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package yggdrasil
// This is the session manager
// It's responsible for keeping track of open sessions to other nodes
// The session information consists of crypto keys and coords
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import (
"bytes"
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"errors"
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"sync"
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"time"
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"github.com/yggdrasil-network/yggdrasil-go/src/address"
"github.com/yggdrasil-network/yggdrasil-go/src/crypto"
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"github.com/yggdrasil-network/yggdrasil-go/src/util"
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)
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// All the information we know about an active session.
// This includes coords, permanent and ephemeral keys, handles and nonces, various sorts of timing information for timeout and maintenance, and some metadata for the admin API.
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type sessionInfo struct {
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mutex sync . Mutex // Protects all of the below, use it any time you read/chance the contents of a session
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core * Core //
reconfigure chan chan error //
theirAddr address . Address //
theirSubnet address . Subnet //
theirPermPub crypto . BoxPubKey //
theirSesPub crypto . BoxPubKey //
mySesPub crypto . BoxPubKey //
mySesPriv crypto . BoxPrivKey //
sharedSesKey crypto . BoxSharedKey // derived from session keys
theirHandle crypto . Handle //
myHandle crypto . Handle //
theirNonce crypto . BoxNonce //
theirNonceMask uint64 //
myNonce crypto . BoxNonce //
theirMTU uint16 //
myMTU uint16 //
wasMTUFixed bool // Was the MTU fixed by a receive error?
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timeOpened time . Time // Time the sessino was opened
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time time . Time // Time we last received a packet
mtuTime time . Time // time myMTU was last changed
pingTime time . Time // time the first ping was sent since the last received packet
pingSend time . Time // time the last ping was sent
coords [ ] byte // coords of destination
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reset bool // reset if coords change
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tstamp int64 // ATOMIC - tstamp from their last session ping, replay attack mitigation
bytesSent uint64 // Bytes of real traffic sent in this session
bytesRecvd uint64 // Bytes of real traffic received in this session
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fromRouter chan * wire_trafficPacket // Received packets go here, picked up by the associated Conn
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init chan struct { } // Closed when the first session pong arrives, used to signal that the session is ready for initial use
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cancel util . Cancellation // Used to terminate workers
recv chan [ ] byte
send chan [ ] byte
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}
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func ( sinfo * sessionInfo ) doFunc ( f func ( ) ) {
sinfo . mutex . Lock ( )
defer sinfo . mutex . Unlock ( )
f ( )
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}
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// Represents a session ping/pong packet, andincludes information like public keys, a session handle, coords, a timestamp to prevent replays, and the tun/tap MTU.
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type sessionPing struct {
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SendPermPub crypto . BoxPubKey // Sender's permanent key
Handle crypto . Handle // Random number to ID session
SendSesPub crypto . BoxPubKey // Session key to use
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Coords [ ] byte //
Tstamp int64 // unix time, but the only real requirement is that it increases
IsPong bool //
MTU uint16 //
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}
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// Updates session info in response to a ping, after checking that the ping is OK.
// Returns true if the session was updated, or false otherwise.
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func ( s * sessionInfo ) update ( p * sessionPing ) bool {
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if ! ( p . Tstamp > s . tstamp ) {
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// To protect against replay attacks
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return false
}
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if p . SendPermPub != s . theirPermPub {
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// Should only happen if two sessions got the same handle
// That shouldn't be allowed anyway, but if it happens then let one time out
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return false
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}
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if p . SendSesPub != s . theirSesPub {
s . theirSesPub = p . SendSesPub
s . theirHandle = p . Handle
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s . sharedSesKey = * crypto . GetSharedKey ( & s . mySesPriv , & s . theirSesPub )
s . theirNonce = crypto . BoxNonce { }
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s . theirNonceMask = 0
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}
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if p . MTU >= 1280 || p . MTU == 0 {
s . theirMTU = p . MTU
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}
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if ! bytes . Equal ( s . coords , p . Coords ) {
// allocate enough space for additional coords
s . coords = append ( make ( [ ] byte , 0 , len ( p . Coords ) + 11 ) , p . Coords ... )
}
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s . time = time . Now ( )
s . tstamp = p . Tstamp
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s . reset = false
defer func ( ) { recover ( ) } ( ) // Recover if the below panics
select {
case <- s . init :
default :
// Unblock anything waiting for the session to initialize
close ( s . init )
}
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return true
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}
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// Struct of all active sessions.
// Sessions are indexed by handle.
// Additionally, stores maps of address/subnet onto keys, and keys onto handles.
