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tcp.go
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tcp.go
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package tcp
import (
"context"
"crypto/tls"
"crypto/x509"
"encoding/binary"
"errors"
"fmt"
"io"
"net"
"strconv"
"sync"
"syscall"
"time"
"go.aporeto.io/trireme-lib/collector"
"go.aporeto.io/trireme-lib/controller/constants"
"go.aporeto.io/trireme-lib/controller/internal/enforcer/applicationproxy/markedconn"
"go.aporeto.io/trireme-lib/controller/internal/enforcer/applicationproxy/protomux"
"go.aporeto.io/trireme-lib/controller/internal/enforcer/applicationproxy/serviceregistry"
"go.aporeto.io/trireme-lib/controller/internal/enforcer/nfqdatapath/tokenaccessor"
"go.aporeto.io/trireme-lib/controller/pkg/claimsheader"
"go.aporeto.io/trireme-lib/controller/pkg/connection"
"go.aporeto.io/trireme-lib/controller/pkg/packet"
"go.aporeto.io/trireme-lib/controller/pkg/pucontext"
"go.aporeto.io/trireme-lib/controller/pkg/secrets"
"go.aporeto.io/trireme-lib/policy"
"go.uber.org/zap"
)
const (
proxyMarkInt = 0x40 //Duplicated from supervisor/iptablesctrl refer to it
)
// Proxy maintains state for proxies connections from listen to backend.
type Proxy struct {
tokenaccessor tokenaccessor.TokenAccessor
collector collector.EventCollector
puContext string
registry *serviceregistry.Registry
certificate *tls.Certificate
ca *x509.CertPool
scrts secrets.Secrets
// List of local IP's
localIPs map[string]struct{}
sync.RWMutex
}
// proxyFlowProperties is a struct used to pass flow information up
type proxyFlowProperties struct {
SourceIP string
DestIP string
PolicyID string
ServiceID string
DestType collector.EndPointType
SourceType collector.EndPointType
SourcePort uint16
DestPort uint16
}
// NewTCPProxy creates a new instance of proxy reate a new instance of Proxy
func NewTCPProxy(
tp tokenaccessor.TokenAccessor,
c collector.EventCollector,
puContext string,
registry *serviceregistry.Registry,
certificate *tls.Certificate,
caPool *x509.CertPool,
s secrets.Secrets,
) *Proxy {
localIPs := markedconn.GetInterfaces()
return &Proxy{
collector: c,
tokenaccessor: tp,
puContext: puContext,
registry: registry,
localIPs: localIPs,
certificate: certificate,
ca: caPool,
scrts: s,
}
}
// RunNetworkServer implements enforcer.Enforcer interface
func (p *Proxy) RunNetworkServer(ctx context.Context, listener net.Listener, encrypted bool) error {
// Encryption is done transparently for TCP.
go p.serve(ctx, listener)
return nil
}
// UpdateSecrets updates the secrets of the connections.
func (p *Proxy) UpdateSecrets(cert *tls.Certificate, caPool *x509.CertPool, s secrets.Secrets, certPEM, keyPEM string) {
p.Lock()
defer p.Unlock()
p.certificate = cert
p.ca = caPool
p.scrts = s
}
func (p *Proxy) secrets() secrets.Secrets {
p.RLock()
defer p.RUnlock()
return p.scrts
}
func (p *Proxy) serve(ctx context.Context, listener net.Listener) {
for {
select {
case <-ctx.Done():
return
default:
conn, err := listener.Accept()
if err != nil {
return
}
if protoListener, ok := listener.(*protomux.ProtoListener); ok {
// Windows: we don't really need the platform-specific data map for plain tcp (we can get it from the conn).
