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|
package main
import (
"bufio"
"bytes"
"context"
"encoding/json"
"errors"
"flag"
"fmt"
"go/scanner"
"go/types"
"io"
"os"
"os/exec"
"os/signal"
"path/filepath"
"regexp"
"runtime"
"runtime/pprof"
"sort"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/google/shlex"
"github.com/inhies/go-bytesize"
"github.com/mattn/go-colorable"
"github.com/tinygo-org/tinygo/builder"
"github.com/tinygo-org/tinygo/compileopts"
"github.com/tinygo-org/tinygo/goenv"
"github.com/tinygo-org/tinygo/interp"
"github.com/tinygo-org/tinygo/loader"
"golang.org/x/tools/go/buildutil"
"tinygo.org/x/go-llvm"
"go.bug.st/serial"
"go.bug.st/serial/enumerator"
)
// commandError is an error type to wrap os/exec.Command errors. This provides
// some more information regarding what went wrong while running a command.
type commandError struct {
Msg string
File string
Err error
}
func (e *commandError) Error() string {
return e.Msg + " " + e.File + ": " + e.Err.Error()
}
// moveFile renames the file from src to dst. If renaming doesn't work (for
// example, the rename crosses a filesystem boundary), the file is copied and
// the old file is removed.
func moveFile(src, dst string) error {
err := os.Rename(src, dst)
if err == nil {
// Success!
return nil
}
// Failed to move, probably a different filesystem.
// Do a copy + remove.
err = copyFile(src, dst)
if err != nil {
return err
}
return os.Remove(src)
}
// copyFile copies the given file or directory from src to dst. It can copy over
// a possibly already existing file (but not directory) at the destination.
func copyFile(src, dst string) error {
source, err := os.Open(src)
if err != nil {
return err
}
defer source.Close()
st, err := source.Stat()
if err != nil {
return err
}
if st.IsDir() {
err := os.Mkdir(dst, st.Mode().Perm())
if err != nil {
return err
}
names, err := source.Readdirnames(0)
if err != nil {
return err
}
for _, name := range names {
err := copyFile(filepath.Join(src, name), filepath.Join(dst, name))
if err != nil {
return err
}
}
return nil
} else {
destination, err := os.OpenFile(dst, os.O_RDWR|os.O_CREATE|os.O_TRUNC, st.Mode())
if err != nil {
return err
}
defer destination.Close()
_, err = io.Copy(destination, source)
return err
}
}
// executeCommand is a simple wrapper to exec.Cmd
func executeCommand(options *compileopts.Options, name string, arg ...string) *exec.Cmd {
if options.PrintCommands != nil {
options.PrintCommands(name, arg...)
}
return exec.Command(name, arg...)
}
// printCommand prints a command to stdout while formatting it like a real
// command (escaping characters etc). The resulting command should be easy to
// run directly in a shell, although it is not guaranteed to be a safe shell
// escape. That's not a problem as the primary use case is printing the command,
// not running it.
func printCommand(cmd string, args ...string) {
command := append([]string{cmd}, args...)
for i, arg := range command {
// Source: https://www.oreilly.com/library/view/learning-the-bash/1565923472/ch01s09.html
const specialChars = "~`#$&*()\\|[]{};'\"<>?! "
if strings.ContainsAny(arg, specialChars) {
// See: https://stackoverflow.com/questions/15783701/which-characters-need-to-be-escaped-when-using-bash
arg = "'" + strings.ReplaceAll(arg, `'`, `'\''`) + "'"
command[i] = arg
}
}
fmt.Fprintln(os.Stderr, strings.Join(command, " "))
}
// Build compiles and links the given package and writes it to outpath.
func Build(pkgName, outpath string, options *compileopts.Options) error {
config, err := builder.NewConfig(options)
if err != nil {
return err
}
if options.PrintJSON {
b, err := json.MarshalIndent(config, "", " ")
if err != nil {
handleCompilerError(err)
}
fmt.Printf("%s\n", string(b))
return nil
}
// Create a temporary directory for intermediary files.
tmpdir, err := os.MkdirTemp("", "tinygo")
if err != nil {
return err
}
if !options.Work {
defer os.RemoveAll(tmpdir)
}
// Do the build.
result, err := builder.Build(pkgName, outpath, tmpdir, config)
if err != nil {
return err
}
if result.Binary != "" {
// If result.Binary is set, it means there is a build output (elf, hex,
// etc) that we need to move to the outpath. If it isn't set, it means
// the build output was a .ll, .bc or .o file that has already been
// written to outpath and so we don't need to do anything.
if outpath == "" {
if strings.HasSuffix(pkgName, ".go") {
// A Go file was specified directly on the command line.
// Base the binary name off of it.
outpath = filepath.Base(pkgName[:len(pkgName)-3]) + config.DefaultBinaryExtension()
} else {
// Pick a default output path based on the main directory.
outpath = filepath.Base(result.MainDir) + config.DefaultBinaryExtension()
}
}
if err := os.Rename(result.Binary, outpath); err != nil {
// Moving failed. Do a file copy.
inf, err := os.Open(result.Binary)
if err != nil {
return err
}
defer inf.Close()
outf, err := os.OpenFile(outpath, os.O_RDWR|os.O_CREATE|os.O_TRUNC, 0777)
if err != nil {
return err
}
// Copy data to output file.
_, err = io.Copy(outf, inf)
if err != nil {
return err
}
// Check whether file writing was successful.
return outf.Close()
}
}
// Move was successful.
return nil
}
// Test runs the tests in the given package. Returns whether the test passed and
// possibly an error if the test failed to run.
func Test(pkgName string, stdout, stderr io.Writer, options *compileopts.Options, outpath string) (bool, error) {
options.TestConfig.CompileTestBinary = true
config, err := builder.NewConfig(options)
if err != nil {
return false, err
}
testConfig := &options.TestConfig
// Pass test flags to the test binary.
var flags []string
if testConfig.Verbose {
flags = append(flags, "-test.v")
}
if testConfig.Short {
flags = append(flags, "-test.short")
}
if testConfig.RunRegexp != "" {
flags = append(flags, "-test.run="+testConfig.RunRegexp)
}
if testConfig.SkipRegexp != "" {
flags = append(flags, "-test.skip="+testConfig.SkipRegexp)
}
if testConfig.BenchRegexp != "" {
flags = append(flags, "-test.bench="+testConfig.BenchRegexp)
}
if testConfig.BenchTime != "" {
flags = append(flags, "-test.benchtime="+testConfig.BenchTime)
}
if testConfig.BenchMem {
flags = append(flags, "-test.benchmem")
}
if testConfig.Count != nil && *testConfig.Count != 1 {
flags = append(flags, "-test.count="+strconv.Itoa(*testConfig.Count))
}
if testConfig.Shuffle != "" {
flags = append(flags, "-test.shuffle="+testConfig.Shuffle)
}
logToStdout := testConfig.Verbose || testConfig.BenchRegexp != ""
var buf bytes.Buffer
var output io.Writer = &buf
// Send the test output to stdout if -v or -bench
if logToStdout {
output = os.Stdout
}
passed := false
var duration time.Duration
result, err := buildAndRun(pkgName, config, output, flags, nil, 0, func(cmd *exec.Cmd, result builder.BuildResult) error {
if testConfig.CompileOnly || outpath != "" {
// Write test binary to the specified file name.
if outpath == "" {
// No -o path was given, so create one now.
