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monitor.go
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monitor.go
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package main
import (
"bufio"
"debug/dwarf"
"debug/elf"
"debug/macho"
"debug/pe"
"errors"
"fmt"
"go/token"
"io"
"net"
"os"
"os/signal"
"regexp"
"strconv"
"strings"
"time"
"github.com/mattn/go-tty"
"github.com/tinygo-org/tinygo/compileopts"
"go.bug.st/serial"
"go.bug.st/serial/enumerator"
)
// Monitor connects to the given port and reads/writes the serial port.
func Monitor(executable, port string, config *compileopts.Config) error {
const timeout = time.Second * 3
var exit func() // function to be called before exiting
var serialConn io.ReadWriter
if config.Options.Serial == "rtt" {
// Use the RTT interface, which is documented (in part) here:
// https://wiki.segger.com/RTT
// Try to find the "machine.rttSerialInstance" symbol, which is the RTT
// control block.
file, err := elf.Open(executable)
if err != nil {
return fmt.Errorf("could not open ELF file to determine RTT control block: %w", err)
}
defer file.Close()
symbols, err := file.Symbols()
if err != nil {
return fmt.Errorf("could not read ELF symbol table to determine RTT control block: %w", err)
}
var address uint64
for _, symbol := range symbols {
if symbol.Name == "machine.rttSerialInstance" {
address = symbol.Value
break
}
}
if address == 0 {
return fmt.Errorf("could not find RTT control block in ELF file")
}
// Start an openocd process in the background.
args, err := config.OpenOCDConfiguration()
if err != nil {
return err
}
args = append(args,
"-c", fmt.Sprintf("rtt setup 0x%x 16 \"SEGGER RTT\"", address),
"-c", "init",
"-c", "rtt server start 0 0")
cmd := executeCommand(config.Options, "openocd", args...)
stderr, err := cmd.StderrPipe()
if err != nil {
return err
}
cmd.Stdout = os.Stdout
err = cmd.Start()
if err != nil {
return err
}
defer cmd.Process.Kill()
exit = func() {
// Make sure the openocd process is terminated at exit.
// This does not happen through the defer above when exiting through
// os.Exit.
cmd.Process.Kill()
}
// Read the stderr, which logs various important messages we need.
r := bufio.NewReader(stderr)
var telnet net.Conn
var timeoutAt time.Time
for {
// Read the next line from the openocd process.
lineBytes, err := r.ReadBytes('\n')
if err != nil {
return err
}
line := string(lineBytes)
if line == "Info : rtt: No control block found\n" {
// Message that is sent back when OpenOCD can't find the control
// block after a 'rtt start' message.
if time.Now().After(timeoutAt) {
return fmt.Errorf("RTT timeout (could not locate RTT control block at 0x%08x)", address)
}
time.Sleep(time.Millisecond * 100)
telnet.Write([]byte("rtt start\r\n"))
} else if strings.HasPrefix(line, "Info : Listening on port") {
// We need two different ports for controlling OpenOCD
// (typically port 4444) and the RTT channel 0 socket (arbitrary
// port).
var port int
var protocol string
fmt.Sscanf(line, "Info : Listening on port %d for %s connections\n", &port, &protocol)
if protocol == "telnet" && telnet == nil {
// Connect to the "telnet" command line interface.
telnet, err = net.Dial("tcp4", fmt.Sprintf("localhost:%d", port))
if err != nil {
return err
}
// Tell OpenOCD to start scanning for the RTT control block.
telnet.Write([]byte("rtt start\r\n"))
// Also make sure we will time out if the control block just
// can't be found.
timeoutAt = time.Now().Add(timeout)
} else if protocol == "rtt" {
// Connect to the RTT channel, for both stdin and stdout.
conn, err := net.Dial("tcp4", fmt.Sprintf("localhost:%d", port))
if err != nil {
return err
}
serialConn = conn
}
} else if strings.HasPrefix(line, "Info : rtt: Control block found at") {
// Connection established!
break
}
}
} else { // -serial=uart or -serial=usb
var err error
wait := 300
for i := 0; i <= wait; i++ {
port, err = getDefaultPort(port, config.Target.SerialPort)
if err != nil {
if i < wait {
time.Sleep(10 * time.Millisecond)
continue
}
return err
}
break
}
br := config.Options.BaudRate
if br <= 0 {
br = 115200
}
wait = 300
var p serial.Port
for i := 0; i <= wait; i++ {
p, err = serial.Open(port, &serial.Mode{BaudRate: br})
if err != nil {
if i < wait {
time.Sleep(10 * time.Millisecond)
continue
}
return err
}
serialConn = p
break
}
defer p.Close()
}
tty, err := tty.Open()
if err != nil {
return err
}
defer tty.Close()
sig := make(chan os.Signal, 1)
signal.Notify(sig, os.Interrupt)
defer signal.Stop(sig)
go func() {
<-sig
tty.Close()
if exit != nil {
exit()
}
os.Exit(0)
}()
fmt.Printf("Connected to %s. Press Ctrl-C to exit.\n", port)
errCh := make(chan error, 1)
go func() {
buf := make([]byte, 100*1024)
writer := newOutputWriter(os.Stdout, executable)
for {
n, err := serialConn.Read(buf)
if err != nil {
errCh <- fmt.Errorf("read error: %w", err)
return
}
writer.Write(buf[:n])
}
}()
go func() {
for {
r, err := tty.ReadRune()
if err != nil {
errCh <- err
return
}
if r == 0 {
continue
}
serialConn.Write([]byte(string(r)))
}
}()
return <-errCh
}
// SerialPortInfo is a structure that holds information about the port and its
// associated TargetSpec.
