status-go/vendor/github.com/jbenet/goprocess/goprocess.go

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// Package goprocess introduces a Process abstraction that allows simple
// organization, and orchestration of work. It is much like a WaitGroup,
// and much like a context.Context, but also ensures safe **exactly-once**,
// and well-ordered teardown semantics.
package goprocess
import (
"os"
"os/signal"
)
// Process is the basic unit of work in goprocess. It defines a computation
// with a lifecycle:
// - running (before calling Close),
// - closing (after calling Close at least once),
// - closed (after Close returns, and all teardown has _completed_).
//
// More specifically, it fits this:
//
// p := WithTeardown(tf) // new process is created, it is now running.
// p.AddChild(q) // can register children **before** Closed().
// go p.Close() // blocks until done running teardown func.
// <-p.Closing() // would now return true.
// <-p.childrenDone() // wait on all children to be done
// p.teardown() // runs the user's teardown function tf.
// p.Close() // now returns, with error teardown returned.
// <-p.Closed() // would now return true.
//
// Processes can be arranged in a process "tree", where children are
// automatically Closed if their parents are closed. (Note, it is actually
// a Process DAG, children may have multiple parents). A process may also
// optionally wait for another to fully Close before beginning to Close.
// This makes it easy to ensure order of operations and proper sequential
// teardown of resurces. For example:
//
// p1 := goprocess.WithTeardown(func() error {
// fmt.Println("closing 1")
// })
// p2 := goprocess.WithTeardown(func() error {
// fmt.Println("closing 2")
// })
// p3 := goprocess.WithTeardown(func() error {
// fmt.Println("closing 3")
// })
//
// p1.AddChild(p2)
// p2.AddChild(p3)
//
//
// go p1.Close()
// go p2.Close()
// go p3.Close()
//
// // Output:
// // closing 3
// // closing 2
// // closing 1
//
// Process is modelled after the UNIX processes group idea, and heavily
// informed by sync.WaitGroup and go.net/context.Context.
//
// In the function documentation of this interface, `p` always refers to
// the self Process.
type Process interface {
// WaitFor makes p wait for q before exiting. Thus, p will _always_ close
// _after_ q. Note well: a waiting cycle is deadlock.
//
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// If p is already Closed, WaitFor panics. This is the same thing as
// calling Add(1) _after_ calling Done() on a wait group. Calling
// WaitFor on an already-closed process is a programming error likely
// due to bad synchronization
WaitFor(q Process)
// AddChildNoWait registers child as a "child" of Process. As in UNIX,
// when parent is Closed, child is Closed -- child may Close beforehand.
// This is the equivalent of calling:
//
// go func(parent, child Process) {
// <-parent.Closing()
// child.Close()
// }(p, q)
//
// Note: the naming of functions is `AddChildNoWait` and `AddChild` (instead
// of `AddChild` and `AddChildWaitFor`) because:
// - it is the more common operation,
// - explicitness is helpful in the less common case (no waiting), and
// - usual "child" semantics imply parent Processes should wait for children.
AddChildNoWait(q Process)
// AddChild is the equivalent of calling:
// parent.AddChildNoWait(q)
// parent.WaitFor(q)
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//
// It will _panic_ if the parent is already closed.
AddChild(q Process)
// Go is much like `go`, as it runs a function in a newly spawned goroutine.
// The neat part of Process.Go is that the Process object you call it on will:
// * construct a child Process, and call AddChild(child) on it
// * spawn a goroutine, and call the given function
// * Close the child when the function exits.
// This way, you can rest assured each goroutine you spawn has its very own
// Process context, and that it will be closed when the function exits.
// It is the function's responsibility to respect the Closing of its Process,
// namely it should exit (return) when <-Closing() is ready. It is basically:
//
// func (p Process) Go(f ProcessFunc) Process {
// child := WithParent(p)
// go func () {
// f(child)
// child.Close()
// }()
// }
//
// It is useful to construct simple asynchronous workers, children of p.
Go(f ProcessFunc) Process
// SetTeardown sets the process's teardown to tf.
SetTeardown(tf TeardownFunc)
// Close ends the process. Close blocks until the process has completely
// shut down, and any teardown has run _exactly once_. The returned error
// is available indefinitely: calling Close twice returns the same error.
