _AVAILABLE : 14 ,
INVALID _CREDENTIALS : 15 ,
CONNECTION _TIMED _OUT : 16 ,
BY _POLICY : 17 ,
TEMPORARILY _UNAVAILABLE : 18
} ;
const APFChannelOpenFailCodes = {
ADMINISTRATIVELY _PROHIBITED : 1 ,
CONNECT _FAILED : 2 ,
UNKNOWN _CHANNEL _TYPE : 3 ,
RESOURCE _SHORTAGE : 4 ,
} ;
* /
const APFChannelOpenFailureReasonCode = {
AdministrativelyProhibited : 1 ,
ConnectFailed : 2 ,
UnknownChannelType : 3 ,
ResourceShortage : 4 ,
} ;
// Stat counters
var connectionCount = 0 ;
var userAuthRequestCount = 0 ;
var incorrectPasswordCount = 0 ;
var meshNotFoundCount = 0 ;
var unknownNodeCount = 0 ;
var unknownMeshIdCount = 0 ;
var addedDeviceCount = 0 ;
var ciraTimeoutCount = 0 ;
var protocolVersionCount = 0 ;
var badUserNameLengthCount = 0 ;
var channelOpenCount = 0 ;
var channelOpenConfirmCount = 0 ;
var channelOpenFailCount = 0 ;
var channelCloseCount = 0 ;
var disconnectCommandCount = 0 ;
var socketClosedCount = 0 ;
var socketErrorCount = 0 ;
var maxDomainDevicesReached = 0 ;
// Return statistics about this APF server
obj . getStats = function ( ) {
return {
apfConnections : Object . keys ( obj . apfConnections ) . length ,
connectionCount : connectionCount ,
userAuthRequestCount : userAuthRequestCount ,
incorrectPasswordCount : incorrectPasswordCount ,
meshNotFoundCount : meshNotFoundCount ,
unknownNodeCount : unknownNodeCount ,
unknownMeshIdCount : unknownMeshIdCount ,
addedDeviceCount : addedDeviceCount ,
apfTimeoutCount : ciraTimeoutCount ,
protocolVersionCount : protocolVersionCount ,
badUserNameLengthCount : badUserNameLengthCount ,
channelOpenCount : channelOpenCount ,
channelOpenConfirmCount : channelOpenConfirmCount ,
channelOpenFailCount : channelOpenFailCount ,
channelCloseCount : channelCloseCount ,
disconnectCommandCount : disconnectCommandCount ,
socketClosedCount : socketClosedCount ,
socketErrorCount : socketErrorCount ,
maxDomainDevicesReached : maxDomainDevicesReached
} ;
}
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obj . onConnection = function ( socket ) {
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connectionCount ++ ;
// treat APS over WS like tlsoffload APF
socket . tag = { first : true , clientCert : null , accumulator : "" , activetunnels : 0 , boundPorts : [ ] , socket : socket , host : null , nextchannelid : 4 , channels : { } , nextsourceport : 0 } ;
parent . debug ( 'apf' , "New APF connection" ) ;
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parent . debug ( 'apf' , "WS Extensions:" + socket . extensions ) ;
parent . debug ( 'apf' , "WS Binary type:" + socket . binaryType ) ;
socket . _socket . on ( 'data' , function ( chunk ) { console . log ( chunk . toString ( 'hex' ) ) } ) ;
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// Setup the APF keep alive timer
// Websocket does not have timout
// socket.setTimeout(MAX_IDLE);
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//socket.on("timeout", () => { ciraTimeoutCount++; parent.debug('apf', "APF timeout, disconnecting."); try { socket.terminate(); } catch (e) { } });
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//use on message instead because of websocket
socket . on ( "message" , function ( data ) {
// use the same debug flag like APF
if ( obj . args . debug ) { var buf = Buffer . from ( data , "binary" ) ; console . log ( "APF <-- (" + buf . length + "):" + buf . toString ( 'hex' ) ) ; } // Print out received bytes
socket . tag . accumulator += data . toString ( "binary" ) ; // append as binary string
try {
// Parse all of the APF data we can
var l = 0 ;
do { l = ProcessCommand ( socket ) ; if ( l > 0 ) { socket . tag . accumulator = socket . tag . accumulator . substring ( l ) ; } } while ( l > 0 ) ;
if ( l < 0 ) { socket . terminate ( ) ; }
} catch ( e ) {
console . log ( e ) ;
}
} ) ;
// Process one AFP command
function ProcessCommand ( socket ) {
var cmd = socket . tag . accumulator . charCodeAt ( 0 ) ;
var len = socket . tag . accumulator . length ;
var data = socket . tag . accumulator ;
if ( len == 0 ) { return 0 ; }
switch ( cmd ) {
case APFProtocol . KEEPALIVE _REQUEST : {
if ( len < 5 ) return 0 ;
parent . debug ( 'apfcmd' , 'KEEPALIVE_REQUEST' ) ;
SendKeepAliveReply ( socket , common . ReadInt ( data , 1 ) ) ;
return 5 ;
}
case APFProtocol . KEEPALIVE _REPLY : {
if ( len < 5 ) return 0 ;
parent . debug ( 'apfcmd' , 'KEEPALIVE_REPLY' ) ;
return 5 ;
}
