buildkit/cache/metadata.go

585 lines
14 KiB
Go
Raw Normal View History

package cache
import (
"context"
"time"
"github.com/moby/buildkit/cache/metadata"
"github.com/moby/buildkit/client"
"github.com/moby/buildkit/util/bklog"
digest "github.com/opencontainers/go-digest"
"github.com/pkg/errors"
bolt "go.etcd.io/bbolt"
)
const sizeUnknown int64 = -1
const keySize = "snapshot.size"
const keyEqualMutable = "cache.equalMutable"
const keyCachePolicy = "cache.cachePolicy"
const keyDescription = "cache.description"
const keyCreatedAt = "cache.createdAt"
const keyLastUsedAt = "cache.lastUsedAt"
const keyUsageCount = "cache.usageCount"
const keyLayerType = "cache.layerType"
const keyRecordType = "cache.recordType"
const keyCommitted = "snapshot.committed"
const keyParent = "cache.parent"
const keyMergeParents = "cache.mergeParents"
cache: add support for Diff refs. This allows you to create refs that are single layers representing the diff between any two arbitrary refs. The primary use case for this is to allows users to extract the changes created by ops like Exec and rebase them elsewhere through MergeOp. However, there is no restriction on the inputs to DiffOp and the resulting ref's layer is simply the layer created by running the differ on the two inputs refs (specifically, the same differ used during exports). A Diff ref can be mounted by itself, in which case it is defined as the result of applying the diff to Scratch. Most use cases though will use Diff refs as the input to a MergeOp, in which case the diff is just applied on top of the lower merge inputs, as was the case before. In cases like Diff(A, A->B->C) (i.e. cases where the diff is between two refs where the lower is an ancestor of upper), the diff will be defined as the layers separating the two refs. In other cases, the diff is just a single layer, not re-used from the inputs, representing the diff between the two refs (which can be defined as the layer "Diff(A,B)" that satisfies "Merge(A, Diff(A,B)) == B"). Note that there is technically a meaningful difference between the "unmerge" behavior of extracting the layers separating diffs and the "simple diff" of just running the differ on the two refs. Namely, in the case where there are "intermediate deletes" (i.e. deletes that only exist in layers between A and B but not between A and B by themselves), then the simple diff and unmerge can create different results when plugged into a MergeOp. This is due to the fact that intermediate deletes will apply to the merge when using the unmerge behavior, but not when using the simple diff. This is on top of the fact that the simple diff inherently has a "flattening" behavior where multiple layers are squashed into a single one. So, in the case where lower is an ancestor of upper, we choose to follow the unmerge behavior, but it's possible users may prefer the simple diff behavior. As of right now, they won't be able to do so, but if needed we can add the ability to choose which behavior is followed in the future. This could be done through a flag provided to DiffOp or possibly by adapting llb.Copy to support this type of behavior with the same efficiency as DiffOp. Signed-off-by: Erik Sipsma <erik@sipsma.dev>
2021-11-26 21:43:24 +00:00
const keyLowerDiffParent = "cache.lowerDiffParent"
const keyUpperDiffParent = "cache.upperDiffParent"
const keyDiffID = "cache.diffID"
const keyChainID = "cache.chainID"
const keyBlobChainID = "cache.blobChainID"
const keyBlob = "cache.blob"
const keySnapshot = "cache.snapshot"
const keyBlobOnly = "cache.blobonly"
const keyMediaType = "cache.mediatype"
const keyImageRefs = "cache.imageRefs"
const keyDeleted = "cache.deleted"
const keyBlobSize = "cache.blobsize" // the packed blob size as specified in the oci descriptor
