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open-consul/internal/storage/inmem/schema.go

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Copyright headers for missing files/folders (#16708) * copyright headers for agent folder
2023-03-28 22:48:58 +00:00
// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
Add storage backend interface and in-memory implementation (#16538) Introduces `storage.Backend`, which will serve as the interface between the Resource Service and the underlying storage system (Raft today, but in the future, who knows!). The primary design goal of this interface is to keep its surface area small, and push as much functionality as possible into the layers above, so that new implementations can be added with little effort, and easily proven to be correct. To that end, we also provide a suite of "conformance" tests that can be run against a backend implementation to check it behaves correctly. In this commit, we introduce an initial in-memory storage backend, which is suitable for tests and when running Consul in development mode. This backend is a thin wrapper around the `Store` type, which implements a resource database using go-memdb and our internal pub/sub system. `Store` will also be used to handle reads in our Raft backend, and in the future, used as a local cache for external storage systems.
2023-03-27 09:30:53 +00:00
package inmem
import (
"bytes"
"fmt"
"strings"
"github.com/hashicorp/go-memdb"
"github.com/hashicorp/consul/internal/storage"
"github.com/hashicorp/consul/proto-public/pbresource"
)
const (
tableNameMetadata = "metadata"
tableNameResources = "resources"
indexNameID = "id"
indexNameOwner = "owner"
metaKeyEventIndex = "index"
)
func newDB() (*memdb.MemDB, error) {
return memdb.NewMemDB(&memdb.DBSchema{
Tables: map[string]*memdb.TableSchema{
tableNameMetadata: {
Name: tableNameMetadata,
Indexes: map[string]*memdb.IndexSchema{
indexNameID: {
Name: indexNameID,
AllowMissing: false,
Unique: true,
Indexer: &memdb.StringFieldIndex{Field: "Key"},
},
},
},
tableNameResources: {
Name: tableNameResources,
Indexes: map[string]*memdb.IndexSchema{
indexNameID: {
Name: indexNameID,
AllowMissing: false,
Unique: true,
Indexer: idIndexer{},
},
indexNameOwner: {
Name: indexNameOwner,
AllowMissing: true,
Unique: false,
Indexer: ownerIndexer{},
},
},
},
},
})
}
// indexSeparator delimits the segments of our radix tree keys.
const indexSeparator = "\x00"
// idIndexer implements the memdb.Indexer, memdb.SingleIndexer and
// memdb.PrefixIndexer interfaces. It is used for indexing resources
// by their IDs.
type idIndexer struct{}
// FromArgs constructs a radix tree key from an ID for lookup.
func (i idIndexer) FromArgs(args ...any) ([]byte, error) {
if l := len(args); l != 1 {
return nil, fmt.Errorf("expected 1 arg, got: %d", l)
}
id, ok := args[0].(*pbresource.ID)
if !ok {
return nil, fmt.Errorf("expected *pbresource.ID, got: %T", args[0])
}
return indexFromID(id, false), nil
}
// FromObject constructs a radix tree key from a Resource at write-time, or an
// ID at delete-time.
func (i idIndexer) FromObject(raw any) (bool, []byte, error) {
switch t := raw.(type) {
case *pbresource.ID:
return true, indexFromID(t, false), nil
case *pbresource.Resource:
return true, indexFromID(t.Id, false), nil
}
return false, nil, fmt.Errorf("expected *pbresource.Resource or *pbresource.ID, got: %T", raw)
}
// PrefixFromArgs constructs a radix tree key prefix from a query for listing.
func (i idIndexer) PrefixFromArgs(args ...any) ([]byte, error) {
if l := len(args); l != 1 {
return nil, fmt.Errorf("expected 1 arg, got: %d", l)
}
q, ok := args[0].(query)
if !ok {
return nil, fmt.Errorf("expected query, got: %T", args[0])
}
return q.indexPrefix(), nil
}
// ownerIndexer implements the memdb.Indexer and memdb.SingleIndexer interfaces.
