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clients.go
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clients.go
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// SPDX-License-Identifier: MIT
// SPDX-FileCopyrightText: 2022 J. Blake / mochi-co
// SPDX-FileContributor: mochi-co
package mqtt
import (
"bufio"
"bytes"
"fmt"
"io"
"net"
"sync"
"sync/atomic"
"time"
"github.com/rs/xid"
"github.com/mochi-co/mqtt/v2/packets"
)
const (
defaultKeepalive uint16 = 10 // the default connection keepalive value in seconds
defaultClientProtocolVersion byte = 4 // the default mqtt protocol version of connecting clients (if somehow unspecified).
)
// ReadFn is the function signature for the function used for reading and processing new packets.
type ReadFn func(*Client, packets.Packet) error
// Clients contains a map of the clients known by the broker.
type Clients struct {
internal map[string]*Client // clients known by the broker, keyed on client id.
sync.RWMutex
}
// NewClients returns an instance of Clients.
func NewClients() *Clients {
return &Clients{
internal: make(map[string]*Client),
}
}
// Add adds a new client to the clients map, keyed on client id.
func (cl *Clients) Add(val *Client) {
cl.Lock()
defer cl.Unlock()
cl.internal[val.ID] = val
}
// GetAll returns all the clients.
func (cl *Clients) GetAll() map[string]*Client {
cl.RLock()
defer cl.RUnlock()
m := map[string]*Client{}
for k, v := range cl.internal {
m[k] = v
}
return m
}
// Get returns the value of a client if it exists.
func (cl *Clients) Get(id string) (*Client, bool) {
cl.RLock()
defer cl.RUnlock()
val, ok := cl.internal[id]
return val, ok
}
// Len returns the length of the clients map.
func (cl *Clients) Len() int {
cl.RLock()
defer cl.RUnlock()
val := len(cl.internal)
return val
}
// Delete removes a client from the internal map.
func (cl *Clients) Delete(id string) {
cl.Lock()
defer cl.Unlock()
delete(cl.internal, id)
}
// GetByListener returns clients matching a listener id.
func (cl *Clients) GetByListener(id string) []*Client {
cl.RLock()
defer cl.RUnlock()
clients := make([]*Client, 0, cl.Len())
for _, client := range cl.internal {
if client.Net.Listener == id && atomic.LoadUint32(&client.State.done) == 0 {
clients = append(clients, client)
}
}
return clients
}
// Client contains information about a client known by the broker.
type Client struct {
Properties ClientProperties // client properties
State ClientState // the operational state of the client.
Net ClientConnection // network connection state of the clinet
ID string // the client id.
ops *ops // ops provides a reference to server ops.
sync.RWMutex // mutex
}
// ClientConnection contains the connection transport and metadata for the client.
type ClientConnection struct {
Conn net.Conn // the net.Conn used to establish the connection
bconn *bufio.ReadWriter // a buffered net.Conn for reading packets
Remote string // the remote address of the client
Listener string // listener id of the client
Inline bool // client is an inline programmetic client
}
// ClientProperties contains the properties which define the client behaviour.
type ClientProperties struct {
Props packets.Properties
Will Will
Username []byte
ProtocolVersion byte
Clean bool
}
// Will contains the last will and testament details for a client connection.
type Will struct {
Payload []byte // -
User []packets.UserProperty // -
TopicName string // -
Flag uint32 // 0,1
WillDelayInterval uint32 // -
Qos byte // -
Retain bool // -
}
// State tracks the state of the client.
type ClientState struct {
TopicAliases TopicAliases // a map of topic aliases
stopCause atomic.Value // reason for stopping
Inflight *Inflight // a map of in-flight qos messages
Subscriptions *Subscriptions // a map of the subscription filters a client maintains
disconnected int64 // the time the client disconnected in unix time, for calculating expiry
outbound chan *packets.Packet // queue for pending outbound packets
endOnce sync.Once // only end once
isTakenOver uint32 // used to identify orphaned clients
packetID uint32 // the current highest packetID
done uint32 // atomic counter which indicates that the client has closed
outboundQty int32 // number of messages currently in the outbound queue
keepalive uint16 // the number of seconds the connection can wait
}
// newClient returns a new instance of Client. This is almost exclusively used by Server
// for creating new clients, but it lives here because it's not dependent.