// So just remove from the map here.
markedconn.RemovePlatformData(protoListener.Listener, conn)
}
go p.handle(ctx, conn)
}
}
}
// ShutDown shuts down the server.
func (p *Proxy) ShutDown() error {
return nil
}
// handle handles a connection
func (p *Proxy) handle(ctx context.Context, upConn net.Conn) {
defer upConn.Close() // nolint
upConnP := upConn.(*markedconn.ProxiedConnection)
ip, port := upConnP.GetOriginalDestination()
platformData := upConnP.GetPlatformData()
downConn, err := p.downConnection(ctx, ip, port, platformData)
if err != nil {
flowproperties := &proxyFlowProperties{
DestIP: ip.String(),
DestPort: uint16(port),
SourceIP: upConn.RemoteAddr().(*net.TCPAddr).IP.String(),
DestType: collector.EndPointTypeExternalIP,
SourceType: collector.EnpointTypePU,
}
puContext, perr := p.puContextFromContextID(p.puContext)
if perr != nil {
zap.L().Error("Unable to find policy context for tcp connection",
zap.String("Context", p.puContext),
zap.Error(perr))
return
}
p.reportRejectedFlow(flowproperties, puContext.ManagementID(), "default", puContext, collector.UnableToDial, nil, nil, "", "")
return
}
defer downConn.Close() // nolint
// Now let us handle the state machine for the down connection
isEncrypted, err := p.CompleteEndPointAuthorization(ip, port, upConn, downConn)
if err != nil {
zap.L().Error("Error on Authorization", zap.Error(err))
return
}
if err := p.proxyData(ctx, isEncrypted, upConn, downConn); err != nil {
zap.L().Debug("Error will proxying data", zap.Error(err))
}
}
func (p *Proxy) startEncryptedClientDataPath(ctx context.Context, isEncrypted bool, downConn net.Conn, serverConn net.Conn) error {
if isEncrypted {
p.RLock()
ca := p.ca
p.RUnlock()
tlsConn := tls.Client(downConn, &tls.Config{
InsecureSkipVerify: true,
ClientCAs: ca,
})
defer tlsConn.Close() // nolint errcheck
downConn = tlsConn
}
// TLS will automatically start negotiation on write. Nothing to do for us.
p.copyData(ctx, serverConn, downConn)
return nil
}
func (p *Proxy) startEncryptedServerDataPath(ctx context.Context, isEncrypted bool, downConn net.Conn, serverConn net.Conn) error {
if isEncrypted {
p.RLock()
if p.certificate == nil {
zap.L().Error("Trying to encrypt without a certificate - value is nil - drop connection")
p.RUnlock()
return fmt.Errorf("Failed to start encryption")
}
certs := []tls.Certificate{*p.certificate}
p.RUnlock()
tlsConn := tls.Server(serverConn.(*markedconn.ProxiedConnection).GetTCPConnection(), &tls.Config{
Certificates: certs,
})
defer tlsConn.Close() // nolint errcheck
serverConn = tlsConn
}
// TLS will automatically start negotiation on write. Nothing to for us.
p.copyData(ctx, serverConn, downConn)
return nil
}
func (p *Proxy) copyData(ctx context.Context, source, dest net.Conn) {
var wg sync.WaitGroup
wg.Add(2)
go func() {
dataprocessor(ctx, source, dest)
wg.Done()
}()
go func() {
dataprocessor(ctx, dest, source)
wg.Done()
}()
wg.Wait()
}
type readwithContext func(p []byte) (n int, err error)
func (r readwithContext) Read(p []byte) (int, error) { return r(p) }
func dataprocessor(ctx context.Context, source, dest net.Conn) { // nolint
defer func() {
switch connType := dest.(type) {
case *tls.Conn:
connType.CloseWrite() // nolint errcheck
case *net.TCPConn:
connType.CloseWrite() // nolint errcheck
case *markedconn.ProxiedConnection:
connType.GetTCPConnection().CloseWrite() // nolint errcheck
}
}()
if _, err := io.Copy(dest, readwithContext(
func(p []byte) (int, error) {
select {
case <-ctx.Done():
return 0, ctx.Err()
default:
return source.Read(p)
}
},
),
); err != nil { // nolint
logErr(err)
}
}
func (p *Proxy) proxyData(ctx context.Context, isEncrypted bool, upConn net.Conn, downConn net.Conn) error {
// If the destination is not a local IP, it means that we are processing a client connection.