case APFProtocol . PROTOCOLVERSION : {
if ( len < 93 ) return 0 ;
protocolVersionCount ++ ;
socket . tag . MajorVersion = common . ReadInt ( data , 1 ) ;
socket . tag . MinorVersion = common . ReadInt ( data , 5 ) ;
socket . tag . SystemId = guidToStr ( common . rstr2hex ( data . substring ( 13 , 29 ) ) ) . toLowerCase ( ) ;
parent . debug ( 'apfcmd' , 'PROTOCOLVERSION' , socket . tag . MajorVersion , socket . tag . MinorVersion , socket . tag . SystemId ) ;
return 93 ;
}
case APFProtocol . USERAUTH _REQUEST : {
if ( len < 13 ) return 0 ;
userAuthRequestCount ++ ;
var usernameLen = common . ReadInt ( data , 1 ) ;
var username = data . substring ( 5 , 5 + usernameLen ) ;
var serviceNameLen = common . ReadInt ( data , 5 + usernameLen ) ;
var serviceName = data . substring ( 9 + usernameLen , 9 + usernameLen + serviceNameLen ) ;
var methodNameLen = common . ReadInt ( data , 9 + usernameLen + serviceNameLen ) ;
var methodName = data . substring ( 13 + usernameLen + serviceNameLen , 13 + usernameLen + serviceNameLen + methodNameLen ) ;
var passwordLen = 0 , password = null ;
if ( methodName == 'password' ) {
passwordLen = common . ReadInt ( data , 14 + usernameLen + serviceNameLen + methodNameLen ) ;
password = data . substring ( 18 + usernameLen + serviceNameLen + methodNameLen , 18 + usernameLen + serviceNameLen + methodNameLen + passwordLen ) ;
}
//console.log('APF:USERAUTH_REQUEST user=' + username + ', service=' + serviceName + ', method=' + methodName + ', password=' + password);
parent . debug ( 'apfcmd' , 'USERAUTH_REQUEST user=' + username + ', service=' + serviceName + ', method=' + methodName + ', password=' + password ) ;
// Check the APF password
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if ( ( args . mpspass != null ) && ( password != args . mpspass ) ) { incorrectPasswordCount ++ ; parent . debug ( 'apf' , 'Incorrect password' , username , password ) ; SendUserAuthFail ( socket ) ; return - 1 ; }
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// Check the APF username, which should be the start of the MeshID.
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if ( usernameLen != 16 ) { badUserNameLengthCount ++ ; parent . debug ( 'apf' , 'Username length not 16' , username , password ) ; SendUserAuthFail ( socket ) ; return - 1 ; }
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var meshIdStart = '/' + username , mesh = null ;
if ( obj . parent . webserver . meshes ) { for ( var i in obj . parent . webserver . meshes ) { if ( obj . parent . webserver . meshes [ i ] . _id . replace ( /\@/g , 'X' ) . replace ( /\$/g , 'X' ) . indexOf ( meshIdStart ) > 0 ) { mesh = obj . parent . webserver . meshes [ i ] ; break ; } } }
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if ( mesh == null ) { meshNotFoundCount ++ ; parent . debug ( 'apf' , 'Mesh not found' , username , password ) ; SendUserAuthFail ( socket ) ; return - 1 ; }
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// If this is a agent-less mesh, use the device guid 3 times as ID.
if ( mesh . mtype == 1 ) {
// Intel AMT GUID (socket.tag.SystemId) will be used as NodeID
var systemid = socket . tag . SystemId . split ( '-' ) . join ( '' ) ;
var nodeid = Buffer . from ( systemid + systemid + systemid , 'hex' ) . toString ( 'base64' ) . replace ( /\+/g , '@' ) . replace ( /\//g , '$' ) ;
var domain = obj . parent . config . domains [ mesh . domain ] ;
socket . tag . domain = domain ;
socket . tag . domainid = mesh . domain ;
socket . tag . name = '' ;
socket . tag . nodeid = 'node/' + mesh . domain + '/' + nodeid ; // Turn 16bit systemid guid into 48bit nodeid that is base64 encoded
socket . tag . meshid = mesh . _id ;
socket . tag . connectTime = Date . now ( ) ;
obj . db . Get ( socket . tag . nodeid , function ( err , nodes ) {
if ( ( nodes == null ) || ( nodes . length !== 1 ) ) {
// Check if we already have too many devices for this domain
if ( domain . limits && ( typeof domain . limits . maxdevices == 'number' ) ) {
db . isMaxType ( domain . limits . maxdevices , 'node' , mesh . domain , function ( ismax , count ) {
if ( ismax == true ) {
// Too many devices in this domain.
maxDomainDevicesReached ++ ;
console . log ( 'Too many devices on this domain to accept the APF connection. meshid: ' + socket . tag . meshid ) ;
socket . terminate ( ) ;
} else {
// We are under the limit, create the new device.