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type sessions struct {
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core * Core
listener * Listener
listenerMutex sync . Mutex
reconfigure chan chan error
lastCleanup time . Time
isAllowedHandler func ( pubkey * crypto . BoxPubKey , initiator bool ) bool // Returns true or false if session setup is allowed
isAllowedMutex sync . RWMutex // Protects the above
permShared map [ crypto . BoxPubKey ] * crypto . BoxSharedKey // Maps known permanent keys to their shared key, used by DHT a lot
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sinfos map [ crypto . Handle ] * sessionInfo // Maps handle onto session info
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byTheirPerm map [ crypto . BoxPubKey ] * crypto . Handle // Maps theirPermPub onto handle
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}
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// Initializes the session struct.
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func ( ss * sessions ) init ( core * Core ) {
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ss . core = core
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ss . reconfigure = make ( chan chan error , 1 )
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go func ( ) {
for {
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e := <- ss . reconfigure
responses := make ( map [ crypto . Handle ] chan error )
for index , session := range ss . sinfos {
responses [ index ] = make ( chan error )
session . reconfigure <- responses [ index ]
}
for _ , response := range responses {
if err := <- response ; err != nil {
e <- err
continue
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}
}
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e <- nil
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}
} ( )
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ss . permShared = make ( map [ crypto . BoxPubKey ] * crypto . BoxSharedKey )
ss . sinfos = make ( map [ crypto . Handle ] * sessionInfo )
ss . byTheirPerm = make ( map [ crypto . BoxPubKey ] * crypto . Handle )
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ss . lastCleanup = time . Now ( )
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}
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// Determines whether the session with a given publickey is allowed based on
// session firewall rules.
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func ( ss * sessions ) isSessionAllowed ( pubkey * crypto . BoxPubKey , initiator bool ) bool {
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ss . isAllowedMutex . RLock ( )
defer ss . isAllowedMutex . RUnlock ( )
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if ss . isAllowedHandler == nil {
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return true
}
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return ss . isAllowedHandler ( pubkey , initiator )
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}
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// Gets the session corresponding to a given handle.
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func ( ss * sessions ) getSessionForHandle ( handle * crypto . Handle ) ( * sessionInfo , bool ) {
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sinfo , isIn := ss . sinfos [ * handle ]
return sinfo , isIn
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}
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// Gets a session corresponding to a permanent key used by the remote node.
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func ( ss * sessions ) getByTheirPerm ( key * crypto . BoxPubKey ) ( * sessionInfo , bool ) {
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h , isIn := ss . byTheirPerm [ * key ]
if ! isIn {
return nil , false
}
sinfo , isIn := ss . getSessionForHandle ( h )
return sinfo , isIn
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}
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// Creates a new session and lazily cleans up old existing sessions. This
// includse initializing session info to sane defaults (e.g. lowest supported
// MTU).
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func ( ss * sessions ) createSession ( theirPermKey * crypto . BoxPubKey ) * sessionInfo {
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// TODO: this check definitely needs to be moved
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if ! ss . isSessionAllowed ( theirPermKey , true ) {
return nil
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}
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sinfo := sessionInfo { }
sinfo . core = ss . core
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sinfo . reconfigure = make ( chan chan error , 1 )
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sinfo . theirPermPub = * theirPermKey
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pub , priv := crypto . NewBoxKeys ( )
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sinfo . mySesPub = * pub
sinfo . mySesPriv = * priv
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sinfo . myNonce = * crypto . NewBoxNonce ( )
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sinfo . theirMTU = 1280
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ss . core . config . Mutex . RLock ( )
sinfo . myMTU = uint16 ( ss . core . config . Current . IfMTU )
ss . core . config . Mutex . RUnlock ( )
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now := time . Now ( )
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sinfo . timeOpened = now
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sinfo . time = now
sinfo . mtuTime = now
sinfo . pingTime = now
sinfo . pingSend = now
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sinfo . init = make ( chan struct { } )
