ceremonyclient/pebble/objstorage/objstorage.go

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2024-01-03 07:31:42 +00:00
// Copyright 2023 The LevelDB-Go and Pebble 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 objstorage
import (
"context"
"fmt"
"github.com/cockroachdb/errors"
"github.com/cockroachdb/pebble/internal/base"
"github.com/cockroachdb/pebble/objstorage/objstorageprovider/sharedcache"
"github.com/cockroachdb/pebble/objstorage/remote"
"github.com/cockroachdb/pebble/vfs"
"github.com/cockroachdb/redact"
)
// Readable is the handle for an object that is open for reading.
type Readable interface {
// ReadAt reads len(p) bytes into p starting at offset off.
//
// Does not return partial results; if off + len(p) is past the end of the
// object, an error is returned.
//
// Clients of ReadAt can execute parallel ReadAt calls on the
// same Readable.
ReadAt(ctx context.Context, p []byte, off int64) error
Close() error
// Size returns the size of the object.
Size() int64
// NewReadHandle creates a read handle for ReadAt requests that are related
// and can benefit from optimizations like read-ahead.
//
// The ReadHandle must be closed before the Readable is closed.
//
// Multiple separate ReadHandles can be used.
NewReadHandle(ctx context.Context) ReadHandle
}
// ReadHandle is used to perform reads that are related and might benefit from
// optimizations like read-ahead.
type ReadHandle interface {
// ReadAt reads len(p) bytes into p starting at offset off.
//
// Does not return partial results; if off + len(p) is past the end of the
// object, an error is returned.
//
// Parallel ReadAt calls on the same ReadHandle are not allowed.
ReadAt(ctx context.Context, p []byte, off int64) error
Close() error
// SetupForCompaction informs the implementation that the read handle will
// be used to read data blocks for a compaction. The implementation can expect
// sequential reads, and can decide to not retain data in any caches.
SetupForCompaction()
// RecordCacheHit informs the implementation that we were able to retrieve a
// block from cache. This is useful for example when the implementation is
// trying to detect a sequential reading pattern.
RecordCacheHit(ctx context.Context, offset, size int64)
}
// Writable is the handle for an object that is open for writing.
// Either Finish or Abort must be called.
type Writable interface {
// Write writes len(p) bytes from p to the underlying object. The data is not
// guaranteed to be durable until Finish is called.
//
// Note that Write *is* allowed to modify the slice passed in, whether
// temporarily or permanently. Callers of Write need to take this into
// account.
Write(p []byte) error
// Finish completes the object and makes the data durable.
// No further calls are allowed after calling Finish.
Finish() error
// Abort gives up on finishing the object. There is no guarantee about whether
// the object exists after calling Abort.
// No further calls are allowed after calling Abort.
Abort()
}
// ObjectMetadata contains the metadata required to be able to access an object.
type ObjectMetadata struct {
DiskFileNum base.DiskFileNum
FileType base.FileType
// The fields below are only set if the object is on remote storage.
Remote struct {
// CreatorID identifies the DB instance that originally created the object.
//
// Only used when CustomObjectName is not set.
CreatorID CreatorID
// CreatorFileNum is the identifier for the object within the context of the
// DB instance that originally created the object.
//
// Only used when CustomObjectName is not set.
CreatorFileNum base.DiskFileNum
// CustomObjectName (if it is set) overrides the object name that is normally
// derived from the CreatorID and CreatorFileNum.
CustomObjectName string
// CleanupMethod indicates the method for cleaning up unused shared objects.
CleanupMethod SharedCleanupMethod
// Locator identifies the remote.Storage implementation for this object.
Locator remote.Locator
// Storage is the remote.Storage object corresponding to the Locator. Used
// to avoid lookups in hot paths.
Storage remote.Storage
}
}
// IsRemote returns true if the object is on remote storage.
func (meta *ObjectMetadata) IsRemote() bool {
return meta.IsShared() || meta.IsExternal()
}
// IsExternal returns true if the object is on remote storage but is not owned
// by any Pebble instances in the cluster.
func (meta *ObjectMetadata) IsExternal() bool {
return meta.Remote.CustomObjectName != ""
}
// IsShared returns true if the object is on remote storage and is owned by a
// Pebble instance in the cluster (potentially shared between multiple
// instances).
func (meta *ObjectMetadata) IsShared() bool {
return meta.Remote.CreatorID.IsSet()
}
// AssertValid checks that the metadata is sane.
func (meta *ObjectMetadata) AssertValid() {
if !meta.IsRemote() {
// Verify all Remote fields are empty.
if meta.Remote != (ObjectMetadata{}).Remote {
panic(errors.AssertionFailedf("meta.Remote not empty: %#v", meta.Remote))
}
} else {
if meta.Remote.CustomObjectName == "" {
if meta.Remote.CreatorID == 0 {
panic(errors.AssertionFailedf("CreatorID not set"))
}
if meta.Remote.CreatorFileNum == base.FileNum(0).DiskFileNum() {
panic(errors.AssertionFailedf("CreatorFileNum not set"))
}
}
if meta.Remote.CleanupMethod != SharedNoCleanup && meta.Remote.CleanupMethod != SharedRefTracking {
panic(errors.AssertionFailedf("invalid CleanupMethod %d", meta.Remote.CleanupMethod))
}
if meta.Remote.Storage == nil {
panic(errors.AssertionFailedf("Storage not set"))
}
}
}
// CreatorID identifies the DB instance that originally created a shared object.
// This ID is incorporated in backing object names.
