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56b916a2b0
zitadel/internal/query/projection/key.go
Livio Amstutz 56b916a2b0
feat: projections auto create their tables (#3324) 
* begin init checks for projections

* first projection checks

* debug notification providers with query fixes

* more projections and first index

* more projections

* more projections

* finish projections

* fix tests (remove db name)

* create tables in setup

* fix logging / error handling

* add tenant to views

* rename tenant to instance_id

* add instance_id to all projections

* add instance_id to all queries

* correct instance_id on projections

* add instance_id to failed_events

* use separate context for instance

* implement features projection

* implement features projection

* remove unique constraint from setup when migration failed

* add error to failed setup event

* add instance_id to primary keys

* fix IAM projection

* remove old migrations folder

* fix keysFromYAML test
2022-03-23 09:02:39 +01:00

152 lines
5.1 KiB
Go
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package projection
import (
"context"
"time"
"github.com/caos/zitadel/internal/crypto"
"github.com/caos/zitadel/internal/errors"
"github.com/caos/zitadel/internal/eventstore"
"github.com/caos/zitadel/internal/eventstore/handler"
"github.com/caos/zitadel/internal/eventstore/handler/crdb"
"github.com/caos/zitadel/internal/repository/keypair"
)
const (
KeyProjectionTable = "projections.keys"
KeyPrivateTable = KeyProjectionTable + "_" + privateKeyTableSuffix
KeyPublicTable = KeyProjectionTable + "_" + publicKeyTableSuffix
KeyColumnID = "id"
KeyColumnCreationDate = "creation_date"
KeyColumnChangeDate = "change_date"
KeyColumnResourceOwner = "resource_owner"
KeyColumnInstanceID = "instance_id"
KeyColumnSequence = "sequence"
KeyColumnAlgorithm = "algorithm"
KeyColumnUse = "use"
privateKeyTableSuffix = "private"
KeyPrivateColumnID = "id"
KeyPrivateColumnExpiry = "expiry"
KeyPrivateColumnKey = "key"
publicKeyTableSuffix = "public"
KeyPublicColumnID = "id"
KeyPublicColumnExpiry = "expiry"
KeyPublicColumnKey = "key"
)
type KeyProjection struct {
crdb.StatementHandler
encryptionAlgorithm crypto.EncryptionAlgorithm
keyChan chan<- interface{}
}
func NewKeyProjection(ctx context.Context, config crdb.StatementHandlerConfig, keyEncryptionAlgorithm crypto.EncryptionAlgorithm, keyChan chan<- interface{}) *KeyProjection {
p := new(KeyProjection)
config.ProjectionName = KeyProjectionTable
config.Reducers = p.reducers()
config.InitCheck = crdb.NewMultiTableCheck(
crdb.NewTable([]*crdb.Column{
crdb.NewColumn(KeyColumnID, crdb.ColumnTypeText),
crdb.NewColumn(KeyColumnCreationDate, crdb.ColumnTypeTimestamp),
crdb.NewColumn(KeyColumnChangeDate, crdb.ColumnTypeTimestamp),
crdb.NewColumn(KeyColumnResourceOwner, crdb.ColumnTypeText),
crdb.NewColumn(KeyColumnInstanceID, crdb.ColumnTypeText),
crdb.NewColumn(KeyColumnSequence, crdb.ColumnTypeInt64),
crdb.NewColumn(KeyColumnAlgorithm, crdb.ColumnTypeText, crdb.Default("")),
