open-vault/vault/cluster/inmem_layer.go

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package cluster
import (
"crypto/tls"
"errors"
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"fmt"
"net"
"sync"
"time"
log "github.com/hashicorp/go-hclog"
"github.com/hashicorp/go-secure-stdlib/base62"
"go.uber.org/atomic"
)
// InmemLayer is an in-memory implementation of NetworkLayer. This is
// primarially useful for tests.
type InmemLayer struct {
listener *inmemListener
addr string
logger log.Logger
servConns map[string][]net.Conn
clientConns map[string][]net.Conn
peers map[string]*InmemLayer
l sync.Mutex
stopped *atomic.Bool
stopCh chan struct{}
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connectionCh chan *ConnectionInfo
readerDelay time.Duration
}
// NewInmemLayer returns a new in-memory layer configured to listen on the
// provided address.
func NewInmemLayer(addr string, logger log.Logger) *InmemLayer {
return &InmemLayer{
addr: addr,
logger: logger,
stopped: atomic.NewBool(false),
stopCh: make(chan struct{}),
peers: make(map[string]*InmemLayer),
servConns: make(map[string][]net.Conn),
clientConns: make(map[string][]net.Conn),
}
}
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func (l *InmemLayer) SetConnectionCh(ch chan *ConnectionInfo) {
l.l.Lock()
l.connectionCh = ch
l.l.Unlock()
}
func (l *InmemLayer) SetReaderDelay(delay time.Duration) {
l.l.Lock()
defer l.l.Unlock()
l.readerDelay = delay
// Update the existing server and client connections
for _, servConns := range l.servConns {
for _, c := range servConns {
c.(*delayedConn).SetDelay(delay)
}
}
for _, clientConns := range l.clientConns {
for _, c := range clientConns {
c.(*delayedConn).SetDelay(delay)
}
}
}
// Addrs implements NetworkLayer.
func (l *InmemLayer) Addrs() []net.Addr {
l.l.Lock()
defer l.l.Unlock()
if l.listener == nil {
return nil
}
return []net.Addr{l.listener.Addr()}
}
// Listeners implements NetworkLayer.
func (l *InmemLayer) Listeners() []NetworkListener {
l.l.Lock()
defer l.l.Unlock()
if l.listener != nil {
return []NetworkListener{l.listener}
}
l.listener = &inmemListener{
addr: l.addr,
pendingConns: make(chan net.Conn),
stopped: atomic.NewBool(false),
stopCh: make(chan struct{}),
}
return []NetworkListener{l.listener}
}
// Dial implements NetworkLayer.
func (l *InmemLayer) Dial(addr string, timeout time.Duration, tlsConfig *tls.Config) (*tls.Conn, error) {
l.l.Lock()
connectionCh := l.connectionCh
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if addr == l.addr {
panic(fmt.Sprintf("%q attempted to dial itself", l.addr))
}
peer, ok := l.peers[addr]
l.l.Unlock()
if !ok {
return nil, errors.New("inmemlayer: no address found")
}
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alpn := ""
if tlsConfig != nil {
alpn = tlsConfig.NextProtos[0]
}
if l.logger.IsDebug() {
l.logger.Debug("dailing connection", "node", l.addr, "remote", addr, "alpn", alpn)
}
if connectionCh != nil {
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select {
case connectionCh <- &ConnectionInfo{
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Node: l.addr,
Remote: addr,
IsServer: false,
ALPN: alpn,
}:
case <-time.After(2 * time.Second):
l.logger.Warn("failed to send connection info")
}
}
conn, err := peer.clientConn(l.addr)
if err != nil {
return nil, err
}
tlsConn := tls.Client(conn, tlsConfig)
l.l.Lock()
l.clientConns[addr] = append(l.clientConns[addr], conn)
l.l.Unlock()
return tlsConn, nil
}
// clientConn is executed on a server when a new client connection comes in and
// needs to be Accepted.
func (l *InmemLayer) clientConn(addr string) (net.Conn, error) {
l.l.Lock()
if l.listener == nil {
l.l.Unlock()
return nil, errors.New("inmemlayer: listener not started")
}
_, ok := l.peers[addr]
if !ok {
l.l.Unlock()
return nil, errors.New("inmemlayer: no peer found")
}
retConn, servConn := net.Pipe()
retConn = newDelayedConn(retConn, l.readerDelay)
servConn = newDelayedConn(servConn, l.readerDelay)
l.servConns[addr] = append(l.servConns[addr], servConn)
connectionCh := l.connectionCh
pendingConns := l.listener.pendingConns
l.l.Unlock()
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if l.logger.IsDebug() {
l.logger.Debug("received connection", "node", l.addr, "remote", addr)
}
if connectionCh != nil {
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select {
case connectionCh <- &ConnectionInfo{
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Node: l.addr,
Remote: addr,
IsServer: true,
}:
case <-time.After(2 * time.Second):
l.logger.Warn("failed to send connection info")
}
}
select {
case pendingConns <- servConn:
case <-time.After(2 * time.Second):
return nil, errors.New("inmemlayer: timeout while accepting connection")
}
return retConn, nil
}
// Connect is used to connect this transport to another transport for
// a given peer name. This allows for local routing.
