frp/vendor/github.com/pires/go-proxyproto/header.go

// Package proxyproto implements Proxy Protocol (v1 and v2) parser and writer, as per specification:
// http://www.haproxy.org/download/1.5/doc/proxy-protocol.txt
package proxyproto

import (
	"bufio"
	"bytes"
	"errors"
	"io"
	"net"
	"time"
)

var (
	// Protocol
	SIGV1 = []byte{'\x50', '\x52', '\x4F', '\x58', '\x59'}
	SIGV2 = []byte{'\x0D', '\x0A', '\x0D', '\x0A', '\x00', '\x0D', '\x0A', '\x51', '\x55', '\x49', '\x54', '\x0A'}

	ErrCantReadProtocolVersionAndCommand    = errors.New("Can't read proxy protocol version and command")
	ErrCantReadAddressFamilyAndProtocol     = errors.New("Can't read address family or protocol")
	ErrCantReadLength                       = errors.New("Can't read length")
	ErrCantResolveSourceUnixAddress         = errors.New("Can't resolve source Unix address")
	ErrCantResolveDestinationUnixAddress    = errors.New("Can't resolve destination Unix address")
	ErrNoProxyProtocol                      = errors.New("Proxy protocol signature not present")
	ErrUnknownProxyProtocolVersion          = errors.New("Unknown proxy protocol version")
	ErrUnsupportedProtocolVersionAndCommand = errors.New("Unsupported proxy protocol version and command")
	ErrUnsupportedAddressFamilyAndProtocol  = errors.New("Unsupported address family and protocol")
	ErrInvalidLength                        = errors.New("Invalid length")
	ErrInvalidAddress                       = errors.New("Invalid address")
	ErrInvalidPortNumber                    = errors.New("Invalid port number")
)

// Header is the placeholder for proxy protocol header.
type Header struct {
	Version            byte
	Command            ProtocolVersionAndCommand
	TransportProtocol  AddressFamilyAndProtocol
	SourceAddress      net.IP
	DestinationAddress net.IP
	SourcePort         uint16
	DestinationPort    uint16
}

// EqualTo returns true if headers are equivalent, false otherwise.
func (header *Header) EqualTo(q *Header) bool {
	if header == nil || q == nil {
		return false
	}
	if header.Command.IsLocal() {
		return true
	}
	return header.TransportProtocol == q.TransportProtocol &&
		header.SourceAddress.String() == q.SourceAddress.String() &&
		header.DestinationAddress.String() == q.DestinationAddress.String() &&
		header.SourcePort == q.SourcePort &&
		header.DestinationPort == q.DestinationPort
}

// WriteTo renders a proxy protocol header in a format to write over the wire.
func (header *Header) WriteTo(w io.Writer) (int64, error) {
	switch header.Version {
	case 1:
		return header.writeVersion1(w)
	case 2:
		return header.writeVersion2(w)
	default:
		return 0, ErrUnknownProxyProtocolVersion
	}
}

// Read identifies the proxy protocol version and reads the remaining of
// the header, accordingly.
//
// If proxy protocol header signature is not present, the reader buffer remains untouched
// and is safe for reading outside of this code.
//
// If proxy protocol header signature is present but an error is raised while processing
// the remaining header, assume the reader buffer to be in a corrupt state.
// Also, this operation will block until enough bytes are available for peeking.
func Read(reader *bufio.Reader) (*Header, error) {
	// In order to improve speed for small non-PROXYed packets, take a peek at the first byte alone.
	if b1, err := reader.Peek(1); err == nil && (bytes.Equal(b1[:1], SIGV1[:1]) || bytes.Equal(b1[:1], SIGV2[:1])) {
		if signature, err := reader.Peek(5); err == nil && bytes.Equal(signature[:5], SIGV1) {
			return parseVersion1(reader)
		} else if signature, err := reader.Peek(12); err == nil && bytes.Equal(signature[:12], SIGV2) {
			return parseVersion2(reader)
		}
	}

	return nil, ErrNoProxyProtocol
}

// ReadTimeout acts as Read but takes a timeout. If that timeout is reached, it's assumed
// there's no proxy protocol header.
func ReadTimeout(reader *bufio.Reader, timeout time.Duration) (*Header, error) {
	type header struct {
		h *Header
		e error
	}
	read := make(chan *header, 1)

	go func() {
		h := &header{}
		h.h, h.e = Read(reader)
		read <- h
	}()

	timer := time.NewTimer(timeout)
	select {
	case result := <-read:
		timer.Stop()
		return result.h, result.e
	case <-timer.C:
		return nil, ErrNoProxyProtocol
	}
}
vendor: add packages 2019-04-10 10:53:45 +08:00			`// Package proxyproto implements Proxy Protocol (v1 and v2) parser and writer, as per specification:`
			`// http://www.haproxy.org/download/1.5/doc/proxy-protocol.txt`
			`package proxyproto`