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higher := false
for idx := range ss . core . boxPub {
if ss . core . boxPub [ idx ] > sinfo . theirPermPub [ idx ] {
higher = true
break
} else if ss . core . boxPub [ idx ] < sinfo . theirPermPub [ idx ] {
break
}
}
if higher {
// higher => odd nonce
sinfo . myNonce [ len ( sinfo . myNonce ) - 1 ] |= 0x01
} else {
// lower => even nonce
sinfo . myNonce [ len ( sinfo . myNonce ) - 1 ] &= 0xfe
}
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sinfo . myHandle = * crypto . NewHandle ( )
sinfo . theirAddr = * address . AddrForNodeID ( crypto . GetNodeID ( & sinfo . theirPermPub ) )
sinfo . theirSubnet = * address . SubnetForNodeID ( crypto . GetNodeID ( & sinfo . theirPermPub ) )
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sinfo . fromRouter = make ( chan * wire_trafficPacket , 32 )
sinfo . recv = make ( chan [ ] byte , 32 )
sinfo . send = make ( chan [ ] byte , 32 )
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ss . sinfos [ sinfo . myHandle ] = & sinfo
ss . byTheirPerm [ sinfo . theirPermPub ] = & sinfo . myHandle
return & sinfo
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}
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func ( ss * sessions ) cleanup ( ) {
// Time thresholds almost certainly could use some adjusting
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for k := range ss . permShared {
// Delete a key, to make sure this eventually shrinks to 0
delete ( ss . permShared , k )
break
}
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if time . Since ( ss . lastCleanup ) < time . Minute {
return
}
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permShared := make ( map [ crypto . BoxPubKey ] * crypto . BoxSharedKey , len ( ss . permShared ) )
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for k , v := range ss . permShared {
permShared [ k ] = v
}
ss . permShared = permShared
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sinfos := make ( map [ crypto . Handle ] * sessionInfo , len ( ss . sinfos ) )
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for k , v := range ss . sinfos {
sinfos [ k ] = v
}
ss . sinfos = sinfos
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byTheirPerm := make ( map [ crypto . BoxPubKey ] * crypto . Handle , len ( ss . byTheirPerm ) )
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for k , v := range ss . byTheirPerm {
byTheirPerm [ k ] = v
}
ss . byTheirPerm = byTheirPerm
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ss . lastCleanup = time . Now ( )
}
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// Closes a session, removing it from sessions maps.
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func ( sinfo * sessionInfo ) close ( ) {
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if s := sinfo . core . sessions . sinfos [ sinfo . myHandle ] ; s == sinfo {
delete ( sinfo . core . sessions . sinfos , sinfo . myHandle )
delete ( sinfo . core . sessions . byTheirPerm , sinfo . theirPermPub )
}
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}
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// Returns a session ping appropriate for the given session info.
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func ( ss * sessions ) getPing ( sinfo * sessionInfo ) sessionPing {
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loc := ss . core . switchTable . getLocator ( )
coords := loc . getCoords ( )
ref := sessionPing {
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SendPermPub : ss . core . boxPub ,
Handle : sinfo . myHandle ,
SendSesPub : sinfo . mySesPub ,
Tstamp : time . Now ( ) . Unix ( ) ,
Coords : coords ,
MTU : sinfo . myMTU ,
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}
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sinfo . myNonce . Increment ( )
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return ref
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}
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// Gets the shared key for a pair of box keys.
// Used to cache recently used shared keys for protocol traffic.
// This comes up with dht req/res and session ping/pong traffic.
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func ( ss * sessions ) getSharedKey ( myPriv * crypto . BoxPrivKey ,
theirPub * crypto . BoxPubKey ) * crypto . BoxSharedKey {
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return crypto . GetSharedKey ( myPriv , theirPub )
// FIXME concurrency issues with the below, so for now we just burn the CPU every time
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if skey , isIn := ss . permShared [ * theirPub ] ; isIn {
return skey
}
// First do some cleanup
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const maxKeys = 1024
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for key := range ss . permShared {
// Remove a random key until the store is small enough
if len ( ss . permShared ) < maxKeys {
break
}
delete ( ss . permShared , key )
}
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ss . permShared [ * theirPub ] = crypto . GetSharedKey ( myPriv , theirPub )
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return ss . permShared [ * theirPub ]
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}
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// Sends a session ping by calling sendPingPong in ping mode.
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func ( ss * sessions ) ping ( sinfo * sessionInfo ) {
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ss . sendPingPong ( sinfo , false )
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}
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// Calls getPing, sets the appropriate ping/pong flag, encodes to wire format, and send it.
// Updates the time the last ping was sent in the session info.
