cloudflared-mirror/ingress/icmp_windows.go

575 lines
17 KiB
Go

//go:build windows && cgo
package ingress
/*
#include <iphlpapi.h>
#include <icmpapi.h>
*/
import "C"
import (
"context"
"encoding/binary"
"fmt"
"net/netip"
"runtime/debug"
"sync"
"syscall"
"time"
"unsafe"
"github.com/google/gopacket/layers"
"github.com/pkg/errors"
"github.com/rs/zerolog"
"go.opentelemetry.io/otel/attribute"
"golang.org/x/net/icmp"
"golang.org/x/net/ipv4"
"golang.org/x/net/ipv6"
"github.com/cloudflare/cloudflared/packet"
"github.com/cloudflare/cloudflared/tracing"
)
const (
// Value defined in https://docs.microsoft.com/en-us/windows/win32/api/winsock2/nf-winsock2-wsasocketw
AF_INET6 = 23
icmpEchoReplyCode = 0
nullParameter = uintptr(0)
)
var (
Iphlpapi = syscall.NewLazyDLL("Iphlpapi.dll")
IcmpCreateFile_proc = Iphlpapi.NewProc("IcmpCreateFile")
Icmp6CreateFile_proc = Iphlpapi.NewProc("Icmp6CreateFile")
IcmpSendEcho_proc = Iphlpapi.NewProc("IcmpSendEcho")
Icmp6SendEcho_proc = Iphlpapi.NewProc("Icmp6SendEcho2")
echoReplySize = unsafe.Sizeof(echoReply{})
echoV6ReplySize = unsafe.Sizeof(echoV6Reply{})
icmpv6ErrMessageSize = 8
ioStatusBlockSize = unsafe.Sizeof(ioStatusBlock{})
endian = binary.LittleEndian
)
// IP_STATUS code, see https://docs.microsoft.com/en-us/windows/win32/api/ipexport/ns-ipexport-icmp_echo_reply32#members
// for possible values
type ipStatus uint32
const (
success ipStatus = 0
bufTooSmall = iota + 11000
destNetUnreachable
destHostUnreachable
destProtocolUnreachable
destPortUnreachable
noResources
badOption
hwError
packetTooBig
reqTimedOut
badReq
badRoute
ttlExpiredTransit
ttlExpiredReassembly
paramProblem
sourceQuench
optionTooBig
badDestination
// Can be returned for malformed ICMP packets
generalFailure = 11050
)
// Additional IP_STATUS codes for ICMPv6 https://docs.microsoft.com/en-us/windows/win32/api/ipexport/ns-ipexport-icmpv6_echo_reply_lh#members
const (
ipv6DestUnreachable ipStatus = iota + 11040
ipv6TimeExceeded
ipv6BadHeader
ipv6UnrecognizedNextHeader
ipv6ICMPError
ipv6DestScopeMismatch
)
func (is ipStatus) String() string {
switch is {
case success:
return "Success"
case bufTooSmall:
return "The reply buffer too small"
case destNetUnreachable:
return "The destination network was unreachable"
case destHostUnreachable:
return "The destination host was unreachable"
case destProtocolUnreachable:
return "The destination protocol was unreachable"
case destPortUnreachable:
return "The destination port was unreachable"
case noResources:
return "Insufficient IP resources were available"
case badOption:
return "A bad IP option was specified"
case hwError:
return "A hardware error occurred"
case packetTooBig:
return "The packet was too big"
case reqTimedOut:
return "The request timed out"
case badReq:
return "Bad request"
case badRoute:
return "Bad route"
case ttlExpiredTransit:
return "The TTL expired in transit"
case ttlExpiredReassembly:
return "The TTL expired during fragment reassembly"
case paramProblem:
return "A parameter problem"
case sourceQuench:
return "Datagrams are arriving too fast to be processed and datagrams may have been discarded"
case optionTooBig:
return "The IP option was too big"
case badDestination:
return "Bad destination"
case ipv6DestUnreachable:
return "IPv6 destination unreachable"
case ipv6TimeExceeded:
return "IPv6 time exceeded"
case ipv6BadHeader:
return "IPv6 bad IP header"
case ipv6UnrecognizedNextHeader:
return "IPv6 unrecognized next header"
case ipv6ICMPError:
return "IPv6 ICMP error"
case ipv6DestScopeMismatch:
