gotelem/xbee/session.go

321 lines
8.5 KiB
Go

/*
Package xbee provides communication and configuration of Digi XBee products
(and other Digi products that are similar such as the XLR Pro). It provides
a net.Conn-like interface as well as AT commands for configuration. The most
common usage of the package is with a Session, which provides
*/
package xbee
import (
"bufio"
"fmt"
"io"
"sync"
"strings"
"errors"
"runtime"
"net"
"strconv"
"golang.org/x/exp/slog"
"go.bug.st/serial"
)
// TODO: implement net.Conn for Session/Conn. We are missing LocalAddr, RemoteAddr,
// and Deadline related methods.
// Session represents a connection to a locally-attached XBee. The connection can be through
// serial/USB or TCP/IP depending on what is supported by the device.
type Session struct {
ioDev io.ReadWriteCloser
ct connTrack
log slog.Logger
// this buffer is used for storing data that must be read at some point.
rxBuf *bufio.ReadWriter
writeLock sync.Mutex // prevents multiple writers from accessing the port at once.
// conns contain a map of addresses to connections. This means that there
// can only be one direct connection to a device. This is pretty reasonable IMO.
// but needs to be documented very clearly.
conns map[uint64]*Conn
}
// NewSession takes an IO device and a logger and returns a new XBee session.
func NewSession(dev io.ReadWriteCloser, baseLog *slog.Logger) (*Session, error) {
sess := &Session{
ioDev: dev,
log: *baseLog,
ct: *NewConnTrack(),
}
// setup io readwriter with a pipe.
rd, wr := io.Pipe()
// this is for reading data *only* - writes are different! it's a
// readWriter because the goroutine that runs scan continuously (and handles all other packets)
// will write to the buffer when new Rx packets come in, and we can read out from application code.
sess.rxBuf = bufio.NewReadWriter(bufio.NewReader(rd), bufio.NewWriter(wr))
// start the rx handler in the background. we close it later by closing the serial port.
go sess.rxHandler()
return sess, nil
}
// before we can write `Read(p []byte)` we have to have a goroutine that takes the input from
// the serial port and parses it out - if it's data, we push the data to a buffer for
// the application to read the bytes on its own.
//
// if it's a different kind of packet, we do custom functionality (free the conntrack, update
// local status, etc)
func (sess *Session) rxHandler() {
// we wrap the serial port read line in a bufio.scanner using our custom split function.
scan := bufio.NewScanner(sess.ioDev)
scan.Split(xbeeFrameSplit)
// scan.Scan() will return false when there's EOF, i.e the io device is closed.
// this is activated by sess.Close()
for scan.Scan() {
data, err := parseFrame(scan.Bytes())
if err != nil {
sess.log.Warn("error parsing frame", "error", err, "data", data)
continue
}
switch XBeeCmd(data[0]) {
case RxPktType:
// we parse the data, and push it to the rx buffer.
//TODO: if we have multiple remotes on the network, we need to track them here.
frame, err := ParseRxFrame(data)
if err != nil {
sess.log.Warn("error parsing rx packet", "error", err, "data", data)
break //continue?
}
// take the data and write it to our internal rx packet buffer.
_, err = sess.rxBuf.Write(frame.Payload)
if err != nil {
sess.log.Warn("error writing data", "error", err, "payload", frame.Payload)
}
case TxStatusType, ATCmdResponseType, RemoteCmdRespType:
// we hand the frame back via the channel. we directly find the ID since it's always
// the second byte.
idx := data[1]
err := sess.ct.ClearMark(idx, data)
if err != nil {
// we got a rogue packet lol
sess.log.Warn("rogue frame ID", "id", idx, "error", err)
}
default:
// we don't know what to do with it.
sess.log.Info("unhandled packet type", "type", data[0], "id", data[1])
}
}
// if we get here, the serial port has closed. this is fine.
sess.log.Debug("closing rx handler", "err", scan.Err())
}
// This implements io.Reader for the UART Session.
func (sess *Session) Read(p []byte) (int, error) {
// Since we have an rx buffer, we just read from that and return the results.
return sess.rxBuf.Read(p)
}
// Write sends a message to all XBees listening on the network. To send a message to a specific
// XBee, use Dial() to get a Conn
func (sess *Session) Write(p []byte) (int, error) {
return sess.writeAddr(p, 0xFFFF)
}
func (sess *Session) writeAddr(p []byte, dest uint64) (n int, err error) {
idx, ch, err := sess.ct.GetMark()
if err != nil {
return
}
wf := &TxFrame{
Id: idx,
Destination: dest,
Payload: p,
}
sess.writeLock.Lock()
n, err = writeXBeeFrame(sess.ioDev, wf.Bytes())
sess.writeLock.Unlock()
if err != nil {
return
}
n = n - 4
// finally, wait for the channel we got to return. this means that
// the matching response frame was received, so we can parse it.
