gotosocial/internal/transport/delivery/delivery.go

// GoToSocial
// Copyright (C) GoToSocial Authors admin@gotosocial.org
// SPDX-License-Identifier: AGPL-3.0-or-later
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program.  If not, see <http://www.gnu.org/licenses/>.

package delivery

import (
	"context"
	"slices"
	"time"

	"codeberg.org/gruf/go-runners"
	"codeberg.org/gruf/go-structr"
	"github.com/superseriousbusiness/gotosocial/internal/gtscontext"
	"github.com/superseriousbusiness/gotosocial/internal/httpclient"
	"github.com/superseriousbusiness/gotosocial/internal/log"
	"github.com/superseriousbusiness/gotosocial/internal/queue"
	"github.com/superseriousbusiness/gotosocial/internal/util"
)

// Delivery wraps an httpclient.Request{}
// to add ActivityPub ID IRI fields of the
// outgoing activity, so that deliveries may
// be indexed (and so, dropped from queue)
// by any of these possible ID IRIs.
type Delivery struct {

	// ActorID contains the ActivityPub
	// actor ID IRI (if any) of the activity
	// being sent out by this request.
	ActorID string

	// ObjectID contains the ActivityPub
	// object ID IRI (if any) of the activity
	// being sent out by this request.
	ObjectID string

	// TargetID contains the ActivityPub
	// target ID IRI (if any) of the activity
	// being sent out by this request.
	TargetID string

	// Request is the prepared (+ wrapped)
	// httpclient.Client{} request that
	// constitutes this ActivtyPub delivery.
	Request httpclient.Request

	// internal fields.
	next time.Time
}

func (dlv *Delivery) backoff() time.Duration {
	if dlv.next.IsZero() {
		return 0
	}
	return time.Until(dlv.next)
}

// WorkerPool wraps multiple Worker{}s in
// a singular struct for easy multi start/stop.
type WorkerPool struct {

	// Client defines httpclient.Client{}
	// passed to each of delivery pool Worker{}s.
	Client *httpclient.Client

	// Queue is the embedded queue.StructQueue{}
	// passed to each of delivery pool Worker{}s.
	Queue queue.StructQueue[*Delivery]

	// internal fields.
	workers []*Worker
}

// Init will initialize the Worker{} pool
// with given http client, request queue to pull
// from and number of delivery workers to spawn.
func (p *WorkerPool) Init(client *httpclient.Client) {
	p.Client = client
	p.Queue.Init(structr.QueueConfig[*Delivery]{
		Indices: []structr.IndexConfig{
			{Fields: "ActorID", Multiple: true},
			{Fields: "ObjectID", Multiple: true},
			{Fields: "TargetID", Multiple: true},
		},
	})
}

// Start will attempt to start 'n' Worker{}s.
func (p *WorkerPool) Start(n int) {
	// Check whether workers are
	// set (is already running).
	ok := (len(p.workers) > 0)
	if ok {
		return
	}

	// Allocate new workers slice.
	p.workers = make([]*Worker, n)
	for i := range p.workers {

		// Allocate new Worker{}.
		p.workers[i] = new(Worker)
		p.workers[i].Client = p.Client
		p.workers[i].Queue = &p.Queue

		// Attempt to start worker.
		// Return bool not useful
		// here, as true = started,
		// false = already running.
		_ = p.workers[i].Start()
	}
}

// Stop will attempt to stop contained Worker{}s.
func (p *WorkerPool) Stop() {
	// Check whether workers are
	// set (is currently running).
	ok := (len(p.workers) == 0)
	if ok {
		return
	}

	// Stop all running workers.
	for i := range p.workers {

		// return bool not useful
		// here, as true = stopped,
		// false = never running.
		_ = p.workers[i].Stop()
	}

	// Unset workers slice.
	p.workers = p.workers[:0]
}

// Worker wraps an httpclient.Client{} to feed
// from queue.StructQueue{} for ActivityPub reqs
// to deliver. It does so while prioritizing new
// queued requests over backlogged retries.
type Worker struct {

	// Client is the httpclient.Client{} that
	// delivery worker will use for requests.
	Client *httpclient.Client