return "IPv6 destination scope ID mismatch"
case generalFailure:
return "The ICMP packet might be malformed"
default:
return fmt.Sprintf("Unknown ip status %d", is)
}
}
// https://docs.microsoft.com/en-us/windows/win32/api/ipexport/ns-ipexport-ip_option_information
type ipOption struct {
TTL uint8
Tos uint8
Flags uint8
OptionsSize uint8
OptionsData uintptr
}
// https://docs.microsoft.com/en-us/windows/win32/api/ipexport/ns-ipexport-icmp_echo_reply
type echoReply struct {
Address uint32
Status ipStatus
RoundTripTime uint32
DataSize uint16
Reserved uint16
// The pointer size defers between 32-bit and 64-bit platforms
DataPointer *byte
Options ipOption
}
type echoV6Reply struct {
Address ipv6AddrEx
Status ipStatus
RoundTripTime uint32
}
// https://docs.microsoft.com/en-us/windows/win32/api/ipexport/ns-ipexport-ipv6_address_ex
// All the fields are in network byte order. The memory alignment is 4 bytes
type ipv6AddrEx struct {
port uint16
// flowInfo is uint32. Because of field alignment, when we cast reply buffer to ipv6AddrEx, it starts at the 5th byte
// But looking at the raw bytes, flowInfo starts at the 3rd byte. We device flowInfo into 2 uint16 so it's aligned
flowInfoUpper uint16
flowInfoLower uint16
addr [8]uint16
scopeID uint32
}
// https://docs.microsoft.com/en-us/windows/win32/winsock/sockaddr-2
type sockAddrIn6 struct {
family int16
// Can't embed ipv6AddrEx, that changes the memory alignment
port uint16
flowInfo uint32
addr [16]byte
scopeID uint32
}
func newSockAddrIn6(addr netip.Addr) (*sockAddrIn6, error) {
if !addr.Is6() {
return nil, fmt.Errorf("%s is not IPv6", addr)
}
return &sockAddrIn6{
family: AF_INET6,
port: 10,
addr: addr.As16(),
}, nil
}
// https://docs.microsoft.com/en-us/windows-hardware/drivers/ddi/wdm/ns-wdm-_io_status_block#syntax
type ioStatusBlock struct {
// The first field is an union of NTSTATUS and PVOID. NTSTATUS is int32 while PVOID depends on the platform.
// We model it as uintptr whose size depends on if the platform is 32-bit or 64-bit
// https://docs.microsoft.com/en-us/openspecs/windows_protocols/ms-erref/596a1078-e883-4972-9bbc-49e60bebca55
statusOrPointer uintptr
information uintptr
}
type icmpProxy struct {
// An open handle that can send ICMP requests https://docs.microsoft.com/en-us/windows/win32/api/icmpapi/nf-icmpapi-icmpcreatefile
handle uintptr
// This is a ICMPv6 if srcSocketAddr is not nil
srcSocketAddr *sockAddrIn6
logger *zerolog.Logger
// A pool of reusable *packet.Encoder
encoderPool sync.Pool
}
func newICMPProxy(listenIP netip.Addr, logger *zerolog.Logger, idleTimeout time.Duration) (*icmpProxy, error) {
var (
srcSocketAddr *sockAddrIn6
handle uintptr
err error
)
if listenIP.Is4() {
handle, _, err = IcmpCreateFile_proc.Call()
} else {
srcSocketAddr, err = newSockAddrIn6(listenIP)
if err != nil {
return nil, err
}
handle, _, err = Icmp6CreateFile_proc.Call()
}
// Windows procedure calls always return non-nil error constructed from the result of GetLastError.
// Caller need to inspect the primary returned value
if syscall.Handle(handle) == syscall.InvalidHandle {
return nil, errors.Wrap(err, "invalid ICMP handle")
}
return &icmpProxy{
handle: handle,
srcSocketAddr: srcSocketAddr,
logger: logger,
encoderPool: sync.Pool{
New: func() any {
return packet.NewEncoder()
},
},
}, nil
}
func (ip *icmpProxy) Serve(ctx context.Context) error {
<-ctx.Done()
syscall.CloseHandle(syscall.Handle(ip.handle))
return ctx.Err()
}
// Request sends an ICMP echo request and wait for a reply or timeout.
