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weaver.go
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weaver.go
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// Copyright 2023 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// Package weaver provides the interface for building
// [single-image distributed programs].
//
// A program is composed of a set of Go interfaces called
// components. Components are recognized by "weaver generate" (typically invoked
// via "go generate"). "weaver generate" generates code that allows a component
// to be invoked over the network. This flexibility allows Service Weaver
// to decompose the program execution across many processes and machines.
//
// [single-image distributed programs]: https://serviceweaver.dev
package xcweaver
import (
"context"
"encoding/json"
"errors"
"fmt"
"log/slog"
"net"
"net/http"
"os"
"sync"
"github.com/TiagoMalhadas/xcweaver/internal/antipode"
"github.com/TiagoMalhadas/xcweaver/internal/reflection"
"github.com/TiagoMalhadas/xcweaver/internal/weaver"
"github.com/TiagoMalhadas/xcweaver/runtime"
"github.com/TiagoMalhadas/xcweaver/runtime/codegen"
"go.opentelemetry.io/otel/trace"
)
//go:generate ./dev/protoc.sh internal/status/status.proto
//go:generate ./dev/protoc.sh internal/tool/single/single.proto
//go:generate ./dev/protoc.sh internal/tool/ssh/impl/ssh.proto
//go:generate ./dev/protoc.sh runtime/protos/runtime.proto
//go:generate ./dev/protoc.sh runtime/protos/config.proto
//go:generate ./cmd/weaver/weaver generate . ./internal/tool/multi
//go:generate ./dev/writedeps.sh
// RemoteCallError indicates that a remote component method call failed to
// execute properly. This can happen, for example, because of a failed machine
// or a network partition. Here's an illustrative example:
//
// // Call the foo.Foo method.
// err := foo.Foo(ctx)
// if errors.Is(err, weaver.RemoteCallError) {
// // foo.Foo did not execute properly.
// } else if err != nil {
// // foo.Foo executed properly, but returned an error.
// } else {
// // foo.Foo executed properly and did not return an error.
// }
//
// Note that if a method call returns an error with an embedded
// RemoteCallError, it does NOT mean that the method never executed. The method
// may have executed partially or fully. Thus, you must be careful retrying
// method calls that result in a RemoteCallError. Ensuring that all methods are
// either read-only or idempotent is one way to ensure safe retries, for
// example.
var RemoteCallError = errors.New("Service Weaver remote call error")
// HealthzHandler is a health-check handler that returns an OK status for all
// incoming HTTP requests.
var HealthzHandler = func(w http.ResponseWriter, _ *http.Request) {
fmt.Fprintf(w, "OK")
}
// HealthzURL is the URL path on which Service Weaver performs health checks.
// Every application HTTP server must register a handler for this URL path,
// e.g.:
//
// mux := http.NewServeMux()
// mux.HandleFunc(weaver.HealthzURL, func(http.ResponseWriter, *http.Request) {
// // ...
// })
//
// As a convenience, Service Weaver registers HealthzHandler under
// this URL path in the default ServerMux, i.e.:
//
// http.HandleFunc(weaver.HealthzURL, weaver.HealthzHandler)
const HealthzURL = "/debug/weaver/healthz"
var healthzInit sync.Once
// Main is the interface implemented by an application's main component.
type Main interface{}
// PointerToMain is a type constraint that asserts *T is an instance of Main
// (i.e. T is a struct that embeds weaver.Implements[weaver.Main]).
type PointerToMain[T any] interface {
*T
InstanceOf[Main]
}
// Run runs app as a Service Weaver application.
//
// The application is composed of a set of components that include weaver.Main
// as well as any components transitively needed by weaver.Main. An instance
// that implement weaver.Main is automatically created by weaver.Run and passed
// to app. Note: other replicas in which weaver.Run is called may also create
// instances of weaver.Main.
//
// The type T must be a struct type that contains an embedded
// `weaver.Implements[weaver.Main]` field. A value of type T is created,
// initialized (by calling its Init method if any), and a pointer to the value
// is passed to app. app contains the main body of the application; it will
// typically run HTTP servers, etc.