if p.isLocal(upConn) {
return p.startEncryptedClientDataPath(ctx, isEncrypted, downConn, upConn)
}
return p.startEncryptedServerDataPath(ctx, isEncrypted, downConn, upConn)
}
func (p *Proxy) puContextFromContextID(puID string) (*pucontext.PUContext, error) {
sctx, err := p.registry.RetrieveServiceByID(puID)
if err != nil {
return nil, fmt.Errorf("Context not found %s", puID)
}
return sctx.PUContext, nil
}
// Initiate the downstream connection
func (p *Proxy) downConnection(ctx context.Context, ip net.IP, port int, platformData *markedconn.PlatformData) (net.Conn, error) {
raddr := &net.TCPAddr{
IP: ip,
Port: port,
}
return markedconn.DialMarkedWithContext(ctx, "tcp", raddr.String(), platformData, proxyMarkInt)
}
//StartClientAuthStateMachine -- Starts the aporeto handshake for client application
func (p *Proxy) StartClientAuthStateMachine(downIP net.IP, downPort int, downConn net.Conn) (bool, error) {
// We are running on top of TCP nothing should be lost or come out of order makes the state machines easy....
puContext, err := p.puContextFromContextID(p.puContext)
if err != nil {
return false, fmt.Errorf("Cannot find policy context: %s", err)
}
isEncrypted := false
conn := connection.NewProxyConnection()
flowproperties := &proxyFlowProperties{
DestIP: downIP.String(),
DestPort: uint16(downPort),
SourceIP: downConn.LocalAddr().(*net.TCPAddr).IP.String(),
DestType: collector.EndPointTypeExternalIP,
SourceType: collector.EnpointTypePU,
}
sourceController, destController := "", ""
defer downConn.SetDeadline(time.Time{}) // nolint errcheck
// First validate that L3 policies do not require a reject.
isEncrypted, err = p.CheckExternalNetwork(puContext, downIP, downPort, flowproperties, true)
if err != nil {
return false, err
}
for {
switch conn.GetState() {
case connection.ClientTokenSend:
// Update the outgoing connection with the secrets.
conn.Secrets = p.secrets()
if err := downConn.SetWriteDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
token, err := p.tokenaccessor.CreateSynPacketToken(puContext, &conn.Auth, claimsheader.NewClaimsHeader(), conn.Secrets)
if err != nil {
return isEncrypted, fmt.Errorf("unable to create syn token: %s", err)
}
if n, err := writeMsg(downConn, token); err != nil || n < len(token) {
return isEncrypted, fmt.Errorf("unable to send auth token: %s", err)
}
conn.SetState(connection.ClientPeerTokenReceive)
case connection.ClientPeerTokenReceive:
if err := downConn.SetReadDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
msg, err := readMsg(downConn)
if err != nil {
return false, fmt.Errorf("Failed to read peer token: %s", err)
}
claims, controller, err := p.tokenaccessor.ParsePacketToken(&conn.Auth, msg, conn.Secrets)
if err != nil || claims == nil {
p.reportRejectedFlow(flowproperties, puContext.ManagementID(), collector.DefaultEndPoint, puContext, collector.InvalidToken, nil, nil, sourceController, destController)
return false, fmt.Errorf("peer token reject because of bad claims: error: %s, claims: %v %v", err, claims, string(msg))
}
tags := claims.T.Copy()
