@ -15,21 +15,17 @@ import (
// Poller scans the systems for listening ports periodically and sends
// Poller scans the systems for listening ports periodically and sends
// the results to C.
// the results to C.
type Poller struct {
type Poller struct {
// C received the list of ports periodically. It's closed when
c chan List // unbuffered
// Run completes, after which Err can be checked.
C <- chan List
// Err is the error from the final GetList call. It is only
// closeCtx is the context that's canceled on Close.
// valid to read once C has been closed. Err is nil if Close
closeCtx context . Context
// is called or the context is canceled.
closeCtxCancel context . CancelFunc
Err error
runDone chan struct { } // closed when Run completes
// scatch is memory for Poller.getList to reuse between calls.
// scatch is memory for Poller.getList to reuse between calls.
scratch [ ] Port
scratch [ ] Port
c chan List // the unconstrained version of the exported C above
quitCh chan struct { } // close this to force exit
prev List // most recent data
prev List // most recent data
}
}
@ -41,9 +37,9 @@ func NewPoller() (*Poller, error) {
}
}
p := & Poller {
p := & Poller {
c : make ( chan List ) ,
c : make ( chan List ) ,
quitCh : make ( chan struct { } ) ,
runDone : make ( chan struct { } ) ,
}
}
p . C = p . c
p . closeCtx, p . closeCtxCancel = context . WithCancel ( context . Background ( ) )
// Do one initial poll synchronously so we can return an error
// Do one initial poll synchronously so we can return an error
// early.
// early.
@ -55,49 +51,64 @@ func NewPoller() (*Poller, error) {
return p , nil
return p , nil
}
}
// Updates return the channel that receives port list updates.
//
// The channel is closed when the Poller is closed.
func ( p * Poller ) Updates ( ) <- chan List { return p . c }
// Close closes the Poller.
// Run will return with a nil error.
func ( p * Poller ) Close ( ) error {
func ( p * Poller ) Close ( ) error {
select {
p . closeCtxCancel ( )
case <- p . quitCh :
<- p . runDone
return nil
return nil
default :
}
}
close ( p . quitCh )
<- p . C
// send sends pl to p.c and returns whether it was successfully sent.
return nil
func ( p * Poller ) send ( ctx context . Context , pl List ) ( sent bool , err error ) {
select {
case p . c <- pl :
return true , nil
case <- ctx . Done ( ) :
return false , ctx . Err ( )
case <- p . closeCtx . Done ( ) :
return false , nil
}
}
}
// Run runs the Poller periodically until either the context
// Run runs the Poller periodically until either the context
// is done, or the Close is called.
// is done, or the Close is called.
//
// Run may only be called once.
func ( p * Poller ) Run ( ctx context . Context ) error {
func ( p * Poller ) Run ( ctx context . Context ) error {
defer close ( p . runDone )
defer close ( p . c )
defer close ( p . c )
tick := time . NewTicker ( pollInterval )
tick := time . NewTicker ( pollInterval )
defer tick . Stop ( )
defer tick . Stop ( )
// Send out the pre-generated initial value
// Send out the pre-generated initial value.
p . c <- p . prev
if sent , err := p . send ( ctx , p . prev ) ; ! sent {
return err
}
for {
for {
select {
select {
case <- tick . C :
case <- tick . C :
pl , err := p . getList ( )
pl , err := p . getList ( )
if err != nil {
if err != nil {
p . Err = err
return err
return err
}
}
if pl . sameInodes ( p . prev ) {
if pl . sameInodes ( p . prev ) {
continue
continue
}
}
p . prev = pl
p . prev = pl
select {
if sent , err := p . send ( ctx , p . prev ) ; ! sent {
case p . c <- pl :
return err
case <- ctx . Done ( ) :
return ctx . Err ( )
case <- p . quitCh :
return nil
}
}
case <- ctx . Done ( ) :
case <- ctx . Done ( ) :
return ctx . Err ( )
return ctx . Err ( )
case <- p . quitCh :
case <- p . closeCtx . Done ( ) :
return nil
return nil
}
}
}
}