crdb.NewColumn(KeyColumnUse, crdb.ColumnTypeText, crdb.Default("")),
},
crdb.NewPrimaryKey(KeyColumnInstanceID, KeyColumnID),
),
crdb.NewSuffixedTable([]*crdb.Column{
crdb.NewColumn(KeyPrivateColumnID, crdb.ColumnTypeText, crdb.DeleteCascade(KeyColumnID)),
crdb.NewColumn(KeyPrivateColumnExpiry, crdb.ColumnTypeTimestamp),
crdb.NewColumn(KeyPrivateColumnKey, crdb.ColumnTypeJSONB),
},
crdb.NewPrimaryKey(KeyPrivateColumnID),
privateKeyTableSuffix,
),
crdb.NewSuffixedTable([]*crdb.Column{
crdb.NewColumn(KeyPublicColumnID, crdb.ColumnTypeText, crdb.DeleteCascade(KeyColumnID)),
crdb.NewColumn(KeyPublicColumnExpiry, crdb.ColumnTypeTimestamp),
crdb.NewColumn(KeyPublicColumnKey, crdb.ColumnTypeBytes),
},
crdb.NewPrimaryKey(KeyPublicColumnID),
publicKeyTableSuffix,
),
)
p.StatementHandler = crdb.NewStatementHandler(ctx, config)
p.keyChan = keyChan
p.encryptionAlgorithm = keyEncryptionAlgorithm
return p
}
func (p *KeyProjection) reducers() []handler.AggregateReducer {
return []handler.AggregateReducer{
{
Aggregate: keypair.AggregateType,
EventRedusers: []handler.EventReducer{
{
Event: keypair.AddedEventType,
Reduce: p.reduceKeyPairAdded,
},
},
},
}
}
func (p *KeyProjection) reduceKeyPairAdded(event eventstore.Event) (*handler.Statement, error) {
e, ok := event.(*keypair.AddedEvent)
if !ok {
return nil, errors.ThrowInvalidArgumentf(nil, "HANDL-SAbr2", "reduce.wrong.event.type %s", keypair.AddedEventType)
}
if e.PrivateKey.Expiry.Before(time.Now()) && e.PublicKey.Expiry.Before(time.Now()) {
return crdb.NewNoOpStatement(e), nil
}
creates := []func(eventstore.Event) crdb.Exec{
crdb.AddCreateStatement(
[]handler.Column{
handler.NewCol(KeyColumnID, e.Aggregate().ID),
handler.NewCol(KeyColumnCreationDate, e.CreationDate()),
handler.NewCol(KeyColumnChangeDate, e.CreationDate()),
handler.NewCol(KeyColumnResourceOwner, e.Aggregate().ResourceOwner),
handler.NewCol(KeyColumnInstanceID, e.Aggregate().InstanceID),
handler.NewCol(KeyColumnSequence, e.Sequence()),
handler.NewCol(KeyColumnAlgorithm, e.Algorithm),
handler.NewCol(KeyColumnUse, e.Usage),
},
),
}
if e.PrivateKey.Expiry.After(time.Now()) {
creates = append(creates, crdb.AddCreateStatement(
[]handler.Column{
handler.NewCol(KeyPrivateColumnID, e.Aggregate().ID),
handler.NewCol(KeyPrivateColumnExpiry, e.PrivateKey.Expiry),
handler.NewCol(KeyPrivateColumnKey, e.PrivateKey.Key),
},
crdb.WithTableSuffix(privateKeyTableSuffix),
))
if p.keyChan != nil {
p.keyChan <- true
}
}
if e.PublicKey.Expiry.After(time.Now()) {
publicKey, err := crypto.Decrypt(e.PublicKey.Key, p.encryptionAlgorithm)
if err != nil {
return nil, errors.ThrowInternal(err, "HANDL-DAg2f", "cannot decrypt public key")
}
creates = append(creates, crdb.AddCreateStatement(
[]handler.Column{
handler.NewCol(KeyPublicColumnID, e.Aggregate().ID),
handler.NewCol(KeyPublicColumnExpiry, e.PublicKey.Expiry),
handler.NewCol(KeyPublicColumnKey, publicKey),
},
crdb.WithTableSuffix(publicKeyTableSuffix),
))
}
return crdb.NewMultiStatement(e, creates...), nil
}
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