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func (l *InmemLayer) Connect(remote *InmemLayer) {
l.l.Lock()
defer l.l.Unlock()
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l.peers[remote.addr] = remote
}
// Disconnect is used to remove the ability to route to a given peer.
func (l *InmemLayer) Disconnect(peer string) {
l.l.Lock()
defer l.l.Unlock()
delete(l.peers, peer)
// Remove any open connections
servConns := l.servConns[peer]
for _, c := range servConns {
c.Close()
}
delete(l.servConns, peer)
clientConns := l.clientConns[peer]
for _, c := range clientConns {
c.Close()
}
delete(l.clientConns, peer)
}
// DisconnectAll is used to remove all routes to peers.
func (l *InmemLayer) DisconnectAll() {
l.l.Lock()
defer l.l.Unlock()
l.peers = make(map[string]*InmemLayer)
// Close all connections
for _, peerConns := range l.servConns {
for _, c := range peerConns {
c.Close()
}
}
l.servConns = make(map[string][]net.Conn)
for _, peerConns := range l.clientConns {
for _, c := range peerConns {
c.Close()
}
}
l.clientConns = make(map[string][]net.Conn)
}
// Close is used to permanently disable the transport
func (l *InmemLayer) Close() error {
if l.stopped.Swap(true) {
return nil
}
l.DisconnectAll()
close(l.stopCh)
return nil
}
// inmemListener implements the NetworkListener interface.
type inmemListener struct {
addr string
pendingConns chan net.Conn
stopped *atomic.Bool
stopCh chan struct{}
deadline time.Time
}
// Accept implements the NetworkListener interface.
func (ln *inmemListener) Accept() (net.Conn, error) {
deadline := ln.deadline
if !deadline.IsZero() {
select {
case conn := <-ln.pendingConns:
return conn, nil
case <-time.After(time.Until(deadline)):
return nil, deadlineError("deadline")
case <-ln.stopCh:
return nil, errors.New("listener shut down")
}
}
select {
case conn := <-ln.pendingConns:
return conn, nil
case <-ln.stopCh:
return nil, errors.New("listener shut down")
}
}
// Close implements the NetworkListener interface.
func (ln *inmemListener) Close() error {
if ln.stopped.Swap(true) {
return nil
}
close(ln.stopCh)
return nil
}
// Addr implements the NetworkListener interface.
func (ln *inmemListener) Addr() net.Addr {
return inmemAddr{addr: ln.addr}
}
// SetDeadline implements the NetworkListener interface.
func (ln *inmemListener) SetDeadline(d time.Time) error {
ln.deadline = d
return nil
}
type inmemAddr struct {
addr string
}
func (a inmemAddr) Network() string {
return "inmem"
}
func (a inmemAddr) String() string {
return a.addr
}
type deadlineError string
func (d deadlineError) Error() string { return string(d) }
func (d deadlineError) Timeout() bool { return true }
func (d deadlineError) Temporary() bool { return true }
// InmemLayerCluster composes a set of layers and handles connecting them all
// together. It also satisfies the NetworkLayerSet interface.
type InmemLayerCluster struct {
layers []*InmemLayer
}
// NewInmemLayerCluster returns a new in-memory layer set that builds n nodes
// and connects them all together.
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func NewInmemLayerCluster(clusterName string, nodes int, logger log.Logger) (*InmemLayerCluster, error) {
if clusterName == "" {
clusterID, err := base62.Random(4)
if err != nil {
return nil, err
}
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clusterName = "cluster_" + clusterID
}
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layers := make([]*InmemLayer, nodes)
for i := 0; i < nodes; i++ {
layers[i] = NewInmemLayer(fmt.Sprintf("%s_node_%d", clusterName, i), logger)
}
// Connect all the peers together
for _, node := range layers {
for _, peer := range layers {
// Don't connect to itself
if node == peer {
continue
}
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node.Connect(peer)
peer.Connect(node)
}
}
return &InmemLayerCluster{layers: layers}, nil
}
// ConnectCluster connects this cluster with the provided remote cluster,
// connecting all nodes to each other.
func (ic *InmemLayerCluster) ConnectCluster(remote *InmemLayerCluster) {
for _, node := range ic.layers {
for _, peer := range remote.layers {
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node.Connect(peer)
peer.Connect(node)
}
}
}
// Layers implements the NetworkLayerSet interface.
func (ic *InmemLayerCluster) Layers() []NetworkLayer {
ret := make([]NetworkLayer, len(ic.layers))
for i, l := range ic.layers {
ret[i] = l
}
return ret
}
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func (ic *InmemLayerCluster) SetConnectionCh(ch chan *ConnectionInfo) {
for _, node := range ic.layers {
node.SetConnectionCh(ch)
}
}
func (ic *InmemLayerCluster) SetReaderDelay(delay time.Duration) {
for _, node := range ic.layers {
node.SetReaderDelay(delay)
}
}
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type ConnectionInfo struct {
Node string
Remote string
IsServer bool
ALPN string
}