func newClient(c net.Conn, o *ops) *Client {
cl := &Client{
State: ClientState{
Inflight: NewInflights(),
Subscriptions: NewSubscriptions(),
TopicAliases: NewTopicAliases(o.options.Capabilities.TopicAliasMaximum),
keepalive: defaultKeepalive,
outbound: make(chan *packets.Packet, o.options.Capabilities.MaximumClientWritesPending),
},
Properties: ClientProperties{
ProtocolVersion: defaultClientProtocolVersion, // default protocol version
},
ops: o,
}
if c != nil {
cl.Net = ClientConnection{
Conn: c,
bconn: bufio.NewReadWriter(
bufio.NewReaderSize(c, o.options.ClientNetReadBufferSize),
bufio.NewWriterSize(c, o.options.ClientNetReadBufferSize),
),
Remote: c.RemoteAddr().String(),
}
}
cl.refreshDeadline(cl.State.keepalive)
return cl
}
// WriteLoop ranges over pending outbound messages and writes them to the client connection.
func (cl *Client) WriteLoop() {
for pk := range cl.State.outbound {
if err := cl.WritePacket(*pk); err != nil {
cl.ops.log.Debug().Err(err).Str("client", cl.ID).Interface("packet", pk).Msg("failed publishing packet")
}
atomic.AddInt32(&cl.State.outboundQty, -1)
}
}
// ParseConnect parses the connect parameters and properties for a client.
func (cl *Client) ParseConnect(lid string, pk packets.Packet) {
cl.Net.Listener = lid
cl.Properties.ProtocolVersion = pk.ProtocolVersion
cl.Properties.Username = pk.Connect.Username
cl.Properties.Clean = pk.Connect.Clean
cl.Properties.Props = pk.Properties.Copy(false)
cl.State.Inflight.ResetReceiveQuota(int32(cl.ops.options.Capabilities.ReceiveMaximum)) // server receive max per client
cl.State.Inflight.ResetSendQuota(int32(cl.Properties.Props.ReceiveMaximum)) // client receive max
cl.State.TopicAliases.Outbound = NewOutboundTopicAliases(cl.Properties.Props.TopicAliasMaximum)
cl.ID = pk.Connect.ClientIdentifier
if cl.ID == "" {
cl.ID = xid.New().String() // [MQTT-3.1.3-6] [MQTT-3.1.3-7]
cl.Properties.Props.AssignedClientID = cl.ID
}
cl.State.keepalive = cl.ops.options.Capabilities.ServerKeepAlive
if pk.Connect.Keepalive > 0 {
cl.State.keepalive = pk.Connect.Keepalive // [MQTT-3.2.2-22]
}
if pk.Connect.WillFlag {
cl.Properties.Will = Will{
Qos: pk.Connect.WillQos,
Retain: pk.Connect.WillRetain,
Payload: pk.Connect.WillPayload,
TopicName: pk.Connect.WillTopic,
WillDelayInterval: pk.Connect.WillProperties.WillDelayInterval,
User: pk.Connect.WillProperties.User,
}
if pk.Properties.SessionExpiryIntervalFlag &&
pk.Properties.SessionExpiryInterval < pk.Connect.WillProperties.WillDelayInterval {
cl.Properties.Will.WillDelayInterval = pk.Properties.SessionExpiryInterval
}
if pk.Connect.WillFlag {
cl.Properties.Will.Flag = 1 // atomic for checking
}
}
cl.refreshDeadline(cl.State.keepalive)
}
// refreshDeadline refreshes the read/write deadline for the net.Conn connection.
func (cl *Client) refreshDeadline(keepalive uint16) {
var expiry time.Time // nil time can be used to disable deadline if keepalive = 0
if keepalive > 0 {
expiry = time.Now().Add(time.Duration(keepalive+(keepalive/2)) * time.Second) // [MQTT-3.1.2-22]
}
if cl.Net.Conn != nil {
_ = cl.Net.Conn.SetDeadline(expiry) // [MQTT-3.1.2-22]
}
}
// NextPacketID returns the next available (unused) packet id for the client.
// If no unused packet ids are available, an error is returned and the client
// should be disconnected.
func (cl *Client) NextPacketID() (i uint32, err error) {
cl.Lock()
defer cl.Unlock()
i = atomic.LoadUint32(&cl.State.packetID)
started := i
overflowed := false
for {
if overflowed && i == started {
return 0, packets.ErrQuotaExceeded
}
if i >= cl.ops.options.Capabilities.maximumPacketID {
overflowed = true
i = 0
continue
}
i++
if _, ok := cl.State.Inflight.Get(uint16(i)); !ok {
atomic.StoreUint32(&cl.State.packetID, i)
return i, nil
}
}
}
// ResendInflightMessages attempts to resend any pending inflight messages to connected clients.
