8293f546af
This implementation is similar to AMQP notifications: * Notifications are published on a single topic as a JSON feed * Topic is configurable, as is the QoS. Uses the paho.mqtt.golang library for the mqtt connection, and supports connections over tcp and websockets, with optional secure tls support. * Additionally the minio server configuration has been bumped up so mqtt configuration can be added. * Configuration migration code is added with tests. MQTT is an ISO standard M2M/IoT messaging protocol and was originally designed for applications for limited bandwidth networks. Today it's use is growing in the IoT space.
322 lines
8.7 KiB
Go
322 lines
8.7 KiB
Go
package packets
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"fmt"
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"io"
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)
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//ControlPacket defines the interface for structs intended to hold
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//decoded MQTT packets, either from being read or before being
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//written
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type ControlPacket interface {
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Write(io.Writer) error
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Unpack(io.Reader) error
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String() string
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Details() Details
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}
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//PacketNames maps the constants for each of the MQTT packet types
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//to a string representation of their name.
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var PacketNames = map[uint8]string{
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1: "CONNECT",
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2: "CONNACK",
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3: "PUBLISH",
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4: "PUBACK",
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5: "PUBREC",
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6: "PUBREL",
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7: "PUBCOMP",
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8: "SUBSCRIBE",
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9: "SUBACK",
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10: "UNSUBSCRIBE",
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11: "UNSUBACK",
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12: "PINGREQ",
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13: "PINGRESP",
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14: "DISCONNECT",
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}
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//Below are the constants assigned to each of the MQTT packet types
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const (
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Connect = 1
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Connack = 2
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Publish = 3
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Puback = 4
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Pubrec = 5
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Pubrel = 6
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Pubcomp = 7
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Subscribe = 8
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Suback = 9
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Unsubscribe = 10
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Unsuback = 11
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Pingreq = 12
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Pingresp = 13
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Disconnect = 14
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)
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//Below are the const definitions for error codes returned by
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//Connect()
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const (
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Accepted = 0x00
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ErrRefusedBadProtocolVersion = 0x01
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ErrRefusedIDRejected = 0x02
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ErrRefusedServerUnavailable = 0x03
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ErrRefusedBadUsernameOrPassword = 0x04
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ErrRefusedNotAuthorised = 0x05
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ErrNetworkError = 0xFE
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ErrProtocolViolation = 0xFF
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)
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//ConnackReturnCodes is a map of the error codes constants for Connect()
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//to a string representation of the error
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var ConnackReturnCodes = map[uint8]string{
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0: "Connection Accepted",
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1: "Connection Refused: Bad Protocol Version",
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2: "Connection Refused: Client Identifier Rejected",
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3: "Connection Refused: Server Unavailable",
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4: "Connection Refused: Username or Password in unknown format",
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5: "Connection Refused: Not Authorised",
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254: "Connection Error",
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255: "Connection Refused: Protocol Violation",
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}
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//ConnErrors is a map of the errors codes constants for Connect()
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//to a Go error
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var ConnErrors = map[byte]error{
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Accepted: nil,
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ErrRefusedBadProtocolVersion: errors.New("Unnacceptable protocol version"),
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ErrRefusedIDRejected: errors.New("Identifier rejected"),
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ErrRefusedServerUnavailable: errors.New("Server Unavailable"),
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ErrRefusedBadUsernameOrPassword: errors.New("Bad user name or password"),
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ErrRefusedNotAuthorised: errors.New("Not Authorized"),
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ErrNetworkError: errors.New("Network Error"),
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ErrProtocolViolation: errors.New("Protocol Violation"),
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}
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//ReadPacket takes an instance of an io.Reader (such as net.Conn) and attempts
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//to read an MQTT packet from the stream. It returns a ControlPacket
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//representing the decoded MQTT packet and an error. One of these returns will
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//always be nil, a nil ControlPacket indicating an error occurred.
