package wrapper import ( "bytes" "context" "errors" "io" "net" "syscall" "github.com/go-gost/core/limiter" "github.com/go-gost/core/limiter/traffic" "github.com/go-gost/core/metadata" xnet "github.com/go-gost/x/internal/net" "github.com/go-gost/x/internal/net/udp" ) var ( errUnsupport = errors.New("unsupported operation") ) // limitConn is a Conn with traffic limiter supported. type limitConn struct { net.Conn rbuf bytes.Buffer limiter traffic.TrafficLimiter opts []limiter.Option key string } func WrapConn(c net.Conn, tlimiter traffic.TrafficLimiter, key string, opts ...limiter.Option) net.Conn { if tlimiter == nil { return c } return &limitConn{ Conn: c, limiter: tlimiter, opts: opts, key: key, } } func (c *limitConn) Read(b []byte) (n int, err error) { limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return c.Conn.Read(b) } if c.rbuf.Len() > 0 { burst := len(b) if c.rbuf.Len() < burst { burst = c.rbuf.Len() } lim := limiter.Wait(context.Background(), burst) return c.rbuf.Read(b[:lim]) } nn, err := c.Conn.Read(b) if err != nil { return nn, err } n = limiter.Wait(context.Background(), nn) if n < nn { if _, err = c.rbuf.Write(b[n:nn]); err != nil { return 0, err } } return } func (c *limitConn) Write(b []byte) (n int, err error) { limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return c.Conn.Write(b) } nn := 0 for len(b) > 0 { nn, err = c.Conn.Write(b[:limiter.Wait(context.Background(), len(b))]) n += nn if err != nil { return } b = b[nn:] } return } func (c *limitConn) SyscallConn() (rc syscall.RawConn, err error) { if sc, ok := c.Conn.(syscall.Conn); ok { rc, err = sc.SyscallConn() return } err = errUnsupport return } func (c *limitConn) Metadata() metadata.Metadata { if md, ok := c.Conn.(metadata.Metadatable); ok { return md.Metadata() } return nil } func (c *limitConn) ClientAddr() net.Addr { if sc, ok := c.Conn.(xnet.ClientAddr); ok { return sc.ClientAddr() } return nil } type packetConn struct { net.PacketConn limiter traffic.TrafficLimiter opts []limiter.Option key string } func WrapPacketConn(pc net.PacketConn, lim traffic.TrafficLimiter, key string, opts ...limiter.Option) net.PacketConn { if lim == nil { return pc } return &packetConn{ PacketConn: pc, limiter: lim, opts: opts, key: key, } } func (c *packetConn) ReadFrom(p []byte) (n int, addr net.Addr, err error) { for { n, addr, err = c.PacketConn.ReadFrom(p) if err != nil { return } limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return } // discard when exceed the limit size. if limiter.Wait(context.Background(), n) < n { continue } return } } func (c *packetConn) WriteTo(p []byte, addr net.Addr) (n int, err error) { // discard when exceed the limit size. limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter != nil && limiter.Limit() > 0 && limiter.Wait(context.Background(), len(p)) < len(p) { n = len(p) return } return c.PacketConn.WriteTo(p, addr) } func (c *packetConn) Metadata() metadata.Metadata { if md, ok := c.PacketConn.(metadata.Metadatable); ok { return md.Metadata() } return nil } type udpConn struct { net.PacketConn limiter traffic.TrafficLimiter opts []limiter.Option key string } func WrapUDPConn(pc net.PacketConn, limiter traffic.TrafficLimiter, key string, opts ...limiter.Option) udp.Conn { return &udpConn{ PacketConn: pc, limiter: limiter, opts: opts, key: key, } } func (c *udpConn) RemoteAddr() net.Addr { if nc, ok := c.PacketConn.(xnet.RemoteAddr); ok { return nc.RemoteAddr() } return nil } func (c *udpConn) SetReadBuffer(n int) error { if nc, ok := c.PacketConn.(xnet.SetBuffer); ok { return nc.SetReadBuffer(n) } return errUnsupport } func (c *udpConn) SetWriteBuffer(n int) error { if nc, ok := c.PacketConn.