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Separate peers.go file with improved documentation and more solid interfaces

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This commit is contained in:
Serene Han 2016-06-11 18:24:08 -07:00
parent 556596cc5a
commit c63f5cfc0a
5 changed files with 186 additions and 120 deletions
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94
client/client_test.go
View file

@ -9,7 +9,6 @@ import (
"strings" "strings"
"testing" "testing"
// "git.torproject.org/pluggable-transports/goptlib.git"
"github.com/keroserene/go-webrtc" "github.com/keroserene/go-webrtc"
. "github.com/smartystreets/goconvey/convey" . "github.com/smartystreets/goconvey/convey"
) )
@ -24,9 +23,7 @@ func (m *MockDataChannel) Send(data []byte) {
m.done <- true m.done <- true
} }
func (*MockDataChannel) Close() error { func (*MockDataChannel) Close() error { return nil }
return nil
}
type MockResponse struct{} type MockResponse struct{}
@ -34,13 +31,9 @@ func (m *MockResponse) Read(p []byte) (int, error) {
p = []byte(`{"type":"answer","sdp":"fake"}`) p = []byte(`{"type":"answer","sdp":"fake"}`)
return 0, nil return 0, nil
} }
func (m *MockResponse) Close() error { func (m *MockResponse) Close() error { return nil }
return nil
}
type MockTransport struct { type MockTransport struct{ statusOverride int }
statusOverride int
}
// Just returns a response with fake SDP answer. // Just returns a response with fake SDP answer.
func (m *MockTransport) RoundTrip(req *http.Request) (*http.Response, error) { func (m *MockTransport) RoundTrip(req *http.Request) (*http.Response, error) {
@ -68,28 +61,17 @@ func (f FakeSocksConn) Reject() error {
f.rejected = true f.rejected = true
return nil return nil
} }
func (f FakeSocksConn) Grant(addr *net.TCPAddr) error { func (f FakeSocksConn) Grant(addr *net.TCPAddr) error { return nil }
return nil
}
type FakeSnowflakeJar struct { type FakePeers struct{ toRelease *webRTCConn }
toRelease *webRTCConn
}
func (f FakeSnowflakeJar) Release() *webRTCConn { func (f FakePeers) Collect() error { return nil }
return nil func (f FakePeers) Pop() *webRTCConn { return nil }
}
func (f FakeSnowflakeJar) Collect() (*webRTCConn, error) {
return nil, nil
}
func TestSnowflakeClient(t *testing.T) { func TestSnowflakeClient(t *testing.T) {
SkipConvey("WebRTC ConnectLoop", t, func() {
Convey("WebRTC ConnectLoop", t, func() {
Convey("WebRTC ConnectLoop continues until capacity of 1.\n", func() { Convey("WebRTC ConnectLoop continues until capacity of 1.\n", func() {
snowflakes := NewSnowflakeJar(1) snowflakes := NewPeers(1)
snowflakes.Tongue = FakeDialer{} snowflakes.Tongue = FakeDialer{}
go ConnectLoop(snowflakes) go ConnectLoop(snowflakes)
@ -102,7 +84,7 @@ func TestSnowflakeClient(t *testing.T) {
}) })
Convey("WebRTC ConnectLoop continues until capacity of 3.\n", func() { Convey("WebRTC ConnectLoop continues until capacity of 3.\n", func() {
snowflakes := NewSnowflakeJar(3) snowflakes := NewPeers(3)
snowflakes.Tongue = FakeDialer{} snowflakes.Tongue = FakeDialer{}
go ConnectLoop(snowflakes) go ConnectLoop(snowflakes)
@ -115,7 +97,7 @@ func TestSnowflakeClient(t *testing.T) {
}) })
Convey("WebRTC ConnectLoop continues filling when Snowflakes disconnect.\n", func() { Convey("WebRTC ConnectLoop continues filling when Snowflakes disconnect.\n", func() {
snowflakes := NewSnowflakeJar(3) snowflakes := NewPeers(3)
snowflakes.Tongue = FakeDialer{} snowflakes.Tongue = FakeDialer{}
go ConnectLoop(snowflakes) go ConnectLoop(snowflakes)
@ -135,17 +117,67 @@ func TestSnowflakeClient(t *testing.T) {
}) })
}) })
Convey("Peers", t, func() {
Convey("Can construct", func() {
p := NewPeers(1)
So(p.capacity, ShouldEqual, 1)
So(p.current, ShouldEqual, nil)
So(p.snowflakeChan, ShouldNotBeNil)
So(cap(p.snowflakeChan), ShouldEqual, 1)
})
Convey("Collecting a Snowflake requires a Tongue.", func() {
p := NewPeers(1)
err := p.Collect()
So(err, ShouldNotBeNil)
So(p.Count(), ShouldEqual, 0)
// Set the dialer so that collection is possible.
p.Tongue = FakeDialer{}
err = p.Collect()
So(err, ShouldBeNil)
So(p.Count(), ShouldEqual, 1)
// S
err = p.Collect()
})
Convey("Collection continues until capacity.", func() {
c := 5
p := NewPeers(c)
p.Tongue = FakeDialer{}
// Fill up to capacity.
for i := 0 ; i < c ; i++ {
fmt.Println("Adding snowflake ", i)
err := p.Collect()
So(err, ShouldBeNil)
So(p.Count(), ShouldEqual, i + 1)
}
// But adding another gives an error.
So(p.Count(), ShouldEqual, c)
err := p.Collect()
So(err, ShouldNotBeNil)
So(p.Count(), ShouldEqual, c)
// But popping allows it to continue.
s := p.Pop()
So(s, ShouldNotBeNil)
So(p.Count(), ShouldEqual, c)
// err = p.Collect()
// So(err, ShouldNotBeNil)
// So(p.Count(), ShouldEqual, c)
})
})
Convey("Snowflake", t, func() { Convey("Snowflake", t, func() {
SkipConvey("Handler Grants correctly", func() { SkipConvey("Handler Grants correctly", func() {
socks := &FakeSocksConn{} socks := &FakeSocksConn{}
snowflakes := &FakeSnowflakeJar{} snowflakes := &FakePeers{}
So(socks.rejected, ShouldEqual, false) So(socks.rejected, ShouldEqual, false)
snowflakes.toRelease = nil snowflakes.toRelease = nil
handler(socks, snowflakes) handler(socks, snowflakes)
So(socks.rejected, ShouldEqual, true) So(socks.rejected, ShouldEqual, true)
}) })
Convey("WebRTC Connection", func() { Convey("WebRTC Connection", func() {