//
// If this process is hosting the `weaver.Main` component, Run will call app
// and will return when app returns. If this process is hosting other
// components, Run will start those components and never return. Most callers
// of Run will not do anything (other than possibly logging any returned error)
// after Run returns.
//
// func main() {
// if err := weaver.Run(context.Background(), app); err != nil {
// log.Fatal(err)
// }
// }
func Run[T any, P PointerToMain[T]](ctx context.Context, app func(context.Context, *T) error) error {
// Register HealthzHandler in the default ServerMux.
healthzInit.Do(func() {
http.HandleFunc(HealthzURL, HealthzHandler)
})
//add empty lineage to context
ctx = antipode.InitCtx(ctx)
bootstrap, err := runtime.GetBootstrap(ctx)
if err != nil {
return err
}
if !bootstrap.Exists() {
return runLocal[T, P](ctx, app)
}
return runRemote[T, P](ctx, app, bootstrap)
}
func runLocal[T any, _ PointerToMain[T]](ctx context.Context, app func(context.Context, *T) error) error {
// Read config from SERVICEWEAVER_CONFIG env variable, if non-empty.
opts := weaver.SingleWeaveletOptions{}
if filename := os.Getenv("SERVICEWEAVER_CONFIG"); filename != "" {
contents, err := os.ReadFile(filename)
if err != nil {
return fmt.Errorf("config file: %w", err)
}
opts.ConfigFilename = filename
opts.Config = string(contents)
}
regs := codegen.Registered()
if err := validateRegistrations(regs); err != nil {
return err
}
wlet, err := weaver.NewSingleWeavelet(ctx, regs, opts)
if err != nil {
return err
}
go func() {
if err := wlet.ServeStatus(ctx); err != nil {
fmt.Fprintln(os.Stderr, err)
}
}()
main, err := wlet.GetImpl(reflection.Type[T]())
if err != nil {
return err
}
return app(ctx, main.(*T))
}
func runRemote[T any, _ PointerToMain[T]](ctx context.Context, app func(context.Context, *T) error, bootstrap runtime.Bootstrap) error {
regs := codegen.Registered()
if err := validateRegistrations(regs); err != nil {
return err
}
opts := weaver.RemoteWeaveletOptions{}
wlet, err := weaver.NewRemoteWeavelet(ctx, regs, bootstrap, opts)
if err != nil {
return err
}
// Return when either (1) the remote weavelet exits, or (2) the user
// provided app function returns, whichever happens first.
errs := make(chan error, 2)
if wlet.Info().RunMain {
main, err := wlet.GetImpl(reflection.Type[T]())
if err != nil {
return err
}
go func() {
errs <- app(ctx, main.(*T))
}()
}
go func() {
errs <- wlet.Wait()
}()
return <-errs
}
var (
// Equivalence checks with the struct in internal/weaver/types.go.
_ = WeaverInfo(weaver.WeaverInfo{})
_ = weaver.WeaverInfo(WeaverInfo{})
)
// WeaverInfo holds runtime information about a deployed application.
type WeaverInfo struct {
// Unique identifier for the application deployment.
DeploymentID string
// TODO(spetrovic): Add other runtime fields here (e.g., application start
// time, name of the deployer).
}
// Implements[T] is a type that is be embedded inside a component
// implementation struct to indicate that the struct implements a component of
// type T. For example, consider a Cache component.
//
// type Cache interface {
// Get(ctx context.Context, key string) (string, error)
// Put(ctx context.Context, key, value string) error
// }
//
// A concrete type that implements the Cache component is written as follows:
//
// type lruCache struct {
// weaver.Implements[Cache]
// ...
// }
//
// Because Implements is embedded inside the component implementation, methods
// of Implements are available as methods of the component implementation type
// and can be invoked directly. For example, given an instance c of type
// lruCache, we can call c.Logger().
type Implements[T any] struct {
// Component logger.
logger *slog.Logger
weaverInfo *weaver.WeaverInfo
// Given a component implementation type, there is currently no nice way,
// using reflection, to get the corresponding component interface type [1].
// The component_interface_type field exists to make it possible.