// Must be non-zero.
type CreatorID uint64
// IsSet returns true if the CreatorID is not zero.
func (c CreatorID) IsSet() bool { return c != 0 }
func (c CreatorID) String() string { return fmt.Sprintf("%d", c) }
// SafeFormat implements redact.SafeFormatter.
func (c CreatorID) SafeFormat(w redact.SafePrinter, _ rune) {
w.Printf("%d", redact.SafeUint(c))
}
// SharedCleanupMethod indicates the method for cleaning up unused shared objects.
type SharedCleanupMethod uint8
const (
// SharedRefTracking is used for shared objects for which objstorage providers
// keep track of references via reference marker objects.
SharedRefTracking SharedCleanupMethod = iota
// SharedNoCleanup is used for remote objects that are managed externally; the
// objstorage provider never deletes such objects.
SharedNoCleanup
)
// OpenOptions contains optional arguments for OpenForReading.
type OpenOptions struct {
// MustExist triggers a fatal error if the file does not exist. The fatal
// error message contains extra information helpful for debugging.
MustExist bool
}
// CreateOptions contains optional arguments for Create.
type CreateOptions struct {
// PreferSharedStorage causes the object to be created on shared storage if
// the provider has shared storage configured.
PreferSharedStorage bool
// SharedCleanupMethod is used for the object when it is created on shared storage.
// The default (zero) value is SharedRefTracking.
SharedCleanupMethod SharedCleanupMethod
}
// Provider is a singleton object used to access and manage objects.
//
// An object is conceptually like a large immutable file. The main use of
// objects is for storing sstables; in the future it could also be used for blob
// storage.
//
// The Provider can only manage objects that it knows about - either objects
// created by the provider, or existing objects the Provider was informed about
// via AddObjects.
//
// Objects are currently backed by a vfs.File or a remote.Storage object.
type Provider interface {
// OpenForReading opens an existing object.
OpenForReading(
ctx context.Context, fileType base.FileType, FileNum base.DiskFileNum, opts OpenOptions,
) (Readable, error)
// Create creates a new object and opens it for writing.
//
// The object is not guaranteed to be durable (accessible in case of crashes)
// until Sync is called.
Create(
ctx context.Context, fileType base.FileType, FileNum base.DiskFileNum, opts CreateOptions,
) (w Writable, meta ObjectMetadata, err error)
// Remove removes an object.
//
// The object is not guaranteed to be durably removed until Sync is called.
Remove(fileType base.FileType, FileNum base.DiskFileNum) error
// Sync flushes the metadata from creation or removal of objects since the last Sync.
// This includes objects that have been Created but for which
// Writable.Finish() has not yet been called.
Sync() error
// LinkOrCopyFromLocal creates a new object that is either a copy of a given
// local file or a hard link (if the new object is created on the same FS, and
// if the FS supports it).
//
// The object is not guaranteed to be durable (accessible in case of crashes)
// until Sync is called.
LinkOrCopyFromLocal(
ctx context.Context,
srcFS vfs.FS,
srcFilePath string,
dstFileType base.FileType,
dstFileNum base.DiskFileNum,
opts CreateOptions,
) (ObjectMetadata, error)
// Lookup returns the metadata of an object that is already known to the Provider.
// Does not perform any I/O.
Lookup(fileType base.FileType, FileNum base.DiskFileNum) (ObjectMetadata, error)
// Path returns an internal, implementation-dependent path for the object. It is
// meant to be used for informational purposes (like logging).
Path(meta ObjectMetadata) string
// Size returns the size of the object.
Size(meta ObjectMetadata) (int64, error)
// List returns the objects currently known to the provider. Does not perform any I/O.
List() []ObjectMetadata
// SetCreatorID sets the CreatorID which is needed in order to use shared
// objects. Remote object usage is disabled until this method is called the
// first time. Once set, the Creator ID is persisted and cannot change.
//
// Cannot be called if shared storage is not configured for the provider.
SetCreatorID(creatorID CreatorID) error
// IsSharedForeign returns whether this object is owned by a different node.
IsSharedForeign(meta ObjectMetadata) bool
// RemoteObjectBacking encodes the remote object metadata for the given object.
RemoteObjectBacking(meta *ObjectMetadata) (RemoteObjectBackingHandle, error)
// CreateExternalObjectBacking creates a backing for an existing object with a
// custom object name. The object is considered to be managed outside of
// Pebble and will never be removed by Pebble.
CreateExternalObjectBacking(locator remote.Locator, objName string) (RemoteObjectBacking, error)
// AttachRemoteObjects registers existing remote objects with this provider.
AttachRemoteObjects(objs []RemoteObjectToAttach) ([]ObjectMetadata, error)
Close() error
// IsNotExistError indicates whether the error is known to report that a file or
// directory does not exist.
IsNotExistError(err error) bool
// Metrics returns metrics about objstorage. Currently, it only returns metrics
// about the shared cache.
Metrics() sharedcache.Metrics
}
// RemoteObjectBacking encodes the metadata necessary to incorporate a shared
// object into a different Pebble instance. The encoding is specific to a given
// Provider implementation.
type RemoteObjectBacking []byte
// RemoteObjectBackingHandle is a container for a RemoteObjectBacking which
// ensures that the backing stays valid. A backing can otherwise become invalid
// if this provider unrefs the shared object. The RemoteObjectBackingHandle
// delays any unref until Close.
type RemoteObjectBackingHandle interface {
// Get returns the backing. The backing is only guaranteed to be valid until
// Close is called (or until the Provider is closed). If Close was already
// called, returns an error.
Get() (RemoteObjectBacking, error)
Close()
}
// RemoteObjectToAttach contains the arguments needed to attach an existing remote object.
type RemoteObjectToAttach struct {
// FileNum is the file number that will be used to refer to this object (in
// the context of this instance).
FileNum base.DiskFileNum
FileType base.FileType
// Backing contains the metadata for the remote object backing (normally
// generated from a different instance, but using the same Provider
// implementation).
Backing RemoteObjectBacking
}