28
client/interfaces.go
View file

@ -1,30 +1,36 @@
// In the Client context, "Snowflake" refers to a remote browser proxy.
package main package main
import ( import (
"net" "net"
) )
// Interface for collecting and releasing snowflakes. // Interface for catching Snowflakes. (aka the remote dialer)
type SnowflakeCollector interface {
Collect() (*webRTCConn, error)
Release() *webRTCConn
}
// Interface for catching those wild Snowflakes.
type Tongue interface { type Tongue interface {
Catch() (*webRTCConn, error) Catch() (*webRTCConn, error)
} }
// Interface which primarily adapts to goptlib's SocksConn struct. // Interface for collecting some number of Snowflakes, for passing along
// ultimately to the SOCKS handler.
type SnowflakeCollector interface {
// Add a Snowflake to the collection.
// Implementation should decide how to connect and maintain the webRTCConn.
Collect() error
// Remove and return the most available Snowflake from the collection.
Pop() *webRTCConn
}
// Interface to adapt to goptlib's SocksConn struct.
type SocksConnector interface { type SocksConnector interface {
Grant(*net.TCPAddr) error Grant(*net.TCPAddr) error
Reject() error Reject() error
net.Conn net.Conn
} }
// Interface for the Snowflake's transport. // Interface for the Snowflake's transport. (Typically just webrtc.DataChannel)
// (Specifically, webrtc.DataChannel) type SnowflakeDataChannel interface {
type SnowflakeChannel interface {
Send([]byte) Send([]byte)
Close() error Close() error
} }