//
// [1]: https://github.com/golang/go/issues/54393.
//
//lint:ignore U1000 See comment above.
component_interface_type T
// We embed implementsImpl so that component implementation structs
// implement the Unrouted interface by default but implement the
// RoutedBy[T] interface when they embed WithRouter[T].
implementsImpl
}
// Logger returns a logger that associates its log entries with this component.
// Log entries are labeled with any OpenTelemetry trace id and span id in the
// provided context.
func (i Implements[T]) Logger(ctx context.Context) *slog.Logger {
logger := i.logger
s := trace.SpanContextFromContext(ctx)
if s.HasTraceID() {
logger = logger.With("traceid", s.TraceID().String())
}
if s.HasSpanID() {
logger = logger.With("spanid", s.SpanID().String())
}
return logger
}
func (i *Implements[T]) setLogger(logger *slog.Logger) {
i.logger = logger
}
// Weaver returns runtime information about the deployed application.
func (i Implements[T]) Weaver() WeaverInfo {
return WeaverInfo(*i.weaverInfo)
}
func (i *Implements[T]) setWeaverInfo(info *weaver.WeaverInfo) {
i.weaverInfo = info
}
// implements is a method that can only be implemented inside the weaver
// package. It exists so that a component struct that embeds Implements[T]
// implements the InstanceOf[T] interface.
//
//lint:ignore U1000 implements is used by InstanceOf.
func (Implements[T]) implements(T) {}
// InstanceOf[T] is the interface implemented by a struct that embeds
// weaver.Implements[T].
type InstanceOf[T any] interface {
implements(T)
}
// Ref[T] is a field that can be placed inside a component implementation
// struct. T must be a component type. Service Weaver will automatically
// fill such a field with a handle to the corresponding component.
type Ref[T any] struct {
value T
}
// Get returns a handle to the component of type T.
func (r Ref[T]) Get() T { return r.value }
// isRef is an internal method that is only implemented by Ref[T] and is
// used internally to check that a value is of type Ref[T].
func (r Ref[T]) isRef() {}
// setRef sets the underlying value of a Ref.
func (r *Ref[T]) setRef(value any) {
r.value = value.(T)
}
// Listener is a network listener that can be placed as a field inside a
// component implementation struct. Once placed, Service Weaver automatically
// initializes the Listener and makes it suitable for receiving network
// traffic. For example:
//
// type myComponentImpl struct {
// weaver.Implements[MyComponent]
// myListener weaver.Listener
// myOtherListener weaver.Listener
// }
//
// By default, all listeners listen on address ":0". This behavior can be
// modified by passing options for individual listeners in the application
// config. For example, to specify local addresses for the above two listeners,
// the user can add the following lines to the application config file:
//
// [listeners]
// myListener = {local_address = "localhost:9000"}
// myOtherListener = {local_address = "localhost:9001"}
//
// Listeners are identified by their field names in the component
// implementation structs (e.g., myListener and myOtherListener). If the user
// wishes to assign different names to their listeners, they may do so by
// adding a `weaver:"name"` struct tag to their listener fields, e.g.:
//
// type myComponentImpl struct {
// weaver.Implements[MyComponent]
// myListener weaver.Listener
// myOtherListener weaver.Listener `weaver:"mylistener2"`
// }
//
// Listener names must be valid Go identifier names. Listener names must be
// unique inside a given application binary, regardless of which components
// they are specified in. For example, it is illegal to declare a Listener
// field "foo" in two different component implementation structs, unless one is
// renamed using the `weaver:"name"` struct tag.
//
// HTTP servers constructed using this listener are expected to perform health
// checks on the reserved HealthzURL path. (Note that this URL path is
// configured to never receive any user traffic.)
type Listener struct {
net.Listener // underlying listener
proxyAddr string // address of proxy that forwards to the listener
}
// String returns the address clients should dial to connect to the listener;
// this will be the proxy address if available, otherwise the <host>:<port> for
// this listener.
func (l Listener) String() string {
if l.proxyAddr != "" {
return l.proxyAddr
}
return l.Addr().String()
}
// ProxyAddr returns the dialable address of the proxy that forwards traffic to
// this listener, or returns the empty string if there is no such proxy.
func (l *Listener) ProxyAddr() string {
return l.proxyAddr
}
// WithConfig[T] is a type that can be embedded inside a component
// implementation. The Service Weaver runtime will take per-component
// configuration information found in the application config file and use it to
// initialize the contents of T.