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func ( ss * sessions ) sendPingPong ( sinfo * sessionInfo , isPong bool ) {
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ping := ss . getPing ( sinfo )
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ping . IsPong = isPong
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bs := ping . encode ( )
shared := ss . getSharedKey ( & ss . core . boxPriv , & sinfo . theirPermPub )
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payload , nonce := crypto . BoxSeal ( shared , bs , nil )
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p := wire_protoTrafficPacket {
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Coords : sinfo . coords ,
ToKey : sinfo . theirPermPub ,
FromKey : ss . core . boxPub ,
Nonce : * nonce ,
Payload : payload ,
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}
packet := p . encode ( )
ss . core . router . out ( packet )
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if sinfo . pingTime . Before ( sinfo . time ) {
sinfo . pingTime = time . Now ( )
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}
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}
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// Handles a session ping, creating a session if needed and calling update, then possibly responding with a pong if the ping was in ping mode and the update was successful.
// If the session has a packet cached (common when first setting up a session), it will be sent.
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func ( ss * sessions ) handlePing ( ping * sessionPing ) {
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// Get the corresponding session (or create a new session)
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sinfo , isIn := ss . getByTheirPerm ( & ping . SendPermPub )
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// Check if the session is allowed
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// TODO: this check may need to be moved
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if ! isIn && ! ss . isSessionAllowed ( & ping . SendPermPub , false ) {
return
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}
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// Create the session if it doesn't already exist
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if ! isIn {
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ss . createSession ( & ping . SendPermPub )
sinfo , isIn = ss . getByTheirPerm ( & ping . SendPermPub )
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if ! isIn {
panic ( "This should not happen" )
}
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ss . listenerMutex . Lock ( )
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// Check and see if there's a Listener waiting to accept connections
// TODO: this should not block if nothing is accepting
if ! ping . IsPong && ss . listener != nil {
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conn := newConn ( ss . core , crypto . GetNodeID ( & sinfo . theirPermPub ) , & crypto . NodeID { } , sinfo )
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for i := range conn . nodeMask {
conn . nodeMask [ i ] = 0xFF
}
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conn . session . startWorkers ( conn . cancel )
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ss . listener . conn <- conn
}
ss . listenerMutex . Unlock ( )
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}
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sinfo . doFunc ( func ( ) {
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// Update the session
if ! sinfo . update ( ping ) { /*panic("Should not happen in testing")*/
return
}
if ! ping . IsPong {
ss . sendPingPong ( sinfo , true )
}
} )
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}
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// Get the MTU of the session.
// Will be equal to the smaller of this node's MTU or the remote node's MTU.
// If sending over links with a maximum message size (this was a thing with the old UDP code), it could be further lowered, to a minimum of 1280.
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func ( sinfo * sessionInfo ) getMTU ( ) uint16 {
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if sinfo . theirMTU == 0 || sinfo . myMTU == 0 {
return 0
}
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if sinfo . theirMTU < sinfo . myMTU {
return sinfo . theirMTU
}
return sinfo . myMTU
}
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// Checks if a packet's nonce is recent enough to fall within the window of allowed packets, and not already received.
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func ( sinfo * sessionInfo ) nonceIsOK ( theirNonce * crypto . BoxNonce ) bool {
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// The bitmask is to allow for some non-duplicate out-of-order packets
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diff := theirNonce . Minus ( & sinfo . theirNonce )
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if diff > 0 {
return true
}
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return ^ sinfo . theirNonceMask & ( 0x01 << uint64 ( - diff ) ) != 0
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}
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// Updates the nonce mask by (possibly) shifting the bitmask and setting the bit corresponding to this nonce to 1, and then updating the most recent nonce
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func ( sinfo * sessionInfo ) updateNonce ( theirNonce * crypto . BoxNonce ) {
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// Shift nonce mask if needed
// Set bit
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diff := theirNonce . Minus ( & sinfo . theirNonce )
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if diff > 0 {
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// This nonce is newer, so shift the window before setting the bit, and update theirNonce in the session info.
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sinfo . theirNonceMask <<= uint64 ( diff )
sinfo . theirNonceMask &= 0x01
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sinfo . theirNonce = * theirNonce
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} else {
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// This nonce is older, so set the bit but do not shift the window.
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sinfo . theirNonceMask &= 0x01 << uint64 ( - diff )
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}
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}
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// Resets all sessions to an uninitialized state.
// Called after coord changes, so attemtps to use a session will trigger a new ping and notify the remote end of the coord change.
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func ( ss * sessions ) reset ( ) {
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for _ , sinfo := range ss . sinfos {
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sinfo . doFunc ( func ( ) {
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sinfo . reset = true
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} )
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}
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}
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////////////////////////////////////////////////////////////////////////////////
//////////////////////////// Worker Functions Below ////////////////////////////
////////////////////////////////////////////////////////////////////////////////
func ( sinfo * sessionInfo ) startWorkers ( cancel util . Cancellation ) {
sinfo . cancel = cancel
go sinfo . recvWorker ( )
go sinfo . sendWorker ( )
}
func ( sinfo * sessionInfo ) recvWorker ( ) {
// TODO move theirNonce etc into a struct that gets stored here, passed in over a channel
// Since there's no reason for anywhere else in the session code to need to *read* it...