const keyURLs = "cache.layer.urls"
// Indexes
const blobchainIndex = "blobchainid:"
const chainIndex = "chainid:"
type MetadataStore interface {
Search(context.Context, string) ([]RefMetadata, error)
}
type RefMetadata interface {
ID() string
GetDescription() string
SetDescription(string) error
GetCreatedAt() time.Time
SetCreatedAt(time.Time) error
HasCachePolicyDefault() bool
SetCachePolicyDefault() error
HasCachePolicyRetain() bool
SetCachePolicyRetain() error
GetLayerType() string
SetLayerType(string) error
GetRecordType() client.UsageRecordType
SetRecordType(client.UsageRecordType) error
GetEqualMutable() (RefMetadata, bool)
// generic getters/setters for external packages
GetString(string) string
SetString(key, val, index string) error
GetExternal(string) ([]byte, error)
SetExternal(string, []byte) error
ClearValueAndIndex(string, string) error
}
func (cm *cacheManager) Search(ctx context.Context, idx string) ([]RefMetadata, error) {
cm.mu.Lock()
defer cm.mu.Unlock()
return cm.search(ctx, idx)
}
// callers must hold cm.mu lock
func (cm *cacheManager) search(ctx context.Context, idx string) ([]RefMetadata, error) {
sis, err := cm.MetadataStore.Search(idx)
if err != nil {
return nil, err
}
var mds []RefMetadata
for _, si := range sis {
// calling getMetadata ensures we return the same storage item object that's cached in memory
md, ok := cm.getMetadata(si.ID())
if !ok {
bklog.G(ctx).Warnf("missing metadata for storage item %q during search for %q", si.ID(), idx)
continue
}
if md.getDeleted() {
continue
}
mds = append(mds, md)
}
return mds, nil
}
// callers must hold cm.mu lock
func (cm *cacheManager) getMetadata(id string) (*cacheMetadata, bool) {
if rec, ok := cm.records[id]; ok {
return rec.cacheMetadata, true
}
si, ok := cm.MetadataStore.Get(id)
md := &cacheMetadata{si}
return md, ok
}
// callers must hold cm.mu lock
func (cm *cacheManager) searchBlobchain(ctx context.Context, id digest.Digest) ([]RefMetadata, error) {
return cm.search(ctx, blobchainIndex+id.String())
}
// callers must hold cm.mu lock
func (cm *cacheManager) searchChain(ctx context.Context, id digest.Digest) ([]RefMetadata, error) {
return cm.search(ctx, chainIndex+id.String())
}
type cacheMetadata struct {
si *metadata.StorageItem
}
func (md *cacheMetadata) ID() string {
return md.si.ID()
}
func (md *cacheMetadata) commitMetadata() error {
return md.si.Commit()
}
func (md *cacheMetadata) GetDescription() string {
return md.GetString(keyDescription)
}
func (md *cacheMetadata) SetDescription(descr string) error {
return md.setValue(keyDescription, descr, "")
}
func (md *cacheMetadata) queueDescription(descr string) error {
return md.queueValue(keyDescription, descr, "")
}
func (md *cacheMetadata) queueCommitted(b bool) error {
return md.queueValue(keyCommitted, b, "")
}
func (md *cacheMetadata) getCommitted() bool {
return md.getBool(keyCommitted)
}
func (md *cacheMetadata) GetLayerType() string {
return md.GetString(keyLayerType)
}
func (md *cacheMetadata) SetLayerType(value string) error {
return md.setValue(keyLayerType, value, "")
}
func (md *cacheMetadata) GetRecordType() client.UsageRecordType {
return client.UsageRecordType(md.GetString(keyRecordType))
}
func (md *cacheMetadata) SetRecordType(value client.UsageRecordType) error {
return md.setValue(keyRecordType, value, "")
}
func (md *cacheMetadata) queueRecordType(value client.UsageRecordType) error {
return md.queueValue(keyRecordType, value, "")
}
func (md *cacheMetadata) SetCreatedAt(tm time.Time) error {
return md.setTime(keyCreatedAt, tm, "")
}
func (md *cacheMetadata) queueCreatedAt(tm time.Time) error {
return md.queueTime(keyCreatedAt, tm, "")
}
func (md *cacheMetadata) GetCreatedAt() time.Time {
return md.getTime(keyCreatedAt)
}