// The async version of Win32 APIs take a callback whose memory is not garbage collected, so we use the synchronous version.
// It's possible that a slow request will block other requests, so we set the timeout to only 1s.
func (ip *icmpProxy) Request(ctx context.Context, pk *packet.ICMP, responder ICMPResponder) error {
defer func() {
if r := recover(); r != nil {
ip.logger.Error().Interface("error", r).Msgf("Recover panic from sending icmp request/response, error %s", debug.Stack())
}
}()
_, requestSpan := responder.RequestSpan(ctx, pk)
defer responder.ExportSpan()
echo, err := getICMPEcho(pk.Message)
if err != nil {
return err
}
observeICMPRequest(ip.logger, requestSpan, pk.Src.String(), pk.Dst.String(), echo.ID, echo.Seq)
resp, err := ip.icmpEchoRoundtrip(pk.Dst, echo)
if err != nil {
ip.logger.Err(err).Msg("ICMP echo roundtrip failed")
tracing.EndWithErrorStatus(requestSpan, err)
return err
}
tracing.End(requestSpan)
responder.ExportSpan()
_, replySpan := responder.ReplySpan(ctx, ip.logger)
err = ip.handleEchoReply(pk, echo, resp, responder)
if err != nil {
ip.logger.Err(err).Msg("Failed to send ICMP reply")
tracing.EndWithErrorStatus(replySpan, err)
return errors.Wrap(err, "failed to handle ICMP echo reply")
}
observeICMPReply(ip.logger, replySpan, pk.Dst.String(), echo.ID, echo.Seq)
replySpan.SetAttributes(
attribute.Int64("rtt", int64(resp.rtt())),
attribute.String("status", resp.status().String()),
)
tracing.End(replySpan)
return nil
}
func (ip *icmpProxy) handleEchoReply(request *packet.ICMP, echoReq *icmp.Echo, resp echoResp, responder ICMPResponder) error {
var replyType icmp.Type
if request.Dst.Is4() {
replyType = ipv4.ICMPTypeEchoReply
} else {
replyType = ipv6.ICMPTypeEchoReply
}
pk := packet.ICMP{
IP: &packet.IP{
Src: request.Dst,
Dst: request.Src,
Protocol: layers.IPProtocol(request.Type.Protocol()),
TTL: packet.DefaultTTL,
},
Message: &icmp.Message{
Type: replyType,
Code: icmpEchoReplyCode,
Body: &icmp.Echo{
ID: echoReq.ID,
Seq: echoReq.Seq,
Data: resp.payload(),
},
},
}
cachedEncoder := ip.encoderPool.Get()
// The encoded packet is a slice to of the encoder, so we shouldn't return the encoder back to the pool until
// the encoded packet is sent.
