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daemon.go
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daemon.go
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package modd
import (
"os"
"os/exec"
"sync"
"time"
"github.com/cortesi/modd/conf"
"github.com/cortesi/modd/shell"
"github.com/cortesi/modd/varcmd"
"github.com/cortesi/termlog"
)
const (
// MinRestart is the minimum amount of time between daemon restarts
MinRestart = 500 * time.Millisecond
// MulRestart is the exponential backoff multiplier applied when the daemon exits uncleanly
MulRestart = 2
// MaxRestart is the maximum amount of time between daemon restarts
MaxRestart = 8 * time.Second
)
// A single daemon
type daemon struct {
conf conf.Daemon
indir string
ex *shell.Executor
log termlog.Stream
shell string
stop bool
sync.Mutex
}
func (d *daemon) Run() {
var lastStart time.Time
delay := MinRestart
for d.stop != true {
if delay > MinRestart {
d.log.Notice(">> restart backoff... %dms", delay/time.Millisecond)
}
if !lastStart.IsZero() {
time.Sleep(delay)
}
d.log.Notice(">> starting...")
lastStart = time.Now()
err, pstate := d.ex.Run(d.log, false)
if err != nil {
d.log.Shout("execution error: %s", err)
} else if pstate.Error != nil {
if _, ok := pstate.Error.(*exec.ExitError); ok {
d.log.Warn("exited: %s", pstate.ProcState)
} else {
d.log.Shout("exited: %s", err)
}
} else {
d.log.Warn("exited: %s", pstate.ProcState)
}
// If we exited cleanly, or the process ran for > MaxRestart, we reset
// the delay timer
if time.Now().Sub(lastStart) > MaxRestart {
delay = MinRestart
} else {
delay *= MulRestart
if delay > MaxRestart {
delay = MaxRestart
}
}
}
}
// Restart the daemon, or start it if it's not yet running
func (d *daemon) Restart() {
d.Lock()
defer d.Unlock()
if d.ex == nil {
ex, err := shell.NewExecutor(d.shell, d.conf.Command, d.indir)
if err != nil {
d.log.Shout("Could not create executor: %s", err)
}
d.ex = ex
go d.Run()
} else {
d.log.Notice(">> sending signal %s", d.conf.RestartSignal)
err := d.ex.Signal(d.conf.RestartSignal)
if err != nil {
d.log.Warn(
"failed to send %s signal to %s: %v", d.conf.RestartSignal, d.conf.Command, err,
)
}
}
}
func (d *daemon) Shutdown(sig os.Signal) error {
d.log.Notice(">> stopping")
d.stop = true
if d.ex != nil {
return d.ex.Stop()
}
return nil
}
// DaemonPen is a group of daemons in a single block, managed as a unit.
type DaemonPen struct {
daemons []*daemon
sync.Mutex
}
// NewDaemonPen creates a new DaemonPen
func NewDaemonPen(block conf.Block, vars map[string]string, log termlog.TermLog) (*DaemonPen, error) {
d := make([]*daemon, len(block.Daemons))
for i, dmn := range block.Daemons {
vcmd := varcmd.VarCmd{Block: nil, Modified: nil, Vars: vars}
finalcmd, err := vcmd.Render(dmn.Command)
if err != nil {
return nil, err
}
dmn.Command = finalcmd
var indir string
if block.InDir != "" {
indir = block.InDir
} else {
indir, err = os.Getwd()
if err != nil {
return nil, err
}
}
sh, err := shell.GetShellName(vars[shellVarName])
if err != nil {
return nil, err
}
d[i] = &daemon{
conf: dmn,
log: log.Stream(niceHeader("daemon: ", dmn.Command)),
shell: sh,
indir: indir,
}
}
return &DaemonPen{daemons: d}, nil
}
// Restart all daemons in the pen, or start them if they're not running yet.
func (dp *DaemonPen) Restart() {
dp.Lock()
defer dp.Unlock()
if dp.daemons != nil {
for _, d := range dp.daemons {
d.Restart()
}
}
}
// Shutdown all daemons in the pen
func (dp *DaemonPen) Shutdown(sig os.Signal) {
dp.Lock()
defer dp.Unlock()
if dp.daemons != nil {
for _, d := range dp.daemons {
d.Shutdown(sig)
}
}
}
// DaemonWorld represents the entire world of daemons
type DaemonWorld struct {
DaemonPens []*DaemonPen
}
// NewDaemonWorld creates a DaemonWorld
func NewDaemonWorld(cnf *conf.Config, log termlog.TermLog) (*DaemonWorld, error) {
daemonPens := make([]*DaemonPen, len(cnf.Blocks))
for i, b := range cnf.Blocks {
d, err := NewDaemonPen(b, cnf.GetVariables(), log)
if err != nil {
return nil, err
}
daemonPens[i] = d
}
return &DaemonWorld{daemonPens}, nil
}
// Shutdown all daemons with signal s
func (dw *DaemonWorld) Shutdown(s os.Signal) {
for _, dp := range dw.DaemonPens {
dp.Shutdown(s)
}
}