//
// # Example
//
// Consider a cache component where the cache size should be configurable.
// Define a struct that includes the size, associate it with the component
// implementation, and use it inside the component methods.
//
// type cacheConfig struct
// Size int
// }
//
// type cache struct {
// weaver.Implements[Cache]
// weaver.WithConfig[cacheConfig]
// // ...
// }
//
// func (c *cache) Init(context.Context) error {
// // Use c.Config().Size...
// return nil
// }
//
// The application config file can specify these values as keys under the
// full component path.
//
// ["example.com/mypkg/Cache"]
// Size = 1000
//
// # Field Names
//
// You can use `toml` struct tags to specify the name that should be used for a
// field in a config file. For example, we can change the cacheConfig struct to
// the following:
//
// type cacheConfig struct
// Size int `toml:"my_custom_name"`
// }
//
// And change the config file accordingly:
//
// ["example.com/mypkg/Cache"]
// my_custom_name = 1000
type WithConfig[T any] struct {
config T
}
// Config returns the configuration information for the component that embeds
// this [weaver.WithConfig].
//
// Any fields in T that were not present in the application config file will
// have their default values.
//
// Any fields in the application config file that are not present in T will be
// flagged as an error at application startup.
func (wc *WithConfig[T]) Config() *T {
return &wc.config
}
// getConfig returns the underlying config.
func (wc *WithConfig[T]) getConfig() any {
return &wc.config
}
// WithRouter[T] is a type that can be embedded inside a component
// implementation struct to indicate that calls to a method M on the component
// must be routed according to the the value returned by T.M().
//
// # Example
//
// For example, consider a Cache component that maintains an in-memory cache.
//
// type Cache interface {
// Get(ctx context.Context, key string) (string, error)
// Put(ctx context.Context, key, value string) error
// }
//
// We can create a router for the Cache component like this.
//
// type cacheRouter struct{}
// func (cacheRouter) Get(_ context.Context, key string) string { return key }
// func (cacheRouter) Put(_ context.Context, key, value string) string { return key }
//
// To associate a router with its component, embed [weaver.WithRouter] in the
// component implementation.
//
// type lruCache struct {
// weaver.Implements[Cache]
// weaver.WithRouter[cacheRouter]
// }
//
// For every component method that needs to be routed (e.g., Get and Put), the
// associated router should implement an equivalent method (i.e., same name and
// argument types) whose return type is the routing key. When a component's
// routed method is invoked, its corresponding router method is invoked to
// produce a routing key. Method invocations that produce the same key are
// routed to the same replica.
//
// # Routing Keys
//
// A routing key can be any integer (e.g., int, int32), float (i.e. float32,
// float64), or string; or a struct where all fields are integers, floats, or
// strings. A struct may also embed [AutoMarshal]. For example, the following
// are valid routing keys.
//
// int
// int32
// float32
// float63
// string
// struct{}
// struct{x int}
// struct{x int; y string}
// struct{weaver.AutoMarshal; x int; y string}
//
// Every router method must return the same routing key type. The following,
// for example, is invalid:
//
// // ERROR: Get returns a string, but Put returns an int.
// func (cacheRouter) Get(_ context.Context, key string) string { return key }
// func (cacheRouter) Put(_ context.Context, key, value string) int { return 42 }
//
// # Semantics
//
// NOTE that routing is done on a best-effort basis. Service Weaver will try to
// route method invocations with the same key to the same replica, but this is
// not guaranteed. As a corollary, you should never depend on routing for
// correctness. Only use routing to increase performance in the common case.
type WithRouter[T any] struct{}
// routedBy(T) implements the RoutedBy[T] interface.