// Node is not in the database, add it. Credentials will be empty until added by the user.
var device = { type : 'node' , mtype : 1 , _id : socket . tag . nodeid , meshid : socket . tag . meshid , name : socket . tag . name , host : null , domain : mesh . domain , intelamt : { user : '' , pass : '' , tls : 0 , state : 2 } } ;
obj . db . Set ( device ) ;
// Event the new node
addedDeviceCount ++ ;
var device2 = common . Clone ( device ) ;
if ( device2 . intelamt . pass != null ) delete device2 . intelamt . pass ; // Remove the Intel AMT password before eventing this.
var change = 'APF added device ' + socket . tag . name + ' to group ' + mesh . name ;
obj . parent . DispatchEvent ( [ '*' , socket . tag . meshid ] , obj , { etype : 'node' , action : 'addnode' , node : device2 , msg : change , domain : mesh . domain } ) ;
// Add the connection to the APF connection list
obj . apfConnections [ socket . tag . nodeid ] = socket ;
// send connectivuty update type 8 for APF
obj . parent . SetConnectivityState ( socket . tag . meshid , socket . tag . nodeid , socket . tag . connectTime , 8 , 7 ) ; // TODO: Right now report power state as "present" (7) until we can poll.
SendUserAuthSuccess ( socket ) ; // Notify the auth success on the APF connection
}
} ) ;
return ;
} else {
// Node is not in the database, add it. Credentials will be empty until added by the user.
var device = { type : 'node' , mtype : 1 , _id : socket . tag . nodeid , meshid : socket . tag . meshid , name : socket . tag . name , host : null , domain : mesh . domain , intelamt : { user : '' , pass : '' , tls : 0 , state : 2 } } ;
obj . db . Set ( device ) ;
// Event the new node
addedDeviceCount ++ ;
var device2 = common . Clone ( device ) ;
if ( device2 . intelamt . pass != null ) delete device2 . intelamt . pass ; // Remove the Intel AMT password before eventing this.
var change = 'APF added device ' + socket . tag . name + ' to group ' + mesh . name ;
obj . parent . DispatchEvent ( [ '*' , socket . tag . meshid ] , obj , { etype : 'node' , action : 'addnode' , node : device2 , msg : change , domain : mesh . domain } ) ;
}
} else {
// Node is already present
var node = nodes [ 0 ] ;
if ( ( node . intelamt != null ) && ( node . intelamt . state == 2 ) ) { socket . tag . host = node . intelamt . host ; }
}
// Add the connection to the APF connection list
obj . apfConnections [ socket . tag . nodeid ] = socket ;
obj . parent . SetConnectivityState ( socket . tag . meshid , socket . tag . nodeid , socket . tag . connectTime , 8 , 7 ) ; // TODO: Right now report power state as "present" (7) until we can poll.
SendUserAuthSuccess ( socket ) ; // Notify the auth success on the APF connection
} ) ;
} else if ( mesh . mtype == 2 ) { // If this is a agent mesh, search the mesh for this device UUID
// Intel AMT GUID (socket.tag.SystemId) will be used to search the node
obj . db . getAmtUuidNode ( mesh . _id , socket . tag . SystemId , function ( err , nodes ) { // TODO: May need to optimize this request with indexes
if ( ( nodes == null ) || ( nodes . length !== 1 ) ) {
// New APF connection for unknown node, disconnect.
unknownNodeCount ++ ;
console . log ( 'APF connection for unknown node. groupid: ' + mesh . _id + ', uuid: ' + socket . tag . SystemId ) ;
socket . terminate ( ) ;
return ;
}
// Node is present
var node = nodes [ 0 ] ;
if ( ( node . intelamt != null ) && ( node . intelamt . state == 2 ) ) { socket . tag . host = node . intelamt . host ; }
socket . tag . nodeid = node . _id ;
socket . tag . meshid = mesh . _id ;
socket . tag . connectTime = Date . now ( ) ;
// Add the connection to the APF connection list
obj . apfConnections [ socket . tag . nodeid ] = socket ;
obj . parent . SetConnectivityState ( socket . tag . meshid , socket . tag . nodeid , socket . tag . connectTime , 8 , 7 ) ; // TODO: Right now report power state as "present" (7) until we can poll.