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func ReadPacket(r io.Reader) (cp ControlPacket, err error) {
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var fh FixedHeader
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b := make([]byte, 1)
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_, err = io.ReadFull(r, b)
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if err != nil {
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return nil, err
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}
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fh.unpack(b[0], r)
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cp = NewControlPacketWithHeader(fh)
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if cp == nil {
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return nil, errors.New("Bad data from client")
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}
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packetBytes := make([]byte, fh.RemainingLength)
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_, err = io.ReadFull(r, packetBytes)
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if err != nil {
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return nil, err
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}
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err = cp.Unpack(bytes.NewBuffer(packetBytes))
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return cp, err
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}
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//NewControlPacket is used to create a new ControlPacket of the type specified
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//by packetType, this is usually done by reference to the packet type constants
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//defined in packets.go. The newly created ControlPacket is empty and a pointer
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//is returned.
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func NewControlPacket(packetType byte) (cp ControlPacket) {
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switch packetType {
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case Connect:
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cp = &ConnectPacket{FixedHeader: FixedHeader{MessageType: Connect}}
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case Connack:
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cp = &ConnackPacket{FixedHeader: FixedHeader{MessageType: Connack}}
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case Disconnect:
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cp = &DisconnectPacket{FixedHeader: FixedHeader{MessageType: Disconnect}}
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case Publish:
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cp = &PublishPacket{FixedHeader: FixedHeader{MessageType: Publish}}
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case Puback:
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cp = &PubackPacket{FixedHeader: FixedHeader{MessageType: Puback}}
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case Pubrec:
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cp = &PubrecPacket{FixedHeader: FixedHeader{MessageType: Pubrec}}
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case Pubrel:
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cp = &PubrelPacket{FixedHeader: FixedHeader{MessageType: Pubrel, Qos: 1}}
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case Pubcomp:
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cp = &PubcompPacket{FixedHeader: FixedHeader{MessageType: Pubcomp}}
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case Subscribe:
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cp = &SubscribePacket{FixedHeader: FixedHeader{MessageType: Subscribe, Qos: 1}}
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case Suback:
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cp = &SubackPacket{FixedHeader: FixedHeader{MessageType: Suback}}
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case Unsubscribe:
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cp = &UnsubscribePacket{FixedHeader: FixedHeader{MessageType: Unsubscribe, Qos: 1}}
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case Unsuback:
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cp = &UnsubackPacket{FixedHeader: FixedHeader{MessageType: Unsuback}}
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case Pingreq:
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cp = &PingreqPacket{FixedHeader: FixedHeader{MessageType: Pingreq}}
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case Pingresp:
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cp = &PingrespPacket{FixedHeader: FixedHeader{MessageType: Pingresp}}
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default:
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return nil
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}
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return cp
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}
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//NewControlPacketWithHeader is used to create a new ControlPacket of the type
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//specified within the FixedHeader that is passed to the function.
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//The newly created ControlPacket is empty and a pointer is returned.
