zitadel/internal/eventstore/eventstore.go
Fabi 667cc30291
feat: asset storage (#1696)
* feat: remove assets

* feat: minio implementation

* fix: remove assets from tests

* feat: minio implementation

* feat: Env vars

* fix: sprintf

* fix: sprintf

* Update internal/eventstore/repository/repository.go

Co-authored-by: Livio Amstutz <livio.a@gmail.com>

* fix: error handling

Co-authored-by: Livio Amstutz <livio.a@gmail.com>
2021-05-03 10:15:50 +02:00

255 lines
7.3 KiB
Go

package eventstore
import (
"context"
"encoding/json"
"reflect"
"sync"
"github.com/caos/zitadel/internal/errors"
"github.com/caos/zitadel/internal/eventstore/repository"
)
//Eventstore abstracts all functions needed to store valid events
// and filters the stored events
type Eventstore struct {
repo repository.Repository
interceptorMutex sync.Mutex
eventInterceptors map[EventType]eventTypeInterceptors
}
type eventTypeInterceptors struct {
eventMapper func(*repository.Event) (EventReader, error)
}
func NewEventstore(repo repository.Repository) *Eventstore {
return &Eventstore{
repo: repo,
eventInterceptors: map[EventType]eventTypeInterceptors{},
interceptorMutex: sync.Mutex{},
}
}
//Health checks if the eventstore can properly work
// It checks if the repository can serve load
func (es *Eventstore) Health(ctx context.Context) error {
return es.repo.Health(ctx)
}
//PushEvents pushes the events in a single transaction
// an event needs at least an aggregate
func (es *Eventstore) PushEvents(ctx context.Context, pushEvents ...EventPusher) ([]EventReader, error) {
events, constraints, err := eventsToRepository(pushEvents)
if err != nil {
return nil, err
}
err = es.repo.Push(ctx, events, constraints...)
if err != nil {
return nil, err
}
eventReaders, err := es.mapEvents(events)
if err != nil {
return nil, err
}
go notify(eventReaders)
return eventReaders, nil
}
func eventsToRepository(pushEvents []EventPusher) (events []*repository.Event, constraints []*repository.UniqueConstraint, err error) {
events = make([]*repository.Event, len(pushEvents))
for i, event := range pushEvents {
data, err := EventData(event)
if err != nil {
return nil, nil, err
}
events[i] = &repository.Event{
AggregateID: event.Aggregate().ID,
AggregateType: repository.AggregateType(event.Aggregate().Typ),
ResourceOwner: event.Aggregate().ResourceOwner,
EditorService: event.EditorService(),
EditorUser: event.EditorUser(),
Type: repository.EventType(event.Type()),
Version: repository.Version(event.Aggregate().Version),
Data: data,
}
if len(event.UniqueConstraints()) > 0 {
constraints = append(constraints, uniqueConstraintsToRepository(event.UniqueConstraints())...)
}
}
return events, constraints, nil
}
func uniqueConstraintsToRepository(constraints []*EventUniqueConstraint) (uniqueConstraints []*repository.UniqueConstraint) {
uniqueConstraints = make([]*repository.UniqueConstraint, len(constraints))
for i, constraint := range constraints {
uniqueConstraints[i] = &repository.UniqueConstraint{
UniqueType: constraint.UniqueType,
UniqueField: constraint.UniqueField,
Action: uniqueConstraintActionToRepository(constraint.Action),
ErrorMessage: constraint.ErrorMessage,
}
}
return uniqueConstraints
}
func assetsToRepository(assets []*Asset) (result []*repository.Asset) {
result = make([]*repository.Asset, len(assets))
for i, asset := range assets {
result[i] = &repository.Asset{
ID: asset.ID,
Asset: asset.Asset,
Action: assetActionToRepository(asset.Action),
}
}
return result
}
//FilterEvents filters the stored events based on the searchQuery
// and maps the events to the defined event structs
func (es *Eventstore) FilterEvents(ctx context.Context, queryFactory *SearchQueryBuilder) ([]EventReader, error) {
query, err := queryFactory.build()
if err != nil {
return nil, err
}
events, err := es.repo.Filter(ctx, query)