91
client/peers.go Normal file
View file

@ -0,0 +1,91 @@
package main
import (
"errors"
"fmt"
"log"
)
// Container which keeps track of multiple WebRTC remote peers.
// Implements |SnowflakeCollector|.
//
// Maintaining a set of pre-connected Peers with fresh but inactive datachannels
// allows allows rapid recovery when the current WebRTC Peer disconnects.
//
// Note: For now, only one remote can be active at any given moment.
// This is a property of Tor circuits & its current multiplexing constraints,
// but could be updated if that changes.
// (Also, this constraint does not necessarily apply to the more generic PT
// version of Snowflake)
type Peers struct {
Tongue
BytesLogger
snowflakeChan chan *webRTCConn
current *webRTCConn
capacity int
// TODO: Probably not necessary.
maxedChan chan struct{}
}
// Construct a fresh container of remote peers.
func NewPeers(max int) *Peers {
p := &Peers{capacity: max, current: nil}
// Use buffered go channel to pass new snowflakes onwards to the SOCKS handler.
p.snowflakeChan = make(chan *webRTCConn, max)
p.maxedChan = make(chan struct{}, 1)
return p
}
// TODO: Needs fixing.
func (p *Peers) Count() int {
count := 0
if p.current != nil {
count = 1
}
return count + len(p.snowflakeChan)
}
// As part of |SnowflakeCollector| interface.
func (p *Peers) Collect() error {
if p.Count() >= p.capacity {
s := fmt.Sprintf("At capacity [%d/%d]", p.Count(), p.capacity)
p.maxedChan <- struct{}{}
return errors.New(s)
}
// Engage the Snowflake Catching interface, which must be available.
if nil == p.Tongue {
return errors.New("Missing Tongue to catch Snowflakes with.")
}
connection, err := p.Tongue.Catch()
if nil == connection || nil != err {
return err
}
// Use the same rate-limited traffic logger to keep consistency.
connection.BytesLogger = p.BytesLogger
p.snowflakeChan <- connection
return nil
}
// As part of |SnowflakeCollector| interface.
func (p *Peers) Pop() *webRTCConn {
// Blocks until an available snowflake appears.
snowflake, ok := <-p.snowflakeChan
if !ok {
return nil
}
p.current = snowflake
snowflake.BytesLogger = p.BytesLogger
return snowflake
}
// Close all remote peers.
func (p *Peers) End() {
log.Printf("WebRTC: interruped")
if nil != p.current {
p.current.Close()
}
for r := range p.snowflakeChan {
r.Close()
}
}