// If the process has already been closed, Close returns immediately.
Close() error
// CloseAfterChildren calls Close _after_ its children have Closed
// normally (i.e. it _does not_ attempt to close them).
CloseAfterChildren() error
// Closing is a signal to wait upon. The returned channel is closed
// _after_ Close has been called at least once, but teardown may or may
// not be done yet. The primary use case of Closing is for children who
// need to know when a parent is shutting down, and therefore also shut
// down.
Closing() <-chan struct{}
// Closed is a signal to wait upon. The returned channel is closed
// _after_ Close has completed; teardown has finished. The primary use case
// of Closed is waiting for a Process to Close without _causing_ the Close.
Closed() <-chan struct{}
// Err waits until the process is closed, and then returns any error that
// occurred during shutdown.
Err() error
}
// TeardownFunc is a function used to cleanup state at the end of the
// lifecycle of a Process.
type TeardownFunc func() error
// ProcessFunc is a function that takes a process. Its main use case is goprocess.Go,
// which spawns a ProcessFunc in its own goroutine, and returns a corresponding
// Process object.
type ProcessFunc func(proc Process)
var nilProcessFunc = func(Process) {}
// Go is much like `go`: it runs a function in a newly spawned goroutine. The neat
// part of Go is that it provides Process object to communicate between the
// function and the outside world. Thus, callers can easily WaitFor, or Close the
// function. It is the function's responsibility to respect the Closing of its Process,
// namely it should exit (return) when <-Closing() is ready. It is simply:
//
// func Go(f ProcessFunc) Process {
// p := WithParent(Background())
// p.Go(f)
// return p
// }
//
// Note that a naive implementation of Go like the following would not work:
//
// func Go(f ProcessFunc) Process {
// return Background().Go(f)
// }
//
// This is because having the process you
func Go(f ProcessFunc) Process {
// return GoChild(Background(), f)
// we use two processes, one for communication, and
// one for ensuring we wait on the function (unclosable from the outside).
p := newProcess(nil)
waitFor := newProcess(nil)
p.WaitFor(waitFor) // prevent p from closing
go func() {
f(p)
waitFor.Close() // allow p to close.
p.Close() // ensure p closes.
}()
return p
}
// GoChild is like Go, but it registers the returned Process as a child of parent,
// **before** spawning the goroutine, which ensures proper synchronization with parent.
// It is somewhat like
//
// func GoChild(parent Process, f ProcessFunc) Process {
// p := WithParent(parent)
// p.Go(f)
// return p
// }
//
// And it is similar to the classic WaitGroup use case:
//
// func WaitGroupGo(wg sync.WaitGroup, child func()) {
// wg.Add(1)
// go func() {
// child()
// wg.Done()
// }()
// }
//
func GoChild(parent Process, f ProcessFunc) Process {
p := WithParent(parent)
p.Go(f)
return p
}
// Spawn is an alias of `Go`. In many contexts, Spawn is a
// well-known Process launching word, which fits our use case.
var Spawn = Go
// SpawnChild is an alias of `GoChild`. In many contexts, Spawn is a
// well-known Process launching word, which fits our use case.
var SpawnChild = GoChild
// WithTeardown constructs and returns a Process with a TeardownFunc.
// TeardownFunc tf will be called **exactly-once** when Process is
// Closing, after all Children have fully closed, and before p is Closed.
// In fact, Process p will not be Closed until tf runs and exits.
// See lifecycle in Process doc.
func WithTeardown(tf TeardownFunc) Process {
if tf == nil {
panic("nil tf TeardownFunc")
}
return newProcess(tf)
}
// WithParent constructs and returns a Process with a given parent.
func WithParent(parent Process) Process {
if parent == nil {
panic("nil parent Process")
}
q := newProcess(nil)
parent.AddChild(q)
return q
}
// WithSignals returns a Process that will Close() when any given signal fires.
// This is useful to bind Process trees to syscall.SIGTERM, SIGKILL, etc.
func WithSignals(sig ...os.Signal) Process {
p := WithParent(Background())
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c := make(chan os.Signal, 1)
signal.Notify(c, sig...)
go func() {
<-c
signal.Stop(c)
p.Close()
}()
return p
}