SendUserAuthSuccess ( socket ) ; // Notify the auth success on the APF connection
} ) ;
} else { // Unknown mesh type
// New APF connection for unknown node, disconnect.
unknownMeshIdCount ++ ;
console . log ( 'APF connection to a unknown group type. groupid: ' + socket . tag . meshid ) ;
socket . terminate ( ) ;
return ;
}
return 18 + usernameLen + serviceNameLen + methodNameLen + passwordLen ;
}
case APFProtocol . SERVICE _REQUEST : {
if ( len < 5 ) return 0 ;
var xserviceNameLen = common . ReadInt ( data , 1 ) ;
if ( len < 5 + xserviceNameLen ) return 0 ;
var xserviceName = data . substring ( 5 , 5 + xserviceNameLen ) ;
parent . debug ( 'apfcmd' , 'SERVICE_REQUEST' , xserviceName ) ;
if ( xserviceName == "pfwd@amt.intel.com" ) { SendServiceAccept ( socket , "pfwd@amt.intel.com" ) ; }
if ( xserviceName == "auth@amt.intel.com" ) { SendServiceAccept ( socket , "auth@amt.intel.com" ) ; }
return 5 + xserviceNameLen ;
}
case APFProtocol . GLOBAL _REQUEST : {
if ( len < 14 ) return 0 ;
var requestLen = common . ReadInt ( data , 1 ) ;
if ( len < 14 + requestLen ) return 0 ;
var request = data . substring ( 5 , 5 + requestLen ) ;
//var wantResponse = data.charCodeAt(5 + requestLen);
if ( request == "tcpip-forward" ) {
var addrLen = common . ReadInt ( data , 6 + requestLen ) ;
if ( len < 14 + requestLen + addrLen ) return 0 ;
var addr = data . substring ( 10 + requestLen , 10 + requestLen + addrLen ) ;
var port = common . ReadInt ( data , 10 + requestLen + addrLen ) ;
parent . debug ( 'apfcmd' , 'GLOBAL_REQUEST' , request , addr + ':' + port ) ;
ChangeHostname ( socket , addr , socket . tag . SystemId ) ;
if ( socket . tag . boundPorts . indexOf ( port ) == - 1 ) { socket . tag . boundPorts . push ( port ) ; }
SendTcpForwardSuccessReply ( socket , port ) ;
return 14 + requestLen + addrLen ;
}
if ( request == "cancel-tcpip-forward" ) {
var addrLen = common . ReadInt ( data , 6 + requestLen ) ;
if ( len < 14 + requestLen + addrLen ) return 0 ;
var addr = data . substring ( 10 + requestLen , 10 + requestLen + addrLen ) ;
var port = common . ReadInt ( data , 10 + requestLen + addrLen ) ;
parent . debug ( 'apfcmd' , 'GLOBAL_REQUEST' , request , addr + ':' + port ) ;
var portindex = socket . tag . boundPorts . indexOf ( port ) ;
if ( portindex >= 0 ) { socket . tag . boundPorts . splice ( portindex , 1 ) ; }
SendTcpForwardCancelReply ( socket ) ;
return 14 + requestLen + addrLen ;
}
if ( request == "udp-send-to@amt.intel.com" ) {
var addrLen = common . ReadInt ( data , 6 + requestLen ) ;
if ( len < 26 + requestLen + addrLen ) return 0 ;
var addr = data . substring ( 10 + requestLen , 10 + requestLen + addrLen ) ;
var port = common . ReadInt ( data , 10 + requestLen + addrLen ) ;
var oaddrLen = common . ReadInt ( data , 14 + requestLen + addrLen ) ;
if ( len < 26 + requestLen + addrLen + oaddrLen ) return 0 ;
var oaddr = data . substring ( 18 + requestLen , 18 + requestLen + addrLen ) ;
var oport = common . ReadInt ( data , 18 + requestLen + addrLen + oaddrLen ) ;
var datalen = common . ReadInt ( data , 22 + requestLen + addrLen + oaddrLen ) ;
if ( len < 26 + requestLen + addrLen + oaddrLen + datalen ) return 0 ;
parent . debug ( 'apfcmd' , 'GLOBAL_REQUEST' , request , addr + ':' + port , oaddr + ':' + oport , datalen ) ;
// TODO
return 26 + requestLen + addrLen + oaddrLen + datalen ;
}
return 6 + requestLen ;
}
case APFProtocol . CHANNEL _OPEN : {
if ( len < 33 ) return 0 ;
var ChannelTypeLength = common . ReadInt ( data , 1 ) ;
if ( len < ( 33 + ChannelTypeLength ) ) return 0 ;
// Decode channel identifiers and window size
var ChannelType = data . substring ( 5 , 5 + ChannelTypeLength ) ;
var SenderChannel = common . ReadInt ( data , 5 + ChannelTypeLength ) ;
var WindowSize = common . ReadInt ( data , 9 + ChannelTypeLength ) ;
// Decode the target
var TargetLen = common . ReadInt ( data , 17 + ChannelTypeLength ) ;
if ( len < ( 33 + ChannelTypeLength + TargetLen ) ) return 0 ;
var Target = data . substring ( 21 + ChannelTypeLength , 21 + ChannelTypeLength + TargetLen ) ;
var TargetPort = common . ReadInt ( data , 21 + ChannelTypeLength + TargetLen ) ;
// Decode the source
var SourceLen = common . ReadInt ( data , 25 + ChannelTypeLength + TargetLen ) ;
if ( len < ( 33 + ChannelTypeLength + TargetLen + SourceLen ) ) return 0 ;
