blob: 30d927424ca9208f51321f6d689ee66fe1f2cf92 [file] [log] [blame]
// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Package queue provides queue implementations that can be used for
// asynchronous scheduling of fetch actions.
package queue
import (
"context"
"errors"
"fmt"
"hash/fnv"
"io"
"math"
"strings"
"time"
cloudtasks "cloud.google.com/go/cloudtasks/apiv2"
"github.com/golang/protobuf/ptypes"
"golang.org/x/pkgsite/internal"
"golang.org/x/pkgsite/internal/config"
"golang.org/x/pkgsite/internal/derrors"
"golang.org/x/pkgsite/internal/experiment"
"golang.org/x/pkgsite/internal/log"
"golang.org/x/pkgsite/internal/middleware"
taskspb "google.golang.org/genproto/googleapis/cloud/tasks/v2"
"google.golang.org/grpc/codes"
"google.golang.org/grpc/status"
)
// A Queue provides an interface for asynchronous scheduling of fetch actions.
type Queue interface {
ScheduleFetch(ctx context.Context, modulePath, version, suffix string, disableProxyFetch bool) (bool, error)
}
// New creates a new Queue with name queueName based on the configuration
// in cfg. When running locally, Queue uses numWorkers concurrent workers.
func New(ctx context.Context, cfg *config.Config, queueName string, numWorkers int, expGetter middleware.ExperimentGetter, processFunc inMemoryProcessFunc) (Queue, error) {
if !cfg.OnGCP() {
experiments, err := expGetter(ctx)
if err != nil {
return nil, err
}
var names []string
for _, e := range experiments {
if e.Rollout > 0 {
names = append(names, e.Name)
}
}
return NewInMemory(ctx, numWorkers, names, processFunc), nil
}
client, err := cloudtasks.NewClient(ctx)
if err != nil {
return nil, err
}
g, err := newGCP(cfg, client, queueName)
if err != nil {
return nil, err
}
log.Infof(ctx, "enqueuing at %s with queueURL=%q", g.queueName, g.queueURL)
return g, nil
}
// GCP provides a Queue implementation backed by the Google Cloud Tasks
// API.
type GCP struct {
client *cloudtasks.Client
queueName string // full GCP name of the queue
queueURL string // non-AppEngine URL to post tasks to
// token holds information that lets the task queue construct an authorized request to the worker.
// Since the worker sits behind the IAP, the queue needs an identity token that includes the
// identity of a service account that has access, and the client ID for the IAP.
// We use the service account of the current process.
token *taskspb.HttpRequest_OidcToken
}
// NewGCP returns a new Queue that can be used to enqueue tasks using the
// cloud tasks API. The given queueID should be the name of the queue in the
// cloud tasks console.
func newGCP(cfg *config.Config, client *cloudtasks.Client, queueID string) (_ *GCP, err error) {
defer derrors.Wrap(&err, "newGCP(cfg, client, %q)", queueID)
if queueID == "" {
return nil, errors.New("empty queueID")
}
if cfg.ProjectID == "" {
return nil, errors.New("empty ProjectID")
}
if cfg.LocationID == "" {
return nil, errors.New("empty LocationID")
}
if cfg.QueueURL == "" {
return nil, errors.New("empty QueueURL")
}
if cfg.ServiceAccount == "" {
return nil, errors.New("empty ServiceAccount")
}
if cfg.QueueAudience == "" {
return nil, errors.New("empty QueueAudience")
}
return &GCP{
client: client,
queueName: fmt.Sprintf("projects/%s/locations/%s/queues/%s", cfg.ProjectID, cfg.LocationID, queueID),
queueURL: cfg.QueueURL,
token: &taskspb.HttpRequest_OidcToken{
OidcToken: &taskspb.OidcToken{
ServiceAccountEmail: cfg.ServiceAccount,
Audience: cfg.QueueAudience,
},
},
}, nil
}
// ScheduleFetch enqueues a task on GCP to fetch the given modulePath and
// version. It returns an error if there was an error hashing the task name, or
// an error pushing the task to GCP. If the task was a duplicate, it returns (false, nil).
func (q *GCP) ScheduleFetch(ctx context.Context, modulePath, version, suffix string, disableProxyFetch bool) (enqueued bool, err error) {
defer derrors.WrapStack(&err, "queue.ScheduleFetch(%q, %q, %q)", modulePath, version, suffix)
// Cloud Tasks enforces an RPC timeout of at most 30s. I couldn't find this
// in the documentation, but using a larger value, or no timeout, results in
// an InvalidArgument error with the text "The deadline cannot be more than
// 30s in the future."
ctx, cancel := context.WithTimeout(ctx, 30*time.Second)
defer cancel()
if modulePath == internal.UnknownModulePath {
return false, errors.New("given unknown module path")
}
req := q.newTaskRequest(modulePath, version, suffix, disableProxyFetch)
enqueued = true
if _, err := q.client.CreateTask(ctx, req); err != nil {
if status.Code(err) == codes.AlreadyExists {
log.Debugf(ctx, "ignoring duplicate task ID %s: %s@%s", req.Task.Name, modulePath, version)
enqueued = false
} else {
return false, fmt.Errorf("q.client.CreateTask(ctx, req): %v", err)
}
}
return enqueued, nil
}
// Maximum timeout for HTTP tasks.
