Files
x/handler/forward/remote/forward.go
T
ginuerzh f8ddb193cb refactor(handler/forward/remote): split handler into 6 focused files with 41 tests
Split the 339-line handler monolith and 1169-line test blob into 11 files
(5 source + 6 test) following the handler/forward/local/ pattern.

Source files: handler.go (core), forward.go (raw forwarding),
sniffing.go (SnifferBuilder + protocol dispatch), util.go (errors +
recorder + rate limit), metadata.go (config parsing).

Fixes: add sync.Mutex for hop access (race), use sentinel errors for
errors.Is compatibility, add nil-addr guard in checkRateLimit, reuse
SnifferBuilder via Build() instead of per-call construction.
2026-05-30 16:27:20 +08:00

102 lines
2.8 KiB
Go

package remote
import (
"bytes"
"context"
"net"
"time"
"github.com/go-gost/core/chain"
"github.com/go-gost/core/hop"
"github.com/go-gost/core/logger"
xctx "github.com/go-gost/x/ctx"
ictx "github.com/go-gost/x/internal/ctx"
xnet "github.com/go-gost/x/internal/net"
"github.com/go-gost/x/internal/net/proxyproto"
mdutil "github.com/go-gost/x/metadata/util"
xrecorder "github.com/go-gost/x/recorder"
)
// handleRawForwarding performs node selection, dials the target through the
// router, and pipes the raw connection. It is used when sniffing is disabled
// or the protocol was not HTTP/TLS.
func (h *forwardHandler) handleRawForwarding(ctx context.Context, conn net.Conn, ro *xrecorder.HandlerRecorderObject, log logger.Logger, network, proto string) error {
target := h.selectTarget(ctx, proto)
if target == nil {
log.Error(errNodeNotAvailable)
return errNodeNotAvailable
}
addr := target.Addr
if opts := target.Options(); opts != nil {
switch opts.Network {
case "unix":
network = opts.Network
default:
if _, _, err := net.SplitHostPort(addr); err != nil {
addr += ":0"
}
}
}
ro.Network = network
ro.Host = addr
log = log.WithFields(map[string]any{
"node": target.Name,
"dst": addr,
"network": network,
})
log.Debugf("%s >> %s", conn.RemoteAddr(), addr)
var buf bytes.Buffer
cc, err := h.options.Router.Dial(ictx.ContextWithBuffer(ctx, &buf), network, addr)
ro.Route = buf.String()
if err != nil {
log.Error(err)
// TODO: the router itself may be failed due to the failed node in the router,
// the dead marker may be a wrong operation.
if marker := target.Marker(); marker != nil {
marker.Mark()
}
return err
}
if marker := target.Marker(); marker != nil {
marker.Reset()
}
defer cc.Close()
cc = proxyproto.WrapClientConn(
h.md.proxyProtocol,
xctx.SrcAddrFromContext(ctx),
xctx.DstAddrFromContext(ctx),
cc)
log = log.WithFields(map[string]any{"src": cc.LocalAddr().String(), "dst": cc.RemoteAddr().String()})
ro.SrcAddr = cc.LocalAddr().String()
ro.DstAddr = cc.RemoteAddr().String()
t := time.Now()
log.Infof("%s <-> %s", conn.RemoteAddr(), target.Addr)
if err := xnet.Pipe(ctx, conn, cc, xnet.WithReadTimeout(h.md.readTimeout)); err != nil {
log.Debugf("pipe: %v", err)
}
log.WithFields(map[string]any{
"duration": time.Since(t),
}).Infof("%s >-< %s", conn.RemoteAddr(), target.Addr)
return nil
}
// selectTarget picks a forwarding target, preferring the host from context
// metadata when set, then falling back to hop selection.
func (h *forwardHandler) selectTarget(ctx context.Context, proto string) *chain.Node {
if host := mdutil.GetString(ictx.MetadataFromContext(ctx), "host"); host != "" {
return &chain.Node{Addr: host}
}
if curHop := h.getHop(); curHop != nil {
return curHop.Select(ctx, hop.ProtocolSelectOption(proto))
}
return nil
}