realize/watcher.go

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package main
import (
"fmt"
"log"
"math/big"
"os"
"os/signal"
"path/filepath"
"strconv"
"strings"
"sync"
"syscall"
"time"
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"github.com/fsnotify/fsnotify"
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"reflect"
)
var (
msg string
out BufferOut
wg sync.WaitGroup
)
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const (
msgStop = "killed"
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extWindows = ".exe"
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)
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// Watch struct defines options for livereload
type Watch struct {
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Preview bool `yaml:"preview,omitempty" json:"preview,omitempty"`
Paths []string `yaml:"paths" json:"paths"`
Exts []string `yaml:"extensions" json:"extensions"`
Ignore []string `yaml:"ignored_paths,omitempty" json:"ignored_paths,omitempty"`
Scripts []Command `yaml:"scripts,omitempty" json:"scripts,omitempty"`
}
// Result channel with data stream and errors
type Result struct {
stream string
err error
}
// Buffer define an array buffer for each log files
type Buffer struct {
StdOut []BufferOut `json:"stdOut"`
StdLog []BufferOut `json:"stdLog"`
StdErr []BufferOut `json:"stdErr"`
}
// Project defines the informations of a single project
type Project struct {
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parent *realize
watcher FileWatcher
init bool
files, folders int64
name, lastFile string
tools []tool
paths []string
lastTime time.Time
Settings `yaml:"-" json:"-"`
Name string `yaml:"name" json:"name"`
Path string `yaml:"path" json:"path"`
Environment map[string]string `yaml:"environment,omitempty" json:"environment,omitempty"`
Cmds Cmds `yaml:"commands" json:"commands"`
Args []string `yaml:"args,omitempty" json:"args,omitempty"`
Watcher Watch `yaml:"watcher" json:"watcher"`
Buffer Buffer `yaml:"-" json:"buffer"`
ErrorOutputPattern string `yaml:"errorOutputPattern,omitempty" json:"errorOutputPattern,omitempty"`
}
// Command options
type Command struct {
Type string `yaml:"type" json:"type"`
Command string `yaml:"command" json:"command"`
Path string `yaml:"path,omitempty" json:"path,omitempty"`
Global bool `yaml:"global,omitempty" json:"global,omitempty"`
Output bool `yaml:"output,omitempty" json:"output,omitempty"`
}
// BufferOut is used for exchange information between "realize cli" and "web realize"
type BufferOut struct {
Time time.Time `json:"time"`
Text string `json:"text"`
Path string `json:"path"`
Type string `json:"type"`
Stream string `json:"stream"`
Errors []string `json:"errors"`
}
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// Watch the project
func (p *Project) watch() {
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p.watcher, _ = Watcher(r.Settings.Legacy.Force, r.Settings.Legacy.Interval)
stop, exit := make(chan bool), make(chan os.Signal, 2)
signal.Notify(exit, os.Interrupt, syscall.SIGTERM)
// before global commands
p.cmd(stop, "before", true)
// indexing files and dirs
for _, dir := range p.Watcher.Paths {
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base := filepath.Join(p.Path, dir)
if _, err := os.Stat(base); err == nil {
if err := filepath.Walk(base, p.walk); err == nil {
p.tool(stop, base)
}
} else {
p.err(err)
}
}
// indexing done, files and folders
msg = fmt.Sprintln(p.pname(p.Name, 1), ":", blue.bold("Watching"), magenta.bold(p.files), "file/s", magenta.bold(p.folders), "folder/s")
out = BufferOut{Time: time.Now(), Text: "Watching " + strconv.FormatInt(p.files, 10) + " files/s " + strconv.FormatInt(p.folders, 10) + " folder/s"}
p.stamp("log", out, msg, "")
// start
go p.routines(stop, p.watcher, "")
//is watching
L:
for {
select {
case event := <-p.watcher.Events():
if time.Now().Truncate(time.Second).After(p.lastTime) || event.Name != p.lastFile {