// This matches the behavior of go test.
outpath = filepath.Base(result.MainDir) + ".test"
}
copyFile(result.Binary, outpath)
}
if testConfig.CompileOnly {
// Do not run the test.
passed = true
return nil
}
// Tests are always run in the package directory.
cmd.Dir = result.MainDir
// wasmtime is the default emulator used for `-target=wasip1`. wasmtime
// is a WebAssembly runtime CLI with WASI enabled by default. However,
// only stdio are allowed by default. For example, while STDOUT routes
// to the host, other files don't. It also does not inherit environment
// variables from the host. Some tests read testdata files, often from
// outside the package directory. Other tests require temporary
// writeable directories. We allow this by adding wasmtime flags below.
if config.EmulatorName() == "wasmtime" {
// At this point, The current working directory is at the package
// directory. Ex. $GOROOT/src/compress/flate for compress/flate.
// buildAndRun has already added arguments for wasmtime, that allow
// read-access to files such as "testdata/huffman-zero.in".
//
// Ex. main(.wasm) --dir=. -- -test.v
// Below adds additional wasmtime flags in case a test reads files
// outside its directory, like "../testdata/e.txt". This allows any
// relative directory up to the module root, even if the test never
// reads any files.
//
// Ex. run --dir=.. --dir=../.. --dir=../../..
dirs := dirsToModuleRoot(result.MainDir, result.ModuleRoot)
args := []string{"run"}
for _, d := range dirs[1:] {
args = append(args, "--dir="+d)
}
// The below re-organizes the arguments so that the current
// directory is added last.
args = append(args, cmd.Args[1:]...)
cmd.Args = append(cmd.Args[:1:1], args...)
}
// Run the test.
start := time.Now()
err = cmd.Run()
duration = time.Since(start)
passed = err == nil
// if verbose or benchmarks, then output is already going to stdout
// However, if we failed and weren't printing to stdout, print the output we accumulated.
if !passed && !logToStdout {
buf.WriteTo(stdout)
}
if _, ok := err.(*exec.ExitError); ok {
// Binary exited with a non-zero exit code, which means the test
// failed. Return nil to avoid printing a useless "exited with
// error" error message.
return nil
}
return err
})
importPath := strings.TrimSuffix(result.ImportPath, ".test")
var w io.Writer = stdout
if logToStdout {
w = os.Stdout
}
if err, ok := err.(loader.NoTestFilesError); ok {
fmt.Fprintf(w, "? \t%s\t[no test files]\n", err.ImportPath)
// Pretend the test passed - it at least didn't fail.
return true, nil
} else if passed && !testConfig.CompileOnly {
fmt.Fprintf(w, "ok \t%s\t%.3fs\n", importPath, duration.Seconds())
} else {
fmt.Fprintf(w, "FAIL\t%s\t%.3fs\n", importPath, duration.Seconds())
}
return passed, err
}
func dirsToModuleRoot(maindir, modroot string) []string {
var dirs = []string{"."}
last := ".."
// strip off path elements until we hit the module root
// adding `..`, `../..`, `../../..` until we're done
for maindir != modroot {
dirs = append(dirs, last)
last = filepath.Join(last, "..")
maindir = filepath.Dir(maindir)
}
return dirs
}
// Flash builds and flashes the built binary to the given serial port.
func Flash(pkgName, port string, options *compileopts.Options) error {
config, err := builder.NewConfig(options)
if err != nil {
return err
}
// determine the type of file to compile
var fileExt string
flashMethod, _ := config.Programmer()
switch flashMethod {
case "command", "":
switch {
case strings.Contains(config.Target.FlashCommand, "{hex}"):
fileExt = ".hex"
case strings.Contains(config.Target.FlashCommand, "{elf}"):
fileExt = ".elf"
case strings.Contains(config.Target.FlashCommand, "{bin}"):
fileExt = ".bin"
case strings.Contains(config.Target.FlashCommand, "{uf2}"):
fileExt = ".uf2"
case strings.Contains(config.Target.FlashCommand, "{zip}"):
fileExt = ".zip"
default:
return errors.New("invalid target file - did you forget the {hex} token in the 'flash-command' section?")
}
case "msd":
if config.Target.FlashFilename == "" {
return errors.New("invalid target file: flash-method was set to \"msd\" but no msd-firmware-name was set")
}
fileExt = filepath.Ext(config.Target.FlashFilename)
case "openocd":
fileExt = ".hex"
case "bmp":
fileExt = ".elf"
case "native":
return errors.New("unknown flash method \"native\" - did you miss a -target flag?")
default:
return errors.New("unknown flash method: " + flashMethod)
}
// Create a temporary directory for intermediary files.
tmpdir, err := os.MkdirTemp("", "tinygo")
if err != nil {
return err
}
if !options.Work {
defer os.RemoveAll(tmpdir)
}
// Build the binary.
result, err := builder.Build(pkgName, fileExt, tmpdir, config)
if err != nil {
return err
}
// do we need port reset to put MCU into bootloader mode?
if config.Target.PortReset == "true" && flashMethod != "openocd" {
port, err := getDefaultPort(port, config.Target.SerialPort)
if err == nil {
err = touchSerialPortAt1200bps(port)
if err != nil {
return &commandError{"failed to reset port", port, err}
}
// give the target MCU a chance to restart into bootloader
time.Sleep(3 * time.Second)
}
}
// Flash the binary to the MCU.
switch flashMethod {
case "", "command":
// Create the command.
flashCmd := config.Target.FlashCommand
flashCmdList, err := shlex.Split(flashCmd)
if err != nil {
return fmt.Errorf("could not parse flash command %#v: %w", flashCmd, err)
}
if strings.Contains(flashCmd, "{port}") {
var err error
port, err = getDefaultPort(port, config.Target.SerialPort)
if err != nil {
return err
}
}
// Fill in fields in the command template.
fileToken := "{" + fileExt[1:] + "}"
for i, arg := range flashCmdList {
arg = strings.ReplaceAll(arg, fileToken, result.Binary)
arg = strings.ReplaceAll(arg, "{port}", port)
flashCmdList[i] = arg
}
// Execute the command.
if len(flashCmdList) < 2 {
return fmt.Errorf("invalid flash command: %#v", flashCmd)
}
cmd := executeCommand(config.Options, flashCmdList[0], flashCmdList[1:]...)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
cmd.Dir = goenv.Get("TINYGOROOT")
err = cmd.Run()
if err != nil {
return &commandError{"failed to flash", result.Binary, err}
}
case "msd":
// this flashing method copies the binary data to a Mass Storage Device (msd)
switch fileExt {
case ".uf2":
err := flashUF2UsingMSD(config.Target.FlashVolume, result.Binary, config.Options)
if err != nil {
return &commandError{"failed to flash", result.Binary, err}
}
case ".hex":
err := flashHexUsingMSD(config.Target.FlashVolume, result.Binary, config.Options)
if err != nil {
return &commandError{"failed to flash", result.Binary, err}
}
default:
return errors.New("mass storage device flashing currently only supports uf2 and hex")
}
case "openocd":
args, err := config.OpenOCDConfiguration()
if err != nil {
return err
}
exit := " reset exit"
if config.Target.OpenOCDVerify != nil && *config.Target.OpenOCDVerify {
exit = " verify" + exit
}
args = append(args, "-c", "program "+filepath.ToSlash(result.Binary)+exit)
cmd := executeCommand(config.Options, "openocd", args...)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err = cmd.Run()
if err != nil {
return &commandError{"failed to flash", result.Binary, err}
}
case "bmp":
gdb, err := config.Target.LookupGDB()
if err != nil {
return err
}
var bmpGDBPort string
bmpGDBPort, _, err = getBMPPorts()
if err != nil {
return err
}
args := []string{"-ex", "target extended-remote " + bmpGDBPort, "-ex", "monitor swdp_scan", "-ex", "attach 1", "-ex", "load", filepath.ToSlash(result.Binary)}
cmd := executeCommand(config.Options, gdb, args...)