tags.AppendKeyValue(constants.PortNumberLabelString, fmt.Sprintf("%s/%s", constants.TCPProtoString, strconv.Itoa(downPort)))
if controller != nil {
// Add the Controller to the claims
if len(controller.Controller) > 0 {
tags.AppendKeyValue(constants.ControllerLabelString, controller.Controller)
}
if !controller.SameController {
destController = controller.Controller
}
}
report, packet := puContext.SearchTxtRules(tags, false)
if packet.Action.Rejected() {
p.reportRejectedFlow(flowproperties, puContext.ManagementID(), conn.Auth.RemoteContextID, puContext, collector.PolicyDrop, report, packet, sourceController, destController)
return isEncrypted, errors.New("dropping because of reject rule on transmitter")
}
// NOTE: For backward compatibility, remove this check later
if claims.H != nil {
if claims.H.ToClaimsHeader().Encrypt() != packet.Action.Encrypted() {
// Here we report If the encrypt flag is mismatched between pus
// TODO: This will be removed once we upgrade the connection in future
puFlowProperties := flowproperties
puFlowProperties.DestType = collector.EnpointTypePU
p.reportRejectedFlow(puFlowProperties, puContext.ManagementID(), conn.Auth.RemoteContextID, puContext, collector.EncryptionMismatch, nil, nil, sourceController, destController)
return isEncrypted, errors.New("dropping because of encryption mismatch")
}
}
if packet.Action.Encrypted() {
isEncrypted = true
}
conn.SetState(connection.ClientSendSignedPair)
case connection.ClientSendSignedPair:
if err := downConn.SetWriteDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
token, err := p.tokenaccessor.CreateAckPacketToken(puContext, &conn.Auth, conn.Secrets)
if err != nil {
return isEncrypted, fmt.Errorf("unable to create ack token: %s", err)
}
if n, err := writeMsg(downConn, token); err != nil || n < len(token) {
return isEncrypted, fmt.Errorf("unable to send ack: %s", err)
}
return isEncrypted, nil
}
}
}
// StartServerAuthStateMachine -- Start the aporeto handshake for a server application
func (p *Proxy) StartServerAuthStateMachine(ip net.IP, backendport int, upConn net.Conn) (bool, error) {
pctx, err := p.registry.RetrieveExposedServiceContext(ip, backendport, "")
if err != nil {
return false, fmt.Errorf("Service not found")
}
service := pctx.Service
puContext := pctx.PUContext
isEncrypted := false
flowProperties := &proxyFlowProperties{
DestIP: ip.String(),
DestPort: uint16(backendport),
SourceIP: getIP(upConn),
ServiceID: service.ID,
DestType: collector.EnpointTypePU,
SourceType: collector.EnpointTypePU,
}
conn := connection.NewProxyConnection()
conn.SetState(connection.ServerReceivePeerToken)
sourceController, destController := "", ""
// First validate that L3 policies do not require a reject.
isEncrypted, err = p.CheckExternalNetwork(puContext, upConn.RemoteAddr().(*net.TCPAddr).IP, backendport, flowProperties, false)
if err != nil {
return false, err
}
defer upConn.SetDeadline(time.Time{}) // nolint errcheck
for {
if err := upConn.SetDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
switch conn.GetState() {
case connection.ServerReceivePeerToken:
// Update the incoming connection with the secrets.