switch event.Op {
case fsnotify.Chmod:
case fsnotify.Remove:
ext := ext(event.Name)
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if !strings.Contains(ext, "_") && !strings.Contains(ext, ".") && array(ext, p.Watcher.Exts) {
close(stop)
stop = make(chan bool)
p.changed(event, stop) // stop
}
p.watcher.Remove(event.Name)
default:
file, err := os.Stat(event.Name)
if err != nil {
continue
}
if file.IsDir() {
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filepath.Walk(event.Name, p.walk)
} else if file.Size() > 0 {
if p.parent.Settings.Recovery {
log.Println(event)
}
ext := ext(event.Name)
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if !strings.Contains(ext, "_") && !strings.Contains(ext, ".") && array(ext, p.Watcher.Exts) {
// change watched
close(stop)
stop = make(chan bool)
p.changed(event, stop)
}
p.lastTime = time.Now().Truncate(time.Second)
p.lastFile = event.Name
}
}
}
case err := <-p.watcher.Errors():
p.err(err)
case <-exit:
p.cmd(nil, "after", true)
break L
}
}
wg.Done()
return
}
// Error occurred
func (p *Project) err(err error) {
msg = fmt.Sprintln(p.pname(p.Name, 2), ":", red.regular(err.Error()))
out = BufferOut{Time: time.Now(), Text: err.Error()}
p.stamp("error", out, msg, "")
}
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// Config project init
func (p *Project) config(r *realize) {
// validate project path, if invalid get wdir or clean current
if !filepath.IsAbs(p.Path) {
p.Path = wdir()
} else {
p.Path = filepath.Clean(p.Path)
}
// get basepath name
p.name = filepath.Base(p.Path)
// env variables
for key, item := range p.Environment {
if err := os.Setenv(key, item); err != nil {
p.Buffer.StdErr = append(p.Buffer.StdErr, BufferOut{Time: time.Now(), Text: err.Error(), Type: "Env error", Stream: ""})
}
}
// init commands
if len(p.Cmds.Fmt.Args) == 0 {
p.Cmds.Fmt.Args = []string{"-s", "-w", "-e", "./"}
}
p.tools = append(p.tools, tool{
status: p.Cmds.Fix.Status,
cmd: replace([]string{"go fix"}, p.Cmds.Fix.Method),
options: split([]string{}, p.Cmds.Fix.Args),
name: "Fix",
})
p.tools = append(p.tools, tool{
status: p.Cmds.Clean.Status,
cmd: replace([]string{"go clean"}, p.Cmds.Clean.Method),
options: split([]string{}, p.Cmds.Clean.Args),
name: "Clean",
})
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p.tools = append(p.tools, tool{
status: p.Cmds.Fmt.Status,
cmd: replace([]string{"gofmt"}, p.Cmds.Fmt.Method),
options: split([]string{}, p.Cmds.Fmt.Args),
name: "Fmt",
})
p.tools = append(p.tools, tool{
status: p.Cmds.Generate.Status,
cmd: replace([]string{"go", "generate"}, p.Cmds.Generate.Method),
options: split([]string{}, p.Cmds.Generate.Args),
name: "Generate",
dir: true,
})
p.tools = append(p.tools, tool{
status: p.Cmds.Test.Status,
cmd: replace([]string{"go", "test"}, p.Cmds.Test.Method),
options: split([]string{}, p.Cmds.Test.Args),
name: "Test",
dir: true,
})
p.tools = append(p.tools, tool{
status: p.Cmds.Vet.Status,
cmd: replace([]string{"go", "vet"}, p.Cmds.Vet.Method),
options: split([]string{}, p.Cmds.Vet.Args),
name: "Vet",
dir: true,
})
p.Cmds.Install = Cmd{
Status: p.Cmds.Install.Status,
Args: append([]string{}, p.Cmds.Install.Args...),
method: replace([]string{"go", "install"}, p.Cmds.Install.Method),
name: "Install",
startTxt: "Installing...",
endTxt: "Installed",
}
p.Cmds.Build = Cmd{
Status: p.Cmds.Build.Status,
Args: append([]string{}, p.Cmds.Build.Args...),
method: replace([]string{"go", "build"}, p.Cmds.Build.Method),
name: "Build",
startTxt: "Building...",
endTxt: "Built",
}
p.parent = r
}
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// Cmd calls the method that execute commands after/before and display the results
func (p *Project) cmd(stop <-chan bool, flag string, global bool) {
done := make(chan bool)
// cmds are scheduled in sequence
go func() {
for _, cmd := range p.Watcher.Scripts {
if strings.ToLower(cmd.Type) == flag && cmd.Global == global {
err, logs := p.command(stop, cmd)