var Source = data . substring ( 29 + ChannelTypeLength + TargetLen , 29 + ChannelTypeLength + TargetLen + SourceLen ) ;
var SourcePort = common . ReadInt ( data , 29 + ChannelTypeLength + TargetLen + SourceLen ) ;
channelOpenCount ++ ;
parent . debug ( 'apfcmd' , 'CHANNEL_OPEN' , ChannelType , SenderChannel , WindowSize , Target + ':' + TargetPort , Source + ':' + SourcePort ) ;
// Check if we understand this channel type
//if (ChannelType.toLowerCase() == "direct-tcpip")
{
// We don't understand this channel type, send an error back
SendChannelOpenFailure ( socket , SenderChannel , APFChannelOpenFailureReasonCode . UnknownChannelType ) ;
return 33 + ChannelTypeLength + TargetLen + SourceLen ;
}
/ *
// This is a correct connection. Lets get it setup
var MeshAmtEventEndpoint = { ServerChannel : GetNextBindId ( ) , AmtChannel : SenderChannel , MaxWindowSize : 2048 , CurrentWindowSize : 2048 , SendWindow : WindowSize , InfoHeader : "Target: " + Target + ":" + TargetPort + ", Source: " + Source + ":" + SourcePort } ;
// TODO: Connect this socket for a WSMAN event
SendChannelOpenConfirmation ( socket , SenderChannel , MeshAmtEventEndpoint . ServerChannel , MeshAmtEventEndpoint . MaxWindowSize ) ;
* /
return 33 + ChannelTypeLength + TargetLen + SourceLen ;
}
case APFProtocol . CHANNEL _OPEN _CONFIRMATION :
{
if ( len < 17 ) return 0 ;
var RecipientChannel = common . ReadInt ( data , 1 ) ;
var SenderChannel = common . ReadInt ( data , 5 ) ;
var WindowSize = common . ReadInt ( data , 9 ) ;
socket . tag . activetunnels ++ ;
var cirachannel = socket . tag . channels [ RecipientChannel ] ;
if ( cirachannel == null ) { /*console.log("APF Error in CHANNEL_OPEN_CONFIRMATION: Unable to find channelid " + RecipientChannel);*/ return 17 ; }
cirachannel . amtchannelid = SenderChannel ;
cirachannel . sendcredits = cirachannel . amtCiraWindow = WindowSize ;
channelOpenConfirmCount ++ ;
parent . debug ( 'apfcmd' , 'CHANNEL_OPEN_CONFIRMATION' , RecipientChannel , SenderChannel , WindowSize ) ;
if ( cirachannel . closing == 1 ) {
// Close this channel
SendChannelClose ( cirachannel . socket , cirachannel . amtchannelid ) ;
} else {
cirachannel . state = 2 ;
// Send any pending data
if ( cirachannel . sendBuffer != null ) {
if ( cirachannel . sendBuffer . length <= cirachannel . sendcredits ) {
// Send the entire pending buffer
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , cirachannel . sendBuffer ) ;
cirachannel . sendcredits -= cirachannel . sendBuffer . length ;
delete cirachannel . sendBuffer ;
if ( cirachannel . onSendOk ) { cirachannel . onSendOk ( cirachannel ) ; }
} else {
// Send a part of the pending buffer
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , cirachannel . sendBuffer . substring ( 0 , cirachannel . sendcredits ) ) ;
cirachannel . sendBuffer = cirachannel . sendBuffer . substring ( cirachannel . sendcredits ) ;
cirachannel . sendcredits = 0 ;
}
}
// Indicate the channel is open
if ( cirachannel . onStateChange ) { cirachannel . onStateChange ( cirachannel , cirachannel . state ) ; }
}
return 17 ;
}
case APFProtocol . CHANNEL _OPEN _FAILURE :
{
if ( len < 17 ) return 0 ;
var RecipientChannel = common . ReadInt ( data , 1 ) ;
var ReasonCode = common . ReadInt ( data , 5 ) ;
channelOpenFailCount ++ ;
parent . debug ( 'apfcmd' , 'CHANNEL_OPEN_FAILURE' , RecipientChannel , ReasonCode ) ;
var cirachannel = socket . tag . channels [ RecipientChannel ] ;
if ( cirachannel == null ) { console . log ( "APF Error in CHANNEL_OPEN_FAILURE: Unable to find channelid " + RecipientChannel ) ; return 17 ; }
if ( cirachannel . state > 0 ) {
cirachannel . state = 0 ;
if ( cirachannel . onStateChange ) { cirachannel . onStateChange ( cirachannel , cirachannel . state ) ; }
delete socket . tag . channels [ RecipientChannel ] ;
}
return 17 ;
}
case APFProtocol . CHANNEL _CLOSE :
{
if ( len < 5 ) return 0 ;
var RecipientChannel = common . ReadInt ( data , 1 ) ;
channelCloseCount ++ ;
parent . debug ( 'apfcmd' , 'CHANNEL_CLOSE' , RecipientChannel ) ;
var cirachannel = socket . tag . channels [ RecipientChannel ] ;
if ( cirachannel == null ) { console . log ( "APF Error in CHANNEL_CLOSE: Unable to find channelid " + RecipientChannel ) ; return 5 ; }
socket . tag . activetunnels -- ;