type SerialPortInfo struct {
Name string
IsUSB bool
VID string
PID string
Target string
Spec *compileopts.TargetSpec
}
// ListSerialPort returns serial port information and any detected TinyGo
// target.
func ListSerialPorts() ([]SerialPortInfo, error) {
maps, err := compileopts.GetTargetSpecs()
if err != nil {
return nil, err
}
portsList, err := enumerator.GetDetailedPortsList()
if err != nil {
return nil, err
}
serialPortInfo := []SerialPortInfo{}
for _, p := range portsList {
info := SerialPortInfo{
Name: p.Name,
IsUSB: p.IsUSB,
VID: p.VID,
PID: p.PID,
}
vid := strings.ToLower(p.VID)
pid := strings.ToLower(p.PID)
for k, v := range maps {
usbInterfaces := v.SerialPort
for _, s := range usbInterfaces {
parts := strings.Split(s, ":")
if len(parts) != 2 {
continue
}
if vid == strings.ToLower(parts[0]) && pid == strings.ToLower(parts[1]) {
info.Target = k
info.Spec = v
}
}
}
serialPortInfo = append(serialPortInfo, info)
}
return serialPortInfo, nil
}
var addressMatch = regexp.MustCompile(`^panic: runtime error at 0x([0-9a-f]+): `)
// Extract the address from the "panic: runtime error at" message.
func extractPanicAddress(line []byte) uint64 {
matches := addressMatch.FindSubmatch(line)
if matches != nil {
address, err := strconv.ParseUint(string(matches[1]), 16, 64)
if err == nil {
return address
}
}
return 0
}
// Convert an address in the binary to a source address location.
func addressToLine(executable string, address uint64) (token.Position, error) {
data, err := readDWARF(executable)
if err != nil {
return token.Position{}, err
}
r := data.Reader()
for {
e, err := r.Next()
if err != nil {
return token.Position{}, err
}
if e == nil {
break
}
switch e.Tag {
case dwarf.TagCompileUnit:
r.SkipChildren()
lr, err := data.LineReader(e)
if err != nil {
return token.Position{}, err
}
var lineEntry = dwarf.LineEntry{
EndSequence: true,
}
for {
// Read the next .debug_line entry.
prevLineEntry := lineEntry
err := lr.Next(&lineEntry)
if err != nil {
if err == io.EOF {
break
}
return token.Position{}, err
}
if prevLineEntry.EndSequence && lineEntry.Address == 0 {
// Tombstone value. This symbol has been removed, for
// example by the --gc-sections linker flag. It is still
// here in the debug information because the linker can't
// just remove this reference.
// Read until the next EndSequence so that this sequence is
// skipped.
// For more details, see (among others):
// https://reviews.llvm.org/D84825
for {
err := lr.Next(&lineEntry)
if err != nil {
return token.Position{}, err
}
if lineEntry.EndSequence {
break
}
}
}
if !prevLineEntry.EndSequence {
// The chunk describes the code from prevLineEntry to
// lineEntry.
if prevLineEntry.Address <= address && lineEntry.Address > address {
return token.Position{
Filename: prevLineEntry.File.Name,
Line: prevLineEntry.Line,
Column: prevLineEntry.Column,
}, nil
}
}
}
}
}
return token.Position{}, nil // location not found
}
// Read the DWARF debug information from a given file (in various formats).
func readDWARF(executable string) (*dwarf.Data, error) {
f, err := os.Open(executable)
if err != nil {
return nil, err
}
if file, err := elf.NewFile(f); err == nil {
return file.DWARF()
} else if file, err := macho.NewFile(f); err == nil {
return file.DWARF()
} else if file, err := pe.NewFile(f); err == nil {
return file.DWARF()
} else {
return nil, errors.New("unknown binary format")
}
}
type outputWriter struct {
out io.Writer
executable string
line []byte
}
// newOutputWriter returns an io.Writer that will intercept panic addresses and
// will try to insert a source location in the output if the source location can
// be found in the executable.
func newOutputWriter(out io.Writer, executable string) *outputWriter {
return &outputWriter{
out: out,
executable: executable,
}
}
func (w *outputWriter) Write(p []byte) (n int, err error) {
start := 0
for i, c := range p {
if c == '\n' {
w.out.Write(p[start : i+1])
start = i + 1
address := extractPanicAddress(w.line)
if address != 0 {
loc, err := addressToLine(w.executable, address)
if err == nil && loc.Filename != "" {
fmt.Printf("[tinygo: panic at %s]\n", loc.String())
}
}
w.line = w.line[:0]
} else {
w.line = append(w.line, c)
}
}
w.out.Write(p[start:])
n = len(p)
return
}