defer ip.encoderPool.Put(cachedEncoder)
encoder, ok := cachedEncoder.(*packet.Encoder)
if !ok {
return fmt.Errorf("encoderPool returned %T, expect *packet.Encoder", cachedEncoder)
}
serializedPacket, err := encoder.Encode(&pk)
if err != nil {
return err
}
return responder.returnPacket(serializedPacket)
}
func (ip *icmpProxy) icmpEchoRoundtrip(dst netip.Addr, echo *icmp.Echo) (echoResp, error) {
if dst.Is6() {
if ip.srcSocketAddr == nil {
return nil, fmt.Errorf("cannot send ICMPv6 using ICMPv4 proxy")
}
resp, err := ip.icmp6SendEcho(dst, echo)
if err != nil {
return nil, errors.Wrap(err, "failed to send/receive ICMPv6 echo")
}
return resp, nil
}
if ip.srcSocketAddr != nil {
return nil, fmt.Errorf("cannot send ICMPv4 using ICMPv6 proxy")
}
resp, err := ip.icmpSendEcho(dst, echo)
if err != nil {
return nil, errors.Wrap(err, "failed to send/receive ICMPv4 echo")
}
return resp, nil
}
/*
Wrapper to call https://docs.microsoft.com/en-us/windows/win32/api/icmpapi/nf-icmpapi-icmpsendecho
Parameters:
- IcmpHandle: Handle created by IcmpCreateFile
- DestinationAddress: IPv4 in the form of https://docs.microsoft.com/en-us/windows/win32/api/inaddr/ns-inaddr-in_addr#syntax
- RequestData: A pointer to echo data
- RequestSize: Number of bytes in buffer pointed by echo data
- RequestOptions: IP header options
- ReplyBuffer: A pointer to the buffer for echoReply, options and data
- ReplySize: Number of bytes allocated for ReplyBuffer
- Timeout: Timeout in milliseconds to wait for a reply
Returns:
- the number of replies in uint32 https://docs.microsoft.com/en-us/windows/win32/api/icmpapi/nf-icmpapi-icmpsendecho#return-value
To retain the reference allocated objects, conversion from pointer to uintptr must happen as arguments to the
syscall function
*/
func (ip *icmpProxy) icmpSendEcho(dst netip.Addr, echo *icmp.Echo) (*echoV4Resp, error) {
dataSize := len(echo.Data)
replySize := echoReplySize + uintptr(dataSize)
replyBuf := make([]byte, replySize)
noIPHeaderOption := nullParameter
inAddr, err := inAddrV4(dst)
if err != nil {
return nil, err
}
replyCount, _, err := IcmpSendEcho_proc.Call(
ip.handle,
uintptr(inAddr),
uintptr(unsafe.Pointer(&echo.Data[0])),
uintptr(dataSize),
noIPHeaderOption,
uintptr(unsafe.Pointer(&replyBuf[0])),
replySize,
icmpRequestTimeoutMs,
)
if replyCount == 0 {
// status is returned in 5th to 8th byte of reply buffer
if status, parseErr := unmarshalIPStatus(replyBuf[4:8]); parseErr == nil && status != success {
return nil, errors.Wrapf(err, "received ip status: %s", status)
}
return nil, errors.Wrap(err, "did not receive ICMP echo reply")
} else if replyCount > 1 {
ip.logger.Warn().Msgf("Received %d ICMP echo replies, only sending 1 back", replyCount)
}
return newEchoV4Resp(replyBuf)
}
// Third definition of https://docs.microsoft.com/en-us/windows/win32/api/inaddr/ns-inaddr-in_addr#syntax is address in uint32
func inAddrV4(ip netip.Addr) (uint32, error) {
if !ip.Is4() {
return 0, fmt.Errorf("%s is not IPv4", ip)
}
v4 := ip.As4()
return endian.Uint32(v4[:]), nil
}
type echoResp interface {
status() ipStatus
rtt() uint32
payload() []byte
}
type echoV4Resp struct {
reply *echoReply
data []byte
}
func (r *echoV4Resp) status() ipStatus {
return r.reply.Status
}
func (r *echoV4Resp) rtt() uint32 {
return r.reply.RoundTripTime
}
func (r *echoV4Resp) payload() []byte {
return r.data
}
func newEchoV4Resp(replyBuf []byte) (*echoV4Resp, error) {
if len(replyBuf) == 0 {
return nil, fmt.Errorf("reply buffer is empty")
}
// This is pattern 1 of https://pkg.go.dev/unsafe@master#Pointer, conversion of *replyBuf to *echoReply
// replyBuf size is larger than echoReply
reply := *(*echoReply)(unsafe.Pointer(&replyBuf[0]))
if reply.Status != success {
return nil, fmt.Errorf("status %d", reply.Status)
}
dataBufStart := len(replyBuf) - int(reply.DataSize)