// It is used for indexing resources by their owners.
type ownerIndexer struct{}
// FromArgs constructs a radix tree key from an ID for lookup.
func (i ownerIndexer) FromArgs(args ...any) ([]byte, error) {
if l := len(args); l != 1 {
return nil, fmt.Errorf("expected 1 arg, got: %d", l)
}
id, ok := args[0].(*pbresource.ID)
if !ok {
return nil, fmt.Errorf("expected *pbresource.ID, got: %T", args[0])
}
return indexFromID(id, true), nil
}
// FromObject constructs a radix key tree from a Resource at write-time.
func (i ownerIndexer) FromObject(raw any) (bool, []byte, error) {
res, ok := raw.(*pbresource.Resource)
if !ok {
return false, nil, fmt.Errorf("expected *pbresource.Resource, got: %T", raw)
}
if res.Owner == nil {
return false, nil, nil
}
return true, indexFromID(res.Owner, true), nil
}
func indexFromType(t storage.UnversionedType) []byte {
var b indexBuilder
b.String(t.Group)
b.String(t.Kind)
return b.Bytes()
}
func indexFromTenancy(t *pbresource.Tenancy) []byte {
var b indexBuilder
b.String(t.Partition)
b.String(t.PeerName)
b.String(t.Namespace)
return b.Bytes()
}
func indexFromID(id *pbresource.ID, includeUid bool) []byte {
var b indexBuilder
b.Raw(indexFromType(storage.UnversionedTypeFrom(id.Type)))
b.Raw(indexFromTenancy(id.Tenancy))
b.String(id.Name)
if includeUid {
b.String(id.Uid)
}
return b.Bytes()
}
type indexBuilder bytes.Buffer
func (i *indexBuilder) Raw(v []byte) {
(*bytes.Buffer)(i).Write(v)
}
func (i *indexBuilder) String(s string) {
(*bytes.Buffer)(i).WriteString(s)
(*bytes.Buffer)(i).WriteString(indexSeparator)
}
func (i *indexBuilder) Bytes() []byte {
return (*bytes.Buffer)(i).Bytes()
}
type query struct {
resourceType storage.UnversionedType
tenancy *pbresource.Tenancy
namePrefix string
}
// indexPrefix is called by idIndexer.PrefixFromArgs to construct a radix tree
// key prefix for list queries.
//
// Our radix tree keys are structured like so:
//
// <type><partition><peer><namespace><name>
//
// Where each segment is followed by a NULL terminator.
//
// In order to handle wildcard queries, we return a prefix up to the wildcarded
// field. For example:
//
// Query: type={mesh,v1,service}, partition=default, peer=*, namespace=default
// Prefix: mesh[NULL]v1[NULL]service[NULL]default[NULL]
//
// Which means that we must manually apply filters after the wildcard (i.e.
// namespace in the above example) in the matches method.
func (q query) indexPrefix() []byte {
var b indexBuilder
b.Raw(indexFromType(q.resourceType))
if v := q.tenancy.Partition; v == storage.Wildcard {
return b.Bytes()
} else {
b.String(v)
}
if v := q.tenancy.PeerName; v == storage.Wildcard {
return b.Bytes()
} else {
b.String(v)
}
if v := q.tenancy.Namespace; v == storage.Wildcard {
return b.Bytes()
} else {
b.String(v)
}
if q.namePrefix != "" {
b.Raw([]byte(q.namePrefix))
}
return b.Bytes()
}
// matches applies filters that couldn't be applied by just doing a radix tree
// prefix scan, because an earlier segment of the key prefix was wildcarded.
//
// See docs on query.indexPrefix for an example.
func (q query) matches(res *pbresource.Resource) bool {
if q.tenancy.Partition != storage.Wildcard && res.Id.Tenancy.Partition != q.tenancy.Partition {
return false
}
if q.tenancy.PeerName != storage.Wildcard && res.Id.Tenancy.PeerName != q.tenancy.PeerName {
return false
}
if q.tenancy.Namespace != storage.Wildcard && res.Id.Tenancy.Namespace != q.tenancy.Namespace {
return false
}
if len(q.namePrefix) != 0 && !strings.HasPrefix(res.Id.Name, q.namePrefix) {
return false
}
return true
}