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caddy/listeners.go
Matthew Holt ab720fb768
core: Fix ListenQUIC listener key conflict
Reported on commit e3e8aabbcf

Abused this change in some bash for loops to rapidly reload config
while making requests and didn't observe any memory or resource leaks.
2022-09-29 10:32:02 -06:00

716 lines
23 KiB
Go

// Copyright 2015 Matthew Holt and The Caddy Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package caddy
import (
"context"
"crypto/tls"
"errors"
"fmt"
"io"
"net"
"net/netip"
"os"
"strconv"
"strings"
"sync"
"sync/atomic"
"syscall"
"time"
"github.com/lucas-clemente/quic-go"
"github.com/lucas-clemente/quic-go/http3"
"go.uber.org/zap"
)
// NetworkAddress represents one or more network addresses.
// It contains the individual components for a parsed network
// address of the form accepted by ParseNetworkAddress().
type NetworkAddress struct {
// Should be a network value accepted by Go's net package or
// by a plugin providing a listener for that network type.
Network string
// The "main" part of the network address is the host, which
// often takes the form of a hostname, DNS name, IP address,
// or socket path.
Host string
// For addresses that contain a port, ranges are given by
// [StartPort, EndPort]; i.e. for a single port, StartPort
// and EndPort are the same. For no port, they are 0.
StartPort uint
EndPort uint
}
// ListenAll calls Listen() for all addresses represented by this struct, i.e. all ports in the range.
// (If the address doesn't use ports or has 1 port only, then only 1 listener will be created.)
// It returns an error if any listener failed to bind, and closes any listeners opened up to that point.
//
// TODO: Experimental API: subject to change or removal.
func (na NetworkAddress) ListenAll(ctx context.Context, config net.ListenConfig) ([]any, error) {
var listeners []any
var err error
// if one of the addresses has a failure, we need to close
// any that did open a socket to avoid leaking resources
defer func() {
if err == nil {
return
}
for _, ln := range listeners {
if cl, ok := ln.(io.Closer); ok {
cl.Close()
}
}
}()
// an address can contain a port range, which represents multiple addresses;
// some addresses don't use ports at all and have a port range size of 1;
// whatever the case, iterate each address represented and bind a socket
for portOffset := uint(0); portOffset < na.PortRangeSize(); portOffset++ {
select {
case <-ctx.Done():
return nil, ctx.Err()
default:
}
// create (or reuse) the listener ourselves
var ln any
ln, err = na.Listen(ctx, portOffset, config)
if err != nil {
return nil, err
}
listeners = append(listeners, ln)
}
return listeners, nil
}
// Listen is similar to net.Listen, with a few differences:
//
// Listen announces on the network address using the port calculated by adding
// portOffset to the start port. (For network types that do not use ports, the
// portOffset is ignored.)
//
// The provided ListenConfig is used to create the listener. Its Control function,
// if set, may be wrapped by an internally-used Control function. The provided
// context may be used to cancel long operations early. The context is not used
// to close the listener after it has been created.
//
// Caddy's listeners can overlap each other: multiple listeners may be created on
// the same socket at the same time. This is useful because during config changes,
// the new config is started while the old config is still running. How this is
// accomplished varies by platform and network type. For example, on Unix, SO_REUSEPORT
// is set except on Unix sockets, for which the file descriptor is duplicated and
// reused; on Windows, the close logic is virtualized using timeouts. Like normal
// listeners, be sure to Close() them when you are done.
//
// This method returns any type, as the implementations of listeners for various
// network types are not interchangeable. The type of listener returned is switched
// on the network type. Stream-based networks ("tcp", "unix", "unixpacket", etc.)
// return a net.Listener; datagram-based networks ("udp", "unixgram", etc.) return
// a net.PacketConn; and so forth. The actual concrete types are not guaranteed to
// be standard, exported types (wrapping is necessary to provide graceful reloads).