conn.Secrets = p.secrets()
if err := upConn.SetReadDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
msg, err := readMsg(upConn)
if err != nil {
return false, fmt.Errorf("unable to receive syn token: %s", err)
}
claims, controller, err := p.tokenaccessor.ParsePacketToken(&conn.Auth, msg, conn.Secrets)
if err != nil || claims == nil {
p.reportRejectedFlow(flowProperties, collector.DefaultEndPoint, puContext.ManagementID(), puContext, collector.InvalidToken, nil, nil, sourceController, destController)
return isEncrypted, fmt.Errorf("reported rejected flow due to invalid token: %s", err)
}
tags := claims.T.Copy()
tags.AppendKeyValue(constants.PortNumberLabelString, fmt.Sprintf("%s/%s", constants.TCPProtoString, strconv.Itoa(backendport)))
if controller != nil {
// Add the controller to the claims
if len(controller.Controller) > 0 {
tags.AppendKeyValue(constants.ControllerLabelString, controller.Controller)
}
if !controller.SameController {
sourceController = controller.Controller
}
}
report, packet := puContext.SearchRcvRules(tags)
if packet.Action.Rejected() {
p.reportRejectedFlow(flowProperties, conn.Auth.RemoteContextID, puContext.ManagementID(), puContext, collector.PolicyDrop, report, packet, sourceController, destController)
return isEncrypted, fmt.Errorf("connection dropped by policy %s: ", packet.PolicyID)
}
if packet.Action.Encrypted() {
isEncrypted = true
}
conn.ReportFlowPolicy = report
conn.PacketFlowPolicy = packet
conn.SetState(connection.ServerSendToken)
case connection.ServerSendToken:
if err := upConn.SetWriteDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
claimsHeader := claimsheader.NewClaimsHeader(
claimsheader.OptionEncrypt(conn.PacketFlowPolicy.Action.Encrypted()),
)
claims, err := p.tokenaccessor.CreateSynAckPacketToken(puContext, &conn.Auth, claimsHeader, conn.Secrets)
if err != nil {
return isEncrypted, fmt.Errorf("unable to create synack token: %s", err)
}
if n, err := writeMsg(upConn, claims); err != nil || n < len(claims) {
zap.L().Error("Failed to write", zap.Error(err))
return false, fmt.Errorf("Failed to write ack: %s", err)
}
conn.SetState(connection.ServerAuthenticatePair)
case connection.ServerAuthenticatePair:
if err := upConn.SetReadDeadline(time.Now().Add(5 * time.Second)); err != nil {
return false, err
}
msg, err := readMsg(upConn)
if err != nil {
return false, fmt.Errorf("unable to receive ack token: %s", err)
}
if _, _ /*platform*/, err := p.tokenaccessor.ParseAckToken(&conn.Auth, msg, conn.Secrets); err != nil {
p.reportRejectedFlow(flowProperties, collector.DefaultEndPoint, puContext.ManagementID(), puContext, collector.InvalidFormat, nil, nil, sourceController, destController)
return isEncrypted, fmt.Errorf("ack packet dropped because signature validation failed %s", err)
}
p.reportAcceptedFlow(flowProperties, conn.Auth.RemoteContextID, puContext.ManagementID(), puContext, conn.ReportFlowPolicy, conn.PacketFlowPolicy, sourceController, destController)
return isEncrypted, nil
}
}
}
// CompleteEndPointAuthorization -- Aporeto Handshake on top of a completed connection
// We will define states here equivalent to SYN_SENT AND SYN_RECEIVED
func (p *Proxy) CompleteEndPointAuthorization(downIP net.IP, downPort int, upConn, downConn net.Conn) (bool, error) {
// If the backend is not a local IP it means that we are a client.
