cloudflared-mirror/connection/control.go

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package connection
import (
"context"
"fmt"
"io"
"net"
"time"
"github.com/rs/zerolog"
tunnelpogs "github.com/cloudflare/cloudflared/tunnelrpc/pogs"
)
// RPCClientFunc derives a named tunnel rpc client that can then be used to register and unregister connections.
type RPCClientFunc func(context.Context, io.ReadWriteCloser, *zerolog.Logger) NamedTunnelRPCClient
type controlStream struct {
observer *Observer
connectedFuse ConnectedFuse
namedTunnelProperties *NamedTunnelProperties
connIndex uint8
edgeAddress net.IP
protocol Protocol
newRPCClientFunc RPCClientFunc
gracefulShutdownC <-chan struct{}
gracePeriod time.Duration
stoppedGracefully bool
}
// ControlStreamHandler registers connections with origintunneld and initiates graceful shutdown.
type ControlStreamHandler interface {
// ServeControlStream handles the control plane of the transport in the current goroutine calling this
ServeControlStream(ctx context.Context, rw io.ReadWriteCloser, connOptions *tunnelpogs.ConnectionOptions, tunnelConfigGetter TunnelConfigJSONGetter) error
// IsStopped tells whether the method above has finished
IsStopped() bool
}
type TunnelConfigJSONGetter interface {
GetConfigJSON() ([]byte, error)
}
// NewControlStream returns a new instance of ControlStreamHandler
func NewControlStream(
observer *Observer,
connectedFuse ConnectedFuse,
namedTunnelConfig *NamedTunnelProperties,
connIndex uint8,
edgeAddress net.IP,
newRPCClientFunc RPCClientFunc,
gracefulShutdownC <-chan struct{},
gracePeriod time.Duration,
protocol Protocol,
) ControlStreamHandler {
if newRPCClientFunc == nil {
newRPCClientFunc = newRegistrationRPCClient
}
return &controlStream{
observer: observer,
connectedFuse: connectedFuse,
namedTunnelProperties: namedTunnelConfig,
newRPCClientFunc: newRPCClientFunc,
connIndex: connIndex,
edgeAddress: edgeAddress,
gracefulShutdownC: gracefulShutdownC,
gracePeriod: gracePeriod,
protocol: protocol,
}
}
func (c *controlStream) ServeControlStream(
ctx context.Context,
rw io.ReadWriteCloser,
connOptions *tunnelpogs.ConnectionOptions,
tunnelConfigGetter TunnelConfigJSONGetter,
) error {
rpcClient := c.newRPCClientFunc(ctx, rw, c.observer.log)
registrationDetails, err := rpcClient.RegisterConnection(ctx, c.namedTunnelProperties, connOptions, c.connIndex, c.edgeAddress, c.observer)
if err != nil {
rpcClient.Close()
return err
}
c.observer.logServerInfo(c.connIndex, registrationDetails.Location, c.edgeAddress, fmt.Sprintf("Connection %s registered with protocol: %s", registrationDetails.UUID, c.protocol))
c.observer.sendConnectedEvent(c.connIndex, c.protocol, registrationDetails.Location)
c.connectedFuse.Connected()
// if conn index is 0 and tunnel is not remotely managed, then send local ingress rules configuration
if c.connIndex == 0 && !registrationDetails.TunnelIsRemotelyManaged {
if tunnelConfig, err := tunnelConfigGetter.GetConfigJSON(); err == nil {
if err := rpcClient.SendLocalConfiguration(ctx, tunnelConfig, c.observer); err != nil {
c.observer.log.Err(err).Msg("unable to send local configuration")
}
} else {
c.observer.log.Err(err).Msg("failed to obtain current configuration")
}
}
c.waitForUnregister(ctx, rpcClient)
return nil
}
func (c *controlStream) waitForUnregister(ctx context.Context, rpcClient NamedTunnelRPCClient) {
// wait for connection termination or start of graceful shutdown
defer rpcClient.Close()
select {
case <-ctx.Done():
break
case <-c.gracefulShutdownC:
c.stoppedGracefully = true
}
c.observer.sendUnregisteringEvent(c.connIndex)
rpcClient.GracefulShutdown(ctx, c.gracePeriod)
c.observer.log.Info().Uint8(LogFieldConnIndex, c.connIndex).Msg("Unregistered tunnel connection")
}
func (c *controlStream) IsStopped() bool {
return c.stoppedGracefully
}