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err = cmd.Run()
if err != nil {
return &commandError{"failed to flash", result.Binary, err}
}
default:
return fmt.Errorf("unknown flash method: %s", flashMethod)
}
if options.Monitor {
return Monitor(result.Executable, "", config)
}
return nil
}
// Debug compiles and flashes a program to a microcontroller (just like Flash)
// but instead of resetting the target, it will drop into a debug shell like GDB
// or LLDB. You can then set breakpoints, run the `continue` command to start,
// hit Ctrl+C to break the running program, etc.
//
// Note: this command is expected to execute just before exiting, as it
// modifies global state.
func Debug(debugger, pkgName string, ocdOutput bool, options *compileopts.Options) error {
config, err := builder.NewConfig(options)
if err != nil {
return err
}
var cmdName string
switch debugger {
case "gdb":
cmdName, err = config.Target.LookupGDB()
case "lldb":
cmdName, err = builder.LookupCommand("lldb")
}
if err != nil {
return err
}
// Create a temporary directory for intermediary files.
tmpdir, err := os.MkdirTemp("", "tinygo")
if err != nil {
return err
}
if !options.Work {
defer os.RemoveAll(tmpdir)
}
// Build the binary to debug.
format, fileExt := config.EmulatorFormat()
result, err := builder.Build(pkgName, fileExt, tmpdir, config)
if err != nil {
return err
}
// Find a good way to run GDB.
gdbInterface, openocdInterface := config.Programmer()
switch gdbInterface {
case "msd", "command", "":
emulator := config.EmulatorName()
if emulator != "" {
if emulator == "mgba" {
gdbInterface = "mgba"
} else if emulator == "simavr" {
gdbInterface = "simavr"
} else if strings.HasPrefix(emulator, "qemu-system-") {
gdbInterface = "qemu"
} else {
// Assume QEMU as an emulator.
gdbInterface = "qemu-user"
}
} else if openocdInterface != "" && config.Target.OpenOCDTarget != "" {
gdbInterface = "openocd"
} else if config.Target.JLinkDevice != "" {
gdbInterface = "jlink"
} else {
gdbInterface = "native"
}
}
// Run the GDB server, if necessary.
port := ""
var gdbCommands []string
var daemon *exec.Cmd
emulator, err := config.Emulator(format, result.Binary)
if err != nil {
return err
}
switch gdbInterface {
case "native":
// Run GDB directly.
case "bmp":
var bmpGDBPort string
bmpGDBPort, _, err = getBMPPorts()
if err != nil {
return err
}
port = bmpGDBPort
gdbCommands = append(gdbCommands, "monitor swdp_scan", "compare-sections", "attach 1", "load")
case "openocd":
port = ":3333"
gdbCommands = append(gdbCommands, "monitor halt", "load", "monitor reset halt")
// We need a separate debugging daemon for on-chip debugging.
args, err := config.OpenOCDConfiguration()
if err != nil {
return err
}
daemon = executeCommand(config.Options, "openocd", args...)
if ocdOutput {
// Make it clear which output is from the daemon.
w := &ColorWriter{
Out: colorable.NewColorableStderr(),
Prefix: "openocd: ",
Color: TermColorYellow,
}
daemon.Stdout = w
daemon.Stderr = w
}
case "jlink":
port = ":2331"
gdbCommands = append(gdbCommands, "load", "monitor reset halt")
// We need a separate debugging daemon for on-chip debugging.
daemon = executeCommand(config.Options, "JLinkGDBServer", "-device", config.Target.JLinkDevice)
if ocdOutput {
// Make it clear which output is from the daemon.
w := &ColorWriter{
Out: colorable.NewColorableStderr(),
Prefix: "jlink: ",
Color: TermColorYellow,
}
daemon.Stdout = w
daemon.Stderr = w
}
case "qemu":
port = ":1234"
// Run in an emulator.
args := append(emulator[1:], "-s", "-S")
daemon = executeCommand(config.Options, emulator[0], args...)
daemon.Stdout = os.Stdout
daemon.Stderr = os.Stderr
case "qemu-user":
port = ":1234"
// Run in an emulator.
args := append([]string{"-g", "1234"}, emulator[1:]...)
daemon = executeCommand(config.Options, emulator[0], args...)
daemon.Stdout = os.Stdout
daemon.Stderr = os.Stderr
case "mgba":
port = ":2345"
// Run in an emulator.
args := append(emulator[1:], "-g")
daemon = executeCommand(config.Options, emulator[0], args...)
daemon.Stdout = os.Stdout
daemon.Stderr = os.Stderr
case "simavr":
port = ":1234"
// Run in an emulator.
args := append(emulator[1:], "-g")
daemon = executeCommand(config.Options, emulator[0], args...)
daemon.Stdout = os.Stdout
daemon.Stderr = os.Stderr
case "msd":
return errors.New("gdb is not supported for drag-and-drop programmable devices")
default:
return fmt.Errorf("gdb is not supported with interface %#v", gdbInterface)
}
if daemon != nil {
// Make sure the daemon doesn't receive Ctrl-C that is intended for
// GDB (to break the currently executing program).
setCommandAsDaemon(daemon)
// Start now, and kill it on exit.
err = daemon.Start()
if err != nil {
return &commandError{"failed to run", daemon.Path, err}
}
defer func() {
daemon.Process.Signal(os.Interrupt)
var stopped uint32
go func() {
time.Sleep(time.Millisecond * 100)
if atomic.LoadUint32(&stopped) == 0 {
daemon.Process.Kill()
}
}()
daemon.Wait()
atomic.StoreUint32(&stopped, 1)
}()
}
// Ignore Ctrl-C, it must be passed on to GDB.
c := make(chan os.Signal, 1)
signal.Notify(c, os.Interrupt)
go func() {
for range c {
}
}()
// Construct and execute a gdb or lldb command.
// By default: gdb -ex run <binary>
// Exit the debugger with Ctrl-D.
params := []string{result.Executable}
switch debugger {
case "gdb":
if port != "" {
params = append(params, "-ex", "target extended-remote "+port)
}
for _, cmd := range gdbCommands {
params = append(params, "-ex", cmd)
}
case "lldb":
params = append(params, "--arch", config.Triple())
if port != "" {
if strings.HasPrefix(port, ":") {
params = append(params, "-o", "gdb-remote "+port[1:])
} else {
return fmt.Errorf("cannot use LLDB over a gdb-remote that isn't a TCP port: %s", port)
}
}
for _, cmd := range gdbCommands {
if strings.HasPrefix(cmd, "monitor ") {
params = append(params, "-o", "process plugin packet "+cmd)
} else if cmd == "load" {
params = append(params, "-o", "target modules load --load --slide 0")
} else {
return fmt.Errorf("don't know how to convert GDB command %#v to LLDB", cmd)
}
}
}
cmd := executeCommand(config.Options, cmdName, params...)
cmd.Stdin = os.Stdin
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err = cmd.Run()
if err != nil {
return &commandError{"failed to run " + cmdName + " with", result.Executable, err}
}
return nil
}
// Run compiles and runs the given program. Depending on the target provided in
// the options, it will run the program directly on the host or will run it in
// an emulator. For example, -target=wasm will cause the binary to be run inside
// of a WebAssembly VM.
func Run(pkgName string, options *compileopts.Options, cmdArgs []string) error {
config, err := builder.NewConfig(options)
if err != nil {
return err
}
_, err = buildAndRun(pkgName, config, os.Stdout, cmdArgs, nil, 0, func(cmd *exec.Cmd, result builder.BuildResult) error {
return cmd.Run()
})
return err
}
// buildAndRun builds and runs the given program, writing output to stdout and
// errors to os.Stderr. It takes care of emulators (qemu, wasmtime, etc) and
// passes command line arguments and evironment variables in a way appropriate
// for the given emulator.
func buildAndRun(pkgName string, config *compileopts.Config, stdout io.Writer, cmdArgs, environmentVars []string, timeout time.Duration, run func(cmd *exec.Cmd, result builder.BuildResult) error) (builder.BuildResult, error) {
// Determine whether we're on a system that supports environment variables
// and command line parameters (operating systems, WASI) or not (baremetal,
// WebAssembly in the browser). If we're on a system without an environment,
// we need to pass command line arguments and environment variables through
// global variables (built into the binary directly) instead of the
// conventional way.
needsEnvInVars := config.GOOS() == "js"
for _, tag := range config.BuildTags() {
if tag == "baremetal" {
needsEnvInVars = true
}
}
var args, emuArgs, env []string
var extraCmdEnv []string
if needsEnvInVars {
runtimeGlobals := make(map[string]string)
if len(cmdArgs) != 0 {
runtimeGlobals["osArgs"] = strings.Join(cmdArgs, "\x00")
}
if len(environmentVars) != 0 {
runtimeGlobals["osEnv"] = strings.Join(environmentVars, "\x00")
}
if len(runtimeGlobals) != 0 {
// This sets the global variables like they would be set with
// `-ldflags="-X=runtime.osArgs=first\x00second`.