//
// Unix sockets will be unlinked before being created, to ensure we can bind to
// it even if the previous program using it exited uncleanly; it will also be
// unlinked upon a graceful exit (or when a new config does not use that socket).
//
// TODO: Experimental API: subject to change or removal.
func (na NetworkAddress) Listen(ctx context.Context, portOffset uint, config net.ListenConfig) (any, error) {
if na.IsUnixNetwork() {
unixSocketsMu.Lock()
defer unixSocketsMu.Unlock()
}
// check to see if plugin provides listener
if ln, err := getListenerFromPlugin(ctx, na.Network, na.JoinHostPort(portOffset), config); ln != nil || err != nil {
return ln, err
}
// create (or reuse) the listener ourselves
return na.listen(ctx, portOffset, config)
}
func (na NetworkAddress) listen(ctx context.Context, portOffset uint, config net.ListenConfig) (any, error) {
var ln any
var err error
address := na.JoinHostPort(portOffset)
// if this is a unix socket, see if we already have it open
if socket, err := reuseUnixSocket(na.Network, address); socket != nil || err != nil {
return socket, err
}
lnKey := listenerKey(na.Network, address)
switch na.Network {
case "tcp", "tcp4", "tcp6", "unix", "unixpacket":
ln, err = listenTCPOrUnix(ctx, lnKey, na.Network, address, config)
case "unixgram":
ln, err = config.ListenPacket(ctx, na.Network, address)
case "udp", "udp4", "udp6":
sharedPc, _, err := listenerPool.LoadOrNew(lnKey, func() (Destructor, error) {
pc, err := config.ListenPacket(ctx, na.Network, address)
if err != nil {
return nil, err
}
return &sharedPacketConn{PacketConn: pc, key: lnKey}, nil
})
if err != nil {
return nil, err
}
ln = &fakeClosePacketConn{sharedPacketConn: sharedPc.(*sharedPacketConn)}
}
if strings.HasPrefix(na.Network, "ip") {
ln, err = config.ListenPacket(ctx, na.Network, address)
}
if err != nil {
return nil, err
}
if ln == nil {
return nil, fmt.Errorf("unsupported network type: %s", na.Network)
}
// if new listener is a unix socket, make sure we can reuse it later
// (we do our own "unlink on close" -- not required, but more tidy)
one := int32(1)
switch unix := ln.(type) {
case *net.UnixListener:
unix.SetUnlinkOnClose(false)
ln = &unixListener{unix, lnKey, &one}
unixSockets[lnKey] = ln.(*unixListener)
case *net.UnixConn:
ln = &unixConn{unix, address, lnKey, &one}
unixSockets[lnKey] = ln.(*unixConn)
}
return ln, nil
}
// IsUnixNetwork returns true if na.Network is
// unix, unixgram, or unixpacket.
func (na NetworkAddress) IsUnixNetwork() bool {
return isUnixNetwork(na.Network)
}
// JoinHostPort is like net.JoinHostPort, but where the port
// is StartPort + offset.
func (na NetworkAddress) JoinHostPort(offset uint) string {
if na.IsUnixNetwork() {
return na.Host
}
return net.JoinHostPort(na.Host, strconv.Itoa(int(na.StartPort+offset)))
}
// Expand returns one NetworkAddress for each port in the port range.
//
// This is EXPERIMENTAL and subject to change or removal.
func (na NetworkAddress) Expand() []NetworkAddress {
size := na.PortRangeSize()
addrs := make([]NetworkAddress, size)
for portOffset := uint(0); portOffset < size; portOffset++ {
addrs[portOffset] = na.At(portOffset)
}
return addrs
}
// At returns a NetworkAddress with a port range of just 1
// at the given port offset; i.e. a NetworkAddress that
// represents precisely 1 address only.
func (na NetworkAddress) At(portOffset uint) NetworkAddress {
na2 := na
na2.StartPort, na2.EndPort = na.StartPort+portOffset, na.StartPort+portOffset
return na2
}
// PortRangeSize returns how many ports are in
// pa's port range. Port ranges are inclusive,
// so the size is the difference of start and
// end ports plus one.