func (md *cacheMetadata) HasCachePolicyDefault() bool {
return md.getCachePolicy() == cachePolicyDefault
}
func (md *cacheMetadata) SetCachePolicyDefault() error {
return md.setCachePolicy(cachePolicyDefault)
}
func (md *cacheMetadata) HasCachePolicyRetain() bool {
return md.getCachePolicy() == cachePolicyRetain
}
func (md *cacheMetadata) SetCachePolicyRetain() error {
return md.setCachePolicy(cachePolicyRetain)
}
func (md *cacheMetadata) GetExternal(s string) ([]byte, error) {
return md.si.GetExternal(s)
}
func (md *cacheMetadata) SetExternal(s string, dt []byte) error {
return md.si.SetExternal(s, dt)
}
func (md *cacheMetadata) GetEqualMutable() (RefMetadata, bool) {
emSi, ok := md.si.Storage().Get(md.getEqualMutable())
if !ok {
return nil, false
}
return &cacheMetadata{emSi}, true
}
func (md *cacheMetadata) getEqualMutable() string {
return md.GetString(keyEqualMutable)
}
func (md *cacheMetadata) setEqualMutable(s string) error {
return md.queueValue(keyEqualMutable, s, "")
}
func (md *cacheMetadata) clearEqualMutable() error {
md.si.Queue(func(b *bolt.Bucket) error {
return md.si.SetValue(b, keyEqualMutable, nil)
})
return nil
}
func (md *cacheMetadata) queueDiffID(str digest.Digest) error {
return md.queueValue(keyDiffID, str, "")
}
func (md *cacheMetadata) getMediaType() string {
return md.GetString(keyMediaType)
}
func (md *cacheMetadata) queueMediaType(str string) error {
return md.queueValue(keyMediaType, str, "")
}
func (md *cacheMetadata) getSnapshotID() string {
return md.GetString(keySnapshot)
}
func (md *cacheMetadata) queueSnapshotID(str string) error {
return md.queueValue(keySnapshot, str, "")
}
func (md *cacheMetadata) getDiffID() digest.Digest {
return digest.Digest(md.GetString(keyDiffID))
}
func (md *cacheMetadata) queueChainID(str digest.Digest) error {
return md.queueValue(keyChainID, str, chainIndex+str.String())
}
func (md *cacheMetadata) getBlobChainID() digest.Digest {
return digest.Digest(md.GetString(keyBlobChainID))
}
func (md *cacheMetadata) queueBlobChainID(str digest.Digest) error {
return md.queueValue(keyBlobChainID, str, blobchainIndex+str.String())
}
func (md *cacheMetadata) getChainID() digest.Digest {
return digest.Digest(md.GetString(keyChainID))
}
func (md *cacheMetadata) queueBlob(str digest.Digest) error {
return md.queueValue(keyBlob, str, "")
}
func (md *cacheMetadata) appendURLs(urls []string) error {
if len(urls) == 0 {
return nil
}
return md.appendStringSlice(keyURLs, urls...)
}
func (md *cacheMetadata) getURLs() []string {
return md.GetStringSlice(keyURLs)
}
func (md *cacheMetadata) getBlob() digest.Digest {
return digest.Digest(md.GetString(keyBlob))
}
func (md *cacheMetadata) queueBlobOnly(b bool) error {
return md.queueValue(keyBlobOnly, b, "")
}
func (md *cacheMetadata) getBlobOnly() bool {
return md.getBool(keyBlobOnly)
}
func (md *cacheMetadata) queueDeleted() error {
return md.queueValue(keyDeleted, true, "")
}
func (md *cacheMetadata) getDeleted() bool {
return md.getBool(keyDeleted)
}
func (md *cacheMetadata) queueParent(parent string) error {
return md.queueValue(keyParent, parent, "")
}
func (md *cacheMetadata) getParent() string {
return md.GetString(keyParent)
}
func (md *cacheMetadata) queueMergeParents(parents []string) error {
return md.queueValue(keyMergeParents, parents, "")
}
func (md *cacheMetadata) getMergeParents() []string {
return md.getStringSlice(keyMergeParents)
}
