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ipc.go
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ipc.go
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// Copyright (c) 2016 The Decred developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"bufio"
"encoding/binary"
"fmt"
"io"
"os"
)
// Messages sent over a pipe are encoded using a simple binary message format:
//
// - Protocol version (1 byte, currently 1)
// - Message type length (1 byte)
// - Message type string (encoded as UTF8, no longer than 255 bytes)
// - Message payload length (4 bytes, little endian)
// - Message payload bytes (no longer than 2^32 - 1 bytes)
type pipeMessage interface {
Type() string
PayloadSize() uint32
WritePayload(w io.Writer) error
}
var outgoingPipeMessages = make(chan pipeMessage)
// serviceControlPipeRx reads from the file descriptor fd of a read end pipe.
// This is intended to be used as a simple control mechanism for parent
// processes to communicate with and and manage the lifetime of a dcrd child
// process using a unidirectional pipe (on Windows, this is an anonymous pipe,
// not a named pipe).
//
// When the pipe is closed or any other errors occur reading the control
// message, shutdown begins. This prevents dcrd from continuing to run
// unsupervised after the parent process closes unexpectedly.
//
// No control messages are currently defined and the only use for the pipe is to
// start clean shutdown when the pipe is closed. Control messages that follow
// the pipe message format can be added later as needed.
func serviceControlPipeRx(fd uintptr) {
pipe := os.NewFile(fd, fmt.Sprintf("|%v", fd))
r := bufio.NewReader(pipe)
for {
_, err := r.Discard(1024)
if err == io.EOF {
err = nil
break
}
if err != nil {
dcrdLog.Errorf("Failed to read from pipe: %v", err)
break
}
}
select {
case shutdownRequestChannel <- struct{}{}:
default:
}
}
// serviceControlPipeTx sends pipe messages to the file descriptor fd of a write
// end pipe. This is intended to be a simple response and notification system
// for a child dcrd process to communicate with a parent process without the
// need to go through the RPC server.
//
// See the comment on the pipeMessage interface for the binary encoding of a
// pipe message.
func serviceControlPipeTx(fd uintptr) {
defer drainOutgoingPipeMessages()
pipe := os.NewFile(fd, fmt.Sprintf("|%v", fd))
w := bufio.NewWriter(pipe)
headerBuffer := make([]byte, 0, 1+1+255+4) // capped to max header size
var err error
for m := range outgoingPipeMessages {
const protocolVersion byte = 1
mtype := m.Type()
psize := m.PayloadSize()
headerBuffer = append(headerBuffer, protocolVersion)
headerBuffer = append(headerBuffer, byte(len(mtype)))
headerBuffer = append(headerBuffer, mtype...)
buf := make([]byte, 4)
binary.LittleEndian.PutUint32(buf, psize)
headerBuffer = append(headerBuffer, buf...)
_, err = w.Write(headerBuffer)
if err != nil {
break
}
err = m.WritePayload(w)
if err != nil {
break
}
err = w.Flush()
if err != nil {
break
}
headerBuffer = headerBuffer[:0]
}
dcrdLog.Errorf("Failed to write to pipe: %v", err)
}
func drainOutgoingPipeMessages() {
for range outgoingPipeMessages {
}
}
// The lifetimeEvent describes a startup or shutdown event. The message type
// string is "lifetimeevent".
//
// The payload size is always 2 bytes long. The first byte describes whether a
// service or event is about to run or whether startup has completed. The
// second byte, when applicable, describes which event or service is about to
// start or stop.
//
// 0 <event id>: The startup event is about to run
// 1 <ignored>: All startup tasks have completed
// 2 <event id>: The shutdown event is about to run
//
// Event IDs can take on the following values:
//
// 0: Database opening/closing
// 1: Ticket database opening/closing
// 2: Peer-to-peer server starting/stopping
//
// Note that not all subsystems are started/stopped or events run during the
// program's lifetime depending on what features are enabled through the config.
//
// As an example, the following messages may be sent during a typical execution:
//
// 0 0: The database is being opened
// 0 1: The ticket DB is being opened
// 0 2: The P2P server is starting
// 1 0: All startup tasks have completed
// 2 2: The P2P server is stopping
// 2 1: The ticket DB is being closed and written to disk
// 2 0: The database is being closed
type lifetimeEvent struct {
event lifetimeEventID
action lifetimeAction
}
var _ pipeMessage = (*lifetimeEvent)(nil)
type lifetimeEventID byte
const (
startupEvent lifetimeEventID = iota
startupComplete
shutdownEvent
)
type lifetimeAction byte
const (
lifetimeEventDBOpen lifetimeAction = iota
lifetimeEventP2PServer
)
func (*lifetimeEvent) Type() string { return "lifetimeevent" }
func (e *lifetimeEvent) PayloadSize() uint32 { return 2 }
func (e *lifetimeEvent) WritePayload(w io.Writer) error {
_, err := w.Write([]byte{byte(e.event), byte(e.action)})
return err
}
type lifetimeEventServer chan<- pipeMessage
func newLifetimeEventServer(outChan chan<- pipeMessage) lifetimeEventServer {
return lifetimeEventServer(outChan)
}
func (s lifetimeEventServer) notifyStartupEvent(action lifetimeAction) {
if s == nil {
return
}
s <- &lifetimeEvent{
event: startupEvent,
action: action,
}
}
func (s lifetimeEventServer) notifyStartupComplete() {
if s == nil {
return
}
s <- &lifetimeEvent{
event: startupComplete,
action: 0,
}
}
func (s lifetimeEventServer) notifyShutdownEvent(action lifetimeAction) {
if s == nil {
return
}
s <- &lifetimeEvent{
event: shutdownEvent,
action: action,
}
}