if ( cirachannel . state > 0 ) {
cirachannel . state = 0 ;
if ( cirachannel . onStateChange ) { cirachannel . onStateChange ( cirachannel , cirachannel . state ) ; }
delete socket . tag . channels [ RecipientChannel ] ;
}
return 5 ;
}
case APFProtocol . CHANNEL _WINDOW _ADJUST :
{
if ( len < 9 ) return 0 ;
var RecipientChannel = common . ReadInt ( data , 1 ) ;
var ByteToAdd = common . ReadInt ( data , 5 ) ;
var cirachannel = socket . tag . channels [ RecipientChannel ] ;
if ( cirachannel == null ) { console . log ( "APF Error in CHANNEL_WINDOW_ADJUST: Unable to find channelid " + RecipientChannel ) ; return 9 ; }
cirachannel . sendcredits += ByteToAdd ;
parent . debug ( 'apfcmd' , 'CHANNEL_WINDOW_ADJUST' , RecipientChannel , ByteToAdd , cirachannel . sendcredits ) ;
if ( cirachannel . state == 2 && cirachannel . sendBuffer != null ) {
// Compute how much data we can send
if ( cirachannel . sendBuffer . length <= cirachannel . sendcredits ) {
// Send the entire pending buffer
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , cirachannel . sendBuffer ) ;
cirachannel . sendcredits -= cirachannel . sendBuffer . length ;
delete cirachannel . sendBuffer ;
if ( cirachannel . onSendOk ) { cirachannel . onSendOk ( cirachannel ) ; }
} else {
// Send a part of the pending buffer
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , cirachannel . sendBuffer . substring ( 0 , cirachannel . sendcredits ) ) ;
cirachannel . sendBuffer = cirachannel . sendBuffer . substring ( cirachannel . sendcredits ) ;
cirachannel . sendcredits = 0 ;
}
}
return 9 ;
}
case APFProtocol . CHANNEL _DATA :
{
if ( len < 9 ) return 0 ;
var RecipientChannel = common . ReadInt ( data , 1 ) ;
var LengthOfData = common . ReadInt ( data , 5 ) ;
if ( len < ( 9 + LengthOfData ) ) return 0 ;
parent . debug ( 'apfcmddata' , 'CHANNEL_DATA' , RecipientChannel , LengthOfData ) ;
var cirachannel = socket . tag . channels [ RecipientChannel ] ;
if ( cirachannel == null ) { console . log ( "APF Error in CHANNEL_DATA: Unable to find channelid " + RecipientChannel ) ; return 9 + LengthOfData ; }
cirachannel . amtpendingcredits += LengthOfData ;
if ( cirachannel . onData ) cirachannel . onData ( cirachannel , data . substring ( 9 , 9 + LengthOfData ) ) ;
if ( cirachannel . amtpendingcredits > ( cirachannel . ciraWindow / 2 ) ) {
SendChannelWindowAdjust ( cirachannel . socket , cirachannel . amtchannelid , cirachannel . amtpendingcredits ) ; // Adjust the buffer window
cirachannel . amtpendingcredits = 0 ;
}
return 9 + LengthOfData ;
}
case APFProtocol . DISCONNECT :
{
if ( len < 7 ) return 0 ;
var ReasonCode = common . ReadInt ( data , 1 ) ;
disconnectCommandCount ++ ;
parent . debug ( 'apfcmd' , 'DISCONNECT' , ReasonCode ) ;
try { delete obj . apfConnections [ socket . tag . nodeid ] ; } catch ( e ) { }
obj . parent . ClearConnectivityState ( socket . tag . meshid , socket . tag . nodeid , 8 ) ;
return 7 ;
}
default :
{
parent . debug ( 'apfcmd' , 'Unknown APF command: ' + cmd ) ;
return - 1 ;
}
}
}
socket . addListener ( "close" , function ( ) {
socketClosedCount ++ ;
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parent . debug ( 'apf' , 'APF connection closed' ) ;
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try { delete obj . apfConnections [ socket . tag . nodeid ] ; } catch ( e ) { }
obj . parent . ClearConnectivityState ( socket . tag . meshid , socket . tag . nodeid , 8 ) ;
} ) ;
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socket . addListener ( "error" , function ( e ) {
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socketErrorCount ++ ;
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console . log ( "APF Error: " + e ) ;
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} ) ;
}
// Disconnect APF tunnel
obj . close = function ( socket ) {
try { socket . terminate ( ) ; } catch ( e ) { }
try { delete obj . apfConnections [ socket . tag . nodeid ] ; } catch ( e ) { }
obj . parent . ClearConnectivityState ( socket . tag . meshid , socket . tag . nodeid , 8 ) ;
} ;
function SendServiceAccept ( socket , service ) {
Write ( socket , String . fromCharCode ( APFProtocol . SERVICE _ACCEPT ) + common . IntToStr ( service . length ) + service ) ;
}
function SendTcpForwardSuccessReply ( socket , port ) {