func (cl *Client) ResendInflightMessages(force bool) error {
if cl.State.Inflight.Len() == 0 {
return nil
}
for _, tk := range cl.State.Inflight.GetAll(false) {
if tk.FixedHeader.Type == packets.Publish {
tk.FixedHeader.Dup = true // [MQTT-3.3.1-1] [MQTT-3.3.1-3]
}
cl.ops.hooks.OnQosPublish(cl, tk, tk.Created, 0)
err := cl.WritePacket(tk)
if err != nil {
return err
}
if tk.FixedHeader.Type == packets.Puback || tk.FixedHeader.Type == packets.Pubcomp {
if ok := cl.State.Inflight.Delete(tk.PacketID); ok {
cl.ops.hooks.OnQosComplete(cl, tk)
atomic.AddInt64(&cl.ops.info.Inflight, -1)
}
}
}
return nil
}
// ClearInflights deletes all inflight messages for the client, eg. for a disconnected user with a clean session.
func (cl *Client) ClearInflights(now, maximumExpiry int64) []uint16 {
deleted := []uint16{}
for _, tk := range cl.State.Inflight.GetAll(false) {
if (tk.Expiry > 0 && tk.Expiry < now) || tk.Created+maximumExpiry < now {
if ok := cl.State.Inflight.Delete(tk.PacketID); ok {
cl.ops.hooks.OnQosDropped(cl, tk)
atomic.AddInt64(&cl.ops.info.Inflight, -1)
deleted = append(deleted, tk.PacketID)
}
}
}
return deleted
}
// Read reads incoming packets from the connected client and transforms them into
// packets to be handled by the packetHandler.
func (cl *Client) Read(packetHandler ReadFn) error {
var err error
for {
if atomic.LoadUint32(&cl.State.done) == 1 {
return nil
}
cl.refreshDeadline(cl.State.keepalive)
fh := new(packets.FixedHeader)
err = cl.ReadFixedHeader(fh)
if err != nil {
return err
}
pk, err := cl.ReadPacket(fh)
if err != nil {
return err
}
err = packetHandler(cl, pk) // Process inbound packet.
if err != nil {
return err
}
}
}
// Stop instructs the client to shut down all processing goroutines and disconnect.
func (cl *Client) Stop(err error) {
if atomic.LoadUint32(&cl.State.done) == 1 {
return
}
cl.State.endOnce.Do(func() {
if cl.Net.Conn != nil {
_ = cl.Net.Conn.Close() // omit close error
}
if err != nil {
cl.State.stopCause.Store(err)
}
atomic.StoreUint32(&cl.State.done, 1)
atomic.StoreInt64(&cl.State.disconnected, time.Now().Unix())
})
}
// StopCause returns the reason the client connection was stopped, if any.
func (cl *Client) StopCause() error {
if cl.State.stopCause.Load() == nil {
return nil
}
return cl.State.stopCause.Load().(error)
}
// Closed returns true if client connection is closed.
func (cl *Client) Closed() bool {
return atomic.LoadUint32(&cl.State.done) == 1
}
// ReadFixedHeader reads in the values of the next packet's fixed header.
func (cl *Client) ReadFixedHeader(fh *packets.FixedHeader) error {
if cl.Net.bconn == nil {
return ErrConnectionClosed
}
b, err := cl.Net.bconn.ReadByte()
if err != nil {
return err
}
err = fh.Decode(b)
if err != nil {
return err
}
var bu int
fh.Remaining, bu, err = packets.DecodeLength(cl.Net.bconn)
if err != nil {
return err
}
if cl.ops.options.Capabilities.MaximumPacketSize > 0 && uint32(fh.Remaining+1) > cl.ops.options.Capabilities.MaximumPacketSize {
return packets.ErrPacketTooLarge // [MQTT-3.2.2-15]
}
atomic.AddInt64(&cl.ops.info.BytesReceived, int64(bu+1))
return nil
}
// ReadPacket reads the remaining buffer into an MQTT packet.
func (cl *Client) ReadPacket(fh *packets.FixedHeader) (pk packets.Packet, err error) {
atomic.AddInt64(&cl.ops.info.PacketsReceived, 1)
pk.ProtocolVersion = cl.Properties.ProtocolVersion // inherit client protocol version for decoding
pk.FixedHeader = *fh
p := make([]byte, pk.FixedHeader.Remaining)
n, err := io.ReadFull(cl.Net.bconn, p)
if err != nil {
return pk, err
}
atomic.AddInt64(&cl.ops.info.BytesReceived, int64(n))
// Decode the remaining packet values using a fresh copy of the bytes,
// otherwise the next packet will change the data of this one.
px := append([]byte{}, p[:]...)