83
client/snowflake.go
View file

@ -1,12 +1,10 @@
// Client transport plugin for the Snowflake pluggable transport. // Client transport plugin for the Snowflake pluggable transport.
// In the Client context, "Snowflake" refers to a remote browser proxy.
package main package main
import ( import (
"bufio" "bufio"
"errors" "errors"
"flag" "flag"
"fmt"
"io" "io"
"log" "log"
"net" "net"
@ -50,81 +48,12 @@ func copyLoop(a, b net.Conn) {
log.Println("copy loop ended") log.Println("copy loop ended")
} }
// Collect and track available snowflakes. (Implements SnowflakeCollector)
// Right now, it is only possible to use one active remote in a circuit.
// This can be updated once multiplexed transport on a single circuit is available.
// Keeping multiple WebRTC connections available allows for quicker recovery when
// the current snowflake disconnects.
type SnowflakeJar struct {
Tongue
BytesLogger
snowflakeChan chan *webRTCConn
current *webRTCConn
capacity int
maxedChan chan struct{}
}
func NewSnowflakeJar(max int) *SnowflakeJar {
p := &SnowflakeJar{capacity: max}
p.snowflakeChan = make(chan *webRTCConn, max)
p.maxedChan = make(chan struct{}, 1)
return p
}
// Establish connection to some remote WebRTC peer, and keep it available for
// later.
func (jar *SnowflakeJar) Collect() (*webRTCConn, error) {
if jar.Count() >= jar.capacity {
s := fmt.Sprintf("At capacity [%d/%d]", jar.Count(), jar.capacity)
jar.maxedChan <- struct{}{}
return nil, errors.New(s)
}
snowflake, err := jar.Catch()
if err != nil {
return nil, err
}
jar.snowflakeChan <- snowflake
return snowflake, nil
}
// Prepare and present an available remote WebRTC peer for active use.
func (jar *SnowflakeJar) Release() *webRTCConn {
snowflake, ok := <-jar.snowflakeChan
if !ok {
return nil
}
jar.current = snowflake
snowflake.BytesLogger = jar.BytesLogger
return snowflake
}
// TODO: Needs fixing.
func (p *SnowflakeJar) Count() int {
count := 0
if p.current != nil {
count = 1
}
return count + len(p.snowflakeChan)
}
// Close all remote peers.
func (p *SnowflakeJar) End() {
log.Printf("WebRTC: interruped")
if nil != p.current {
p.current.Close()
}
for r := range p.snowflakeChan {
r.Close()
}
}
// Maintain |SnowflakeCapacity| number of available WebRTC connections, to // Maintain |SnowflakeCapacity| number of available WebRTC connections, to
// transfer to the Tor SOCKS handler when needed. // transfer to the Tor SOCKS handler when needed.
func ConnectLoop(snowflakes SnowflakeCollector) { func ConnectLoop(snowflakes SnowflakeCollector) {
for { for {
s, err := snowflakes.Collect() err := snowflakes.Collect()
if nil == s || nil != err { if nil != err {
log.Println("WebRTC Error:", err, log.Println("WebRTC Error:", err,
" Retrying in", ReconnectTimeout, "seconds...") " Retrying in", ReconnectTimeout, "seconds...")
// Failed collections get a timeout. // Failed collections get a timeout.
@ -163,8 +92,8 @@ func handler(socks SocksConnector, snowflakes SnowflakeCollector) error {
defer func() { defer func() {
handlerChan <- -1 handlerChan <- -1
}() }()
// Wait for an available WebRTC remote... // Obtain an available WebRTC remote. May block.
snowflake := snowflakes.Release() snowflake := snowflakes.Pop()
if nil == snowflake { if nil == snowflake {
socks.Reject() socks.Reject()
return errors.New("handler: Received invalid Snowflake") return errors.New("handler: Received invalid Snowflake")
@ -247,10 +176,10 @@ func main() {
// Prepare WebRTC SnowflakeCollector and the Broker, then accumulate connections. // Prepare WebRTC SnowflakeCollector and the Broker, then accumulate connections.
// TODO: Expose remote peer capacity as a flag? // TODO: Expose remote peer capacity as a flag?
snowflakes := NewSnowflakeJar(SnowflakeCapacity) snowflakes := NewPeers(SnowflakeCapacity)
broker := NewBrokerChannel(brokerURL, frontDomain, CreateBrokerTransport()) broker := NewBrokerChannel(brokerURL, frontDomain, CreateBrokerTransport())
snowflakes.Tongue = WebRTCDialer{broker} snowflakes.Tongue = NewWebRTCDialer(broker)
// Use a real logger for traffic. // Use a real logger for traffic.
snowflakes.BytesLogger = &BytesSyncLogger{ snowflakes.BytesLogger = &BytesSyncLogger{

10
client/webrtc.go
View file

@ -14,6 +14,14 @@ import (
// Implements the |Tongue| interface to catch snowflakes, using a BrokerChannel. // Implements the |Tongue| interface to catch snowflakes, using a BrokerChannel.
type WebRTCDialer struct { type WebRTCDialer struct {
*BrokerChannel *BrokerChannel
webrtcConfig *webrtc.Configuration
}
func NewWebRTCDialer(broker *BrokerChannel) *WebRTCDialer {
return &WebRTCDialer{
broker,
webrtc.NewConfiguration(iceServers...),
}
} }
// Initialize a WebRTC Connection by signaling through the broker. // Initialize a WebRTC Connection by signaling through the broker.
@ -33,7 +41,7 @@ func (w WebRTCDialer) Catch() (*webRTCConn, error) {
type webRTCConn struct { type webRTCConn struct {
config *webrtc.Configuration config *webrtc.Configuration
pc *webrtc.PeerConnection pc *webrtc.PeerConnection
snowflake SnowflakeChannel // Holds the WebRTC DataChannel. snowflake SnowflakeDataChannel // Holds the WebRTC DataChannel.
broker *BrokerChannel broker *BrokerChannel
offerChannel chan *webrtc.SessionDescription offerChannel chan *webrtc.SessionDescription