Write ( socket , String . fromCharCode ( APFProtocol . REQUEST _SUCCESS ) + common . IntToStr ( port ) ) ;
}
function SendTcpForwardCancelReply ( socket ) {
Write ( socket , String . fromCharCode ( APFProtocol . REQUEST _SUCCESS ) ) ;
}
/ *
function SendKeepAliveRequest ( socket , cookie ) {
Write ( socket , String . fromCharCode ( APFProtocol . KEEPALIVE _REQUEST ) + common . IntToStr ( cookie ) ) ;
}
* /
function SendKeepAliveReply ( socket , cookie ) {
Write ( socket , String . fromCharCode ( APFProtocol . KEEPALIVE _REPLY ) + common . IntToStr ( cookie ) ) ;
}
function SendChannelOpenFailure ( socket , senderChannel , reasonCode ) {
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _OPEN _FAILURE ) + common . IntToStr ( senderChannel ) + common . IntToStr ( reasonCode ) + common . IntToStr ( 0 ) + common . IntToStr ( 0 ) ) ;
}
/ *
function SendChannelOpenConfirmation ( socket , recipientChannelId , senderChannelId , initialWindowSize ) {
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _OPEN _CONFIRMATION ) + common . IntToStr ( recipientChannelId ) + common . IntToStr ( senderChannelId ) + common . IntToStr ( initialWindowSize ) + common . IntToStr ( - 1 ) ) ;
}
* /
function SendChannelOpen ( socket , direct , channelid , windowsize , target , targetport , source , sourceport ) {
var connectionType = ( ( direct == true ) ? "direct-tcpip" : "forwarded-tcpip" ) ;
if ( ( target == null ) || ( target == null ) ) target = '' ; // TODO: Reports of target being undefined that causes target.length to fail. This is a hack.
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _OPEN ) + common . IntToStr ( connectionType . length ) + connectionType + common . IntToStr ( channelid ) + common . IntToStr ( windowsize ) + common . IntToStr ( - 1 ) + common . IntToStr ( target . length ) + target + common . IntToStr ( targetport ) + common . IntToStr ( source . length ) + source + common . IntToStr ( sourceport ) ) ;
}
function SendChannelClose ( socket , channelid ) {
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _CLOSE ) + common . IntToStr ( channelid ) ) ;
}
function SendChannelData ( socket , channelid , data ) {
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _DATA ) + common . IntToStr ( channelid ) + common . IntToStr ( data . length ) + data ) ;
}
function SendChannelWindowAdjust ( socket , channelid , bytestoadd ) {
parent . debug ( 'apfcmd' , 'SendChannelWindowAdjust' , channelid , bytestoadd ) ;
Write ( socket , String . fromCharCode ( APFProtocol . CHANNEL _WINDOW _ADJUST ) + common . IntToStr ( channelid ) + common . IntToStr ( bytestoadd ) ) ;
}
/ *
function SendDisconnect ( socket , reasonCode ) {
Write ( socket , String . fromCharCode ( APFProtocol . DISCONNECT ) + common . IntToStr ( reasonCode ) + common . ShortToStr ( 0 ) ) ;
}
* /
function SendUserAuthFail ( socket ) {
Write ( socket , String . fromCharCode ( APFProtocol . USERAUTH _FAILURE ) + common . IntToStr ( 8 ) + 'password' + common . ShortToStr ( 0 ) ) ;
}
function SendUserAuthSuccess ( socket ) {
Write ( socket , String . fromCharCode ( APFProtocol . USERAUTH _SUCCESS ) ) ;
}
function Write ( socket , data ) {
if ( obj . args . debug ) {
// Print out sent bytes
var buf = Buffer . from ( data , "binary" ) ;
console . log ( 'APF --> (' + buf . length + '):' + buf . toString ( 'hex' ) ) ;
socket . send ( buf ) ;
} else {
socket . send ( Buffer . from ( data , "binary" ) ) ;
}
}
obj . SetupCiraChannel = function ( socket , targetport ) {
var sourceport = ( socket . tag . nextsourceport ++ % 30000 ) + 1024 ;
var cirachannel = { targetport : targetport , channelid : socket . tag . nextchannelid ++ , socket : socket , state : 1 , sendcredits : 0 , amtpendingcredits : 0 , amtCiraWindow : 0 , ciraWindow : 32768 } ;
SendChannelOpen ( socket , false , cirachannel . channelid , cirachannel . ciraWindow , socket . tag . host , targetport , "1.2.3.4" , sourceport ) ;
// This function writes data to this APF channel
cirachannel . write = function ( data ) {
if ( cirachannel . state == 0 ) return false ;
if ( cirachannel . state == 1 || cirachannel . sendcredits == 0 || cirachannel . sendBuffer != null ) {
// Channel is connected, but we are out of credits. Add the data to the outbound buffer.