(xnet.SetBuffer); ok { return nc.SetWriteBuffer(n) } return errUnsupport } func (c *udpConn) Read(b []byte) (n int, err error) { nc, ok := c.PacketConn.(io.Reader) if !ok { err = errUnsupport return } for { n, err = nc.Read(b) if err != nil { return } if c.limiter == nil { return } limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return } // discard when exceed the limit size. if limiter.Wait(context.Background(), n) < n { continue } return } } func (c *udpConn) ReadFrom(p []byte) (n int, addr net.Addr, err error) { for { n, addr, err = c.PacketConn.ReadFrom(p) if err != nil { return } if c.limiter == nil { return } limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return } // discard when exceed the limit size. if limiter.Wait(context.Background(), n) < n { continue } return } } func (c *udpConn) ReadFromUDP(b []byte) (n int, addr *net.UDPAddr, err error) { nc, ok := c.PacketConn.(udp.ReadUDP) if !ok { err = errUnsupport return } for { n, addr, err = nc.ReadFromUDP(b) if err != nil { return } if c.limiter == nil { return } limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return } // discard when exceed the limit size. if limiter.Wait(context.Background(), n) < n { continue } return } } func (c *udpConn) ReadMsgUDP(b, oob []byte) (n, oobn, flags int, addr *net.UDPAddr, err error) { nc, ok := c.PacketConn.(udp.ReadUDP) if !ok { err = errUnsupport return } for { n, oobn, flags, addr, err = nc.ReadMsgUDP(b, oob) if err != nil { return } if c.limiter == nil { return } limiter := c.limiter.In(context.Background(), c.key, c.opts...) if limiter == nil || limiter.Limit() <= 0 { return } // discard when exceed the limit size. if limiter.Wait(context.Background(), n) < n { continue } return } } func (c *udpConn) Write(p []byte) (n int, err error) { nc, ok := c.PacketConn.(io.Writer) if !ok { err = errUnsupport return } if c.limiter != nil { // discard when exceed the limit size. limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter != nil && limiter.Limit() > 0 && limiter.Wait(context.Background(), len(p)) < len(p) { n = len(p) return } } n, err = nc.Write(p) return } func (c *udpConn) WriteTo(p []byte, addr net.Addr) (n int, err error) { if c.limiter != nil { // discard when exceed the limit size. limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter != nil && limiter.Limit() > 0 && limiter.Wait(context.Background(), len(p)) < len(p) { n = len(p) return } } n, err = c.PacketConn.WriteTo(p, addr) return } func (c *udpConn) WriteToUDP(p []byte, addr *net.UDPAddr) (n int, err error) { nc, ok := c.PacketConn.(udp.WriteUDP) if !ok { err = errUnsupport return } if c.limiter != nil { // discard when exceed the limit size. limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter != nil && limiter.Limit() > 0 && limiter.Wait(context.Background(), len(p)) < len(p) { n = len(p) return } } n, err = nc.WriteToUDP(p, addr) return } func (c *udpConn) WriteMsgUDP(p, oob []byte, addr *net.UDPAddr) (n, oobn int, err error) { nc, ok := c.PacketConn.(udp.WriteUDP) if !ok { err = errUnsupport return } if c.limiter != nil { // discard when exceed the limit size. limiter := c.limiter.Out(context.Background(), c.key, c.opts...) if limiter != nil && limiter.Limit() > 0 && limiter.Wait(context.Background(), len(p)) < len(p) { n = len(p) return } } n, oobn, err = nc.WriteMsgUDP(p, oob, addr) return } func (c *udpConn) SyscallConn() (rc syscall.RawConn, err error) { if nc, ok := c.PacketConn.(xnet.SyscallConn); ok { return nc.SyscallConn() } err = errUnsupport return } func (c *udpConn) SetDSCP(n int) error { if nc, ok := c.PacketConn.(xnet.SetDSCP); ok { return nc.SetDSCP(n) } return nil } func (c *udpConn) Metadata() metadata.Metadata { if md, ok := c.PacketConn.(metadata.Metadatable); ok { return md.Metadata() } return nil }