func (na NetworkAddress) PortRangeSize() uint {
if na.EndPort < na.StartPort {
return 0
}
return (na.EndPort - na.StartPort) + 1
}
func (na NetworkAddress) isLoopback() bool {
if na.IsUnixNetwork() {
return true
}
if na.Host == "localhost" {
return true
}
if ip, err := netip.ParseAddr(na.Host); err == nil {
return ip.IsLoopback()
}
return false
}
func (na NetworkAddress) isWildcardInterface() bool {
if na.Host == "" {
return true
}
if ip, err := netip.ParseAddr(na.Host); err == nil {
return ip.IsUnspecified()
}
return false
}
func (na NetworkAddress) port() string {
if na.StartPort == na.EndPort {
return strconv.FormatUint(uint64(na.StartPort), 10)
}
return fmt.Sprintf("%d-%d", na.StartPort, na.EndPort)
}
// String reconstructs the address string for human display.
// The output can be parsed by ParseNetworkAddress(). If the
// address is a unix socket, any non-zero port will be dropped.
func (na NetworkAddress) String() string {
if na.Network == "tcp" && (na.Host != "" || na.port() != "") {
na.Network = "" // omit default network value for brevity
}
return JoinNetworkAddress(na.Network, na.Host, na.port())
}
func isUnixNetwork(netw string) bool {
return netw == "unix" || netw == "unixgram" || netw == "unixpacket"
}
// ParseNetworkAddress parses addr into its individual
// components. The input string is expected to be of
// the form "network/host:port-range" where any part is
// optional. The default network, if unspecified, is tcp.
// Port ranges are inclusive.
//
// Network addresses are distinct from URLs and do not
// use URL syntax.
func ParseNetworkAddress(addr string) (NetworkAddress, error) {
var host, port string
network, host, port, err := SplitNetworkAddress(addr)
if err != nil {
return NetworkAddress{}, err
}
if network == "" {
network = "tcp"
}
if isUnixNetwork(network) {
return NetworkAddress{
Network: network,
Host: host,
}, nil
}
var start, end uint64
if port != "" {
before, after, found := strings.Cut(port, "-")
if !found {
after = before
}
start, err = strconv.ParseUint(before, 10, 16)
if err != nil {
return NetworkAddress{}, fmt.Errorf("invalid start port: %v", err)
}
end, err = strconv.ParseUint(after, 10, 16)
if err != nil {
return NetworkAddress{}, fmt.Errorf("invalid end port: %v", err)
}
if end < start {
return NetworkAddress{}, fmt.Errorf("end port must not be less than start port")
}
if (end - start) > maxPortSpan {
return NetworkAddress{}, fmt.Errorf("port range exceeds %d ports", maxPortSpan)
}
}
return NetworkAddress{
Network: network,
Host: host,
StartPort: uint(start),
EndPort: uint(end),
}, nil
}
// SplitNetworkAddress splits a into its network, host, and port components.
// Note that port may be a port range (:X-Y), or omitted for unix sockets.
func SplitNetworkAddress(a string) (network, host, port string, err error) {
beforeSlash, afterSlash, slashFound := strings.Cut(a, "/")
if slashFound {
network = strings.ToLower(strings.TrimSpace(beforeSlash))
a = afterSlash
}
if isUnixNetwork(network) {
host = a
return
}
host, port, err = net.SplitHostPort(a)
if err == nil || a == "" {
return
}
// in general, if there was an error, it was likely "missing port",
// so try adding a bogus port to take advantage of standard library's
// robust parser, then strip the artificial port before returning
// (don't overwrite original error though; might still be relevant)
var err2 error
host, port, err2 = net.SplitHostPort(a + ":0")
if err2 == nil {
err = nil
port = ""
}
return
}
// JoinNetworkAddress combines network, host, and port into a single
// address string of the form accepted by ParseNetworkAddress(). For
// unix sockets, the network should be "unix" (or "unixgram" or
// "unixpacket") and the path to the socket should be given as the
// host parameter.