// Only needs to be updated from the outside if a ping resets it...
// That would get rid of the need to take a mutex for the sessionFunc
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var callbacks [ ] chan func ( )
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doRecv := func ( p * wire_trafficPacket ) {
var bs [ ] byte
var err error
var k crypto . BoxSharedKey
sessionFunc := func ( ) {
if ! sinfo . nonceIsOK ( & p . Nonce ) {
err = ConnError { errors . New ( "packet dropped due to invalid nonce" ) , false , true , false , 0 }
return
}
k = sinfo . sharedSesKey
}
sinfo . doFunc ( sessionFunc )
if err != nil {
util . PutBytes ( p . Payload )
return
}
var isOK bool
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ch := make ( chan func ( ) , 1 )
poolFunc := func ( ) {
bs , isOK = crypto . BoxOpen ( & k , p . Payload , & p . Nonce )
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util . PutBytes ( p . Payload )
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callback := func ( ) {
if ! isOK {
util . PutBytes ( bs )
return
}
sessionFunc = func ( ) {
if k != sinfo . sharedSesKey || ! sinfo . nonceIsOK ( & p . Nonce ) {
// The session updated in the mean time, so return an error
err = ConnError { errors . New ( "session updated during crypto operation" ) , false , true , false , 0 }
return
}
sinfo . updateNonce ( & p . Nonce )
sinfo . time = time . Now ( )
sinfo . bytesRecvd += uint64 ( len ( bs ) )
}
sinfo . doFunc ( sessionFunc )
if err != nil {
// Not sure what else to do with this packet, I guess just drop it
util . PutBytes ( bs )
} else {
// Pass the packet to the buffer for Conn.Read
sinfo . recv <- bs
}
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}
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ch <- callback
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}
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// Send to the worker and wait for it to finish
util . WorkerGo ( poolFunc )
callbacks = append ( callbacks , ch )
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}
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for {
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for len ( callbacks ) > 0 {
select {
case f := <- callbacks [ 0 ] :
callbacks = callbacks [ 1 : ]
f ( )
case <- sinfo . cancel . Finished ( ) :
return
case p := <- sinfo . fromRouter :
doRecv ( p )
}
}
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select {
case <- sinfo . cancel . Finished ( ) :
return
case p := <- sinfo . fromRouter :
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doRecv ( p )
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}
}
}
func ( sinfo * sessionInfo ) sendWorker ( ) {
// TODO move info that this worker needs here, send updates via a channel
// Otherwise we need to take a mutex to avoid races with update()
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var callbacks [ ] chan func ( )
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doSend := func ( bs [ ] byte ) {
var p wire_trafficPacket
var k crypto . BoxSharedKey
sessionFunc := func ( ) {
sinfo . bytesSent += uint64 ( len ( bs ) )
p = wire_trafficPacket {
Coords : append ( [ ] byte ( nil ) , sinfo . coords ... ) ,
Handle : sinfo . theirHandle ,
Nonce : sinfo . myNonce ,
}
sinfo . myNonce . Increment ( )
k = sinfo . sharedSesKey
}
// Get the mutex-protected info needed to encrypt the packet
sinfo . doFunc ( sessionFunc )
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ch := make ( chan func ( ) , 1 )
poolFunc := func ( ) {
// Encrypt the packet
p . Payload , _ = crypto . BoxSeal ( & k , bs , & p . Nonce )
packet := p . encode ( )
// Cleanup
util . PutBytes ( bs )
util . PutBytes ( p . Payload )
// The callback will send the packet
callback := func ( ) { sinfo . core . router . out ( packet ) }
ch <- callback
}
// Send to the worker and wait for it to finish
util . WorkerGo ( poolFunc )
callbacks = append ( callbacks , ch )
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}
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for {
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for len ( callbacks ) > 0 {
select {
case f := <- callbacks [ 0 ] :
callbacks = callbacks [ 1 : ]
f ( )
case <- sinfo . cancel . Finished ( ) :
return
case bs := <- sinfo . send :
doSend ( bs )
}
}
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select {
case <- sinfo . cancel . Finished ( ) :
return
case bs := <- sinfo . send :
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doSend ( bs )
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}
}
}