frostfs-s3-gw/api/layer/util.go

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package layer
import (
"context"
"encoding/hex"
"fmt"
"os"
"strconv"
"strings"
"time"
"github.com/nspcc-dev/neofs-s3-gw/api"
"github.com/nspcc-dev/neofs-s3-gw/api/data"
"github.com/nspcc-dev/neofs-s3-gw/creds/accessbox"
"github.com/nspcc-dev/neofs-sdk-go/object"
)
type (
// ListObjectsInfo contains common fields of data for ListObjectsV1 and ListObjectsV2.
ListObjectsInfo struct {
Prefixes []string
Objects []*data.ObjectInfo
IsTruncated bool
}
// ListObjectsInfoV1 holds data which ListObjectsV1 returns.
ListObjectsInfoV1 struct {
ListObjectsInfo
NextMarker string
}
// ListObjectsInfoV2 holds data which ListObjectsV2 returns.
ListObjectsInfoV2 struct {
ListObjectsInfo
NextContinuationToken string
}
// ObjectVersionInfo stores info about objects versions.
ObjectVersionInfo struct {
Object *data.ObjectInfo
IsLatest bool
IsUnversioned bool
}
// ListObjectVersionsInfo stores info and list of objects versions.
ListObjectVersionsInfo struct {
CommonPrefixes []string
IsTruncated bool
KeyMarker string
NextKeyMarker string
NextVersionIDMarker string
Version []*ObjectVersionInfo
DeleteMarker []*ObjectVersionInfo
VersionIDMarker string
}
)
// PathSeparator is a path components separator string.
const PathSeparator = string(os.PathSeparator)
func userHeaders(attrs []object.Attribute) map[string]string {
result := make(map[string]string, len(attrs))
for _, attr := range attrs {
result[attr.Key()] = attr.Value()
}
return result
}
func objInfoFromMeta(bkt *data.BucketInfo, meta *object.Object) *data.ObjectInfo {
return objectInfoFromMeta(bkt, meta, "", "")
}
func objectInfoFromMeta(bkt *data.BucketInfo, meta *object.Object, prefix, delimiter string) *data.ObjectInfo {
var (
isDir bool
size int64
mimeType string
creation time.Time
filename = filenameFromObject(meta)
)
if !strings.HasPrefix(filename, prefix) {
return nil
}
userHeaders := userHeaders(meta.Attributes())
delete(userHeaders, object.AttributeFileName)
if contentType, ok := userHeaders[object.AttributeContentType]; ok {
mimeType = contentType
delete(userHeaders, object.AttributeContentType)
}
if val, ok := userHeaders[object.AttributeTimestamp]; !ok {
// ignore empty value
} else if dt, err := strconv.ParseInt(val, 10, 64); err == nil {
creation = time.Unix(dt, 0)
delete(userHeaders, object.AttributeTimestamp)
}
if len(delimiter) > 0 {
tail := strings.TrimPrefix(filename, prefix)
index := strings.Index(tail, delimiter)
if index >= 0 {
isDir = true
mimeType = ""
filename = prefix + tail[:index+1]
userHeaders = nil
} else {
size = int64(meta.PayloadSize())
}
} else {
size = int64(meta.PayloadSize())
}
objID, _ := meta.ID()
payloadChecksum, _ := meta.PayloadChecksum()
return &data.ObjectInfo{
ID: objID,
CID: bkt.CID,
IsDir: isDir,
Bucket: bkt.Name,
Name: filename,
Created: creation,
CreationEpoch: meta.CreationEpoch(),
ContentType: mimeType,
Headers: userHeaders,
Owner: *meta.OwnerID(),
Size: size,
HashSum: hex.EncodeToString(payloadChecksum.Value()),
}
}
func filenameFromObject(o *object.Object) string {
for _, attr := range o.Attributes() {
if attr.Key() == object.AttributeFileName {
return attr.Value()
}
}
objID, _ := o.ID()
return objID.EncodeToString()
}
// NameFromString splits name into a base file name and a directory path.
func NameFromString(name string) (string, string) {
ind := strings.LastIndex(name, PathSeparator)
return name[ind+1:], name[:ind+1]
}
// GetBoxData extracts accessbox.Box from context.
func GetBoxData(ctx context.Context) (*accessbox.Box, error) {
var boxData *accessbox.Box
data, ok := ctx.Value(api.BoxData).(*accessbox.Box)
if !ok || data == nil {
return nil, fmt.Errorf("couldn't get box data from context")
}
boxData = data
if boxData.Gate == nil {
boxData.Gate = &accessbox.GateData{}
}
return boxData, nil
}