cache: add support for Diff refs. This allows you to create refs that are single layers representing the diff between any two arbitrary refs. The primary use case for this is to allows users to extract the changes created by ops like Exec and rebase them elsewhere through MergeOp. However, there is no restriction on the inputs to DiffOp and the resulting ref's layer is simply the layer created by running the differ on the two inputs refs (specifically, the same differ used during exports). A Diff ref can be mounted by itself, in which case it is defined as the result of applying the diff to Scratch. Most use cases though will use Diff refs as the input to a MergeOp, in which case the diff is just applied on top of the lower merge inputs, as was the case before. In cases like Diff(A, A->B->C) (i.e. cases where the diff is between two refs where the lower is an ancestor of upper), the diff will be defined as the layers separating the two refs. In other cases, the diff is just a single layer, not re-used from the inputs, representing the diff between the two refs (which can be defined as the layer "Diff(A,B)" that satisfies "Merge(A, Diff(A,B)) == B"). Note that there is technically a meaningful difference between the "unmerge" behavior of extracting the layers separating diffs and the "simple diff" of just running the differ on the two refs. Namely, in the case where there are "intermediate deletes" (i.e. deletes that only exist in layers between A and B but not between A and B by themselves), then the simple diff and unmerge can create different results when plugged into a MergeOp. This is due to the fact that intermediate deletes will apply to the merge when using the unmerge behavior, but not when using the simple diff. This is on top of the fact that the simple diff inherently has a "flattening" behavior where multiple layers are squashed into a single one. So, in the case where lower is an ancestor of upper, we choose to follow the unmerge behavior, but it's possible users may prefer the simple diff behavior. As of right now, they won't be able to do so, but if needed we can add the ability to choose which behavior is followed in the future. This could be done through a flag provided to DiffOp or possibly by adapting llb.Copy to support this type of behavior with the same efficiency as DiffOp. Signed-off-by: Erik Sipsma <erik@sipsma.dev>
2021-11-26 21:43:24 +00:00
func (md *cacheMetadata) queueLowerDiffParent(parent string) error {
return md.queueValue(keyLowerDiffParent, parent, "")
}
func (md *cacheMetadata) getLowerDiffParent() string {
return md.GetString(keyLowerDiffParent)
}
func (md *cacheMetadata) queueUpperDiffParent(parent string) error {
return md.queueValue(keyUpperDiffParent, parent, "")
}
func (md *cacheMetadata) getUpperDiffParent() string {
return md.GetString(keyUpperDiffParent)
}
func (md *cacheMetadata) queueSize(s int64) error {
return md.queueValue(keySize, s, "")
}
func (md *cacheMetadata) getSize() int64 {
if size, ok := md.getInt64(keySize); ok {
return size
}
return sizeUnknown
}
func (md *cacheMetadata) appendImageRef(s string) error {
return md.appendStringSlice(keyImageRefs, s)
}
func (md *cacheMetadata) getImageRefs() []string {
return md.getStringSlice(keyImageRefs)
}
func (md *cacheMetadata) queueBlobSize(s int64) error {
return md.queueValue(keyBlobSize, s, "")
}
func (md *cacheMetadata) getBlobSize() int64 {
if size, ok := md.getInt64(keyBlobSize); ok {
return size
}
return sizeUnknown
}
func (md *cacheMetadata) setCachePolicy(p cachePolicy) error {
return md.setValue(keyCachePolicy, p, "")
}
func (md *cacheMetadata) getCachePolicy() cachePolicy {
if i, ok := md.getInt64(keyCachePolicy); ok {
return cachePolicy(i)
}
return cachePolicyDefault
}
func (md *cacheMetadata) getLastUsed() (int, *time.Time) {
v := md.si.Get(keyUsageCount)
if v == nil {
return 0, nil
}
var usageCount int
if err := v.Unmarshal(&usageCount); err != nil {
return 0, nil
}
v = md.si.Get(keyLastUsedAt)
if v == nil {
return usageCount, nil
}
var lastUsedTs int64
if err := v.Unmarshal(&lastUsedTs); err != nil || lastUsedTs == 0 {
return usageCount, nil
}