if err != nil {
return nil, err
}
return es.mapEvents(events)
}
func (es *Eventstore) mapEvents(events []*repository.Event) (mappedEvents []EventReader, err error) {
mappedEvents = make([]EventReader, len(events))
es.interceptorMutex.Lock()
defer es.interceptorMutex.Unlock()
for i, event := range events {
interceptors, ok := es.eventInterceptors[EventType(event.Type)]
if !ok || interceptors.eventMapper == nil {
mappedEvents[i] = BaseEventFromRepo(event)
//TODO: return error if unable to map event
continue
// return nil, errors.ThrowPreconditionFailed(nil, "V2-usujB", "event mapper not defined")
}
mappedEvents[i], err = interceptors.eventMapper(event)
if err != nil {
return nil, err
}
}
return mappedEvents, nil
}
type reducer interface {
//Reduce handles the events of the internal events list
// it only appends the newly added events
Reduce() error
//AppendEvents appends the passed events to an internal list of events
AppendEvents(...EventReader)
}
//FilterToReducer filters the events based on the search query, appends all events to the reducer and calls it's reduce function
func (es *Eventstore) FilterToReducer(ctx context.Context, searchQuery *SearchQueryBuilder, r reducer) error {
events, err := es.FilterEvents(ctx, searchQuery)
if err != nil {
return err
}
r.AppendEvents(events...)
return r.Reduce()
}
//LatestSequence filters the latest sequence for the given search query
func (es *Eventstore) LatestSequence(ctx context.Context, queryFactory *SearchQueryBuilder) (uint64, error) {
query, err := queryFactory.build()
if err != nil {
return 0, err
}
return es.repo.LatestSequence(ctx, query)
}
type queryReducer interface {
reducer
//Query returns the SearchQueryFactory for the events needed in reducer
Query() *SearchQueryBuilder
}
//FilterToQueryReducer filters the events based on the search query of the query function,
// appends all events to the reducer and calls it's reduce function
func (es *Eventstore) FilterToQueryReducer(ctx context.Context, r queryReducer) error {
events, err := es.FilterEvents(ctx, r.Query())
if err != nil {
return err
}
r.AppendEvents(events...)
return r.Reduce()
}
//RegisterFilterEventMapper registers a function for mapping an eventstore event to an event
func (es *Eventstore) RegisterFilterEventMapper(eventType EventType, mapper func(*repository.Event) (EventReader, error)) *Eventstore {
if mapper == nil || eventType == "" {
return es
}
es.interceptorMutex.Lock()
defer es.interceptorMutex.Unlock()
interceptor := es.eventInterceptors[eventType]
interceptor.eventMapper = mapper
es.eventInterceptors[eventType] = interceptor
return es
}
func EventData(event EventPusher) ([]byte, error) {
switch data := event.Data().(type) {
case nil:
return nil, nil
case []byte:
if json.Valid(data) {
return data, nil
}
return nil, errors.ThrowInvalidArgument(nil, "V2-6SbbS", "data bytes are not json")
}
dataType := reflect.TypeOf(event.Data())
if dataType.Kind() == reflect.Ptr {
dataType = dataType.Elem()
}
if dataType.Kind() == reflect.Struct {
dataBytes, err := json.Marshal(event.Data())
if err != nil {
return nil, errors.ThrowInvalidArgument(err, "V2-xG87M", "could not marshal data")
}
return dataBytes, nil
}
return nil, errors.ThrowInvalidArgument(nil, "V2-91NRm", "wrong type of event data")
}
func uniqueConstraintActionToRepository(action UniqueConstraintAction) repository.UniqueConstraintAction {
switch action {
case UniqueConstraintAdd:
return repository.UniqueConstraintAdd
case UniqueConstraintRemove:
return repository.UniqueConstraintRemoved
default:
return repository.UniqueConstraintAdd
}
}
func assetActionToRepository(action AssetAction) repository.AssetAction {
switch action {
case AssetAdd:
return repository.AssetAdded
case AssetRemove:
return repository.AssetRemoved
default:
return repository.AssetAdded
}
}