func JoinNetworkAddress(network, host, port string) string {
var a string
if network != "" {
a = network + "/"
}
if (host != "" && port == "") || isUnixNetwork(network) {
a += host
} else if port != "" {
a += net.JoinHostPort(host, port)
}
return a
}
// DEPRECATED: Use NetworkAddress.Listen instead. This function will likely be changed or removed in the future.
func Listen(network, addr string) (net.Listener, error) {
// a 0 timeout means Go uses its default
return ListenTimeout(network, addr, 0)
}
// DEPRECATED: Use NetworkAddress.Listen instead. This function will likely be changed or removed in the future.
func ListenTimeout(network, addr string, keepalivePeriod time.Duration) (net.Listener, error) {
netAddr, err := ParseNetworkAddress(JoinNetworkAddress(network, addr, ""))
if err != nil {
return nil, err
}
ln, err := netAddr.Listen(context.TODO(), 0, net.ListenConfig{KeepAlive: keepalivePeriod})
if err != nil {
return nil, err
}
return ln.(net.Listener), nil
}
// DEPRECATED: Use NetworkAddress.Listen instead. This function will likely be changed or removed in the future.
func ListenPacket(network, addr string) (net.PacketConn, error) {
netAddr, err := ParseNetworkAddress(JoinNetworkAddress(network, addr, ""))
if err != nil {
return nil, err
}
ln, err := netAddr.Listen(context.TODO(), 0, net.ListenConfig{})
if err != nil {
return nil, err
}
return ln.(net.PacketConn), nil
}
// ListenQUIC returns a quic.EarlyListener suitable for use in a Caddy module.
// The network will be transformed into a QUIC-compatible type (if unix, then
// unixgram will be used; otherwise, udp will be used).
//
// NOTE: This API is EXPERIMENTAL and may be changed or removed.
//
// TODO: See if we can find a more elegant solution closer to the new NetworkAddress.Listen API.
func ListenQUIC(ln net.PacketConn, tlsConf *tls.Config, activeRequests *int64) (quic.EarlyListener, error) {
lnKey := listenerKey("quic+"+ln.LocalAddr().Network(), ln.LocalAddr().String())
sharedEarlyListener, _, err := listenerPool.LoadOrNew(lnKey, func() (Destructor, error) {
earlyLn, err := quic.ListenEarly(ln, http3.ConfigureTLSConfig(tlsConf), &quic.Config{
RequireAddressValidation: func(clientAddr net.Addr) bool {
var highLoad bool
if activeRequests != nil {
highLoad = atomic.LoadInt64(activeRequests) > 1000 // TODO: make tunable?
}
return highLoad
},
})
if err != nil {
return nil, err
}
return &sharedQuicListener{EarlyListener: earlyLn, key: lnKey}, nil
})
if err != nil {
return nil, err
}
// TODO: to serve QUIC over a unix socket, currently we need to hold onto
// the underlying net.PacketConn (which we wrap as unixConn to keep count
// of closes) because closing the quic.EarlyListener doesn't actually close
// the underlying PacketConn, but we need to for unix sockets since we dup
// the file descriptor and thus need to close the original; track issue:
// https://github.com/lucas-clemente/quic-go/issues/3560#issuecomment-1258959608
var unix *unixConn
if uc, ok := ln.(*unixConn); ok {
unix = uc
}
ctx, cancel := context.WithCancel(context.Background())
return &fakeCloseQuicListener{
sharedQuicListener: sharedEarlyListener.(*sharedQuicListener),
uc: unix,
context: ctx,
contextCancel: cancel,
}, nil
}
// ListenerUsage returns the current usage count of the given listener address.
func ListenerUsage(network, addr string) int {
count, _ := listenerPool.References(listenerKey(network, addr))
return count
}
// sharedQuicListener is like sharedListener, but for quic.EarlyListeners.