if p.isLocal(upConn) {
return p.StartClientAuthStateMachine(downIP, downPort, downConn)
}
isEncrypted, err := p.StartServerAuthStateMachine(downIP, downPort, upConn)
if err != nil {
return false, err
}
return isEncrypted, nil
}
// CheckExternalNetwork checks if external network access is allowed
func (p *Proxy) CheckExternalNetwork(puContext *pucontext.PUContext, IP net.IP, Port int, flowproperties *proxyFlowProperties, network bool) (bool, error) {
var networkReport *policy.FlowPolicy
var networkPolicy *policy.FlowPolicy
var noNetAccessPolicy error
if network {
networkReport, networkPolicy, noNetAccessPolicy = puContext.ApplicationACLPolicyFromAddr(IP, uint16(Port))
} else {
networkReport, networkPolicy, noNetAccessPolicy = puContext.NetworkACLPolicyFromAddr(IP, uint16(Port))
}
if noNetAccessPolicy == nil && networkPolicy.Action.Rejected() {
p.reportRejectedFlow(flowproperties, puContext.ManagementID(), networkPolicy.ServiceID, puContext, collector.PolicyDrop, networkReport, networkPolicy, "", "")
return false, fmt.Errorf("Unauthorized by Application ACLs")
}
return false, nil
}
func (p *Proxy) reportFlow(flowproperties *proxyFlowProperties, sourceID string, destID string, context *pucontext.PUContext, mode string, report *policy.FlowPolicy, actual *policy.FlowPolicy, sourceController string, destController string) {
c := &collector.FlowRecord{
ContextID: context.ID(),
Source: &collector.EndPoint{
ID: sourceID,
IP: flowproperties.SourceIP,
Port: flowproperties.SourcePort,
Type: flowproperties.SourceType,
},
Destination: &collector.EndPoint{
ID: destID,
IP: flowproperties.DestIP,
Port: flowproperties.DestPort,
Type: flowproperties.DestType,
},
Tags: context.Annotations(),
Action: actual.Action,
DropReason: mode,
PolicyID: actual.PolicyID,
L4Protocol: packet.IPProtocolTCP,
ServiceType: policy.ServiceTCP,
ServiceID: flowproperties.ServiceID,
Namespace: context.ManagementNamespace(),
SourceController: sourceController,
DestinationController: destController,
}
if report.ObserveAction.Observed() {
c.ObservedAction = report.Action
c.ObservedPolicyID = report.PolicyID
}
p.collector.CollectFlowEvent(c)
}
func (p *Proxy) reportAcceptedFlow(flowproperties *proxyFlowProperties, sourceID string, destID string, context *pucontext.PUContext, report *policy.FlowPolicy, packet *policy.FlowPolicy, sourceController string, destController string) {
p.reportFlow(flowproperties, sourceID, destID, context, "N/A", report, packet, sourceController, destController)
}
func (p *Proxy) reportRejectedFlow(flowproperties *proxyFlowProperties, sourceID string, destID string, context *pucontext.PUContext, mode string, report *policy.FlowPolicy, packet *policy.FlowPolicy, sourceController string, destController string) {
if report == nil {
report = &policy.FlowPolicy{
Action: policy.Reject,
PolicyID: "default",
}
}
if packet == nil {
packet = report
}
p.reportFlow(flowproperties, sourceID, destID, context, mode, report, packet, sourceController, destController)
}
func (p *Proxy) isLocal(conn net.Conn) bool {
host, _, err := net.SplitHostPort(conn.RemoteAddr().String())
if err != nil {
return false
}
if _, ok := p.localIPs[host]; ok {
return true
}
return false
}
func readMsg(reader io.Reader) ([]byte, error) {
lread := io.LimitReader(reader, 2)
lbuf := make([]byte, 2)
if _, err := lread.Read(lbuf); err != nil {
return nil, fmt.Errorf("Invalid length: %s", err)
}
dataLength := binary.BigEndian.Uint16(lbuf)
dread := io.LimitReader(reader, int64(dataLength))
data := make([]byte, dataLength)
if _, err := dread.Read(data); err != nil {
return nil, fmt.Errorf("Not enough data to read: %s", err)
}
return data, nil
}
func writeMsg(conn io.Writer, data []byte) (n int, err error) {
lbuf := make([]byte, 2)
binary.BigEndian.PutUint16(lbuf, uint16(len(data)))
data = append(lbuf, data...)
return conn.Write(data)
}
func logErr(err error) bool {
switch err.(type) {
case syscall.Errno:
zap.L().Error("Connection error to destination", zap.Error(err))
default:
zap.L().Error("Connection terminated", zap.Error(err))
}
return false
}
func getIP(conn net.Conn) string {
if addr, ok := conn.RemoteAddr().(*net.TCPAddr); ok {
return addr.IP.String()
}
return ""
}