// The runtime package has two variables (osArgs and osEnv) that are
// both strings, from which the parameters and environment variables
// are read.
config.Options.GlobalValues = map[string]map[string]string{
"runtime": runtimeGlobals,
}
}
} else if config.EmulatorName() == "wasmtime" {
// Wasmtime needs some special flags to pass environment variables
// and allow reading from the current directory.
emuArgs = append(emuArgs, "--dir=.")
for _, v := range environmentVars {
emuArgs = append(emuArgs, "--env", v)
}
if len(cmdArgs) != 0 {
// Use of '--' argument no longer necessary as of Wasmtime v14:
// https://github.com/bytecodealliance/wasmtime/pull/6946
// args = append(args, "--")
args = append(args, cmdArgs...)
}
// Set this for nicer backtraces during tests, but don't override the user.
if _, ok := os.LookupEnv("WASMTIME_BACKTRACE_DETAILS"); !ok {
extraCmdEnv = append(extraCmdEnv, "WASMTIME_BACKTRACE_DETAILS=1")
}
} else {
// Pass environment variables and command line parameters as usual.
// This also works on qemu-aarch64 etc.
args = cmdArgs
env = environmentVars
}
// Create a temporary directory for intermediary files.
tmpdir, err := os.MkdirTemp("", "tinygo")
if err != nil {
return builder.BuildResult{}, err
}
if !config.Options.Work {
defer os.RemoveAll(tmpdir)
}
// Build the binary to be run.
format, fileExt := config.EmulatorFormat()
result, err := builder.Build(pkgName, fileExt, tmpdir, config)
if err != nil {
return result, err
}
// If needed, set a timeout on the command. This is done in tests so
// they don't waste resources on a stalled test.
var ctx context.Context
if timeout != 0 {
var cancel context.CancelFunc
ctx, cancel = context.WithTimeout(context.Background(), timeout)
defer cancel()
}
// Set up the command.
var name string
if config.Target.Emulator == "" {
name = result.Binary
} else {
emulator, err := config.Emulator(format, result.Binary)
if err != nil {
return result, err
}
name = emulator[0]
emuArgs = append(emuArgs, emulator[1:]...)
args = append(emuArgs, args...)
}
var cmd *exec.Cmd
if ctx != nil {
cmd = exec.CommandContext(ctx, name, args...)
} else {
cmd = exec.Command(name, args...)
}
cmd.Env = append(cmd.Env, env...)
cmd.Env = append(cmd.Env, extraCmdEnv...)
// Configure stdout/stderr. The stdout may go to a buffer, not a real
// stdout.
cmd.Stdout = stdout
cmd.Stderr = os.Stderr
if config.EmulatorName() == "simavr" {
cmd.Stdout = nil // don't print initial load commands
cmd.Stderr = stdout
}
// If this is a test, reserve CPU time for it so that increased
// parallelism doesn't blow up memory usage. If this isn't a test but
// simply `tinygo run`, then it is practically a no-op.
config.Options.Semaphore <- struct{}{}
defer func() {
<-config.Options.Semaphore
}()
// Run binary.
if config.Options.PrintCommands != nil {
config.Options.PrintCommands(cmd.Path, cmd.Args...)
}
err = run(cmd, result)
if err != nil {
if ctx != nil && ctx.Err() == context.DeadlineExceeded {
stdout.Write([]byte(fmt.Sprintf("--- timeout of %s exceeded, terminating...\n", timeout)))
err = ctx.Err()
}
return result, &commandError{"failed to run compiled binary", result.Binary, err}
}
return result, nil
}
func touchSerialPortAt1200bps(port string) (err error) {
retryCount := 3
for i := 0; i < retryCount; i++ {
// Open port
p, e := serial.Open(port, &serial.Mode{BaudRate: 1200})
if e != nil {
if runtime.GOOS == `windows` {
se, ok := e.(*serial.PortError)
if ok && se.Code() == serial.InvalidSerialPort {
// InvalidSerialPort error occurs when transitioning to boot
return nil
}
}
time.Sleep(1 * time.Second)
err = e
continue
}
defer p.Close()
p.SetDTR(false)
return nil
}
return fmt.Errorf("opening port: %s", err)
}
func flashUF2UsingMSD(volumes []string, tmppath string, options *compileopts.Options) error {
for start := time.Now(); time.Since(start) < options.Timeout; {
// Find a UF2 mount point.
mounts, err := findFATMounts(options)
if err != nil {
return err
}
for _, mount := range mounts {
for _, volume := range volumes {
if mount.name != volume {
continue
}
if _, err := os.Stat(filepath.Join(mount.path, "INFO_UF2.TXT")); err != nil {
// No INFO_UF2.TXT found, which is expected on a UF2
// filesystem.
continue
}
// Found the filesystem, so flash the device!
return moveFile(tmppath, filepath.Join(mount.path, "flash.uf2"))
}
}
time.Sleep(500 * time.Millisecond)
}
return errors.New("unable to locate any volume: [" + strings.Join(volumes, ",") + "]")
}
func flashHexUsingMSD(volumes []string, tmppath string, options *compileopts.Options) error {
for start := time.Now(); time.Since(start) < options.Timeout; {
// Find all mount points.
mounts, err := findFATMounts(options)
if err != nil {
return err
}
for _, mount := range mounts {
for _, volume := range volumes {
if mount.name != volume {
continue
}
// Found the filesystem, so flash the device!
return moveFile(tmppath, filepath.Join(mount.path, "flash.hex"))
}
}
time.Sleep(500 * time.Millisecond)
}
return errors.New("unable to locate any volume: [" + strings.Join(volumes, ",") + "]")
}
type mountPoint struct {
name string
path string
}
// Find all the mount points on the system that use the FAT filesystem.
func findFATMounts(options *compileopts.Options) ([]mountPoint, error) {
var points []mountPoint
switch runtime.GOOS {
case "darwin":
list, err := os.ReadDir("/Volumes")
if err != nil {
return nil, fmt.Errorf("could not list mount points: %w", err)
}
for _, elem := range list {
// TODO: find a way to check for the filesystem type.