if err == "" && logs == "" {
continue
}
msg = fmt.Sprintln(p.pname(p.Name, 5), ":", green.bold("Command"), green.bold("\"")+cmd.Command+green.bold("\""))
out = BufferOut{Time: time.Now(), Text: cmd.Command, Type: flag}
if err != "" {
p.stamp("error", out, msg, "")
msg = fmt.Sprintln(red.regular(err))
out = BufferOut{Time: time.Now(), Text: err, Type: flag}
p.stamp("error", out, "", msg)
} else if logs != "" && cmd.Output {
msg = fmt.Sprintln(logs)
out = BufferOut{Time: time.Now(), Text: logs, Type: flag}
p.stamp("log", out, "", msg)
} else {
p.stamp("log", out, msg, "")
}
}
}
close(done)
}()
for {
select {
case <-stop:
return
case <-done:
return
}
}
}
// Compile is used for run and display the result of a compiling
func (p *Project) compile(stop <-chan bool, cmd Cmd) error {
if cmd.Status {
start := time.Now()
channel := make(chan Result)
go func() {
log.Println(p.pname(p.Name, 1), ":", cmd.startTxt)
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stream, err := p.goCompile(stop, cmd.method, cmd.Args)
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if stream != msgStop {
channel <- Result{stream, err}
}
}()
select {
case r := <-channel:
if r.err != nil {
msg = fmt.Sprintln(p.pname(p.Name, 2), ":", red.bold(cmd.name), red.regular(r.err.Error()))
out = BufferOut{Time: time.Now(), Text: r.err.Error(), Type: cmd.name, Stream: r.stream}
p.stamp("error", out, msg, r.stream)
} else {
msg = fmt.Sprintln(p.pname(p.Name, 5), ":", green.regular(cmd.endTxt), "in", magenta.regular(big.NewFloat(float64(time.Since(start).Seconds())).Text('f', 3), " s"))
out = BufferOut{Time: time.Now(), Text: cmd.name + " in " + big.NewFloat(float64(time.Since(start).Seconds())).Text('f', 3) + " s"}
p.stamp("log", out, msg, r.stream)
}
return r.err
case <-stop:
return nil
}
}
return nil
}
// Defines the colors scheme for the project name
func (p *Project) pname(name string, color int) string {
switch color {
case 1:
name = yellow.regular("[") + strings.ToUpper(name) + yellow.regular("]")
break
case 2:
name = yellow.regular("[") + red.bold(strings.ToUpper(name)) + yellow.regular("]")
break
case 3:
name = yellow.regular("[") + blue.bold(strings.ToUpper(name)) + yellow.regular("]")
break
case 4:
name = yellow.regular("[") + magenta.bold(strings.ToUpper(name)) + yellow.regular("]")
break
case 5:
name = yellow.regular("[") + green.bold(strings.ToUpper(name)) + yellow.regular("]")
break
}
return name
}
// Tool logs the result of a go command
func (p *Project) tool(stop <-chan bool, path string) error {
if len(path) > 0 {
done := make(chan bool)
result := make(chan tool)
go func() {
var wg sync.WaitGroup
wg.Add(len(p.tools))
for _, element := range p.tools {
// no need a sequence, these commands can be asynchronous
go p.goTool(&wg, stop, result, path, element)
}
wg.Wait()
close(done)
}()
loop:
for {
select {
case tool := <-result:
msg = fmt.Sprintln(p.pname(p.Name, 2), ":", red.bold(tool.name), red.regular("there are some errors in"), ":", magenta.bold(path))
buff := BufferOut{Time: time.Now(), Text: "there are some errors in", Path: path, Type: tool.name, Stream: tool.err}
p.stamp("error", buff, msg, tool.err)
case <-done:
break loop
case <-stop:
break loop
}
}
}
return nil
}
// Changed detect a file/directory change
func (p *Project) changed(event fsnotify.Event, stop chan bool) {
e := ext(event.Name)
if e == "" {
e = "DIR"
}
msg = fmt.Sprintln(p.pname(p.Name, 4), ":", magenta.bold(strings.ToUpper(e)), "changed", magenta.bold(event.Name))
out = BufferOut{Time: time.Now(), Text: ext(event.Name) + " changed " + event.Name}
p.stamp("log", out, msg, "")
//stop running process
go p.routines(stop, p.watcher, event.Name)
}
// Watch the files tree of a project
func (p *Project) walk(path string, info os.FileInfo, err error) error {
for _, v := range p.Watcher.Ignore {
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s := append([]string{p.Path}, strings.Split(v, string(os.PathSeparator))...)