// TODO: add timeout.
responseFrame := <-ch
// this is a tx status frame bytes, so lets parse it out.
status, err := ParseTxStatusFrame(responseFrame)
if err != nil {
return
}
if status.Status != 0 {
err = fmt.Errorf("tx failed 0x%x", status.Status)
}
return
}
// sends a local AT command. If `queued` is true, the command is not immediately applied;
// instead, an AC command must be set to apply the queued changes. `queued` does not
// affect query-type commands, which always return right away.
// the AT command is an interface.
func (sess *Session) ATCommand(cmd [2]rune, data []byte, queued bool) ([]byte, error) {
// we must encode the command, and then create the actual packet.
// then we send the packet, and wait for the response
// TODO: how to handle multiple-response-packet AT commands?
// (mainly Node Discovery ND)
// get a mark for the frame
idx, ch, err := sess.ct.GetMark()
if err != nil {
return nil, err
}
rawData := encodeATCommand(cmd, data, idx, queued)
sess.writeLock.Lock()
_, err = writeXBeeFrame(sess.ioDev, rawData)
sess.writeLock.Unlock()
if err != nil {
return nil, fmt.Errorf("error writing xbee frame: %w", err)
}
// TODO: add timeout.
resp, err := ParseATCmdResponse(<-ch)
if err != nil {
return nil, err
}
if resp.Status != 0 {
// sinec ATCmdStatus is a stringer thanks to the generator
return resp.Data, fmt.Errorf("AT command failed: %v", resp.Status)
}
return resp.Data, nil
}
// Does this need to exist?
func (sess *Session) GetStatus() {
panic("TODO: implement")
}
// Implement the io.Closer.
func (sess *Session) Close() error {
return sess.ioDev.Close()
}
// Conn is a connection to a specific remote XBee. Conn allows for the user to
// contact one Xbee for point-to-point communications. This enables ACK packets
// for reliable transmission.
type Conn struct {
parent *Session
log slog.Logger
addr uint64
}
func (c *Conn) Write(p []byte) (int, error) {
return c.parent.writeAddr(p, c.addr)
}
/* Transport represents a connection that an XBee can use.
it's mostly a helper struct to parse URIs. It can parse the following formats:
tcp://192.168.4.5:8340
COM1
/dev/ttyUSB0:115200
for network devices, a port is optional. If it is not specified it will
default to 2616. The colon after a serial port sets the baud rate.
It will default to 9600 if not specified.
*/
type Transport struct {
io.ReadWriteCloser
devType string
}
func (xbt *Transport) Type() string {
return xbt.devType
}
// parseDeviceString parses the device parameter and sets up the associated
// device. The device is returned in an xbeeTransport which also stores
// the underlying type of the device with Type() string
func ParseDeviceString(dev string) (*Transport, error) {
xbt := &Transport{}
parseSerial := func(s string) (serial.Port, error) {
path, bRate, found := strings.Cut(dev, ":")
mode := &serial.Mode{
BaudRate: 9600,
}
if found {
b, err := strconv.Atoi(bRate)
if err != nil {
return nil, err
}
mode.BaudRate = b
}
return serial.Open(path, mode)
}
// actually parse the path
if strings.HasPrefix(dev, "tcp://") {
addr, _ := strings.CutPrefix(dev, "tcp://")
conn, err := net.Dial("tcp", addr)
if err != nil {
return nil, err
}
xbt.ReadWriteCloser = conn
xbt.devType = "tcp"
} else if strings.HasPrefix(dev, "COM") && runtime.GOOS == "windows" {
sDev, err := parseSerial(dev)
if err != nil {
return nil, err
}
xbt.ReadWriteCloser = sDev
xbt.devType = "serialWin"
} else if strings.HasPrefix(dev, "/") && runtime.GOOS != "windows" {
sDev, err := parseSerial(dev)
if err != nil {
return nil, err
}
xbt.ReadWriteCloser = sDev
xbt.devType = "serial"
} else {
return nil, errors.New("could not parse device path")
}
return xbt, nil
}