// (Only return FAT filesystems).
points = append(points, mountPoint{
name: elem.Name(),
path: filepath.Join("/Volumes", elem.Name()),
})
}
sort.Slice(points, func(i, j int) bool {
return points[i].path < points[j].name
})
return points, nil
case "linux":
tab, err := os.ReadFile("/proc/mounts") // symlink to /proc/self/mounts on my system
if err != nil {
return nil, fmt.Errorf("could not list mount points: %w", err)
}
for _, line := range strings.Split(string(tab), "\n") {
fields := strings.Fields(line)
if len(fields) <= 2 {
continue
}
fstype := fields[2]
if fstype != "vfat" {
continue
}
fspath := strings.ReplaceAll(fields[1], "\\040", " ")
points = append(points, mountPoint{
name: filepath.Base(fspath),
path: fspath,
})
}
return points, nil
case "windows":
// Obtain a list of all currently mounted volumes.
cmd := executeCommand(options, "wmic",
"PATH", "Win32_LogicalDisk",
"get", "DeviceID,VolumeName,FileSystem,DriveType")
var out bytes.Buffer
cmd.Stdout = &out
err := cmd.Run()
if err != nil {
return nil, fmt.Errorf("could not list mount points: %w", err)
}
// Extract data to convert to a []mountPoint slice.
for _, line := range strings.Split(out.String(), "\n") {
words := strings.Fields(line)
if len(words) < 3 {
continue
}
if words[1] != "2" || words[2] != "FAT" {
// - DriveType 2 is removable (which we're looking for).
// - We only want to return FAT filesystems.
continue
}
points = append(points, mountPoint{
name: words[3],
path: words[0],
})
}
return points, nil
default:
return nil, fmt.Errorf("unknown GOOS for listing mount points: %s", runtime.GOOS)
}
}
// getDefaultPort returns the default serial port depending on the operating system.
func getDefaultPort(portFlag string, usbInterfaces []string) (port string, err error) {
portCandidates := strings.FieldsFunc(portFlag, func(c rune) bool { return c == ',' })
if len(portCandidates) == 1 {
return portCandidates[0], nil
}
var ports []string
switch runtime.GOOS {
case "freebsd":
ports, err = filepath.Glob("/dev/cuaU*")
case "darwin", "linux", "windows":
var portsList []*enumerator.PortDetails
portsList, err = enumerator.GetDetailedPortsList()
if err != nil {
return "", err
}
var preferredPortIDs [][2]uint16
for _, s := range usbInterfaces {
parts := strings.Split(s, ":")
if len(parts) != 2 {
return "", fmt.Errorf("could not parse USB VID/PID pair %q", s)
}
vid, err := strconv.ParseUint(parts[0], 16, 16)
if err != nil {
return "", fmt.Errorf("could not parse USB vendor ID %q: %w", parts[1], err)
}
pid, err := strconv.ParseUint(parts[1], 16, 16)
if err != nil {
return "", fmt.Errorf("could not parse USB product ID %q: %w", parts[1], err)
}
preferredPortIDs = append(preferredPortIDs, [2]uint16{uint16(vid), uint16(pid)})
}
var primaryPorts []string // ports picked from preferred USB VID/PID
var secondaryPorts []string // other ports (as a fallback)
for _, p := range portsList {
if !p.IsUSB {
continue
}
if p.VID != "" && p.PID != "" {
foundPort := false
vid, vidErr := strconv.ParseUint(p.VID, 16, 16)
pid, pidErr := strconv.ParseUint(p.PID, 16, 16)
if vidErr == nil && pidErr == nil {
for _, id := range preferredPortIDs {
if uint16(vid) == id[0] && uint16(pid) == id[1] {
primaryPorts = append(primaryPorts, p.Name)
foundPort = true
continue
}
}
}
if foundPort {
continue
}
}
secondaryPorts = append(secondaryPorts, p.Name)
}
if len(primaryPorts) == 1 {
// There is exactly one match in the set of preferred ports. Use
// this port, even if there may be others available. This allows
// flashing a specific board even if there are multiple available.
return primaryPorts[0], nil
} else if len(primaryPorts) > 1 {
// There are multiple preferred ports, probably because more than
// one device of the same type are connected (e.g. two Arduino
// Unos).
ports = primaryPorts
} else {
// No preferred ports found. Fall back to other serial ports
// available in the system.
ports = secondaryPorts
}
default:
return "", errors.New("unable to search for a default USB device to be flashed on this OS")
}
if err != nil {
return "", err
} else if ports == nil {
return "", errors.New("unable to locate a serial port")
} else if len(ports) == 0 {
return "", errors.New("no serial ports available")
}
if len(portCandidates) == 0 {
if len(usbInterfaces) > 0 {
return "", errors.New("unable to search for a default USB device - use -port flag, available ports are " + strings.Join(ports, ", "))
} else if len(ports) == 1 {
return ports[0], nil
} else {
return "", errors.New("multiple serial ports available - use -port flag, available ports are " + strings.Join(ports, ", "))
}
}
for _, ps := range portCandidates {
for _, p := range ports {
if p == ps {
return p, nil
}
}
}
return "", errors.New("port you specified '" + strings.Join(portCandidates, ",") + "' does not exist, available ports are " + strings.Join(ports, ", "))
}
// getBMPPorts returns BlackMagicProbe's serial ports if any
func getBMPPorts() (gdbPort, uartPort string, err error) {
var portsList []*enumerator.PortDetails
portsList, err = enumerator.GetDetailedPortsList()
if err != nil {
return "", "", err
}
var ports []string
for _, p := range portsList {
if !p.IsUSB {
continue
}
if p.VID != "" && p.PID != "" {
vid, vidErr := strconv.ParseUint(p.VID, 16, 16)
pid, pidErr := strconv.ParseUint(p.PID, 16, 16)
if vidErr == nil && pidErr == nil && vid == 0x1d50 && pid == 0x6018 {
ports = append(ports, p.Name)
}
}
}
if len(ports) == 2 {
return ports[0], ports[1], nil
} else if len(ports) == 0 {
return "", "", errors.New("no BMP detected")
} else {
return "", "", fmt.Errorf("expected 2 BMP serial ports, found %d - did you perhaps connect more than one BMP?", len(ports))
}
}
func usage(command string) {
switch command {
default:
fmt.Fprintln(os.Stderr, "TinyGo is a Go compiler for small places.")
fmt.Fprintln(os.Stderr, "version:", goenv.Version())
fmt.Fprintf(os.Stderr, "usage: %s <command> [arguments]\n", os.Args[0])
fmt.Fprintln(os.Stderr, "\ncommands:")
fmt.Fprintln(os.Stderr, " build: compile packages and dependencies")
fmt.Fprintln(os.Stderr, " run: compile and run immediately")
fmt.Fprintln(os.Stderr, " test: test packages")
fmt.Fprintln(os.Stderr, " flash: compile and flash to the device")
fmt.Fprintln(os.Stderr, " gdb: run/flash and immediately enter GDB")
fmt.Fprintln(os.Stderr, " lldb: run/flash and immediately enter LLDB")
fmt.Fprintln(os.Stderr, " monitor: open communication port")
fmt.Fprintln(os.Stderr, " ports: list available serial ports")
fmt.Fprintln(os.Stderr, " env: list environment variables used during build")
fmt.Fprintln(os.Stderr, " list: run go list using the TinyGo root")
fmt.Fprintln(os.Stderr, " clean: empty cache directory ("+goenv.Get("GOCACHE")+")")
fmt.Fprintln(os.Stderr, " targets: list targets")
fmt.Fprintln(os.Stderr, " info: show info for specified target")
fmt.Fprintln(os.Stderr, " version: show version")
fmt.Fprintln(os.Stderr, " help: print this help text")
if flag.Parsed() {
fmt.Fprintln(os.Stderr, "\nflags:")
flag.PrintDefaults()
}
fmt.Fprintln(os.Stderr, "\nfor more details, see https://tinygo.org/docs/reference/usage/")
}
}
// try to make the path relative to the current working directory. If any error
// occurs, this error is ignored and the absolute path is returned instead.
func tryToMakePathRelative(dir string) string {
wd, err := os.Getwd()
if err != nil {
return dir
}
relpath, err := filepath.Rel(wd, dir)
if err != nil {
return dir
}
return relpath
}
// printCompilerError prints compiler errors using the provided logger function
// (similar to fmt.Println).