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if strings.Contains(path, filepath.Join(s...)) {
return nil
}
}
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if !strings.HasPrefix(path, ".") && (info.IsDir() || array(ext(path), p.Watcher.Exts)) {
result := p.watcher.Walk(path, p.init)
if result != "" {
if info.IsDir() {
p.folders++
} else {
p.files++
}
if p.Watcher.Preview {
log.Println(p.pname(p.Name, 1), ":", path)
}
}
}
return nil
}
// Print on files, cli, ws
func (p *Project) stamp(t string, o BufferOut, msg string, stream string) {
switch t {
case "out":
p.Buffer.StdOut = append(p.Buffer.StdOut, o)
if p.Files.Outputs.Status {
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f := p.create(p.Path, p.Files.Outputs.Name)
t := time.Now()
s := []string{t.Format("2006-01-02 15:04:05"), strings.ToUpper(p.Name), ":", o.Text, "\r\n"}
if _, err := f.WriteString(strings.Join(s, " ")); err != nil {
p.fatal(err, "")
}
}
case "log":
p.Buffer.StdLog = append(p.Buffer.StdLog, o)
if p.Files.Logs.Status {
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f := p.create(p.Path, p.Files.Logs.Name)
t := time.Now()
s := []string{t.Format("2006-01-02 15:04:05"), strings.ToUpper(p.Name), ":", o.Text, "\r\n"}
if stream != "" {
s = []string{t.Format("2006-01-02 15:04:05"), strings.ToUpper(p.Name), ":", o.Text, "\r\n", stream}
}
if _, err := f.WriteString(strings.Join(s, " ")); err != nil {
p.fatal(err, "")
}
}
case "error":
p.Buffer.StdErr = append(p.Buffer.StdErr, o)
if p.Files.Errors.Status {
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f := p.create(p.Path, p.Files.Errors.Name)
t := time.Now()
s := []string{t.Format("2006-01-02 15:04:05"), strings.ToUpper(p.Name), ":", o.Type, o.Text, o.Path, "\r\n"}
if stream != "" {
s = []string{t.Format("2006-01-02 15:04:05"), strings.ToUpper(p.Name), ":", o.Type, o.Text, o.Path, "\r\n", stream}
}
if _, err := f.WriteString(strings.Join(s, " ")); err != nil {
p.fatal(err, "")
}
}
}
if msg != "" {
log.Print(msg)
}
if stream != "" {
fmt.Fprint(output, stream)
}
go func() {
p.parent.sync <- "sync"
}()
}
// Routines launches the toolchain run, build, install
func (p *Project) routines(stop <-chan bool, watcher FileWatcher, path string) {
var done bool
go func() {
for {
select {
case <-stop:
done = true
return
}
}
}()
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invoke(done,p.cmd,stop,"before",false)
invoke(done,p.tool,stop,path)
// prevent init error on walk
p.init = true
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// prevent errors using realize without config with only run flag
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if p.Cmds.Run && !p.Cmds.Install.Status && !p.Cmds.Build.Status {
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p.Cmds.Install.Status = true
}
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invoke(done,p.compile,stop,p.Cmds.Install)
invoke(done,p.compile,stop,p.Cmds.Build)
if !done && p.Cmds.Run {
start := time.Now()
runner := make(chan bool, 1)
go func() {
log.Println(p.pname(p.Name, 1), ":", "Running..")
p.goRun(stop, runner)
}()
select {
case <-runner:
msg = fmt.Sprintln(p.pname(p.Name, 5), ":", green.regular("Started"), "in", magenta.regular(big.NewFloat(float64(time.Since(start).Seconds())).Text('f', 3), " s"))
out = BufferOut{Time: time.Now(), Text: "Started in " + big.NewFloat(float64(time.Since(start).Seconds())).Text('f', 3) + " s"}
p.stamp("log", out, msg, "")
case <-stop:
return
}
}
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invoke(done,p.cmd,stop,"after",false)
}
// Invoke is used to exec func from routines and check done
func invoke(done bool, fn interface{}, args ...interface{}) {
if !done {
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v := reflect.ValueOf(fn)
rargs := make([]reflect.Value, len(args))
for i, a := range args {
rargs[i] = reflect.ValueOf(a)
}
v.Call(rargs)
}
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}