// See https://cloud.google.com/tasks/docs/creating-http-target-tasks.
const maxCloudTasksTimeout = 30 * time.Minute
const (
DisableProxyFetchParam = "proxyfetch"
DisableProxyFetchValue = "off"
)
func (q *GCP) newTaskRequest(modulePath, version, suffix string, disableProxyFetch bool) *taskspb.CreateTaskRequest {
taskID := newTaskID(modulePath, version)
relativeURI := fmt.Sprintf("/fetch/%s/@v/%s", modulePath, version)
if disableProxyFetch {
relativeURI += fmt.Sprintf("?%s=%s", DisableProxyFetchParam, DisableProxyFetchValue)
}
task := &taskspb.Task{
Name: fmt.Sprintf("%s/tasks/%s", q.queueName, taskID),
DispatchDeadline: ptypes.DurationProto(maxCloudTasksTimeout),
}
task.MessageType = &taskspb.Task_HttpRequest{
HttpRequest: &taskspb.HttpRequest{
HttpMethod: taskspb.HttpMethod_POST,
Url: q.queueURL + relativeURI,
AuthorizationHeader: q.token,
},
}
req := &taskspb.CreateTaskRequest{
Parent: q.queueName,
Task: task,
}
// If suffix is non-empty, append it to the task name. This lets us force reprocessing
// of tasks that would normally be de-duplicated.
if suffix != "" {
req.Task.Name += "-" + suffix
}
return req
}
// Create a task ID for the given module path and version.
// Task IDs can contain only letters ([A-Za-z]), numbers ([0-9]), hyphens (-), or underscores (_).
func newTaskID(modulePath, version string) string {
mv := modulePath + "@" + version
// Compute a hash to use as a prefix, so the task IDs are distributed uniformly.
// See https://cloud.google.com/tasks/docs/reference/rpc/google.cloud.tasks.v2#task
// under "Task De-duplication".
hasher := fnv.New32()
io.WriteString(hasher, mv)
hash := hasher.Sum32() % math.MaxUint16
// Escape the name so it contains only valid characters. Do our best to make it readable.
var b strings.Builder
for _, r := range mv {
switch {
case r >= 'A' && r <= 'Z' || r >= 'a' && r <= 'z' || r >= '0' && r <= '9' || r == '-':
b.WriteRune(r)
case r == '_':
b.WriteString("__")
case r == '/':
b.WriteString("_-")
case r == '@':
b.WriteString("_v")
case r == '.':
b.WriteString("_o")
default:
fmt.Fprintf(&b, "_%04x", r)
}
}
return fmt.Sprintf("%04x-%s", hash, &b)
}
type moduleVersion struct {
modulePath, version string
}
// InMemory is a Queue implementation that schedules in-process fetch
// operations. Unlike the GCP task queue, it will not automatically retry tasks
// on failure.
//
// This should only be used for local development.
type InMemory struct {
queue chan moduleVersion
sem chan struct{}
experiments []string
}
type inMemoryProcessFunc func(context.Context, string, string) (int, error)
// NewInMemory creates a new InMemory that asynchronously fetches
// from proxyClient and stores in db. It uses workerCount parallelism to
// execute these fetches.
func NewInMemory(ctx context.Context, workerCount int, experiments []string, processFunc inMemoryProcessFunc) *InMemory {
q := &InMemory{
queue: make(chan moduleVersion, 1000),
sem: make(chan struct{}, workerCount),
experiments: experiments,
}
go func() {
for v := range q.queue {
select {
case <-ctx.Done():
return
case q.sem <- struct{}{}:
}
// If a worker is available, make a request to the fetch service inside a
// goroutine and wait for it to finish.
go func(v moduleVersion) {
defer func() { <-q.sem }()
log.Infof(ctx, "Fetch requested: %q %q (workerCount = %d)", v.modulePath, v.version, cap(q.sem))
fetchCtx, cancel := context.WithTimeout(ctx, 5*time.Minute)
fetchCtx = experiment.NewContext(fetchCtx, experiments...)
defer cancel()
if _, err := processFunc(fetchCtx, v.modulePath, v.version); err != nil {
log.Error(fetchCtx, err)
}
}(v)
}
}()
return q
}
// ScheduleFetch pushes a fetch task into the local queue to be processed
// asynchronously.
func (q *InMemory) ScheduleFetch(ctx context.Context, modulePath, version, _ string, _ bool) (bool, error) {
q.queue <- moduleVersion{modulePath, version}
return true, nil
}
// WaitForTesting waits for all queued requests to finish. It should only be
// used by test code.
func (q InMemory) WaitForTesting(ctx context.Context) {
for i := 0; i < cap(q.sem); i++ {
select {
case <-ctx.Done():
return
case q.sem <- struct{}{}:
}
}
close(q.queue)
}