if dataBufStart < int(echoReplySize) {
return nil, fmt.Errorf("reply buffer size %d is too small to hold data of size %d", len(replyBuf), int(reply.DataSize))
}
return &echoV4Resp{
reply: &reply,
data: replyBuf[dataBufStart:],
}, nil
}
/*
Wrapper to call https://docs.microsoft.com/en-us/windows/win32/api/icmpapi/nf-icmpapi-icmp6sendecho2
Parameters:
- IcmpHandle: Handle created by Icmp6CreateFile
- Event (optional): Event object to be signaled when a reply arrives
- ApcRoutine (optional): Routine to call when the calling thread is in an alertable thread and a reply arrives
- ApcContext (optional): Optional parameter to ApcRoutine
- SourceAddress: Source address of the request
- DestinationAddress: Destination address of the request
- RequestData: A pointer to echo data
- RequestSize: Number of bytes in buffer pointed by echo data
- RequestOptions (optional): A pointer to the IPv6 header options
- ReplyBuffer: A pointer to the buffer for echoReply, options and data
- ReplySize: Number of bytes allocated for ReplyBuffer
- Timeout: Timeout in milliseconds to wait for a reply
Returns:
- the number of replies in uint32
To retain the reference allocated objects, conversion from pointer to uintptr must happen as arguments to the
syscall function
*/
func (ip *icmpProxy) icmp6SendEcho(dst netip.Addr, echo *icmp.Echo) (*echoV6Resp, error) {
dstAddr, err := newSockAddrIn6(dst)
if err != nil {
return nil, err
}
dataSize := len(echo.Data)
// Reply buffer needs to be big enough to hold an echoV6Reply, echo data, 8 bytes for ICMP error message
// and ioStatusBlock
replySize := echoV6ReplySize + uintptr(dataSize) + uintptr(icmpv6ErrMessageSize) + ioStatusBlockSize
replyBuf := make([]byte, replySize)
noEvent := nullParameter
noApcRoutine := nullParameter
noAppCtx := nullParameter
noIPHeaderOption := nullParameter
replyCount, _, err := Icmp6SendEcho_proc.Call(
ip.handle,
noEvent,
noApcRoutine,
noAppCtx,
uintptr(unsafe.Pointer(ip.srcSocketAddr)),
uintptr(unsafe.Pointer(dstAddr)),
uintptr(unsafe.Pointer(&echo.Data[0])),
uintptr(dataSize),
noIPHeaderOption,
uintptr(unsafe.Pointer(&replyBuf[0])),
replySize,
icmpRequestTimeoutMs,
)
if replyCount == 0 {
// status is in the 4 bytes after ipv6AddrEx. The reply buffer size is at least size of ipv6AddrEx + 4
if status, parseErr := unmarshalIPStatus(replyBuf[unsafe.Sizeof(ipv6AddrEx{}) : unsafe.Sizeof(ipv6AddrEx{})+4]); parseErr == nil && status != success {
return nil, fmt.Errorf("received ip status: %s", status)
}
return nil, errors.Wrap(err, "did not receive ICMP echo reply")
} else if replyCount > 1 {
ip.logger.Warn().Msgf("Received %d ICMP echo replies, only sending 1 back", replyCount)
}
return newEchoV6Resp(replyBuf, dataSize)
}
type echoV6Resp struct {
reply *echoV6Reply
data []byte
}
func (r *echoV6Resp) status() ipStatus {
return r.reply.Status
}
func (r *echoV6Resp) rtt() uint32 {
return r.reply.RoundTripTime
}
func (r *echoV6Resp) payload() []byte {
return r.data
}
func newEchoV6Resp(replyBuf []byte, dataSize int) (*echoV6Resp, error) {
if len(replyBuf) == 0 {
return nil, fmt.Errorf("reply buffer is empty")
}
reply := *(*echoV6Reply)(unsafe.Pointer(&replyBuf[0]))
if reply.Status != success {
return nil, fmt.Errorf("status %d", reply.Status)
}
if uintptr(len(replyBuf)) < unsafe.Sizeof(reply)+uintptr(dataSize) {
return nil, fmt.Errorf("reply buffer size %d is too small to hold reply size %d + data size %d", len(replyBuf), echoV6ReplySize, dataSize)
}
return &echoV6Resp{
reply: &reply,
data: replyBuf[echoV6ReplySize : echoV6ReplySize+uintptr(dataSize)],
}, nil
}
func unmarshalIPStatus(replyBuf []byte) (ipStatus, error) {
if len(replyBuf) != 4 {
return 0, fmt.Errorf("ipStatus needs to be 4 bytes, got %d", len(replyBuf))
}
return ipStatus(endian.Uint32(replyBuf)), nil
}