tm := time.Unix(lastUsedTs/1e9, lastUsedTs%1e9)
return usageCount, &tm
}
func (md *cacheMetadata) updateLastUsed() error {
count, _ := md.getLastUsed()
count++
v, err := metadata.NewValue(count)
if err != nil {
return errors.Wrap(err, "failed to create usageCount value")
}
v2, err := metadata.NewValue(time.Now().UnixNano())
if err != nil {
return errors.Wrap(err, "failed to create lastUsedAt value")
}
return md.si.Update(func(b *bolt.Bucket) error {
if err := md.si.SetValue(b, keyUsageCount, v); err != nil {
return err
}
return md.si.SetValue(b, keyLastUsedAt, v2)
})
}
func (md *cacheMetadata) queueValue(key string, value interface{}, index string) error {
v, err := metadata.NewValue(value)
if err != nil {
return errors.Wrap(err, "failed to create value")
}
v.Index = index
md.si.Queue(func(b *bolt.Bucket) error {
return md.si.SetValue(b, key, v)
})
return nil
}
func (md *cacheMetadata) SetString(key, value string, index string) error {
return md.setValue(key, value, index)
}
func (md *cacheMetadata) setValue(key string, value interface{}, index string) error {
v, err := metadata.NewValue(value)
if err != nil {
return errors.Wrap(err, "failed to create value")
}
v.Index = index
return md.si.Update(func(b *bolt.Bucket) error {
return md.si.SetValue(b, key, v)
})
}
func (md *cacheMetadata) ClearValueAndIndex(key string, index string) error {
currentVal := md.GetString(key)
return md.si.Update(func(b *bolt.Bucket) error {
if err := md.si.SetValue(b, key, nil); err != nil {
return err
}
if currentVal != "" {
// force clearing index, see #1836 https://github.com/moby/buildkit/pull/1836
return md.si.ClearIndex(b.Tx(), index+currentVal)
}
return nil
})
}
func (md *cacheMetadata) GetString(key string) string {
v := md.si.Get(key)
if v == nil {
return ""
}
var str string
if err := v.Unmarshal(&str); err != nil {
return ""
}
return str
}
func (md *cacheMetadata) GetStringSlice(key string) []string {
v := md.si.Get(key)
if v == nil {
return nil
}
var val []string
if err := v.Unmarshal(&val); err != nil {
return nil
}
return val
}
func (md *cacheMetadata) setTime(key string, value time.Time, index string) error {
return md.setValue(key, value.UnixNano(), index)
}
func (md *cacheMetadata) queueTime(key string, value time.Time, index string) error {
return md.queueValue(key, value.UnixNano(), index)
}
func (md *cacheMetadata) getTime(key string) time.Time {
v := md.si.Get(key)
if v == nil {
return time.Time{}
}
var tm int64
if err := v.Unmarshal(&tm); err != nil {
return time.Time{}
}
return time.Unix(tm/1e9, tm%1e9)
}
func (md *cacheMetadata) getBool(key string) bool {
v := md.si.Get(key)
if v == nil {
return false
}
var b bool
if err := v.Unmarshal(&b); err != nil {
return false
}
return b
}
func (md *cacheMetadata) getInt64(key string) (int64, bool) {
v := md.si.Get(key)
if v == nil {
return 0, false
}
var i int64
if err := v.Unmarshal(&i); err != nil {
return 0, false
}
return i, true
}
func (md *cacheMetadata) appendStringSlice(key string, values ...string) error {
return md.si.GetAndSetValue(key, func(v *metadata.Value) (*metadata.Value, error) {
var slice []string
if v != nil {
if err := v.Unmarshal(&slice); err != nil {
return nil, err
}
}
idx := make(map[string]struct{}, len(values))
for _, v := range values {
idx[v] = struct{}{}
}
for _, existing := range slice {
if _, ok := idx[existing]; ok {
delete(idx, existing)
}
}
if len(idx) == 0 {
return nil, metadata.ErrSkipSetValue
}
for value := range idx {
slice = append(slice, value)
}
v, err := metadata.NewValue(slice)
if err != nil {
return nil, err
}
return v, nil
})
}
func (md *cacheMetadata) getStringSlice(key string) []string {
v := md.si.Get(key)
if v == nil {
return nil
}
var s []string
if err := v.Unmarshal(&s); err != nil {
return nil
}
return s
}