type sharedQuicListener struct {
quic.EarlyListener
key string
}
// Destruct closes the underlying QUIC listener.
func (sql *sharedQuicListener) Destruct() error {
return sql.EarlyListener.Close()
}
// sharedPacketConn is like sharedListener, but for net.PacketConns.
type sharedPacketConn struct {
net.PacketConn
key string
}
// Destruct closes the underlying socket.
func (spc *sharedPacketConn) Destruct() error {
return spc.PacketConn.Close()
}
// fakeClosedErr returns an error value that is not temporary
// nor a timeout, suitable for making the caller think the
// listener is actually closed
func fakeClosedErr(l interface{ Addr() net.Addr }) error {
return &net.OpError{
Op: "accept",
Net: l.Addr().Network(),
Addr: l.Addr(),
Err: errFakeClosed,
}
}
// errFakeClosed is the underlying error value returned by
// fakeCloseListener.Accept() after Close() has been called,
// indicating that it is pretending to be closed so that the
// server using it can terminate, while the underlying
// socket is actually left open.
var errFakeClosed = fmt.Errorf("listener 'closed' 😉")
// fakeClosePacketConn is like fakeCloseListener, but for PacketConns.
type fakeClosePacketConn struct {
closed int32 // accessed atomically; belongs to this struct only
*sharedPacketConn // embedded, so we also become a net.PacketConn
}
func (fcpc *fakeClosePacketConn) Close() error {
if atomic.CompareAndSwapInt32(&fcpc.closed, 0, 1) {
_, _ = listenerPool.Delete(fcpc.sharedPacketConn.key)
}
return nil
}
// Supports QUIC implementation: https://github.com/caddyserver/caddy/issues/3998
func (fcpc fakeClosePacketConn) SetReadBuffer(bytes int) error {
if conn, ok := fcpc.PacketConn.(interface{ SetReadBuffer(int) error }); ok {
return conn.SetReadBuffer(bytes)
}
return fmt.Errorf("SetReadBuffer() not implemented for %T", fcpc.PacketConn)
}
// Supports QUIC implementation: https://github.com/caddyserver/caddy/issues/3998
func (fcpc fakeClosePacketConn) SyscallConn() (syscall.RawConn, error) {
if conn, ok := fcpc.PacketConn.(interface {
SyscallConn() (syscall.RawConn, error)
}); ok {
return conn.SyscallConn()
}
return nil, fmt.Errorf("SyscallConn() not implemented for %T", fcpc.PacketConn)
}
type fakeCloseQuicListener struct {
closed int32 // accessed atomically; belongs to this struct only
*sharedQuicListener // embedded, so we also become a quic.EarlyListener
uc *unixConn // underlying unix socket, if UDS
context context.Context
contextCancel context.CancelFunc
}
// Currently Accept ignores the passed context, however a situation where
// someone would need a hotswappable QUIC-only (not http3, since it uses context.Background here)
// server on which Accept would be called with non-empty contexts
// (mind that the default net listeners' Accept doesn't take a context argument)
// sounds way too rare for us to sacrifice efficiency here.
func (fcql *fakeCloseQuicListener) Accept(_ context.Context) (quic.EarlyConnection, error) {
conn, err := fcql.sharedQuicListener.Accept(fcql.context)
if err == nil {
return conn, nil
}
// if the listener is "closed", return a fake closed error instead
if atomic.LoadInt32(&fcql.closed) == 1 && errors.Is(err, context.Canceled) {
return nil, fakeClosedErr(fcql)
}
return nil, err
}
func (fcql *fakeCloseQuicListener) Close() error {
if atomic.CompareAndSwapInt32(&fcql.closed, 0, 1) {
fcql.contextCancel()
_, _ = listenerPool.Delete(fcql.sharedQuicListener.key)
if fcql.uc != nil {
// unix sockets need to be closed ourselves because we dup() the file
// descriptor when we reuse them, so this avoids a resource leak
fcql.uc.Close()
}
}
return nil
}
// RegisterNetwork registers a network type with Caddy so that if a listener is
// created for that network type, getListener will be invoked to get the listener.