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func NewControlPacketWithHeader(fh FixedHeader) (cp ControlPacket) {
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switch fh.MessageType {
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case Connect:
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cp = &ConnectPacket{FixedHeader: fh}
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case Connack:
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cp = &ConnackPacket{FixedHeader: fh}
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case Disconnect:
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cp = &DisconnectPacket{FixedHeader: fh}
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case Publish:
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cp = &PublishPacket{FixedHeader: fh}
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case Puback:
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cp = &PubackPacket{FixedHeader: fh}
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case Pubrec:
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cp = &PubrecPacket{FixedHeader: fh}
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case Pubrel:
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cp = &PubrelPacket{FixedHeader: fh}
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case Pubcomp:
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cp = &PubcompPacket{FixedHeader: fh}
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case Subscribe:
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cp = &SubscribePacket{FixedHeader: fh}
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case Suback:
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cp = &SubackPacket{FixedHeader: fh}
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case Unsubscribe:
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cp = &UnsubscribePacket{FixedHeader: fh}
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case Unsuback:
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cp = &UnsubackPacket{FixedHeader: fh}
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case Pingreq:
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cp = &PingreqPacket{FixedHeader: fh}
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case Pingresp:
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cp = &PingrespPacket{FixedHeader: fh}
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default:
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return nil
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}
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return cp
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}
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//Details struct returned by the Details() function called on
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//ControlPackets to present details of the Qos and MessageID
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//of the ControlPacket
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type Details struct {
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Qos byte
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MessageID uint16
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}
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//FixedHeader is a struct to hold the decoded information from
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//the fixed header of an MQTT ControlPacket
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type FixedHeader struct {
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MessageType byte
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Dup bool
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Qos byte
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Retain bool
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RemainingLength int
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}
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func (fh FixedHeader) String() string {
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return fmt.Sprintf("%s: dup: %t qos: %d retain: %t rLength: %d", PacketNames[fh.MessageType], fh.Dup, fh.Qos, fh.Retain, fh.RemainingLength)
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}
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func boolToByte(b bool) byte {
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switch b {
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case true:
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return 1
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default:
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return 0
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}
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}
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func (fh *FixedHeader) pack() bytes.Buffer {
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var header bytes.Buffer
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header.WriteByte(fh.MessageType<<4 | boolToByte(fh.Dup)<<3 | fh.Qos<<1 | boolToByte(fh.Retain))
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header.Write(encodeLength(fh.RemainingLength))
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return header
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}
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func (fh *FixedHeader) unpack(typeAndFlags byte, r io.Reader) {
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fh.MessageType = typeAndFlags >> 4
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fh.Dup = (typeAndFlags>>3)&0x01 > 0
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fh.Qos = (typeAndFlags >> 1) & 0x03
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fh.Retain = typeAndFlags&0x01 > 0
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fh.RemainingLength = decodeLength(r)
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}
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func decodeByte(b io.Reader) byte {
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num := make([]byte, 1)
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b.Read(num)
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return num[0]
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}
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func decodeUint16(b io.Reader) uint16 {
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num := make([]byte, 2)
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b.Read(num)
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return binary.BigEndian.Uint16(num)
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}
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func encodeUint16(num uint16) []byte {
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bytes := make([]byte, 2)
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binary.BigEndian.PutUint16(bytes, num)
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return bytes
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}
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func encodeString(field string) []byte {
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fieldLength := make([]byte, 2)
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binary.BigEndian.PutUint16(fieldLength, uint16(len(field)))
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return append(fieldLength, []byte(field)...)
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}
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func decodeString(b io.Reader) string {
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fieldLength := decodeUint16(b)
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field := make([]byte, fieldLength)
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b.Read(field)
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return string(field)
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}
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func decodeBytes(b io.Reader) []byte {
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fieldLength := decodeUint16(b)
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field := make([]byte, fieldLength)
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b.Read(field)
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return field
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}
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func encodeBytes(field []byte) []byte {
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fieldLength := make([]byte, 2)
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binary.BigEndian.PutUint16(fieldLength, uint16(len(field)))
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return append(fieldLength, field...)
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}
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func encodeLength(length int) []byte {
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var encLength []byte
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for {
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digit := byte(length % 128)
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length /= 128
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if length > 0 {
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digit |= 0x80
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}
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encLength = append(encLength, digit)
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if length == 0 {
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break
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}
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}
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return encLength
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}
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func decodeLength(r io.Reader) int {
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var rLength uint32
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var multiplier uint32
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b := make([]byte, 1)
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for multiplier < 27 { //fix: Infinite '(digit & 128) == 1' will cause the dead loop
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io.ReadFull(r, b)
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digit := b[0]
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rLength |= uint32(digit&127) << multiplier
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if (digit & 128) == 0 {
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break
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}
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multiplier += 7
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}
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return int(rLength)
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}
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