//
// There is one exception: interp errors may print to stderr unconditionally due
// to limitations in the LLVM bindings.
func printCompilerError(logln func(...interface{}), err error) {
switch err := err.(type) {
case types.Error:
printCompilerError(logln, scanner.Error{
Pos: err.Fset.Position(err.Pos),
Msg: err.Msg,
})
case scanner.Error:
if !strings.HasPrefix(err.Pos.Filename, filepath.Join(goenv.Get("GOROOT"), "src")) && !strings.HasPrefix(err.Pos.Filename, filepath.Join(goenv.Get("TINYGOROOT"), "src")) {
// This file is not from the standard library (either the GOROOT or
// the TINYGOROOT). Make the path relative, for easier reading.
// Ignore any errors in the process (falling back to the absolute
// path).
err.Pos.Filename = tryToMakePathRelative(err.Pos.Filename)
}
logln(err)
case scanner.ErrorList:
for _, scannerErr := range err {
printCompilerError(logln, *scannerErr)
}
case *interp.Error:
logln("#", err.ImportPath)
logln(err.Error())
if len(err.Inst) != 0 {
logln(err.Inst)
}
if len(err.Traceback) > 0 {
logln("\ntraceback:")
for _, line := range err.Traceback {
logln(line.Pos.String() + ":")
logln(line.Inst)
}
}
case loader.Errors:
logln("#", err.Pkg.ImportPath)
for _, err := range err.Errs {
printCompilerError(logln, err)
}
case loader.Error:
logln(err.Err.Error())
logln("package", err.ImportStack[0])
for _, pkgPath := range err.ImportStack[1:] {
logln("\timports", pkgPath)
}
case *builder.MultiError:
for _, err := range err.Errs {
printCompilerError(logln, err)
}
default:
logln("error:", err)
}
}
func handleCompilerError(err error) {
if err != nil {
printCompilerError(func(args ...interface{}) {
fmt.Fprintln(os.Stderr, args...)
}, err)
os.Exit(1)
}
}
// This is a special type for the -X flag to parse the pkgpath.Var=stringVal
// format. It has to be a special type to allow multiple variables to be defined
// this way.
type globalValuesFlag map[string]map[string]string
func (m globalValuesFlag) String() string {
return "pkgpath.Var=value"
}
func (m globalValuesFlag) Set(value string) error {
equalsIndex := strings.IndexByte(value, '=')
if equalsIndex < 0 {
return errors.New("expected format pkgpath.Var=value")
}
pathAndName := value[:equalsIndex]
pointIndex := strings.LastIndexByte(pathAndName, '.')
if pointIndex < 0 {
return errors.New("expected format pkgpath.Var=value")
}
path := pathAndName[:pointIndex]
name := pathAndName[pointIndex+1:]
stringValue := value[equalsIndex+1:]
if m[path] == nil {
m[path] = make(map[string]string)
}
m[path][name] = stringValue
return nil
}
// parseGoLinkFlag parses the -ldflags parameter. Its primary purpose right now
// is the -X flag, for setting the value of global string variables.
func parseGoLinkFlag(flagsString string) (map[string]map[string]string, error) {
set := flag.NewFlagSet("link", flag.ExitOnError)
globalVarValues := make(globalValuesFlag)
set.Var(globalVarValues, "X", "Set the value of the string variable to the given value.")
flags, err := shlex.Split(flagsString)
if err != nil {
return nil, err
}
err = set.Parse(flags)
if err != nil {
return nil, err
}
return map[string]map[string]string(globalVarValues), nil
}
// getListOfPackages returns a standard list of packages for a given list that might
// include wildards using `go list`.
// For example [./...] => ["pkg1", "pkg1/pkg12", "pkg2"]
func getListOfPackages(pkgs []string, options *compileopts.Options) ([]string, error) {
config, err := builder.NewConfig(options)
if err != nil {
return nil, err
}
cmd, err := loader.List(config, nil, pkgs)
if err != nil {
return nil, fmt.Errorf("failed to run `go list`: %w", err)
}
outputBuf := bytes.NewBuffer(nil)
cmd.Stdout = outputBuf
cmd.Stderr = os.Stderr
err = cmd.Run()
if err != nil {
return nil, err
}
var pkgNames []string
sc := bufio.NewScanner(outputBuf)
for sc.Scan() {
pkgNames = append(pkgNames, sc.Text())
}
return pkgNames, nil
}
func main() {
if len(os.Args) < 2 {
fmt.Fprintln(os.Stderr, "No command-line arguments supplied.")
usage("")
os.Exit(1)
}
command := os.Args[1]
opt := flag.String("opt", "z", "optimization level: 0, 1, 2, s, z")
gc := flag.String("gc", "", "garbage collector to use (none, leaking, conservative)")
panicStrategy := flag.String("panic", "print", "panic strategy (print, trap)")
scheduler := flag.String("scheduler", "", "which scheduler to use (none, tasks, asyncify)")
serial := flag.String("serial", "", "which serial output to use (none, uart, usb, rtt)")
work := flag.Bool("work", false, "print the name of the temporary build directory and do not delete this directory on exit")
interpTimeout := flag.Duration("interp-timeout", 180*time.Second, "interp optimization pass timeout")
var tags buildutil.TagsFlag
flag.Var(&tags, "tags", "a space-separated list of extra build tags")
target := flag.String("target", "", "chip/board name or JSON target specification file")
var stackSize uint64
flag.Func("stack-size", "goroutine stack size (if unknown at compile time)", func(s string) error {
size, err := bytesize.Parse(s)
stackSize = uint64(size)
return err
})
printSize := flag.String("size", "", "print sizes (none, short, full)")
printStacks := flag.Bool("print-stacks", false, "print stack sizes of goroutines")
printAllocsString := flag.String("print-allocs", "", "regular expression of functions for which heap allocations should be printed")
printCommands := flag.Bool("x", false, "Print commands")
parallelism := flag.Int("p", runtime.GOMAXPROCS(0), "the number of build jobs that can run in parallel")
nodebug := flag.Bool("no-debug", false, "strip debug information")
ocdCommandsString := flag.String("ocd-commands", "", "OpenOCD commands, overriding target spec (can specify multiple separated by commas)")
ocdOutput := flag.Bool("ocd-output", false, "print OCD daemon output during debug")
port := flag.String("port", "", "flash port (can specify multiple candidates separated by commas)")
timeout := flag.Duration("timeout", 20*time.Second, "the length of time to retry locating the MSD volume to be used for flashing")
programmer := flag.String("programmer", "", "which hardware programmer to use")
ldflags := flag.String("ldflags", "", "Go link tool compatible ldflags")
llvmFeatures := flag.String("llvm-features", "", "comma separated LLVM features to enable")
cpuprofile := flag.String("cpuprofile", "", "cpuprofile output")
monitor := flag.Bool("monitor", false, "enable serial monitor")
baudrate := flag.Int("baudrate", 115200, "baudrate of serial monitor")
// Internal flags, that are only intended for TinyGo development.
printIR := flag.Bool("internal-printir", false, "print LLVM IR")
dumpSSA := flag.Bool("internal-dumpssa", false, "dump internal Go SSA")
verifyIR := flag.Bool("internal-verifyir", false, "run extra verification steps on LLVM IR")
// Don't generate debug information in the IR, to make IR more readable.