// This should be called during init() and will panic if the network type is standard
// or reserved, or if it is already registered. EXPERIMENTAL and subject to change.
func RegisterNetwork(network string, getListener ListenerFunc) {
network = strings.TrimSpace(strings.ToLower(network))
if network == "tcp" || network == "tcp4" || network == "tcp6" ||
network == "udp" || network == "udp4" || network == "udp6" ||
network == "unix" || network == "unixpacket" || network == "unixgram" ||
strings.HasPrefix("ip:", network) || strings.HasPrefix("ip4:", network) || strings.HasPrefix("ip6:", network) {
panic("network type " + network + " is reserved")
}
if _, ok := networkTypes[strings.ToLower(network)]; ok {
panic("network type " + network + " is already registered")
}
networkTypes[network] = getListener
}
type unixListener struct {
*net.UnixListener
mapKey string
count *int32 // accessed atomically
}
func (uln *unixListener) Close() error {
newCount := atomic.AddInt32(uln.count, -1)
if newCount == 0 {
defer func() {
addr := uln.Addr().String()
unixSocketsMu.Lock()
delete(unixSockets, uln.mapKey)
unixSocketsMu.Unlock()
_ = syscall.Unlink(addr)
}()
}
return uln.UnixListener.Close()
}
type unixConn struct {
*net.UnixConn
filename string
mapKey string
count *int32 // accessed atomically
}
func (uc *unixConn) Close() error {
newCount := atomic.AddInt32(uc.count, -1)
if newCount == 0 {
defer func() {
unixSocketsMu.Lock()
delete(unixSockets, uc.mapKey)
unixSocketsMu.Unlock()
_ = syscall.Unlink(uc.filename)
}()
}
return uc.UnixConn.Close()
}
// unixSockets keeps track of the currently-active unix sockets
// so we can transfer their FDs gracefully during reloads.
var (
unixSockets = make(map[string]interface {
File() (*os.File, error)
})
unixSocketsMu sync.Mutex
)
// getListenerFromPlugin returns a listener on the given network and address
// if a plugin has registered the network name. It may return (nil, nil) if
// no plugin can provide a listener.
func getListenerFromPlugin(ctx context.Context, network, addr string, config net.ListenConfig) (any, error) {
// get listener from plugin if network type is registered
if getListener, ok := networkTypes[network]; ok {
Log().Debug("getting listener from plugin", zap.String("network", network))
return getListener(ctx, network, addr, config)
}
return nil, nil
}
func listenerKey(network, addr string) string {
return network + "/" + addr
}
// ListenerFunc is a function that can return a listener given a network and address.
// The listeners must be capable of overlapping: with Caddy, new configs are loaded
// before old ones are unloaded, so listeners may overlap briefly if the configs
// both need the same listener. EXPERIMENTAL and subject to change.
type ListenerFunc func(ctx context.Context, network, addr string, cfg net.ListenConfig) (any, error)
var networkTypes = map[string]ListenerFunc{}
// ListenerWrapper is a type that wraps a listener
// so it can modify the input listener's methods.
// Modules that implement this interface are found
// in the caddy.listeners namespace. Usually, to
// wrap a listener, you will define your own struct
// type that embeds the input listener, then
// implement your own methods that you want to wrap,
// calling the underlying listener's methods where
// appropriate.
type ListenerWrapper interface {
WrapListener(net.Listener) net.Listener
}
// listenerPool stores and allows reuse of active listeners.
var listenerPool = NewUsagePool()
const maxPortSpan = 65535
// Interface guards (see https://github.com/caddyserver/caddy/issues/3998)
var (
_ (interface{ SetReadBuffer(int) error }) = (*fakeClosePacketConn)(nil)
_ (interface {
SyscallConn() (syscall.RawConn, error)
}) = (*fakeClosePacketConn)(nil)
)