//
//lint:ignore U1000 routedBy is used by RoutedBy and Unrouted.
func (WithRouter[T]) routedBy(T) {}
// RoutedBy[T] is the interface implemented by a struct that embeds
// weaver.RoutedBy[T].
type RoutedBy[T any] interface {
routedBy(T)
}
// See Implements.implementsImpl.
type implementsImpl struct{}
// See [Unrouted].
type if_youre_seeing_this_you_probably_forgot_to_run_weaver_generate struct{}
// See [Unrouted].
func (implementsImpl) routedBy(if_youre_seeing_this_you_probably_forgot_to_run_weaver_generate) {}
// Unrouted is the interface implemented by instances that don't embed
// weaver.WithRouter[T].
type Unrouted interface {
routedBy(if_youre_seeing_this_you_probably_forgot_to_run_weaver_generate)
}
var _ Unrouted = (*implementsImpl)(nil)
// AutoMarshal is a type that can be embedded within a struct to indicate that
// "weaver generate" should generate serialization methods for the struct.
//
// Named struct types are not serializable by default. However, they can
// trivially be made serializable by embedding AutoMarshal. For example:
//
// type Pair struct {
// weaver.AutoMarshal
// x, y int
// }
//
// The AutoMarshal embedding instructs "weaver generate" to generate
// serialization methods for the struct, Pair in this example.
//
// Note, however, that AutoMarshal cannot magically make any type serializable.
// For example, "weaver generate" will raise an error for the following code
// because the NotSerializable struct is fundamentally not serializable.
//
// // ERROR: NotSerializable cannot be made serializable.
// type NotSerializable struct {
// weaver.AutoMarshal
// f func() // functions are not serializable
// c chan int // chans are not serializable
// }
type AutoMarshal struct{}
// TODO(mwhittaker): The following methods have AutoMarshal implement
// codegen.AutoMarshal. Alternatively, we could modify the code generator to
// ignore AutoMarshal during marshaling and unmarshaling.
func (AutoMarshal) WeaverMarshal(*codegen.Encoder) {}
func (AutoMarshal) WeaverUnmarshal(*codegen.Decoder) {}
type NotRetriable interface{}
type Antipode struct {
Datastore_type antipode.Datastore_type
Datastore_ID string
}
func (a Antipode) String() string {
return a.Datastore_ID
}
// TO-DO
// Test this method with values as string, bool, int and struct
func (a Antipode) Write(ctx context.Context, key string, value string) (context.Context, error) {
return antipode.Write(ctx, a.Datastore_type, a.Datastore_ID, key, value)
}
func (a Antipode) Read(ctx context.Context, key string) (string, []byte, error) {
value, line, err := antipode.Read(ctx, a.Datastore_type, key)
if err != nil {
return "", []byte{}, err
}
lineageBytes, err := json.Marshal(line)
if err != nil {
return "", []byte{}, err
}
return value, lineageBytes, nil
}
func (a Antipode) Barrier(ctx context.Context) error {
return antipode.Barrier(ctx, a.Datastore_type, a.Datastore_ID)
}
// convert to Antipode method?
func Transfer(ctx context.Context, lineage []byte) (context.Context, error) {
var line []antipode.WriteIdentifier
err := json.Unmarshal(lineage, &line)
if err != nil {
return nil, err
}
return antipode.Transfer(ctx, line)
}
// convert to Antipode method?
func GetLineage(ctx context.Context) ([]byte, error) {
line, err := antipode.GetLineage(ctx)
if err != nil {
return []byte{}, err
}
lineageBytes, err := json.Marshal(line)
if err != nil {
return []byte{}, err
}
return lineageBytes, nil
}
// to remove
func InitCtx(ctx context.Context) context.Context {
return antipode.InitCtx(ctx)
}
func CreateRabbitMQ(rabbit_host string, rabbit_port string, rabbit_user string, rabbit_password string, queue string) antipode.RabbitMQ {
return antipode.CreateRabbitMQ(rabbit_host, rabbit_port, rabbit_user, rabbit_password, queue)
}
func CreateRedis(redis_host string, redis_port string, redis_password string) antipode.Redis {
return antipode.CreateRedis(redis_host, redis_port, redis_password)
}