	// Queue is the Delivery{} message queue
	// that delivery worker will feed from.
	Queue *queue.StructQueue[*Delivery]

	// internal fields.
	backlog []*Delivery
	service runners.Service
}

// Start will attempt to start the Worker{}.
func (w *Worker) Start() bool {
	return w.service.GoRun(w.run)
}

// Stop will attempt to stop the Worker{}.
func (w *Worker) Stop() bool {
	return w.service.Stop()
}

// run wraps process to restart on any panic.
func (w *Worker) run(ctx context.Context) {
	if w.Client == nil || w.Queue == nil {
		panic("not yet initialized")
	}
	log.Infof(ctx, "%p: starting worker", w)
	defer log.Infof(ctx, "%p: stopped worker", w)
	util.Must(func() { w.process(ctx) })
}

// process is the main delivery worker processing routine.
func (w *Worker) process(ctx context.Context) bool {
	if w.Client == nil || w.Queue == nil {
		// we perform this check here just
		// to ensure the compiler knows these
		// variables aren't nil in the loop,
		// even if already checked by caller.
		panic("not yet initialized")
	}

loop:
	for {
		// Get next delivery.
		dlv, ok := w.next(ctx)
		if !ok {
			return true
		}

		// Check whether backoff required.
		const min = 100 * time.Millisecond
		if d := dlv.backoff(); d > min {

			// Start backoff sleep timer.
			backoff := time.NewTimer(d)

			select {
			case <-ctx.Done():
				// Main ctx
				// cancelled.
				backoff.Stop()
				return true

			case <-w.Queue.Wait():
				// A new message was
				// queued, re-add this
				// to backlog + retry.
				w.pushBacklog(dlv)
				backoff.Stop()
				continue loop

			case <-backoff.C:
				// success!
			}
		}

		// Attempt delivery of AP request.
		rsp, retry, err := w.Client.DoOnce(
			&dlv.Request,
		)

		if err == nil {
			// Ensure body closed.
			_ = rsp.Body.Close()
			continue loop
		}

		if !retry {
			// Drop deliveries when no
			// retry requested, or they
			// reached max (either).
			continue loop
		}

		// Determine next delivery attempt.
		backoff := dlv.Request.BackOff()
		dlv.next = time.Now().Add(backoff)

		// Push to backlog.
		w.pushBacklog(dlv)
	}
}

// next gets the next available delivery, blocking until available if necessary.
func (w *Worker) next(ctx context.Context) (*Delivery, bool) {
loop:
	for {
		// Try pop next queued.
		dlv, ok := w.Queue.Pop()

		if !ok {
			// Check the backlog.
			if len(w.backlog) > 0 {

				// Sort by 'next' time.
				sortDeliveries(w.backlog)

				// Pop next delivery.
				dlv := w.popBacklog()

				return dlv, true
			}

			select {
			// Backlog is empty, we MUST
			// block until next enqueued.
			case <-w.Queue.Wait():
				continue loop

			// Worker was stopped.
			case <-ctx.Done():
				return nil, false
			}
		}

		// Replace request context for worker state canceling.
		ctx := gtscontext.WithValues(ctx, dlv.Request.Context())
		dlv.Request.Request = dlv.Request.Request.WithContext(ctx)

		return dlv, true
	}
}

// popBacklog pops next available from the backlog.
func (w *Worker) popBacklog() *Delivery {
	if len(w.backlog) == 0 {
		return nil
	}

	// Pop from backlog.
	dlv := w.backlog[0]

	// Shift backlog down by one.
	copy(w.backlog, w.backlog[1:])
	w.backlog = w.backlog[:len(w.backlog)-1]

	return dlv
}

// pushBacklog pushes the given delivery to backlog.
func (w *Worker) pushBacklog(dlv *Delivery) {
	w.backlog = append(w.backlog, dlv)
}

// sortDeliveries sorts deliveries according
// to when is the first requiring re-attempt.
func sortDeliveries(d []*Delivery) {
	slices.SortFunc(d, func(a, b *Delivery) int {
		const k = +1
		switch {
		case a.next.Before(b.next):
			return +k
		case b.next.Before(a.next):
			return -k
		default:
			return 0
		}
	})
}