// You generally want debug information in IR for various features, like
// stack size calculation and features like -size=short, -print-allocs=,
// etc. The -no-debug flag is used to strip it at link time. But for TinyGo
// development it can be useful to not emit debug information at all.
skipDwarf := flag.Bool("internal-nodwarf", false, "internal flag, use -no-debug instead")
var flagJSON, flagDeps, flagTest bool
if command == "help" || command == "list" || command == "info" || command == "build" {
flag.BoolVar(&flagJSON, "json", false, "print data in JSON format")
}
if command == "help" || command == "list" {
flag.BoolVar(&flagDeps, "deps", false, "supply -deps flag to go list")
flag.BoolVar(&flagTest, "test", false, "supply -test flag to go list")
}
var outpath string
if command == "help" || command == "build" || command == "build-library" || command == "test" {
flag.StringVar(&outpath, "o", "", "output filename")
}
var testConfig compileopts.TestConfig
if command == "help" || command == "test" {
flag.BoolVar(&testConfig.CompileOnly, "c", false, "compile the test binary but do not run it")
flag.BoolVar(&testConfig.Verbose, "v", false, "verbose: print additional output")
flag.BoolVar(&testConfig.Short, "short", false, "short: run smaller test suite to save time")
flag.StringVar(&testConfig.RunRegexp, "run", "", "run: regexp of tests to run")
flag.StringVar(&testConfig.SkipRegexp, "skip", "", "skip: regexp of tests to skip")
testConfig.Count = flag.Int("count", 1, "count: number of times to run tests/benchmarks `count` times")
flag.StringVar(&testConfig.BenchRegexp, "bench", "", "bench: regexp of benchmarks to run")
flag.StringVar(&testConfig.BenchTime, "benchtime", "", "run each benchmark for duration `d`")
flag.BoolVar(&testConfig.BenchMem, "benchmem", false, "show memory stats for benchmarks")
flag.StringVar(&testConfig.Shuffle, "shuffle", "", "shuffle the order the tests and benchmarks run")
}
// Early command processing, before commands are interpreted by the Go flag
// library.
switch command {
case "clang", "ld.lld", "wasm-ld":
err := builder.RunTool(command, os.Args[2:]...)
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
os.Exit(0)
}
flag.CommandLine.Parse(os.Args[2:])
globalVarValues, err := parseGoLinkFlag(*ldflags)
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
var printAllocs *regexp.Regexp
if *printAllocsString != "" {
printAllocs, err = regexp.Compile(*printAllocsString)
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
}
var ocdCommands []string
if *ocdCommandsString != "" {
ocdCommands = strings.Split(*ocdCommandsString, ",")
}
options := &compileopts.Options{
GOOS: goenv.Get("GOOS"),
GOARCH: goenv.Get("GOARCH"),
GOARM: goenv.Get("GOARM"),
Target: *target,
StackSize: stackSize,
Opt: *opt,
GC: *gc,
PanicStrategy: *panicStrategy,
Scheduler: *scheduler,
Serial: *serial,
Work: *work,
InterpTimeout: *interpTimeout,
PrintIR: *printIR,
DumpSSA: *dumpSSA,
VerifyIR: *verifyIR,
SkipDWARF: *skipDwarf,
Semaphore: make(chan struct{}, *parallelism),
Debug: !*nodebug,
PrintSizes: *printSize,
PrintStacks: *printStacks,
PrintAllocs: printAllocs,
Tags: []string(tags),
TestConfig: testConfig,
GlobalValues: globalVarValues,
Programmer: *programmer,
OpenOCDCommands: ocdCommands,
LLVMFeatures: *llvmFeatures,
PrintJSON: flagJSON,
Monitor: *monitor,
BaudRate: *baudrate,
Timeout: *timeout,
}
if *printCommands {
options.PrintCommands = printCommand
}
err = options.Verify()
if err != nil {
fmt.Fprintln(os.Stderr, err.Error())
usage(command)
os.Exit(1)
}
if *cpuprofile != "" {
f, err := os.Create(*cpuprofile)
if err != nil {
fmt.Fprintln(os.Stderr, "could not create CPU profile: ", err)
os.Exit(1)
}
defer f.Close()
if err := pprof.StartCPUProfile(f); err != nil {
fmt.Fprintln(os.Stderr, "could not start CPU profile: ", err)
os.Exit(1)
}
defer pprof.StopCPUProfile()
}
switch command {
case "build":
pkgName := "."
if flag.NArg() == 1 {
pkgName = filepath.ToSlash(flag.Arg(0))
} else if flag.NArg() > 1 {
fmt.Fprintln(os.Stderr, "build only accepts a single positional argument: package name, but multiple were specified")
usage(command)
os.Exit(1)
}
if options.Target == "" && filepath.Ext(outpath) == ".wasm" {
options.Target = "wasm"
}
err := Build(pkgName, outpath, options)
handleCompilerError(err)
case "build-library":
// Note: this command is only meant to be used while making a release!
if outpath == "" {
fmt.Fprintln(os.Stderr, "No output filename supplied (-o).")
usage(command)
os.Exit(1)
}
if *target == "" {
fmt.Fprintln(os.Stderr, "No target (-target).")
}
if flag.NArg() != 1 {
fmt.Fprintf(os.Stderr, "Build-library only accepts exactly one library name as argument, %d given\n", flag.NArg())
usage(command)
os.Exit(1)
}
var lib *builder.Library
switch name := flag.Arg(0); name {
case "compiler-rt":
lib = &builder.CompilerRT
case "picolibc":
lib = &builder.Picolibc
default:
fmt.Fprintf(os.Stderr, "Unknown library: %s\n", name)
os.Exit(1)
}
tmpdir, err := os.MkdirTemp("", "tinygo*")
if err != nil {
handleCompilerError(err)
}
defer os.RemoveAll(tmpdir)
spec, err := compileopts.LoadTarget(options)
if err != nil {
handleCompilerError(err)
}
config := &compileopts.Config{
Options: options,
Target: spec,
}
path, err := lib.Load(config, tmpdir)
handleCompilerError(err)
err = copyFile(path, outpath)
if err != nil {
handleCompilerError(err)
}
case "flash", "gdb", "lldb":
pkgName := filepath.ToSlash(flag.Arg(0))
if command == "flash" {
err := Flash(pkgName, *port, options)
handleCompilerError(err)
} else {
if !options.Debug {
fmt.Fprintln(os.Stderr, "Debug disabled while running debugger?")
usage(command)
os.Exit(1)
}
err := Debug(command, pkgName, *ocdOutput, options)
handleCompilerError(err)
}
case "run":
if flag.NArg() < 1 {
fmt.Fprintln(os.Stderr, "No package specified.")
usage(command)
os.Exit(1)
}
pkgName := filepath.ToSlash(flag.Arg(0))
err := Run(pkgName, options, flag.Args()[1:])
handleCompilerError(err)
case "test":
var pkgNames []string
for i := 0; i < flag.NArg(); i++ {
pkgNames = append(pkgNames, filepath.ToSlash(flag.Arg(i)))
}
if len(pkgNames) == 0 {
pkgNames = []string{"."}
}
explicitPkgNames, err := getListOfPackages(pkgNames, options)
if err != nil {
fmt.Printf("cannot resolve packages: %v\n", err)
os.Exit(1)
}
if outpath != "" && len(explicitPkgNames) > 1 {
fmt.Println("cannot use -o flag with multiple packages")
os.Exit(1)
}
fail := make(chan struct{}, 1)
var wg sync.WaitGroup
bufs := make([]testOutputBuf, len(explicitPkgNames))
for i := range bufs {
bufs[i].done = make(chan struct{})
}
wg.Add(1)
go func() {
defer wg.Done()
// Flush the output one test at a time.
// This ensures that outputs from different tests are not mixed together.
for i := range bufs {
err := bufs[i].flush(os.Stdout, os.Stderr)
if err != nil {
// There was an error writing to stdout or stderr, so we probbably cannot print this.
select {
case fail <- struct{}{}:
default:
}
}
}
}()
// Build and run the tests concurrently.