switch pk.FixedHeader.Type {
case packets.Connect:
err = pk.ConnectDecode(px)
case packets.Disconnect:
err = pk.DisconnectDecode(px)
case packets.Connack:
err = pk.ConnackDecode(px)
case packets.Publish:
err = pk.PublishDecode(px)
if err == nil {
atomic.AddInt64(&cl.ops.info.MessagesReceived, 1)
}
case packets.Puback:
err = pk.PubackDecode(px)
case packets.Pubrec:
err = pk.PubrecDecode(px)
case packets.Pubrel:
err = pk.PubrelDecode(px)
case packets.Pubcomp:
err = pk.PubcompDecode(px)
case packets.Subscribe:
err = pk.SubscribeDecode(px)
case packets.Suback:
err = pk.SubackDecode(px)
case packets.Unsubscribe:
err = pk.UnsubscribeDecode(px)
case packets.Unsuback:
err = pk.UnsubackDecode(px)
case packets.Pingreq:
case packets.Pingresp:
case packets.Auth:
err = pk.AuthDecode(px)
default:
err = fmt.Errorf("invalid packet type; %v", pk.FixedHeader.Type)
}
if err != nil {
return pk, err
}
pk, err = cl.ops.hooks.OnPacketRead(cl, pk)
return
}
// WritePacket encodes and writes a packet to the client.
func (cl *Client) WritePacket(pk packets.Packet) error {
if atomic.LoadUint32(&cl.State.done) == 1 {
return ErrConnectionClosed
}
if cl.Net.Conn == nil {
return nil
}
if pk.Expiry > 0 {
pk.Properties.MessageExpiryInterval = uint32(pk.Expiry - time.Now().Unix()) // [MQTT-3.3.2-6]
}
pk.ProtocolVersion = cl.Properties.ProtocolVersion
if pk.Mods.MaxSize == 0 { // NB we use this statement to embed client packet sizes in tests
pk.Mods.MaxSize = cl.Properties.Props.MaximumPacketSize
}
if cl.Properties.Props.RequestProblemInfoFlag && cl.Properties.Props.RequestProblemInfo == 0x0 {
pk.Mods.DisallowProblemInfo = true // [MQTT-3.1.2-29] strict, no problem info on any packet if set
}
if pk.FixedHeader.Type != packets.Connack || cl.Properties.Props.RequestResponseInfo == 0x1 || cl.ops.options.Capabilities.Compatibilities.AlwaysReturnResponseInfo {
pk.Mods.AllowResponseInfo = true // [MQTT-3.1.2-28] we need to know which properties we can encode
}
pk = cl.ops.hooks.OnPacketEncode(cl, pk)
var err error
buf := new(bytes.Buffer)
switch pk.FixedHeader.Type {
case packets.Connect:
err = pk.ConnectEncode(buf)
case packets.Connack:
err = pk.ConnackEncode(buf)
case packets.Publish:
err = pk.PublishEncode(buf)
case packets.Puback:
err = pk.PubackEncode(buf)
case packets.Pubrec:
err = pk.PubrecEncode(buf)
case packets.Pubrel:
err = pk.PubrelEncode(buf)
case packets.Pubcomp:
err = pk.PubcompEncode(buf)
case packets.Subscribe:
err = pk.SubscribeEncode(buf)
case packets.Suback:
err = pk.SubackEncode(buf)
case packets.Unsubscribe:
err = pk.UnsubscribeEncode(buf)
case packets.Unsuback:
err = pk.UnsubackEncode(buf)
case packets.Pingreq:
err = pk.PingreqEncode(buf)
case packets.Pingresp:
err = pk.PingrespEncode(buf)
case packets.Disconnect:
err = pk.DisconnectEncode(buf)
case packets.Auth:
err = pk.AuthEncode(buf)
default:
err = fmt.Errorf("%w: %v", packets.ErrNoValidPacketAvailable, pk.FixedHeader.Type)
}
if err != nil {
return err
}
if pk.Mods.MaxSize > 0 && uint32(buf.Len()) > pk.Mods.MaxSize {
return packets.ErrPacketTooLarge // [MQTT-3.1.2-24] [MQTT-3.1.2-25]
}
nb := net.Buffers{buf.Bytes()}
n, err := nb.WriteTo(cl.Net.Conn)
if err != nil {
return err
}
atomic.AddInt64(&cl.ops.info.BytesSent, n)
atomic.AddInt64(&cl.ops.info.PacketsSent, 1)
if pk.FixedHeader.Type == packets.Publish {
atomic.AddInt64(&cl.ops.info.MessagesSent, 1)
}
cl.ops.hooks.OnPacketSent(cl, pk, buf.Bytes())
return err
}