			`import (`
			`"bufio"`
			`"bytes"`
			`"errors"`
			`"io"`
			`"net"`
			`"time"`
			`)`

			`var (`
			`// Protocol`
			`SIGV1 = []byte{'\x50', '\x52', '\x4F', '\x58', '\x59'}`
			`SIGV2 = []byte{'\x0D', '\x0A', '\x0D', '\x0A', '\x00', '\x0D', '\x0A', '\x51', '\x55', '\x49', '\x54', '\x0A'}`

			`ErrCantReadProtocolVersionAndCommand = errors.New("Can't read proxy protocol version and command")`
			`ErrCantReadAddressFamilyAndProtocol = errors.New("Can't read address family or protocol")`
			`ErrCantReadLength = errors.New("Can't read length")`
			`ErrCantResolveSourceUnixAddress = errors.New("Can't resolve source Unix address")`
			`ErrCantResolveDestinationUnixAddress = errors.New("Can't resolve destination Unix address")`
			`ErrNoProxyProtocol = errors.New("Proxy protocol signature not present")`
			`ErrUnknownProxyProtocolVersion = errors.New("Unknown proxy protocol version")`
			`ErrUnsupportedProtocolVersionAndCommand = errors.New("Unsupported proxy protocol version and command")`
			`ErrUnsupportedAddressFamilyAndProtocol = errors.New("Unsupported address family and protocol")`
			`ErrInvalidLength = errors.New("Invalid length")`
			`ErrInvalidAddress = errors.New("Invalid address")`
			`ErrInvalidPortNumber = errors.New("Invalid port number")`
			`)`

			`// Header is the placeholder for proxy protocol header.`
			`type Header struct {`
			`Version byte`
			`Command ProtocolVersionAndCommand`
			`TransportProtocol AddressFamilyAndProtocol`
			`SourceAddress net.IP`
			`DestinationAddress net.IP`
			`SourcePort uint16`
			`DestinationPort uint16`
			`}`

			`// EqualTo returns true if headers are equivalent, false otherwise.`
			`func (header Header) EqualTo(q Header) bool {`
			`if header == nil \|\| q == nil {`
			`return false`
			`}`
			`if header.Command.IsLocal() {`
			`return true`
			`}`
			`return header.TransportProtocol == q.TransportProtocol &&`
			`header.SourceAddress.String() == q.SourceAddress.String() &&`
			`header.DestinationAddress.String() == q.DestinationAddress.String() &&`
			`header.SourcePort == q.SourcePort &&`
			`header.DestinationPort == q.DestinationPort`
			`}`

			`// WriteTo renders a proxy protocol header in a format to write over the wire.`
			`func (header *Header) WriteTo(w io.Writer) (int64, error) {`
			`switch header.Version {`
			`case 1:`
			`return header.writeVersion1(w)`
			`case 2:`
			`return header.writeVersion2(w)`
			`default:`
			`return 0, ErrUnknownProxyProtocolVersion`
			`}`
			`}`

			`// Read identifies the proxy protocol version and reads the remaining of`
			`// the header, accordingly.`
			`//`
			`// If proxy protocol header signature is not present, the reader buffer remains untouched`
			`// and is safe for reading outside of this code.`
			`//`
			`// If proxy protocol header signature is present but an error is raised while processing`
			`// the remaining header, assume the reader buffer to be in a corrupt state.`
			`// Also, this operation will block until enough bytes are available for peeking.`
			`func Read(reader bufio.Reader) (Header, error) {`
			`// In order to improve speed for small non-PROXYed packets, take a peek at the first byte alone.`
			`if b1, err := reader.Peek(1); err == nil && (bytes.Equal(b1[:1], SIGV1[:1]) \|\| bytes.Equal(b1[:1], SIGV2[:1])) {`
			`if signature, err := reader.Peek(5); err == nil && bytes.Equal(signature[:5], SIGV1) {`
			`return parseVersion1(reader)`
			`} else if signature, err := reader.Peek(12); err == nil && bytes.Equal(signature[:12], SIGV2) {`
			`return parseVersion2(reader)`
			`}`
			`}`

			`return nil, ErrNoProxyProtocol`
			`}`

			`// ReadTimeout acts as Read but takes a timeout. If that timeout is reached, it's assumed`
			`// there's no proxy protocol header.`
			`func ReadTimeout(reader bufio.Reader, timeout time.Duration) (Header, error) {`
			`type header struct {`
			`h *Header`
			`e error`
			`}`
			`read := make(chan *header, 1)`

			`go func() {`
			`h := &header{}`
			`h.h, h.e = Read(reader)`
			`read <- h`
			`}()`

			`timer := time.NewTimer(timeout)`
			`select {`
			`case result := <-read:`
			`timer.Stop()`
			`return result.h, result.e`
			`case <-timer.C:`
			`return nil, ErrNoProxyProtocol`
			`}`
			`}`