// This uses an additional semaphore to reduce the memory usage.
testSema := make(chan struct{}, cap(options.Semaphore))
for i, pkgName := range explicitPkgNames {
pkgName := pkgName
buf := &bufs[i]
testSema <- struct{}{}
wg.Add(1)
go func() {
defer wg.Done()
defer func() { <-testSema }()
defer close(buf.done)
stdout := (*testStdout)(buf)
stderr := (*testStderr)(buf)
passed, err := Test(pkgName, stdout, stderr, options, outpath)
if err != nil {
printCompilerError(func(args ...interface{}) {
fmt.Fprintln(stderr, args...)
}, err)
}
if !passed {
select {
case fail <- struct{}{}:
default:
}
}
}()
}
// Wait for all tests to finish.
wg.Wait()
close(fail)
if _, fail := <-fail; fail {
os.Exit(1)
}
case "monitor":
config, err := builder.NewConfig(options)
handleCompilerError(err)
err = Monitor("", *port, config)
handleCompilerError(err)
case "ports":
serialPortInfo, err := ListSerialPorts()
handleCompilerError(err)
if len(serialPortInfo) == 0 {
fmt.Println("No serial ports found.")
}
fmt.Printf("%-20s %-9s %s\n", "Port", "ID", "Boards")
for _, s := range serialPortInfo {
fmt.Printf("%-20s %4s:%4s %s\n", s.Name, s.VID, s.PID, s.Target)
}
case "targets":
specs, err := compileopts.GetTargetSpecs()
if err != nil {
fmt.Fprintln(os.Stderr, "could not list targets:", err)
os.Exit(1)
return
}
names := []string{}
for key := range specs {
names = append(names, key)
}
sort.Strings(names)
for _, name := range names {
fmt.Println(name)
}
case "info":
if flag.NArg() == 1 {
options.Target = flag.Arg(0)
} else if flag.NArg() > 1 {
fmt.Fprintln(os.Stderr, "only one target name is accepted")
usage(command)
os.Exit(1)
}
config, err := builder.NewConfig(options)
if err != nil {
fmt.Fprintln(os.Stderr, err)
usage(command)
os.Exit(1)
}
config.GoMinorVersion = 0 // this avoids creating the list of Go1.x build tags.
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
cachedGOROOT, err := loader.GetCachedGoroot(config)
if err != nil {
fmt.Fprintln(os.Stderr, err)
os.Exit(1)
}
if flagJSON {
json, _ := json.MarshalIndent(struct {
Target *compileopts.TargetSpec `json:"target"`
GOROOT string `json:"goroot"`
GOOS string `json:"goos"`
GOARCH string `json:"goarch"`
GOARM string `json:"goarm"`
BuildTags []string `json:"build_tags"`
GC string `json:"garbage_collector"`
Scheduler string `json:"scheduler"`
LLVMTriple string `json:"llvm_triple"`
}{
Target: config.Target,
GOROOT: cachedGOROOT,
GOOS: config.GOOS(),
GOARCH: config.GOARCH(),
GOARM: config.GOARM(),
BuildTags: config.BuildTags(),
GC: config.GC(),
Scheduler: config.Scheduler(),
LLVMTriple: config.Triple(),
}, "", " ")
fmt.Println(string(json))
} else {
fmt.Printf("LLVM triple: %s\n", config.Triple())
fmt.Printf("GOOS: %s\n", config.GOOS())
fmt.Printf("GOARCH: %s\n", config.GOARCH())
fmt.Printf("build tags: %s\n", strings.Join(config.BuildTags(), " "))
fmt.Printf("garbage collector: %s\n", config.GC())
fmt.Printf("scheduler: %s\n", config.Scheduler())
fmt.Printf("cached GOROOT: %s\n", cachedGOROOT)
}
case "list":
config, err := builder.NewConfig(options)
if err != nil {
fmt.Fprintln(os.Stderr, err)
usage(command)
os.Exit(1)
}
var extraArgs []string
if flagJSON {
extraArgs = append(extraArgs, "-json")
}
if flagDeps {
extraArgs = append(extraArgs, "-deps")
}
if flagTest {
extraArgs = append(extraArgs, "-test")
}
cmd, err := loader.List(config, extraArgs, flag.Args())
if err != nil {
fmt.Fprintln(os.Stderr, "failed to run `go list`:", err)
os.Exit(1)
}
cmd.Stdout = os.Stdout
cmd.Stderr = os.Stderr
err = cmd.Run()
if err != nil {
if exitErr, ok := err.(*exec.ExitError); ok {
os.Exit(exitErr.ExitCode())
}
fmt.Fprintln(os.Stderr, "failed to run `go list`:", err)
os.Exit(1)
}
case "clean":
// remove cache directory
err := os.RemoveAll(goenv.Get("GOCACHE"))
if err != nil {
fmt.Fprintln(os.Stderr, "cannot clean cache:", err)
os.Exit(1)
}
case "help":
command := ""
if flag.NArg() >= 1 {
command = flag.Arg(0)
}
usage(command)
case "version":
goversion := "<unknown>"
if s, err := goenv.GorootVersionString(); err == nil {
goversion = s
}
fmt.Printf("tinygo version %s %s/%s (using go version %s and LLVM version %s)\n", goenv.Version(), runtime.GOOS, runtime.GOARCH, goversion, llvm.Version)
case "env":
if flag.NArg() == 0 {
// Show all environment variables.
for _, key := range goenv.Keys {
fmt.Printf("%s=%#v\n", key, goenv.Get(key))
}
} else {
// Show only one (or a few) environment variables.
for i := 0; i < flag.NArg(); i++ {
fmt.Println(goenv.Get(flag.Arg(i)))
}
}
default:
fmt.Fprintln(os.Stderr, "Unknown command:", command)
usage("")
os.Exit(1)
}
}
// testOutputBuf is used to buffer the output of concurrent tests.
type testOutputBuf struct {
mu sync.Mutex
output []outputEntry
stdout, stderr io.Writer
outerr, errerr error
done chan struct{}
}
// flush the output to stdout and stderr.
// This waits until done is closed.
func (b *testOutputBuf) flush(stdout, stderr io.Writer) error {
b.mu.Lock()
var err error
b.stdout = stdout
b.stderr = stderr
for _, e := range b.output {
var w io.Writer
var errDst *error
if e.stderr {
w = stderr
errDst = &b.errerr
} else {
w = stdout
errDst = &b.outerr
}
if *errDst != nil {
continue
}
_, werr := w.Write(e.data)
if werr != nil {
if err == nil {
err = werr
}
*errDst = err
}
}
b.mu.Unlock()
<-b.done
return err
}
// testStdout writes stdout from a test to the output buffer.
type testStdout testOutputBuf
func (out *testStdout) Write(data []byte) (int, error) {
buf := (*testOutputBuf)(out)
buf.mu.Lock()
if buf.stdout != nil {
// Write the output directly.
err := out.outerr
buf.mu.Unlock()
if err != nil {
return 0, err
}
return buf.stdout.Write(data)
}
defer buf.mu.Unlock()
// Append the output.
if len(buf.output) == 0 || buf.output[len(buf.output)-1].stderr {
buf.output = append(buf.output, outputEntry{
stderr: false,
})
}
last := &buf.output[len(buf.output)-1]
last.data = append(last.data, data...)
return len(data), nil
}
// testStderr writes stderr from a test to the output buffer.
type testStderr testOutputBuf
func (out *testStderr) Write(data []byte) (int, error) {
buf := (*testOutputBuf)(out)
buf.mu.Lock()
if buf.stderr != nil {
// Write the output directly.
err := out.errerr
buf.mu.Unlock()
if err != nil {
return 0, err
}
return buf.stderr.Write(data)
}
defer buf.mu.Unlock()
// Append the output.
if len(buf.output) == 0 || !buf.output[len(buf.output)-1].stderr {
buf.output = append(buf.output, outputEntry{
stderr: true,
})
}
last := &buf.output[len(buf.output)-1]
last.data = append(last.data, data...)
return len(data), nil
}
type outputEntry struct {
stderr bool
data []byte
}
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