hodu/s-peer.go

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package hodu
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import "errors"
import "fmt"
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import "io"
import "net"
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import "sync"
import "sync/atomic"
import "time"
type ServerPeerConn struct {
route *ServerRoute
conn_id uint32
cts *ClientConn
conn *net.TCPConn
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stop_chan chan bool
stop_req atomic.Bool
client_peer_status_chan chan bool
client_peer_started atomic.Bool
client_peer_stopped atomic.Bool
client_peer_eof atomic.Bool
}
func NewServerPeerConn(r *ServerRoute, c *net.TCPConn, id uint32) (*ServerPeerConn) {
var spc ServerPeerConn
spc.route = r
spc.conn = c
spc.conn_id = id
spc.stop_chan = make(chan bool, 8)
spc.stop_req.Store(false)
spc.client_peer_status_chan = make(chan bool, 8)
spc.client_peer_started.Store(false)
spc.client_peer_stopped.Store(false)
spc.client_peer_eof.Store(false)
fmt.Printf ("~~~~~~~~~~~~~~~ NEW SERVER PEER CONNECTION ADDED %p\n", &spc)
return &spc
}
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func (spc *ServerPeerConn) RunTask(wg *sync.WaitGroup) {
var pss *GuardedPacketStreamServer
var n int
var buf [4096]byte
var tmr *time.Timer
var status bool
var err error = nil
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defer wg.Done()
pss = spc.route.cts.pss
err = pss.Send(MakePeerStartedPacket(spc.route.id, spc.conn_id))
if err != nil {
// TODO: include route id and conn id in the error message
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fmt.Printf("unable to send start-pts - %s\n", err.Error())
goto done_without_stop
}
tmr = time.NewTimer(2 * time.Second) // TODO: make this configurable...
wait_for_started:
for {
select {
case status = <- spc.client_peer_status_chan:
if status {
break wait_for_started
} else {
// the socket must have been closed too.
goto done
}
case <- tmr.C:
// connection failure, not in time
tmr.Stop()
goto done
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case <- spc.stop_chan:
tmr.Stop()
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goto done
}
}
tmr.Stop()
for {
n, err = spc.conn.Read(buf[:])
if err != nil {
if errors.Is(err, io.EOF) {
if pss.Send(MakePeerEofPacket(spc.route.id, spc.conn_id)) != nil {
fmt.Printf("unable to report data - %s\n", err.Error())
goto done
}
goto wait_for_stopped
} else {
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fmt.Printf("read error - %s\n", err.Error())
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goto done
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}
}
err = pss.Send(MakePeerDataPacket(spc.route.id, spc.conn_id, buf[:n]))
if err != nil {
// TODO: include route id and conn id in the error message
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fmt.Printf("unable to send data - %s\n", err.Error())
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goto done
}
}
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wait_for_stopped:
for {
fmt.Printf ("******************* Waiting for peer Stop\n")
select {
case status = <- spc.client_peer_status_chan: // something not right... may use a different channel for closing...
goto done
case <- spc.stop_chan:
goto done
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}
}
fmt.Printf ("******************* Sending peer stopped\n")
if pss.Send(MakePeerStoppedPacket(spc.route.id, spc.conn_id)) != nil {
fmt.Printf("unable to report data - %s\n", err.Error())
goto done
}
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done:
if pss.Send(MakePeerStoppedPacket(spc.route.id, spc.conn_id)) != nil {
fmt.Printf("unable to report data - %s\n", err.Error())
// nothing much to do about the failure of sending this
}
done_without_stop:
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fmt.Printf("SPC really ending..................\n")
spc.ReqStop()
spc.route.RemoveServerPeerConn(spc)
}
func (spc *ServerPeerConn) ReqStop() {
if spc.stop_req.CompareAndSwap(false, true) {
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spc.stop_chan <- true
if spc.client_peer_started.CompareAndSwap(false, true) {
spc.client_peer_status_chan <- false
}
if spc.client_peer_stopped.CompareAndSwap(false, true) {
spc.client_peer_status_chan <- false
}
spc.conn.Close() // to abort the main Recv() loop
}
}
func (spc *ServerPeerConn) ReportEvent (event_type PACKET_KIND, event_data []byte) error {
switch event_type {
case PACKET_KIND_PEER_STARTED:
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fmt.Printf("******************* AAAAAAAAAAAAAAAAAAAaaa\n")
if spc.client_peer_started.CompareAndSwap(false, true) {
spc.client_peer_status_chan <- true
}
case PACKET_KIND_PEER_STOPPED:
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fmt.Printf("******************* BBBBBBBBBBBBBBBBBBBBBBBB\n")
// this event needs to close on the server-side peer connection.
// sending false to the client_peer_status_chan isn't good enough to break
// the Recv loop in RunTask().
spc.ReqStop()
case PACKET_KIND_PEER_EOF:
fmt.Printf("******************* BBBBBBBBBBBBBBBBBBBBBBBB CLIENT PEER EOF\n")
// the client-side peer is not supposed to send data any more
if spc.client_peer_eof.CompareAndSwap(false, true) {
spc.conn.CloseWrite()
}
case PACKET_KIND_PEER_DATA:
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fmt.Printf("******************* CCCCCCCCCCCCCCCCCCCCCCCccc\n")
if spc.client_peer_eof.Load() == false {
var err error
_, err = spc.conn.Write(event_data)
if err != nil {
// TODO: logging
fmt.Printf ("WARNING - failed to write data from %s to %s\n", spc.route.cts.caddr, spc.conn.RemoteAddr().String())
}
} else {
// protocol error. the client must not relay more data from the client-side peer after EOF.
fmt.Printf ("WARNING - broken client - redundant data from %s to %s\n", spc.route.cts.caddr, spc.conn.RemoteAddr().String())
}
default:
// ignore all other events
// TODO: produce warning in debug mode
}
return nil
}