if ( cirachannel . sendBuffer == null ) { cirachannel . sendBuffer = data ; } else { cirachannel . sendBuffer += data ; }
return true ;
}
// Compute how much data we can send
if ( data . length <= cirachannel . sendcredits ) {
// Send the entire message
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , data ) ;
cirachannel . sendcredits -= data . length ;
return true ;
}
// Send a part of the message
cirachannel . sendBuffer = data . substring ( cirachannel . sendcredits ) ;
SendChannelData ( cirachannel . socket , cirachannel . amtchannelid , data . substring ( 0 , cirachannel . sendcredits ) ) ;
cirachannel . sendcredits = 0 ;
return false ;
} ;
// This function closes this APF channel
cirachannel . close = function ( ) {
if ( cirachannel . state == 0 || cirachannel . closing == 1 ) return ;
if ( cirachannel . state == 1 ) { cirachannel . closing = 1 ; cirachannel . state = 0 ; if ( cirachannel . onStateChange ) { cirachannel . onStateChange ( cirachannel , cirachannel . state ) ; } return ; }
cirachannel . state = 0 ;
cirachannel . closing = 1 ;
SendChannelClose ( cirachannel . socket , cirachannel . amtchannelid ) ;
if ( cirachannel . onStateChange ) { cirachannel . onStateChange ( cirachannel , cirachannel . state ) ; }
} ;
socket . tag . channels [ cirachannel . channelid ] = cirachannel ;
return cirachannel ;
} ;
function ChangeHostname ( socket , host , systemid ) {
if ( socket . tag . host === host ) return ; // Nothing to change
socket . tag . host = host ;
// Change the device
obj . db . Get ( socket . tag . nodeid , function ( err , nodes ) {
if ( ( nodes == null ) || ( nodes . length !== 1 ) ) return ;
var node = nodes [ 0 ] ;
// See if any changes need to be made
if ( ( node . intelamt != null ) && ( node . intelamt . host == host ) && ( node . name != null ) && ( node . name != '' ) && ( node . intelamt . state == 2 ) ) return ;
// Get the mesh for this device
obj . db . Get ( node . meshid , function ( err , meshes ) {
if ( ( meshes == null ) || ( meshes . length !== 1 ) ) return ;
var mesh = meshes [ 0 ] ;
// Ready the node change event
var changes = [ 'host' ] , event = { etype : 'node' , action : 'changenode' , nodeid : node . _id } ;
event . msg = + ": " ;
// Make the change & save
if ( node . intelamt == null ) node . intelamt = { } ;
node . intelamt . host = host ;
node . intelamt . state = 2 ; // TODO: this is not real AMT state
if ( ( ( node . name == null ) || ( node . name == '' ) ) && ( host != null ) && ( host != '' ) ) { node . name = host . split ( '.' ) [ 0 ] ; } // If this system has no name, set it to the start of the domain name.
if ( ( ( node . name == null ) || ( node . name == '' ) ) && ( systemid != null ) ) { node . name = systemid ; } // If this system still has no name, set it to the system GUID.
obj . db . Set ( node ) ;
// Event the node change
event . msg = 'APF changed device ' + node . name + ' from group ' + mesh . name + ': ' + changes . join ( ', ' ) ;
var node2 = common . Clone ( node ) ;
if ( node2 . intelamt && node2 . intelamt . pass ) delete node2 . intelamt . pass ; // Remove the Intel AMT password before eventing this.
event . node = node2 ;
if ( obj . db . changeStream ) { event . noact = 1 ; } // If DB change stream is active, don't use this event to change the node. Another event will come.
obj . parent . DispatchEvent ( [ '*' , node . meshid ] , obj , event ) ;
} ) ;
} ) ;
}
function guidToStr ( g ) { return g . substring ( 6 , 8 ) + g . substring ( 4 , 6 ) + g . substring ( 2 , 4 ) + g . substring ( 0 , 2 ) + "-" + g . substring ( 10 , 12 ) + g . substring ( 8 , 10 ) + "-" + g . substring ( 14 , 16 ) + g . substring ( 12 , 14 ) + "-" + g . substring ( 16 , 20 ) + "-" + g . substring ( 20 ) ; }
return obj ;
} ;